CN110965857A - Lock body component device - Google Patents

Abstract

The invention relates to a lock body component device, comprising: a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component; the toggle piece drives the lock tongue to be in a locked state and an unlocked state; the lock shell device is characterized in that a door frame at the assembling position of the lock shell comprises a door leaf and a door frame, a key port groove is formed in the end part of the lock shell, and a mechanical part and/or an electrical part of the lock are/is placed in the lock shell; the lock catch box is used for receiving the locking state of the bolt and/or the lock bolt, and the lock catch box assembly position door cheek comprises a door leaf and a door frame. The assembly position of the lock body part has the shock resistance and the anti-disassembly, and the lock body part can have normative behaviors so that the door is closed when going out, and the active defense capability is improved.

Description

Lock body component device

Technical Field

The present invention relates to lock body components, and more particularly, to door leaves and door frames of doorjambs where lock body components are assembled.

Background

At present, the chinese patent application, prior document 1 (2019109079365): moving the lock cylinder part and the key; prior document 2 (2019108860259): a tumbler cylinder assembly and key, the entire contents of which are expressly incorporated herein by reference.

Fig. 36 and 38 show the moving cylinder part, and fig. 37 and 39 show the toggle cylinder part. However, the lock cylinders are patented and have no embodiment in the market, and what is needed now is that the lock cylinders can be implemented in a new market to solve the problem that the safety reliability of the existing homogeneous lock body rotating lock cylinder is reduced, and the conventional lock body part can only be installed on the door leaf.

Disclosure of Invention

The present invention is made to solve the above problems, and an object of the present invention is to provide a movable core component of a flat lock cylinder and a poking lock cylinder component, which provide a more reliable security lock for consumers, especially a new type of door leaf or door frame of a door jamb where lock components are assembled.

In one example of the present disclosure, a lock body component is disclosed, comprising: a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component; the deadbolt assembly is driven by the toggle piece to comprise a locking state and an unlocking state of a dead bolt and/or a dead bolt; lock housing means, said lock housing assembly location doorjamb comprising a dynamic zone and/or a static zone opposite the dynamic zone, wherein said lock housing end is provided with a key interface slot, and wherein a mechanical portion and/or an electrical portion of the lock is disposed within said lock housing; a keeper for receiving the locking condition of the bolt, wherein the keeper in the assembled position includes a dynamic zone and/or a static zone opposite the dynamic zone.

In another example of the present disclosure, it is disclosed that the dynamic zone of the jamb of the lock body component assembly position includes the door leaf, and the keeper assembly position dynamic zone is opposite the static zone door frame; the static area opposite to the dynamic area of the door cheek at the assembling position of the lock body part comprises the door frame and the door leaf at the assembling position of the lock catch box; wherein the lock body component assembly position dynamic zone door leaf chamber interior side comprises the building door leaf or the cabinet door leaf; wherein the lock body component assembly position dynamic region opposing static region door frame chamber interior sides comprise the building door frame or cabinet door frame.

In another example of the present disclosure, it is disclosed that the deadbolt can be opened by a key outside the door, and the deadbolt is opened by a handle, key or button inside the door, wherein the toggle further comprises a lock cylinder and/or a toggle rod; the toggle member has a shaft portion, is connected to a key cylinder member disposed in the lock case, and operates the latch to move by a latch of the key cylinder.

In another example of the disclosure, stoppers on two sides of the tongue plate are disclosed, the stopper on a first side is used for operating the tongue plate by a key outside a door leaf or a door frame, and the stopper on a second side opposite to the first side is used for operating the tongue plate by a handle, a key or a button inside the door leaf or the door frame; the side surface of the lock tongue plate is provided with a key groove and corresponds to the open slot of the lock shell; and the lock tongue plate further comprises a dead tongue and an oblique tongue.

In another example of the disclosure, it is disclosed that the door leaf or the door frame is provided with a key interface, and the lock housing covers the movable lock core part and/or the toggle lock core part, the end of the lock housing is provided with a key interface of a key insertion type, and the shape of the key interface slot is adapted to the moving direction or the toggle direction of the key ruler plate, wherein the movable lock core part operates the lock tongue component on the lock core sliding plate in a pushing or pulling manner in the key decryption coding process; the lock cylinder shifting component operates a lock tongue component on the lock cylinder sliding plate in a shifting or swinging mode in the key decryption coding process; and the door leaf or the door frame is provided with an interface slot with the size larger than that of the key ruler plate.

In another example of the present disclosure, it is disclosed that the lock body component arrangement further comprises the active wiring port; the intelligent module of the electric appliance part further comprises a lock body part device which is used for identifying and processing human body biological characteristic information, electronic information and network communication information in an electronic mode and controlling the opening and closing operation of a mechanical mechanism; the electric appliance part is supplied with power or a control information source through a power line through an active wiring port; moreover, a key slot is arranged on the lock tongue and is matched with the intelligent module control mechanical mechanism; and the active wiring port is provided with the lock shell or the lock catch box.

In another example of the present disclosure, a lock body component assembly is disclosed, the keeper further comprising the deadbolt assembly, with the keeper assembly positioned on the door leaf, with the deadbolt being actuated by the lock cylinder component lock plunger of the door frame to a locked state and an unlocked state; wherein, the lock tongue in the lock catch box comprises the guide rod, the spring and the guide pillar; a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component; wherein the assembly position of the movable lock core part and/or the toggle lock core part is a static area opposite to the dynamic area, and the door frame is provided with the key interface slot corresponding to the key interface slot of the lock core part.

Various other aspects will be set forth in the description that follows. These aspects may relate to individual features and combinations of features. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the broad inventive concepts upon which the embodiments disclosed herein are based.

Advantageous effects

According to the invention, in one aspect, during setting, the assembly position of the lock body part can be switched by a key through the door leaf arranged on the door frame and the bolt assembly of the door frame, and then pulled and pushed by the handle of the door leaf, so that the novel mechanical lock body part can have a standard behavior of closing the door when the door leaves go out, and the active defense capability is improved, thereby exerting the cooperative formation of each link of civil defense, technical defense and physical defense, and the illegal burglary prevention behavior can be controlled in advance, and the key and the accidental door closing can be prevented in advance, so that the loss of responsibility cost is reduced, thereby not only preventing the misoperation of the door lock, but also safely and correctly realizing the unlocking of the door lock, and expecting to control the source of the civil defense, the risk of the technical defense and the safety of the physical defense guarantee capability. In another aspect, the existing door leaf intelligent door lock assembly with the homogeneous lock cylinder round body generally uses a storage battery mode, the door frame lock body component device further comprises an active wiring port, a lock body or a lock catch box is arranged, the trend of the Internet of things is great, the novel intelligent door lock realizes electric element guarantee electric energy supply and Internet of things control information source link, the novel intelligent door lock application terminal upgrades the Internet of things function of the intelligent door lock by upgrading the Internet of things + in the way of 'Internet of things', so that the intelligent door lock with simple structure, reliable control, shock resistance, unloading resistance and cost saving provides a safe solution, and therefore the basic safety performance requirement of the intelligent door lock can be improved, and the convenience requirement of a user can be provided.

Drawings

The invention will be described below with reference to the accompanying drawings, given only as a non-limiting example, in which:

figure 1 is a cross-sectional view of a lock body member arrangement in a locked position according to one embodiment of a door leaf of the present disclosure.

Figure 2 is a cross-sectional view of the lock body component assembly of figure 1 in an unlocked position.

Figure 3 is a cross-sectional view of the lock body component assembly of figure 1 in an unlocked position.

Figure 4 is a schematic view of a lock body component assembly position of one embodiment of a door leaf according to the present disclosure.

