CN108332113B - Openable lamp atomization assembly and opening and closing method thereof - Google Patents

Abstract

The utility model provides a lamps and lanterns atomization component that can open and shut, includes the mainboard and sets up the printing opacity camera lens on the mainboard, the mainboard is including front and the back, lamps and lanterns atomization component is still including setting up the guide rail device on the mainboard, the multistage atomization piece subassembly that can move on the guide rail device to and drive guide rail device's motor, the adjacent setting of multistage atomization piece subassembly, just the junction of multistage atomization piece subassembly is equipped with the magnetism district of attracting each other. According to the invention, the guide rail device is arranged on the main board, so that the atomization plate assembly can slide on the guide rail device, and the opening and closing of the atomization effect are further realized.

Description

Openable lamp atomization assembly and opening and closing method thereof

Technical Field

The invention relates to the field of stage lighting equipment, in particular to a lamp atomization component capable of being opened and closed and an opening and closing method thereof.

Background

With the delicacy of modern people on the quality of life, the time for paying a party is relatively increased, and stage lamps are often indispensable arrangements for creating banquet, stage or performance atmospheres, and promote the stage atmosphere by matching light and shadow effects with sound changes.

In the field of stage lighting, in order to enrich the stage effect, multiple effect components, such as pattern components, prisms, atomizing sheets, etc., are often added to an optical system of the stage lighting to obtain multiple lighting effects. The atomizing sheet device is often used in the stage lamp to render the atmosphere, so that the atomizing effect of the stage is produced, and the stage performance is more real, vivid and the like. The fogging effect is a relatively common characteristic of 3D, and the effects of smoke, explosion flames, and clouds seen in a game are the result of fogging. The function of the method is to manufacture the effect that a designated area is covered in a strand of smoke, so that the authenticity of a long-range view can be ensured, and the rendering workload of the 3D graph is reduced.

In the prior art, one table lamp corresponds to one atomizing sheet to realize the atomizing effect, and the patent name of the applicant applied in the prior art is as follows: the utility model provides an intelligent atomizing piece system for stage lamps and lanterns, application number is CN 201720171309.6's patent, provides one kind through exert different voltages on stage lamps for the liquid crystal molecule presents different arrangement state, and the intelligent atomizing piece system of different atomization effect appears, but the device structure is comparatively complicated, and the manufacturing cost of whole device is higher relatively, and the change of atomization effect is comparatively slow, can't realize the atomization effect from 0~100% quick transition.

Disclosure of Invention

The invention aims to provide a lamp atomization component capable of being opened and closed and an opening and closing method thereof, and the lamp atomization component can be used for solving the problem that atomization pieces are fixedly installed and cannot be rapidly switched in atomization effect in the prior art.

In order to solve the technical problems, the invention provides a lamp atomization assembly capable of being opened and closed, which comprises a main board and a light-transmitting lens arranged on the main board, and further comprises a guide rail device arranged on the main board, a multi-stage atomization plate assembly capable of moving on the guide rail device, and a motor driving the guide rail device, wherein the multi-stage atomization plate assemblies are adjacently arranged, and the connection parts between the multi-stage atomization plate assemblies are provided with magnetic attraction areas which attract each other.

Furthermore, the guide rail device comprises a plurality of stages of guide rail assemblies, one end of each stage of atomization plate assembly in the plurality of stages of atomization plate assemblies is respectively arranged on one guide rail assembly and can move on the corresponding guide rail assembly, and the multi-stage atomization plate assembly can drive all atomization plate assemblies to move on the corresponding guide rail assembly through the movement of one atomization plate assembly.

The invention mainly aims at stage lighting, and the atomization lamp component is mainly used for quickly opening and closing atomization effect on a stage. Related programs are arranged on the main board, and the opening and closing of the motor can be controlled according to needs. The light-transmitting lens is arranged in the middle area of the main board, the size of the light-transmitting lens can be set according to requirements, and the light-transmitting lens is generally set to be circular or can be set to be in other required shapes. Enough space is left in the mainboard for when the atomization lamp subassembly slides to mainboard one side, can not shelter from the printing opacity camera lens.

