CN210430288U - Computer signal transmission port anti-loose connection assembly - Google Patents

Abstract

The utility model discloses an anti-loose connection assembly for a computer signal transmission port, which relates to the technical field of computer equipment. A locking shell is installed on the plug, a locking head is arranged on the locking shell, a connecting rod mechanism is arranged inside the locking shell, and the connecting rod mechanism is connected between the slider and the locking head. When the slider slides, the connecting rod mechanism drives the lock The stopper is exposed from the locking shell to be inserted into the locking hole on the socket device, so that the plug device can be stably connected to the socket device, and data transmission interruption caused by unstable insertion is avoided.

Description

Anti-loose connecting assembly for computer signal transmission port

Technical Field

The utility model relates to a computer equipment technical field especially relates to the locking coupling assembling that moves of computer signal transmission port.

Background

Computers are widely used in the information age, and have strong data storage and processing capabilities. The computer mainly has two modes of acquiring data, namely acquiring data through a wireless network, acquiring data through a data communication cable, an external storage device and the like, wherein the data communication cable and the external storage device are directly plugged in the computer, so that the plugging stability has direct influence on the data transmission stability.

The communication cable is commonly a network cable, an HDMI cable, a VGA cable and the like, the external storage device mainly adopts a plug of a USB interface, and the plug-in connection forms except that the network cable has a self-locking structure, and all other plugs are kept stable only by means of friction force between the plug and a slot of a computer. Although the plug-in structure is convenient to use, the connection stability is not very reliable, and once the plug-in structure is subjected to unexpected vibration or collision, the connection is likely to be interrupted, so that the normal use of the computer is greatly influenced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a locking coupling assembling that moves of computer signal transmission port can solve the problem that exists among the prior art.

The utility model provides a locking coupling assembling that moves of computer signal transmission port, including socket arrangement and plug device, the socket arrangement is installed on the computer, the plug device matches with the socket arrangement, the plug device includes grafting portion, plug and cable are installed respectively on two opposite side of grafting portion, install the locking shell on at least one lateral surface of plug, this locking shell has seted up the through-hole on the side back to the plug, slidable mounting has the locking head in this through-hole, the locking head can slide along the direction that is perpendicular to the plug in the through-hole, set up the locking hole with locking head matching on the medial surface of socket arrangement;

the side surface of the insertion part is provided with a sliding part, the part of the sliding part, which is positioned inside the insertion part, is connected with the locking head through a connecting rod mechanism, and when the sliding part slides on the insertion part, the connecting rod mechanism drives the locking head to slide in the through hole.

The utility model provides a locking coupling assembling that moves of computer signal transmission port, constitute by plug device and socket arrangement, plug device includes grafting portion, plug and cable, slidable mounting has the slider on the grafting portion, install the locking shell on the plug, locking head has on the locking shell, the inside link mechanism that has of locking shell, link mechanism connects between slider and locking head, link mechanism drives locking head and exposes in order to insert the locking hole on the socket arrangement from the locking shell when the slider slides, make plug device can the stable connection in socket arrangement, avoid causing the data transmission to break because of the grafting is unstable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a computer signal transmission port anti-loosening connection assembly provided by an embodiment of the present invention applied to a computer;

FIG. 2 is a schematic structural view of a plug device;

FIG. 3 is a schematic cross-sectional view along AA of the plug device of FIG. 2;

FIG. 4 is a schematic structural view of the linkage mechanism driving the locking head to be in a locked state;

fig. 5 is a schematic structural diagram of the link mechanism driving the locking head to be in an unlocked state.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, in an embodiment of the present invention, a locking connection assembly for a computer signal transmission port is provided, which includes a socket device 100 and a plug device 200, wherein the socket device 100 is installed on a computer 110 for plugging the plug device 200, and the plug device 200 is matched with the socket device 100.

The plug device 200 includes a plug portion 210, a plug 220 and a cable 230, the plug 220 and the cable 230 are respectively installed on two opposite side surfaces of the plug portion 210, when the plug 220 is completely inserted into the socket device 100, the plug portion 210 abuts against an outer side of the socket device 100, and a user can conveniently hold the plug portion 210 to pull the plug 220 out of the socket device 100.