Fig. 5 is a cross-sectional view of the deadbolt of fig. 10 mated in accordance with one embodiment of the present disclosure.

Fig. 6 is another perspective view of the deadbolt of fig. 17 fitted with one embodiment of the present disclosure.

Fig. 7 is a cross-sectional view of fig. 6.

Fig. 8 is a perspective view of the deadbolt of fig. 1 fitted with one embodiment of the present disclosure.

Fig. 9 is a side view of fig. 8.

Figure 10 is a cross-sectional view of the lock body member arrangement in a locked position according to one embodiment of a door leaf of the present disclosure.

Figure 11 is a cross-sectional view of a lock body component arrangement in an unlocked position according to one embodiment of a door leaf of the present disclosure.

Figure 12 is a cross-sectional view of a lock body component arrangement in an unlocked position according to one embodiment of a door leaf of the present disclosure.

Figure 13 is a schematic view of a lock body component arrangement in an unlocked position according to one embodiment of a door leaf of the present disclosure.

Figure 14 is a schematic view of a lock body member arrangement in a locked position according to one embodiment of a door leaf of the present disclosure.

Fig. 15 is a side view of fig. 14.

Fig. 16 is another side view of fig. 15.

Figure 17 is a schematic view of a lock body component assembly in an unlocked position according to one embodiment of a door frame of the present disclosure.

Fig. 18 is a perspective view of a deadbolt mated with an embodiment of the present disclosure.

Fig. 19 is a sectional view of fig. 18.

Figure 20 is a schematic view of a lock body member arrangement in a locked position according to one embodiment of a room door frame of the present disclosure.

Fig. 21 is a partial side view taken from a-a of fig. 20.

Fig. 22 is another side view taken partially from a-a of fig. 20.

Figure 23 is a schematic view of a lock body component arrangement in a locked position according to one embodiment of a cabinet door leaf according to the present disclosure.

Figure 24 is a schematic view of a lock body component arrangement in a locked position according to one embodiment of a cabinet door frame of the present disclosure.

Fig. 25 is a left side view of fig. 24.

Fig. 26 is a partial cross-sectional view of fig. 24.

Fig. 27 is a sectional view taken along line B-B of fig. 23.

Fig. 28 is another cross-sectional view of fig. 23.

Fig. 29 is an enlarged view of a cross-sectional view taken along line D-D of fig. 25, and the bolt housing is provided with one structure of the locking bolt.

Fig. 30 is an enlarged view of the cross-sectional view taken along line C-C of fig. 24, and the strike housing is provided with a strike.

Figure 31 is a schematic view of figure 30 showing a lock body component arrangement in an unlocked position according to one embodiment of the cabinet door frame of the present disclosure.

Figure 32 is a schematic view of a lock body component arrangement in a locked position according to one embodiment of a cabinet door frame of the present disclosure.

Fig. 33 is a right side view of fig. 32.

Figure 34 is a cross-sectional view taken along line E-E of figure 33 (the lock body component assembly of one embodiment of the cabinet door frame in an unlocked position).

Figure 35 is a schematic view of a lock body component arrangement in a locked position according to one embodiment of a cabinet door frame of the present disclosure.

The prior art figures are shown below:

FIG. 36 is a cross-sectional view (side drive) of the moving core piece.

Fig. 37 is a cross-sectional view of a toggle latch component (gear mechanism).

FIG. 38 is a cross-sectional view (end drive) of the moving core piece.

Figure 39 is a cross-sectional view of a poke-through plug assembly (cam mechanism).

Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate embodiments of the invention, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.

Reference numerals

1. An inner handle; 2. an outer handle; 3. a safety button; 4. a button; 5. a key; 6. an active wiring port; 10. a door jamb; 11. a room door leaf; 12. a door frame; 13. a cabinet door leaf; 14. a cabinet door frame; 15. a door leaf interface slot; 16. a door frame interface slot; 17. a hinge; 18. a door frame aperture; 20. a lock housing; 21 a guide roller; 22. a guide rod support; 23. a lock case fixing hole; 24. a lock cylinder support; 25. a poke rod; 26. positioning the shaft; 27. an open slot; 30. a latch bolt assembly; 31. a block a; 32. a block b; 33. a keyway; 34. positioning holes; 35. a guide bar; 36. a guide rod spring; 37. a gasket; 38. a sliding groove; 40. a lock box; 41. a fixing plate; 42. a guide pillar; 43. a latch guide; 44. a latch shoulder; 50. moving the lock cylinder box; 51. a key holder slot; 52. a support plate; 53. a sliding plate; 54. a lock bolt; 55. a guide groove; 56. a spring; 60. poking the lock core box; 61. a key holder slot; 62. a support plate; 63. a sliding plate; 64. a lock bolt; 65. a spring; 66. a gear; 67. a rack; 68. a cam.

Detailed Description

Additional advantages, objects, and features of the disclosure will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the embodiments. The objectives and other advantages of the disclosure will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. For purposes of clarity, components or structures that are well known to those of skill in the art are not specifically described herein. This disclosure may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and will fully convey the scope of the disclosure to those skilled in the art. In the drawings, the sectional views of the door leaf and the door frame are simplified for clarity, and the sizes and relative sizes of layers and sections may be exaggerated. In the embodiment, the lock shell and the lock catch box are suitable for a door leaf and a door frame of a cabinet, and in the same embodiment, the lock shell and the lock catch box are suitable for the door leaf and the door frame of the cabinet. The same reference numbers in the drawings identify the same or similar elements. In some examples, the lock body component is configured to set the lock cylinder according to: chinese patent application, prior document 1: moving the lock cylinder part; prior document 2: a toggle cylinder assembly, the entire contents of which are expressly incorporated herein by reference.

Notably, the end of the lock cylinder is defined as follows: the "key insertion" or "proximal" end of the lock cylinder is the end facing the user for inserting the key into the key recess; the "distal" end is opposite the "proximal" end and refers to the end not facing the user, and the proximal and distal ends of the key correspond to the proximal and distal ends of the lock cylinder when the key is fully inserted into the lock cylinder. The cutting target of the key ruler plate refers to key teeth. The outer periphery of the lock cylinder case is connected to the lock body or the device, and the support plate of the lock cylinder is fixedly connected to the lock cylinder case, wherein the term "connection" includes general means (not shown) such as bolt connection, rivet connection, welding, plug connection, pin connection and the like. The door cheek includes a door leaf and a door frame, where a dynamic region of the door cheek is the door leaf and a static region of the door cheek is the door frame. The term "fixed point" as used herein refers to a set of points in a plane that are located at a fixed distance from a fixed point, and is called a circle, and the fixed point is the center of the circle. The strike box herein prevents the bolt or bolt from being actuated by an axially external force to exit a predetermined position. The lock body part device is suitable for left-hand opening and right-hand opening inside the door leaf and also suitable for left-hand opening and right-hand opening outside the door leaf.

Figure 1 shows a cross-sectional view of one embodiment of a door leaf with the lock body member arrangement in a locked position. Fig. 1 shows a door leaf and a door frame of a door cheek 10. The inner surface of the door leaf chamber is provided with a lock shell 20, and a lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf through a bolt or a screw. The bolt assembly 30 is arranged in the lock shell 20, a stop a 31 is arranged on the bolt plate, a guide rod 35 is arranged on the bolt plate, a spring 36 and a gasket 37 are arranged in the guide rod 35, and the guide rod 35 is movably connected with the guide roller 21 and the guide support post 22 on the lock shell 20. A toggle lock cylinder box 60 is arranged in the lock shell 20, and the toggle lock cylinder box 60 is fixedly connected with a lock cylinder support 24 on the lock shell 20. Lock housing 20 is shown with locking bolt 30 positioned within a lock catch box 40 on the doorframe.

Figure 2 shows a cross-sectional view of the lock body component assembly of figure 1 in an unlocked position. Fig. 2 shows the door leaf and the door frame of the door jamb 10. The inner surface of the door leaf chamber is provided with a lock shell 20, and a lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf through a bolt or a screw. The bolt assembly 30 is arranged inside the lock housing 20, a stopper a 31 is arranged on the bolt plate, and a guide rod 35 is also arranged on the bolt plate, wherein a spring 36 and a gasket 37 are arranged, and the bolt assembly is movably connected with the guide roller 21 and the guide support post 22 on the lock housing 20. A toggle lock cylinder box 60 is arranged in the lock shell 20, and the toggle lock cylinder box 60 is fixedly connected with a lock cylinder support 24 on the lock shell 20. The door outer boundary key is inserted into the interface slot 61 for striking the lock cylinder box 60 (the key is moved as shown by an arrow), and the lock tongue 30 arranged inside the lock housing 20 in the figure receives the key to move to strike the lock bolt 64 of the lock cylinder box 60 (as shown by the arrow) and push the stopper a 31 to exit from the door frame inner boundary lock box 40 to be in an unlocked state. Whereby the door leaf pushes and pulls the door inward.

Figures 3 and 4 show cross-sectional views of the lock body component assembly of figure 1 in an unlocked position. Fig. 3 and 4 show the door leaf 11 and door frame 12 of the doorjamb 10, and show the lock housing 20 with the removable lock cylinder magazine 50 and the toggle lock cylinder magazine 60. The lock shell 20 is arranged at the inner interface of the chamber of the door leaf 11, and the lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf 11 through a bolt or a screw. Referring to fig. 8 and 9, a latch bolt assembly 30 is disposed inside the lock case 20, a stopper b32 and a guide rod 35 are disposed on the latch bolt, a spring 36 and a washer 37 are disposed therein, and are movably coupled to the guide roller 21 and the guide post 22 of the lock case 20. A movable lock cylinder box 50 is arranged inside the lock shell 20, and the movable lock cylinder box 50 is fixedly connected with a lock cylinder support 24 on the lock shell 20. The interface key 5 in the chamber of the door leaf 11 is inserted into the interface slot 51 of the movable lock cylinder box 50 (the key is moved as shown by the arrow), in the figure, the lock tongue 30 is arranged in the lock housing 20 and receives the lock bolt 54 (as shown by the arrow) moving the movable lock cylinder box 50 moved by the key 5 to move the stopper b32, so that the lock tongue 30 exits from the interface lock box 40 in the chamber of the door frame 12 and is in the unlocked state, and the lock box 40 is fixedly connected with the door frame 12 by the fixing plate 41. Whereby the door leaf 11 is pushed and pulled inwards to open the door as indicated by the arrows in the figure.

Fig. 5 shows a cross-sectional view of the adapted deadbolt of the fig. 10 embodiment. Fig. 5 shows the latch bolt assembly 30 with the positioning hole 34 and the safety button 3, the stop a 31, the button 4 and the guide rod 35.

Fig. 6 shows another perspective view of the adapted locking bolt of the embodiment of fig. 17. Fig. 6 shows the latch bolt assembly 30 with the positioning hole 34 and the safety button 3, the first side stop a 31, the key groove 33 and the guide rod 35.

Fig. 7 shows a cross-sectional view of fig. 6. Fig. 7 shows the latch bolt assembly 30 with the positioning hole 34 and the safety button 3, the first side stop a 31, the second side stop b32, the key groove 33 and the guide rod 35.

Fig. 8 shows a perspective view of the adapted deadbolt of the fig. 1 embodiment. Fig. 8 shows the latch bolt assembly 30 provided with a first side stop a 31 and a guide rod 35.

Fig. 9 shows a side view of fig. 8. Fig. 8 shows the latch bolt assembly 30 with a first side stop a 31, a second side stop b32 and a guide rod 35.

Figure 10 shows a cross-sectional view of the lock body member arrangement in a locked position for one embodiment of a door leaf. Fig. 10 shows the door leaf and door frame of the door jamb 10. The inner surface of the door leaf chamber is provided with a lock shell 20, and a lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf through a bolt or a screw. The lock shell 20 is provided with a bolt assembly 30 inside, a stop a 31, a button 4 and a guide rod 35, wherein a spring 36 and a gasket 37 are arranged on the bolt, the spring is movably connected with a guide roller 21 and a guide support post 22 on the lock shell 20, and the lock shell 20 is provided with an open slot 27. A toggle lock cylinder box 60 is arranged in the lock shell 20, and the toggle lock cylinder box 60 is fixedly connected with a lock cylinder support 24 on the lock shell 20. The lock housing 20 is provided with a tap lever 25 and a positioning shaft 26. Lock housing 20 is shown with locking bolt 30 positioned within a lock catch box 40 on the doorframe.

Figure 11 shows a cross-sectional view of the lock body component assembly of one embodiment of a door leaf in an unlocked position. Fig. 11 shows the door leaf and door frame of the door jamb 10, see fig. 5. The inner surface of the door leaf chamber is provided with a lock shell 20, and a lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf through a bolt or a screw. The lock shell 20 is provided with a bolt assembly 30 inside, a stop a 31, a stop b32, a button 4 and a guide rod 35, wherein a spring 36 and a gasket 37 are arranged on the bolt, and the bolt is movably connected with the guide roller 21 and the guide support post 22 on the lock shell 20. A toggle lock cylinder box 60 is arranged in the lock shell 20, and the toggle lock cylinder box 60 is fixedly connected with a lock cylinder support 24 on the lock shell 20. Pushing the button 4 or the inner handle 1 by hand actuates the latch tongue 30 to be disengaged from the keeper 40, and the button 4 or the inner handle 1 is moved in the open groove 27 of the lock case 20, and fig. 11 shows the latch tongue 30 disposed inside the lock case 20 in an unlocked state of being withdrawn from the keeper 40 on the doorframe.

Figure 12 shows a cross-sectional view of the lock body component assembly of one embodiment of a door leaf in an unlocked position. Fig. 12 shows the door leaf and the door frame of the door jamb 10. The inner surface of the door leaf chamber is provided with a lock shell 20, and a lock shell fixing hole 23 of the lock shell 20 is fixedly connected with the door leaf through a bolt or a screw. The lock case 20 is provided with a latch bolt assembly 30 inside, a first side stop a 31, a second side stop b32, a button 4, and a guide rod 35, wherein a spring 36 and a washer 37 are disposed, and are movably connected with the guide roller 21 and the guide post 22 of the lock case 20. A toggle lock cylinder box 60 is arranged in the lock shell 20, and the toggle lock cylinder box 60 is fixedly connected with a lock cylinder support 24 on the lock shell 20. The door outer boundary key 5 is inserted into the interface slot 61 for dialing the lock cylinder box 60 (the key is dialed as shown by an arrow), the dialing rod 25 and the positioning shaft 26 are arranged inside the lock housing 20, in fig. 12, the lock tongue 30 is arranged inside the lock housing 20 and receives the key 5 to dial the lock bolt 64 (as shown by the arrow) of the lock cylinder box 60 to push the dialing rod 25 (as shown by the arrow), the dialing rod 25 rotates around the positioning shaft 26 to push the stopper a 31 (as shown by the arrow), and the lock tongue 30 is withdrawn from the door frame inner boundary lock box 40 to be in the unlocked state (as shown by the arrow).