At least one outer side surface of the plug 220 is mounted with a locking shell 221, the locking shell 221 is opened with a through hole on the side opposite to the plug 220, a locking head 2210 is slidably mounted in the through hole, the locking head 2210 can slide in the through hole along the direction vertical to the plug 220, when the locking head 2210 slides and is exposed from the through hole, the locking head 2210 can be inserted into a locking hole (not shown) inside the socket device 100 to lock the plug 220 of the plug device 200 in the socket device 100.

The plug part 210 is provided with a sliding part 211 on the side surface of the plug 220 on the same side as the side surface with the locking shell 221, and the sliding part can slide on the plug part 210 along the connecting line of the plug part 210 and the plug 220, so as to drive the locking head 2210 to switch between a locking state and an unlocking state.

In this embodiment, in order to keep the balance of the applied force, two locking shells 221 are respectively installed on two opposite sides of the plug 220, and each locking shell 221 has a locking head 2210, so that when the plug 220 is plugged into the socket device 100, the two locking heads 2210 can be respectively inserted into two opposite locking holes inside the socket device 100, thereby keeping the locking state stable. Of course, the locking shell 221 may also be mounted on three or four sides of the plug 220. Since the number of the locking shells 221 is two, the number of the sliding pieces 211 is two correspondingly, and the two sliding pieces 211 are respectively located on two opposite side surfaces of the inserting part 210, in order to enable the two sliding pieces 211 to move synchronously so as to enable the two locking heads 2210 to move synchronously, in this embodiment, the two sliding pieces 211 are further connected into a whole and sleeved on the outer side of the inserting part 210 in a rectangular ring manner.

Referring to fig. 3, the inserting part 210 is composed of a housing 212 and a main body 213, and a circuit board for signal transmission is integrated on the main body 213. The main body 213 is installed inside the outer case 212, and the plug 220 and the cable 230 are connected to the main body 213 through both side surfaces of the outer case 212, respectively. Two opposite side surfaces of the housing 212 are respectively provided with a sliding hole, the bottom of the sliding piece 211 passes through the sliding hole and extends into the housing 212, the part of the sliding piece 211 positioned in the housing 212 is connected with the locking head 2210 through a link mechanism 2211, one part of the link mechanism 2211 is positioned in the housing 212, the other part of the link mechanism 2211 is positioned in the locking shell 221, and when the sliding piece 211 slides on the housing 212, the link mechanism 2211 drives the locking head 2210 to slide in the through hole.

Referring to fig. 4 and 5, the link mechanism 2211 includes a connecting rod 2212, a steering rod 2213, a driving rod 2214 and an actuating rod 2215, and the connecting rod 2212 passes through the housing 212 and is fixedly connected to one end of the sliding member 211 inside the housing 212. One end of the connecting rod 2212 inside the locking shell 221 is rotatably connected to one end of the steering rod 2213, the other end of the steering rod 2213 is rotatably connected to one end of the driving rod 2214, the other end of the driving rod 2214 is rotatably connected to one end of the actuating rod 2215, and the other end of the actuating rod 2215 is slidably mounted on one end of the locking head 2210 inside the locking shell 221. The driving rod 2214 is rotatably mounted inside the locking shell 221 through a rotating rod 2216, and the axis of the rotating rod 2216 is parallel to the plug 220, so that the driving rod 2214 can rotate inside the locking shell 221 in a plane perpendicular to the plug 220.

The end surface of the locking head 2210 located inside the locking shell 221 is provided with a sliding groove, the actuating rod 2215 is slidably mounted in the sliding groove, and the actuating rod 2215 is movable on the locking head 2210 along the direction perpendicular to the axis of the through hole where the locking head 2210 is located. Since the movement of the end of the driving rod 2214 during the rotation around the rotating rod 2216 can be decomposed into the longitudinal movement parallel to the movement direction of the locking head 2210 and the lateral movement perpendicular to the movement direction of the locking head 2210, when the actuating rod 2215 is moved laterally and longitudinally together with the driving rod 2214, the actuating rod 2215 can generate a certain magnitude of lateral movement on the locking head 2210, the lateral movement of the actuating rod 2215 relative to the locking head 2210 is adopted to counteract the influence of the lateral movement on the locking head 2210, only the longitudinal movement of the actuating rod 2216 is applied to the locking head 2210, and the locking head 2210 is moved only in the longitudinal direction.