Figure 13 shows a schematic view of the lock body component arrangement in an unlocked position for one embodiment of a door leaf. Fig. 13 is a plan view of fig. 12, fig. 13 shows the door leaf 11 provided with a key slot 61 for striking the lock cylinder box 60, the lock housing 20 is fixedly connected to the inner interface of the door leaf 11 chamber, and the lock housing 20 is provided with the safety button 3 and the button 4. The keeper 40 is positioned at the inner interface of the doorframe 12 and the mounting plate 41 of the keeper 40 is fixedly attached to the doorframe 12. Pushing the button 4 by hand moves the locking tongue 30 in the opening slot 27 of the lock housing 20 to disengage the strike box 40 (as shown by the arrow), and in fig. 13 the lock housing 20 is configured to allow the locking tongue 30 to move out of the doorframe 12 and lock the strike box 40 in the unlocked state. Whereby the door leaf 11 pushes and pulls the door inward.

Figure 14 shows a schematic view of the lock body member arrangement in a locked position for one embodiment of a door leaf. Fig. 14 shows the room door leaf 11 and the room door frame 12 of the door cheek 10. Fig. 14 shows two toggle lock magazines 60 of the door leaf 11 with the lock housing 20, the lock housing 20 being fixedly connected to the inner chamber interface of the door leaf 11, the lock housing 20 being provided with the safety button 3. The interface sets up in 11 cavity of room door leaf and lies in vertical position in handle 1, and 11 outer interfaces in room door leaf set up outer handle 2 and be in horizontal position to the push-and-pull operation of interior handle 1 and outer handle 2 does not control the activity of spring bolt 30, prevents that the illegal action from removing spring bolt 30 latched position through outer handle 2. The inner surface of the chamber of the door frame 12 is provided with a lock catch box 40, and a fixing plate 41 of the lock catch box 40 is fixedly connected with the door frame 12. The safety button 3 is pushed by hand to stop the lock tongue 30 from remaining in the positioning hole 34 in the lock housing 20 (as shown by the arrow direction), and the lock tongue 30 is set in a locked state in the lock box 40 on the doorframe in the lock housing 20 in fig. 14. Therefore, the door can not be opened by using a compliance key when the lock cylinder part 60 is pulled in and out of the door leaf. If the safety button 3 is in the non-safety state, the lock cylinder part 60 is shifted inside and outside the door leaf, and the door can be opened by using a compliance key.

Fig. 15 is a partial view of the side view of fig. 14. Fig. 15 shows a door frame 12, with an outer handle 2 fixedly connected to the door leaf 11 and limiting the pivoting movement, striking the key interface 61 of the lock cylinder box 60. Fig. 15 shows that the lock cylinder is adapted to the wood material or metal panel material of the door leaf 11, and the exterior interface of the door leaf 11 exposes the toggle lock cylinder box 60 and the key slot 61. The key access slot 61 is located close to the outer handle 2, and does not affect normal unlocking with the key 5, but generally prevents the tool from tending to unlock.

Fig. 16 is a further side view of fig. 15, which differs from the quarter-round case (body handle) 2 in that it blends in with the installed door leaf or door frame, changing the shape of the handle 2 of fig. 14 to an inconsistent shape. The two lock cylinders are matched with the metal panel material of the door leaf 11, the door leaf 11 is provided with a door leaf interface slot 15, and a key interface 61 for stirring the lock cylinder box 60 is abutted against the door leaf interface slot 15 and corresponds to the lock cylinder box. The key 5 is inserted into the opening slot 15 in the 'huge' shape of the house door leaf 11, and the door leaf opening slot 15 is positioned near the position section of the outer handle 2, so that the normal unlocking by the key 5 is not influenced, and the tool is generally prevented from being inclined to unlock. The key 5 is inserted into an interface slot 15 in the "huge" shape of the room door leaf 11, which has a concealing property. Additionally, the lock body component device of the invention can omit the installation of the existing door lock panel and the damage to the door leaf body panel.

Figure 17 shows a schematic view of a lock body component arrangement in an unlocked position for one embodiment of a door frame. Fig. 17 shows the door leaf 11 and the door frame 12 of the door jamb 10. Fig. 17 shows a door frame 12 with a lock housing 20, the lock housing 20 being fixedly attached to the inner surface of the door frame 12 cavity, the lock housing 20 being provided with an active port 6, a toggle lock cylinder box 60 and a removable lock cylinder box 50. The inner interface of the chamber of the door leaf 11 is provided with a lock catch box 40, and a fixing plate 41 of the lock catch box 40 is fixedly connected with the door leaf 11. Moving the lock cylinder pocket 50 manually pushes the key 5 to actuate the deadbolt 30 to exit the strike housing 40 (as shown by the arrow), with the doorframe lock housing 20 in the unlocked state in fig. 17. Lock cylinder box 60 can also be toggled to actuate deadbolt 30 to exit keeper 40 (shown by arrow) with hand-shift key 5, and door frame lock housing 20 is unlocked in fig. 17. The lock shell 20 can be used for arranging an active wiring port 6, and the intelligent module of the electric appliance part arranged in the lock shell 20 further comprises a lock body part device which is used for identifying and processing human body biological characteristic information, electronic information and network communication information in an electronic mode and controlling the opening and closing operation of a mechanical mechanism (not shown); the electric appliance part supplies power or control information source through the active wiring port by a power line; in addition, with reference to fig. 6 and 7, a key slot 33 is formed on the latch tongue to match with the intelligent module control mechanical mechanism, the latch tongue 30 is actuated by the mechanism of the electrical appliance part to withdraw from the keeper 40, and the door frame lock housing 20 is in an unlocked state in fig. 14. Whereby the door leaf pushes and pulls the door inward (as shown by the arrow).

Continuing, the door leaf or the door frame is provided with an interface slot further comprising a card identification type, an RF (radio frequency) type or an infrared type; and, the lock casing open slot and door leaf or door frame set up the interface slot and include the card type, RF type or infrared ray type are corresponding.

The additional map 17 shows that the lock case 20 is installed on the door frame 12, the opening and closing operation (not shown) of the control mechanism of the electric appliance part arranged in the lock case 20 is performed, and the intelligent module accessory further comprises a lock body part device which can electronically identify and process human body biological characteristic information (fingerprints, human faces, finger veins and the like), electronic information and network communication information which can be arranged on the wall body door frame outside the lock case 20 or on the periphery of the door frame of the cabinet; the electric appliance part supplies power and control information source through the active wiring port 6 by the power line; in addition, referring to fig. 18 and 19, a key groove 33 is formed in the latch 30 to match with the intelligent module control mechanical mechanism, two side surfaces of the sliding groove 38 are entered by the lock bolts, and the key 5 is inserted into the lock cylinder to push each lock bolt to reciprocate in the sliding groove 38, so that the latch 30 is actuated to open or close the door 11. The lock shell 20 and the intelligent module accessories are arranged in a distributed mode, so that the vibration loosening resistance and the anti-disassembling capacity of the intelligent module accessories are facilitated, the service life of electrical components is prolonged, and the working reliability of the intelligent module is improved. Lock casing 20 sets up active wiring mouth 6 and realizes that electrical components guarantees the electric energy supply and thing networking control information source and link, saves the manufacturing cost of intelligent lock, and novel intelligent lock is the thing networking function that application terminal promoted the intelligent lock with "thing networking +", can improve the basic security performance index requirement of intelligent lock from this and provide user's convenience demand.

Fig. 20 shows a schematic diagram of a lock body component device in a locking position of an embodiment of a door frame of a room, fig. 20 shows a door leaf 11 and a door frame 12 of a door frame 10, fig. 20 shows that a toggle lock cylinder box 60 and a movable lock cylinder box 50 of the lock body 20 are arranged at an inner interface of a chamber of the door frame 12, a door frame interface slot 16 is arranged at a side surface of the door frame 12, the door frame 12 is provided with a door frame interface slot 16 corresponding to a key interface slot 51 of the movable lock cylinder box 50, a door frame interface slot 16 is arranged at a side surface of the door frame 12, an included angle α between a key blade 5 of the movable lock cylinder box 50 and the surface of the door leaf 11 is about 20 degrees or less, the lock body 20 is fixedly connected at the inner interface of the chamber of the door frame 12, the lock body 20 is provided with a safety button 3, the lock box 40 is arranged in the door leaf 11, a fixing plate 41 of the lock box 40 is fixedly connected with the door leaf 11.

Fig. 20 shows that the door frame 12 is provided with the toggle lock cylinder case 60 and the movable lock cylinder case 50 of the lock case 20, the door frame 12 is provided with the door frame interface slot 16, and the door frame 12 is provided with the door frame interface slot 16 corresponding to the key interface slot 51 of the movable lock cylinder case 50, the safety button 3 is in an unsecured state, the door frame 12 is provided with the door frame interface slot 16 and the key blade plate 5 of the movable lock cylinder case 50 are at an angle α of about 20 degrees or less from the surface of the door leaf 11, so that the key 5 can enter the door frame interface slot 16 and be inserted into the key interface slot 51 of the movable lock cylinder case 50 to move the lock core part 50 in the direction of the arrow, and the lock cylinder 40 is provided in the door leaf 11, the fixed plate 41 of the lock cylinder 40 is fixedly connected to the door leaf 11, the lock tongue 30 in the lock cylinder case 40 is pushed by the lock bolt 54 of the movable lock cylinder case 50 to exit the lock cylinder case 40 in the direction of the arrow, whereby the door leaf 11 can be opened, or the lock cylinder 5 is inserted into the key slot 61 of the toggle lock cylinder case 60, the lock cylinder case 30 in the lock cylinder case 40 is pushed by the lock cylinder case 64 of the lock cylinder case 60 to move the lock cylinder case 60 in the direction of the normal door panel, the door 5, the door frame 16, the door 5, the door lock cylinder case 16, the door 5 is inserted into the door frame 16, the door frame 16 is inserted.

Fig. 21 is a partial side view taken from a-a of fig. 20. Fig. 21 shows an assembled door frame 12 version of the lock housing 20 of fig. 20, door leaf 11, door frame 12 and door frame interface slot 16. It should be noted that the door frame interface slot 16 in this embodiment meets the key interface slot requirements of the moving lock cylinder box 50. The key 5 is inserted into an interface slot 16 in the "huge" shape of the door frame 12, the door frame interface slot 16 being located in the vicinity of the section corresponding to the height of the outer handle 2. The key 5 is inserted into an interface slot 16 in the "macro" shape of the door frame 12, which has concealment properties. Additionally, the anti-seismic and anti-disassembling device of the lock body part can further save the influence strength of the damaged door leaf body panel during the installation of the existing door lock panel, and the door lock panel is easy to disassemble.

Fig. 22 is another side view taken from a-a of fig. 20. Fig. 22 shows an alternative form of the assembled door frame 12 of the lock housing 20 of fig. 20, the door frame 12, the door leaf 11 and the leaf access slot 15. It should be noted that, in this solution, the assembly position of the lock housing 20 is properly adjusted, and the door access slot 15 meets the requirement of the key access slot of the movable lock cylinder box 50. The key 5 is inserted into the interface slot 15 in the 'huge' shape of the door leaf 11, and the door leaf interface slot 15 is located near the height position section of the outer handle 2, so that the normal unlocking by the key 5 is not influenced, and the tool is generally prevented from tending to unlock. The key 5 is inserted into an interface slot 15 in the "huge" shape of the room door leaf 11, which has a concealing property. Additionally, the lock body part device can omit the damage of the door leaf body panel on the existing door lock panel to influence the strength, and the door lock panel is easy to detach.

Figure 23 shows a schematic view of the lock body component arrangement of one embodiment of the bin door leaf 13 in a locked position. Fig. 23 shows a cabinet door frame 14, with a cabinet door leaf 13 provided with an outer handle 2 (horizontal position), with a door leaf slot 15 provided with a cabinet door leaf 13, and with a hinge 17 provided with a cabinet door leaf 13, in the vicinity of the outer handle 2 position interval. It should be noted that the illustrated bins include a safe, a cabinet, a truck bin, a tool box or similar enclosure, and the following is also applicable.

Figure 24 shows a schematic view of the lock body component arrangement in a locked position for one embodiment of the cabinet door frame 14. Fig. 24 shows the cabinet door frame 14 with the key 5 on the side and the cabinet door leaf 13 with the outer handle 2 and the hinge 17.

Fig. 25 is a left side view of fig. 22. Fig. 25 shows a cabinet door frame 14 and a cabinet door frame interface slot 16, with a key 5 inserted into the frame interface slot 16 and a cabinet door leaf 13 provided with an outer handle 2.

Fig. 26 is a partial cross-sectional view of fig. 24. Fig. 26 shows that a lock cylinder box 60 is arranged in a chamber of a cabinet door frame 14, a lock cylinder support 24 is fixedly connected with the cabinet door frame 14, a key 5 enters a door frame interface groove 16 and is inserted into a key interface groove 61 of the lock cylinder box 60, the key 5 is shifted in the direction of an arrow in the figure, a lock bolt 64 for shifting the lock cylinder box 60 exits a lock bolt box 40 arranged in a chamber of a cabinet door leaf 13 (in the direction of the arrow in the figure), and the lock bolt box 40 is fixedly connected to the cabinet door leaf 13 through a fixing plate 41, so that the cabinet door leaf can be opened.

Fig. 27 is a sectional view taken along line B-B of fig. 23. Fig. 27 shows that a chamber of cabinet door 13 is provided with a toggle lock cylinder magazine 60 fixedly connected to cabinet door 13 by a lock cylinder support 24, cabinet door 13 is connected to cabinet door frame 14 by a hinge 17, and a lock cylinder 64 of toggle lock cylinder magazine 60 is inserted into a latch box 40 provided in the chamber of cabinet door frame 14, whereby cabinet door 13 is closed.

Fig. 28 is another cross-sectional view of fig. 23. Fig. 28 shows that the vertical position of the outer handle 2 is different from the horizontal position of the outer handle 2 in fig. 23, whereby the door leaf slot 15 and the position of the catch box 40 on the cabinet frame 14 are adjusted accordingly.

Fig. 29 is a partial enlarged view of the sectional view D-D of fig. 25, and shows a structure in which a latch bolt case 40 is further provided with a latch bolt 30. Fig. 29 shows that the movable lock cylinder element 50 is fixed on the cabinet door frame 14 by the lock cylinder support 24 in the chamber of the cabinet door frame 14 of the door jamb 10, the key 5 enters the door frame interface slot 16 and inserts the movable lock cylinder pocket 50, the lock tongue box 40 is fixed on the cabinet door 13 by the fixing plate 41 (not shown) in the chamber of the cabinet door 13, the lock tongue box 40 is provided with the guide roller 21 and the guide rod support 22 to clamp the lock tongue 30, and the lock tongue 30 is provided with the guide rod 35, the spring 36 and the gasket 37. Fig. 29 shows the deadbolt in a locked state.

Fig. 30 is a partially enlarged view of the C-C sectional view of fig. 24, and shows a structure in which the locking bolt case 40 is provided with the locking bolt 30. Fig. 30 shows that a movable lock cylinder box 50 is arranged in a chamber of a cabinet door frame 14 of a door cheek 10 and fixedly connected to the cabinet door frame 14 through a lock cylinder support 24, a key 5 enters a door frame interface slot 16 and inserts into the movable lock cylinder box 50, a bolt box 40 is arranged in a chamber of a cabinet door 13 and fixedly connected to the cabinet door 13 through a fixing plate 41 (not shown), the bolt box 40 is provided with a guide roller 21 and a guide rod support 22 to clamp a bolt 30, and the bolt 30 is provided with a guide rod 35, a spring 36 and a gasket 37. Fig. 30 shows the deadbolt in a locked state. Fig. 30 shows that the locking tongue 30 is a dead tongue embodiment, and a cylindrical tongue shape can be selected as the square tongue shape.