The utility model discloses a coupling assembling when using, earlier with slider 211 to sliding towards cable 230 one side, in retracting locking head 2210 locking shell 221, plug device 200 was in the unblock state this moment, will plug 220 inserts socket device 100 together with locking shell 221, pegs graft and slides slider 211 to one side towards plug 220 after target in place, releases locking shell 221 with locking head 2210, and locking head 2210 inserts promptly to the inside locking hole of socket device 100 this moment, and plug device 200 and socket device 100 are in the lock-out state promptly this moment.

In order to keep the plug device 200 and the outlet device 100 stable after being locked, a spring may be further installed on the inner side surface of the housing 212, and the spring is connected to the slider 211 to push the slider 211 to a side close to the plug 220, so that the locking head 2210 is stabilized in a locked state.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the embodiments, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention.

Claims (7)

1. A computer signal transmission port anti-loose connection assembly, comprising a socket device (100) and a plug device (200), the socket device (100) being installed on the computer (110), the plug device (200) and the socket device ( 100) matching, the plug device (200) includes a plug portion (210), a plug (220) and a cable (230), the plug (220) and the cable (230) are respectively mounted on the plug portion The two opposite outer sides of (210) are characterized in that at least one outer side of the plug (220) is provided with a locking shell (221), the locking shell (221) facing away from the plug (220) ) is provided with a through hole on the side surface, a locking head (2210) is slidably installed in the through hole, and the locking head (2210) can slide in the through hole in a direction perpendicular to the plug (220), so The inner surface of the socket device (100) is provided with a locking hole matching with the locking head; A sliding member (211) is installed on the side of the plug portion (210), and a portion of the slide member (211) located inside the plug portion (210) is connected to the locking head (211) through a link mechanism (2211). 2210) connection, when the sliding member (211) slides on the plug portion (210), the link mechanism (2211) drives the locking head (2210) to slide in the through hole. 2. The computer signal transmission port anti-loose connection assembly according to claim 1, characterized in that, two opposite sides of the plug (220) are respectively installed with one of the locking shells (221), each of which is Each of the locking shells (221) has one locking head (2210), the number of sliding members (211) on the plug-in portion (210) is two, and the two sliding members (211) are respectively are located on two opposite sides of the plug portion (210). 3. The computer signal transmission port anti-loose connection assembly according to claim 2, characterized in that, the two sliding members (211) are connected as a whole, and the sliding members (211) connected together are sleeved on the The outer side of the plug-in part (210). 4. The computer signal transmission port anti-loose connection assembly according to claim 1, wherein the plug portion (210) is composed of a casing (212) and a main body (213), and the main body (213) is installed on the Inside the casing (212); a sliding hole is formed on the side surface of the casing (212), and the bottom of the sliding member (211) protrudes into the interior of the casing (212) through the sliding hole, and the sliding member (211) ) inside the housing (212) is connected with the locking head (2210) through the link mechanism (2211). 5. The computer signal transmission port anti-loose connection assembly according to claim 4, wherein the link mechanism (2211) comprises a connecting rod (2212), a steering rod (2213), a driving rod (2214) and an actuator a rod (2215), the connecting rod (2212) is fixedly connected with one end of the sliding member (211) inside the casing (212) after passing through the casing (212); One end of the connecting rod (2212) inside the locking shell (221) is rotatably connected with one end of the steering rod (2213), and the other end of the steering rod (2213) is rotatably connected with one end of the driving rod (2214) , the other end of the drive rod (2214) is rotatably connected with one end of the execution rod (2215), and the other end of the execution rod (2215) is installed on the locking head (2210) located in the locking shell (221) ) inside one end; The driving rod (2214) is rotatably mounted inside the locking shell (221) through a rotating rod (2216), and the driving rod (2214) is perpendicular to the plug (220) inside the locking shell (221). in-plane rotation. 6. The computer signal transmission port anti-loose connection assembly according to claim 5, characterized in that, a chute is provided on the end surface of the locking head (2210) inside the locking shell (221), and the execution rod (2215) is slidably installed in the chute, and the execution rod (2215) moves on the locking head (2210) in a direction perpendicular to the axis of the through hole where the locking head (2210) is located. 7. The computer signal transmission port anti-loose connection assembly according to claim 4, characterized in that, a spring is installed on the inner surface of the outer casing (212), and the spring is connected with the sliding member (211) to connect the sliding The member (211) is pushed to the side close to the plug (220).

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