Figure 31 is a schematic view of the lock body component arrangement of figure 24 showing another embodiment of the cabinet door frame in an unlocked position. Fig. 31 shows a movable lock cylinder pocket 50 disposed within a chamber of a cabinet door frame 14 and fixedly attached to the cabinet door frame 14 by a cylinder support 24, a key 5 entering a door frame interface slot 16 inserts the movable lock cylinder pocket 50 and displaces a plug 54 of the movable lock cylinder member 50 (in the direction of the arrow shown in fig. 38). The cabinet door 13 is provided with a latch box 40 in a cavity, the latch box 40 is fixedly connected to the cabinet door 13 by a fixing plate 41 (not shown), the latch box 40 is provided with a guide roller 21, a guide pillar 42 and a guide pillar 22 clamp the latch 30, the latch assembly 30 is provided with a guide rod 35, a spring 36 and a gasket 37, and the latch 30 is pushed by a latch 54 of a movable lock cylinder box 50 to be withdrawn from a locking state (shown in an arrow direction), so that the cabinet door 13 can be opened. Fig. 31 shows an embodiment in which the locking tongue 30 is shaped as a latch tongue.

Figure 32 shows a schematic view of another embodiment of a bin door frame with a lock body component arrangement in a locked position. Fig. 32 shows an embodiment in which the cabinet door leaf 13 is open upwards (as shown by the arrow), the cabinet door leaf 13 being provided with the outer handle 2, the cabinet door frame 14.

Fig. 33 is a right side view of fig. 32. Fig. 33 shows the cabinet door frame 14 provided with the frame interface slot 16 and the cabinet door leaf 13 provided with the outer handle 2.

Fig. 34 is a partial sectional view taken along line E-E of fig. 33. Fig. 34 shows the arrangement of lock components with the chamber of the cabinet door 13 having the strike 40 disposed therein, the chamber of the cabinet door 14 having the toggle magazine 60 disposed therein, the toggle magazine 60 fixedly attached to the cabinet door 14 by the plug support 24, the key 5 entering the cabinet door 14 having the door interface slot 16 disposed therein, and the insertion of the toggle magazine 60 to move the throw 64 back into the toggle magazine 60, and with reference to fig. 39 showing the direction of the arrow, with continued reference to the release of the compression energy of the latch guide 43 in the guide spring 36 in the strike 40 of fig. 35, the latch guide 43 exiting the cabinet door opening 18, whereby the embodiment of the cabinet door 13 is in the unlocked position. The cabinet door 13 can be opened.

Figure 35 shows a schematic view of a lock body component arrangement in a locked position for one embodiment of a cabinet door frame. Fig. 35 shows the lock box 40 disposed in the chamber of the cabinet door 13, the toggle lock box 60 disposed in the chamber of the cabinet door 14, the toggle lock box 60 fixedly attached to the cabinet door 14 by the lock cylinder support 24, the cabinet door 14 disposed with the door frame interface slot 16, the lock cylinder 64 toggling the lock box 60 disposed outside the toggle lock box 60, the lock cylinder 64 pushing the latch shoulder 44 (as shown by the arrow in fig. 35), the toggle lock box 60 shown in fig. 39 (the key 5 is in the inactive state), the latch guide 43 in the lock box 40 pushed by the lock cylinder 64 to extend into the cabinet door frame hole 18, whereby the lock assembly of the embodiment of the cabinet door 13 in the locked position, and the cabinet door 13 cannot be opened.

The following prior art figures:

FIG. 36 is a cross-sectional view of the moving core locking member. Fig. 36 shows an embodiment of the moving core piece 50, the moving cylinder box 50 is provided with a support plate 52, a slide plate 53, a tumbler 54 is provided on the slide plate 53, and the key 5 is inserted into the key slot 51 of the cylinder box 50 to push the slide plate 53 to actuate the tumbler 54 to slide in the guide slot 55.

Figure 37 is a cross-sectional view of a poke cylinder assembly. FIG. 37 shows one embodiment of a toggle cylinder assembly 60, a toggle cylinder box 60 having a support plate 62, a slide plate 63, a lock cylinder 64 disposed on slide plate 63, and a key 5 inserted into a key port slot 61 of cylinder box 60 and positioned at a fixed point O₁Toggle gear 66 actuates rack 67 and latch 64 to retract or extend.

FIG. 38 is a cross-sectional view of the moving core locking member. Fig. 38 shows another embodiment of the moving core piece 50, the moving cylinder box 50 is provided with a support plate 52, a slide plate 53, a tumbler 54 is provided on the slide plate 53, the tumbler 54 is provided with a spring 56, and the insertion of the key 5 into the key port slot 51 of the cylinder box 50 pushes the slide plate 53 to actuate the tumbler 54 to extend as shown by the arrow direction.

Figure 39 is a cross-sectional view of a poke cylinder assembly. FIG. 39 shows another embodiment of a toggle cylinder assembly 60, a toggle cylinder box 60 having a support plate 62, a slide plate 63, a lock cylinder 64 disposed on the slide plate 63, a key 5 inserted into a key port slot 61 of the cylinder box 60 and at a fixed point O₂Toggle cam 68 actuates latch 64 to retract or extend.

Certain aspects of the present disclosure may relate to:

in one example of the present disclosure, a lock body component arrangement is disclosed. The lock body component arrangement comprises: a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component; the bolt assembly drives the locking state and the unlocking state of the bolt by the toggle piece; lock housing means having a door jamb including a dynamic zone and/or a static zone opposite the dynamic zone in an assembled position of the lock housing, wherein the end of the lock housing is provided with a key access slot and wherein the mechanical and/or electrical parts of the lock are disposed within the lock housing; the keeper, which is intended to receive the bolt and/or the throw in the locked condition, includes a dynamic zone and/or a static zone opposite the dynamic zone in the assembled position of the keeper.

In another example of the disclosure, including any other example disclosed herein, the lock body component assembly position is a dynamic region of a door jamb, the door leaf, and the keeper assembly position is a static region door frame opposite the dynamic region. The lock body part is assembled on the static area door frame opposite to the dynamic area of the door jamb, and the lock catch box is assembled on the dynamic area door leaf. The inner side of the door chamber of the dynamic area of the assembly position of the lock body component comprises a door leaf or a cabinet door leaf, and the inner side of the door chamber of the static area opposite to the dynamic area of the assembly position of the lock body component comprises a door frame or a cabinet door frame.

In another example of the disclosure, including any other example disclosed herein, the lock housing end is provided with a key interface slot positioned outside the door leaf in the region of the outer handle; or the key interface slot is arranged outside the door frame and corresponds to the outer handle in height. The lock shell body end of the door jamb is provided with a key insertion interface slot, the key insertion interface slot is arranged at the outer side of the door leaf and/or the door frame and is arranged in an outer handle interval, and the outer handle interval range comprises a horizontal position to a vertical position. And the door leaf and/or the door frame are/is provided with an interface slot for inserting a key into the giant shape.

In another example of the disclosure, including any other example disclosed herein, the deadbolt may be unlocked by a key outside the door, and the deadbolt may be unlocked by a handle, key, or button inside the door. The poking piece comprises a lock bolt and/or a poking rod of the lock cylinder, and the poking piece is provided with a shaft part, is connected with a lock cylinder component arranged on the lock shell and operates the lock tongue to move through the lock bolt of the lock cylinder component.

In another example of the disclosure, including any other example disclosed herein, the stop on both sides of the strike, the stop on a first side for a key operated strike outside the door leaf or door frame, and the stop on an opposite second side for a handle, key or button operated strike inside the door leaf or door frame, wherein the strike panel is further provided with a keyway and corresponds to a lock housing open slot. The lock tongue plate further comprises a dead tongue and/or a dead tongue.

In another example of the disclosure, including any other example disclosed herein, the deadbolt panel provides a sliding slot for a key to operate a lock bolt actuating deadbolt that moves the cylinder part and/or dials the cylinder part.

In another example of the disclosure, including any other example disclosed herein, the inner and outer handles disposed on the door leaf are fixedly connected and limit the swing motion, the push and pull operation of the inner and outer handles does not control the movement of the latch, and the door leaf is operated to push or pull by the inner and outer handles, thereby preventing the illegal action from releasing the expected position of the latch through the handle.

In another example of the disclosure, including any other example disclosed herein, the door outer panel is disposed in a lock housing end key interface slot position and the lock housing end key interface portion and the door outer panel key interface slot abut one another and the door outer panel key interface slot and the lock cylinder key blade are received in the lock cylinder recess position in front-to-back correspondence.

In another example of the disclosure, including any other example disclosed herein, the door frame chamber interior interface is perpendicular to the door frame other side, the door frame other side is provided with a lock housing end key interface slot location, and the lock housing end key interface portion and the door frame other side key interface slot abut against each other, and the door frame other side key interface slot and the lock cylinder setting key blade plate are received in the lock cylinder recess location to remain in front of and behind correspondence with each other.

In another example of the disclosure, including any other example disclosed herein, the door leaf or the door frame is provided with a key interface, and an outer panel of the door leaf or the door frame covers the movable core part and/or the toggle core part, the end of the lock case body is provided with the key interface in a key insertion type, and the shape of the key interface groove is adapted to the moving direction or the toggle direction of the key blade. The movable lock core part operates the lock tongue component on the lock core sliding plate in a pushing or pulling mode in the key decryption coding process; the lock cylinder component is stirred to operate the lock tongue component on the lock cylinder sliding plate in a stirring or swinging mode in the key decryption coding process; and the door leaf or the door frame is provided with an interface slot with the size larger than that of the key ruler plate.

In another example of the disclosure, including any other example disclosed herein, the lock body component arrangement further comprises an active wire port; the intelligent module of the electric appliance part comprises a lock body part device which can identify and process human body biological characteristic information (fingerprints, human faces, finger veins and the like), electronic information and network communication information in an electronic mode and control the opening and closing operation of a mechanical mechanism; and the electrical part is supplied with power or control information source through the active wiring port by a power line. The lock tongue is provided with a key slot matched with the intelligent module control mechanical mechanism, and an active wiring port of the lock body component device is provided with a lock shell or a lock catch box.

In another example of the disclosure, including any other example disclosed herein, the door leaf or door frame setting interface slot further comprises a card identification type, an RF (radio frequency) type, or an infrared type, and the lock housing open slot corresponds to the door leaf or door frame setting interface slot comprising a card identification type, an RF type, or an infrared type.

In another example disclosed herein, a keepers is disclosed. The lock catch box further comprises a lock tongue assembly, wherein the lock tongue assembly is arranged on the door leaf at the assembly position of the lock catch box, and the lock tongue is actuated to be in a locking state and an unlocking state by a lock bolt of a lock cylinder part of the door frame; the lock tongue in the lock catch box comprises a guide rod, a spring and a guide pillar. A cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component; wherein, the static area opposite to the dynamic area of the assembly position of the moving lock core part and/or the poking lock core part, wherein the door frame is provided with a key interface slot corresponding to the key interface slot of the lock core part.

In another example of the disclosure, including any other example disclosed herein, the deadbolt assembly in the keeper further includes a latch guide, the keeper being mounted in a position on the door leaf, the latch guide being actuated by the doorframe lock cylinder component throw between a locked state and an unlocked state; wherein, the door frame is provided with a door frame hole for receiving the insertion of a bolt guide rod, thereby locking the door leaf.

In another example of the disclosure, including any other example disclosed herein, the lock housing arrangement provides a plug component, a lock housing assembly position dynamic region opposing a static region, wherein the door frame provides a lock housing end with a key interface slot.

In a lock body component arrangement and key operated method including the lock body component arrangement disclosed herein:

step one, when a key is inserted into a key interface groove and a lock cylinder groove at the end part of a lock shell body of a door leaf or a door frame, the current lock cylinder braking element decryption code is adjusted by moving a key ruler plate cut target of a lock core part, or the current lock cylinder braking element decryption code is adjusted by shifting the key ruler plate cut target of the lock core part.

Step two, under the condition that the key ruler plate is matched with the straight and horizontal lock cylinder braking elements which are arranged in advance for moving the lock cylinder according to the appointed incision target, coordinating and uniformly actuating in the key decryption coding process and simultaneously executing a pushing or pulling mode to operate the lock cylinder on the lock cylinder sliding plate; or, under the condition that the key ruler plate is matched with the straight and transverse lock cylinder braking elements which are arranged in advance for poking the lock cylinder at present according to the appointed cut target, the lock bolts on the lock cylinder sliding plate are operated in a poking or swinging mode while coordinated and unified actuation is carried out in the key decryption coding process.

Thirdly, a lock bolt and/or a toggle piece pushes a stop block or a sliding groove of the lock bolt assembly to actuate the lock bolt to slide or change from the current position to the expected position; the stop blocks on the two side surfaces of the lock tongue plate are used for operating the lock tongue by a key outside the door leaf or the door frame, and the stop blocks on the second side surface opposite to the first side surface are used for operating the lock tongue by a handle, a key or a button inside the door leaf or the door frame; or the sliding grooves on the two side surfaces of the lock tongue plate are used for operating the lock bolt and/or the toggle piece to push the lock tongue assembly to actuate the lock tongue by a key outside the door leaf or the door frame, and the sliding grooves on the second side surface opposite to the first side surface are used for operating the lock tongue by a handle, a key or a button inside the door leaf or the door frame.

Furthermore, as used in this application, the term "or" is intended to mean an inclusive "or" rather than an exclusive "or". That is, unless specified otherwise or clear from context, "X employs A or B" is intended to mean any of the naturally-occurring permutations. That is, if X employs A; b is used as X; or X employs A and B, then "X employs A or B" is satisfied under any of the foregoing circumstances. In addition, the articles "a" and "an" as used in this application and the appended claims should generally be construed to mean "one or more" unless specified otherwise or clear from context to be directed to a singular form.

What has been described above includes examples of the subject invention. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the present invention, but one of ordinary skill in the art may recognize that many further combinations and permutations of the present invention are possible. Accordingly, the present invention is intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term "includes" is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term "comprising" as "comprising" is interpreted when employed as a transitional word in a claim.

Claims (16)

1. A lock body component arrangement, comprising:

a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component;

the toggle piece drives the lock tongue to be in a locked state and an unlocked state;

lock housing means, said lock housing assembly location doorjamb comprising a dynamic zone and/or a static zone opposite the dynamic zone, wherein said lock housing end is provided with a key interface slot, and wherein a mechanical portion and/or an electrical portion of the lock is disposed within said lock housing;

a keeper for receiving the locked condition of the bolt and/or plunger, wherein the keeper-mounted jamb position comprises a dynamic zone and/or a static zone opposite the dynamic zone.

2. The lock body component assembly of claim 1, wherein said lock body component assembly position is a dynamic region of a door jamb, said keeper assembly position is a static region of a door jamb opposite said dynamic region; the lock body part is assembled on the static area opposite to the dynamic area of the door jamb, and the lock catch box is assembled on the dynamic area door leaf;

wherein the lock body component assembly position dynamic zone door leaf chamber interior side comprises the building door leaf or the cabinet door leaf;

wherein the lock body component assembly position dynamic region opposing static region door frame chamber interior sides comprise the building door frame or cabinet door frame.

3. The lock body member arrangement of claim 2 wherein the end of the housing body is provided with a key interface slot positioned outside the door leaf in the region of the outer handle; or the key interface slot is arranged on the outer side of the door frame and corresponds to the outer handle in height;

wherein, lock shell body end of door cheek sets up key and inserts the interface slot, and

the key interface slot is arranged on the outer side of the door leaf and/or the door frame and is arranged in an outer handle interval, and the range of the outer handle interval comprises a horizontal position to a vertical position;

and the door leaf and/or the door frame are provided with an interface slot for inserting a key into the giant shape.

4. The lock body component assembly of claim 2, wherein the locking bolt is openable by a key outside the door, and by a handle, key or button inside the door to unlock the locking bolt;

wherein the poking piece further comprises a lock bolt and/or a poking rod of the lock cylinder;

the toggle piece is provided with a shaft part, is connected with a lock cylinder part arranged in the lock shell, and operates the bolt to move through a lock bolt of the lock cylinder part.

5. The lock body component assembly of claim 4, wherein the stops on both sides of the strike plate are arranged such that a first side of the stops is used for a key outside the door or door frame to operate the strike, and a second side of the stops on the opposite side of the first side is used for a handle, key or button inside the door or door frame to operate the strike;

the lock bolt panel is also provided with a key slot corresponding to the open slot of the lock shell;

and, the lock tongue plate further comprises a dead tongue and/or a dead tongue.

6. The lock body component assembly of claim 2, wherein the deadbolt panel is provided with a sliding slot for key operation of a lock bolt actuating the deadbolt to move the lock cylinder component and/or to toggle the lock cylinder component.

7. The lock body component device of claim 2, wherein the inner and outer handles disposed on the door leaf are fixedly connected and restrict the rotation, the pushing and pulling operation of the inner and outer handles does not control the movement of the lock tongue, and the door leaf is operated to push or pull by the inner and outer handles, thereby preventing the illegal action from releasing the expected position of the lock tongue through the handles.

8. The lock body member arrangement of claim 2 wherein the door leaf outer panel is disposed in the lock housing end key interface slot location and the lock housing end key interface portion and the door leaf outer panel key interface slot abut one another,

and the door leaf outer panel is provided with a key port groove and the lock cylinder is provided with a key ruler plate which is received in the lock cylinder groove position to keep front and back mutual correspondence.

9. A lock body member arrangement as claimed in claim 2, wherein the inner surface of the door frame chamber is perpendicular to the other side of the door frame, the other side of the door frame is provided with the lock housing end key interface slot location, and the lock housing end key interface portion and the door frame other side key interface slot abut against each other;

and the other side surface of the door frame is provided with a key port groove, and the key port groove and the lock cylinder key ruler plate are received in the lock cylinder groove position and keep front and back corresponding to each other.

10. The lock body component device of claim 1, wherein the door leaf or the door frame is provided with a key interface, and the door leaf or the door frame outer panel covers the movable lock core component and/or the toggle lock core component, the end part of the lock shell is provided with the key interface which is of a key insertion type, the shape of the key interface groove is adapted to the moving direction or the toggle direction of the key ruler plate,

the movable lock core part operates the lock tongue component on the lock core sliding plate in a pushing or pulling mode in the key decryption and coding process;

the lock cylinder shifting component operates a lock tongue component on the lock cylinder sliding plate in a shifting or swinging mode in the key decryption coding process;

and the door leaf or the door frame is provided with an interface slot with the size larger than that of the key ruler plate.

11. The lock body member arrangement of claim 1, further comprising an active wire connection port;

the intelligent module of the electric appliance part further comprises a lock body part device which identifies and processes human body biological characteristic information, electronic information and network communication information in an electronic mode and controls the opening and closing operation of a mechanical mechanism; the electric appliance part is supplied with power or a control information source through a power line through an active wiring port;

moreover, a key slot is arranged on the lock tongue and is matched with the intelligent module control mechanical mechanism;

and the active wiring port of the lock body component device is provided with the lock shell or the lock catch box.

12. The lock body member assembly of claim 11, wherein said door leaf or door frame interface slot further comprises a card identification type, RF type or infrared type;

and, the lock shell open slot and the door leaf or door frame set interface slot further comprise a card identification type, and the RF type or the infrared ray type corresponds.

13. A lock body component arrangement, comprising:

the lock catch box further comprises the lock tongue assembly, and the lock tongue is actuated to be in a locking state and an unlocking state by the lock cylinder part lock plunger of the door frame on the door leaf at the assembling position of the lock catch box;

wherein, the lock tongue in the lock catch box comprises a guide rod, a spring and a guide pillar;

a cylinder component, the cylinder including a moving cylinder component and/or a poking cylinder component;

wherein the assembly position of the movable lock core part and/or the toggle lock core part is a static area opposite to the dynamic area, and the door frame is provided with the key interface slot corresponding to the key interface slot of the lock core part.

14. The lock body component assembly of claim 13, wherein the deadbolt assembly in the keeper further comprises a latch guide, the keeper being mounted in position on a door leaf with the lock and unlock states of the latch guide actuated by the lock cylinder component throw of the door frame;

wherein the door frame is provided with the door frame hole for receiving the insertion of the door bolt guide rod, thereby locking the door leaf.

15. The lock body component assembly of claim 13 wherein said lock housing assembly defines a plug component, said lock housing assembly position dynamic region being in a static region relative to a static region, and wherein said door frame defines said lock housing end with a key interface slot.

16. A method of operating a lock body member arrangement and key as claimed in claim 1 or 13, wherein the decoding is performed by a key:

step one, when a key is inserted into a key interface groove and a lock cylinder groove at the end part of a lock shell body of a door leaf or a door frame, the current lock cylinder braking element decryption code is adjusted by moving a key ruler plate cut target of a lock core part, or the current lock cylinder braking element decryption code is adjusted by shifting the key ruler plate cut target of the lock core part;

step two, under the condition that the key ruler plate is matched with straight and transverse lock cylinder braking elements which are arranged in advance for moving the lock cylinder according to an agreed notch target, coordinating and uniformly actuating in the key decryption coding process and simultaneously executing a pushing or pulling mode to operate the lock plunger on the lock cylinder sliding plate;

or, under the condition that the key ruler plate is matched with the straight and transverse lock cylinder braking elements which are arranged in advance for poking the lock cylinder at present according to the appointed cut target, the lock cylinder on the lock cylinder sliding plate is operated in a poking or swinging mode while coordinated and unified actuation is carried out in the key decryption coding process;

thirdly, the lock bolt is actuated to slide or change from the current position to the expected position by pushing the stop block or the sliding groove of the lock bolt assembly through the lock bolt and/or the toggle piece;

the stop blocks on the two side surfaces of the lock tongue plate are used for operating the lock tongue by a key outside a door leaf or a door frame, and the stop blocks on the second side surface opposite to the first side surface are used for operating the lock tongue by a handle, a key or a button inside the door leaf or the door frame;

or, the sliding grooves on the two side surfaces of the lock tongue plate are used for operating the lock bolt and/or pushing the lock bolt assembly to actuate the lock bolt by a key outside the door leaf or the door frame, and the sliding grooves on the second side surface opposite to the first side surface are used for operating the lock bolt by a handle, a key or a button inside the door leaf or the door frame.

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