The atomization piece assembly can slide on the guide rail, and when the atomization piece assembly slides to the position of the light-transmitting lens and shields the light-transmitting lens, the atomization effect is started; when the atomizing piece assembly slides to one side of the main board on the guide rail under the driving of the motor, the closing of the atomizing effect can be realized.

The motor is arranged on the main board and can drive the guide rail device to operate, so that the atomizing plate assembly can move on the guide rail device.

According to the invention, the multistage atomization plate assembly can slide on the multistage guide rail device by arranging the multistage guide rail device on the main board, so that the opening and closing of the atomization effect are further realized.

Adjacent crisscross parallel arrangement between the multi-stage atomization piece subassembly for the multi-stage atomization piece subassembly can expand step by step, when closing the atomizing lamp effect, can reduce the atomization component volume with the overlapping of multi-stage atomization piece subassembly, realizes overlapping step by step. Therefore, the design of the multi-stage atomizing plate assembly can design the multi-stage atomizing plate assembly according to the area of the required atomizing lamp, wherein each stage of atomizing plate assembly is provided with the guide rail assembly corresponding to one stage, and the atomizing plate assembly is gradually unfolded and gradually folded.

Furthermore, the multi-stage atomization plate assemblies are fixed through a clamping piece.

The atomizing piece assembly can slide on the guide rail device, can fix through the buckle between the adjacent atomizing assembly, when the atomizing piece assembly expandes, when the atomizing piece assembly slides to the junction, can realize the relative fixation of the two position through the buckle spare fast, when the atomizing piece assembly draws in, the drive effect of accessible motor makes the atomizing piece assembly break away from the buckle spare again, realizes closing.

Furthermore, multistage atomizing piece subassembly includes first atomizing piece subassembly and second atomizing piece subassembly at least, multistage guide rail set spare includes first guide rail set spare and second guide rail set spare at least, the one end of first atomizing piece subassembly is located on first guide rail set spare, the one end of second atomizing piece subassembly is located on the second guide rail set spare, the second atomizing piece subassembly can move on second guide rail set spare to the removal through second atomizing piece subassembly drives first atomizing piece subassembly and moves on first guide rail set spare.

In order to save space and reduce the occupied space of the atomizing plate assembly, the atomizing assembly provided by the invention comprises the first atomizing plate assembly and the second atomizing plate assembly, the first atomizing plate assembly and the second atomizing plate assembly can be flatly spread or overlapped by moving on the guide rail device, when the first atomizing plate assembly and the second atomizing plate assembly are flatly spread and move to the position of the light-transmitting lens, the atomizing effect can be opened, and when the first atomizing plate assembly and the second atomizing plate assembly are mutually overlapped and move to one side of the main plate, the atomizing effect can be closed. The method is simple and easy to operate, and can save space to the greatest extent.

In order to realize the functions, the guide rail device comprises a first guide rail assembly and a second guide rail assembly, wherein the plane where the first guide rail assembly is located and the plane where the second guide rail assembly is located are arranged in parallel and are both parallel to the plane where the main plate is located. Wherein the first track assembly is distal from the main plate relative to the second track assembly. Because the one end of first atomizing piece subassembly and second atomizing piece subassembly sets up respectively on first guide rail set spare and second guide rail set spare, consequently, first atomizing piece subassembly and second atomizing piece subassembly are also mutual parallel arrangement, and owing to the difference in height of the two, just can realize mutual expansion and overlap through the removal on the guide rail.

When needs atomization effect, through opening the motor, drive second guide rail set spare drives the direction removal of second atomization piece subassembly like printing opacity lens, be equipped with on the second atomization piece subassembly with first atomization piece subassembly assorted stuck point, when the second atomization piece removed, can drive first atomization piece and remove towards the equidirectional, when the second atomization piece subassembly slides to the guide rail set spare extreme point, realized opening of atomization effect promptly. The design of stuck point position can make second atomizing piece subassembly and first atomizing piece subassembly when expanding, can shelter from the printing opacity camera lens completely, realizes the complete atomizing of printing opacity camera lens.

According to the invention, by arranging the double-layer guide rail, the overlapping and the unfolding of the double-layer atomizing plate assembly can be realized, the occupied space is further reduced, and the volume of the whole device is minimized.

Furthermore, first atomizing piece subassembly is including the first slider that is equipped with the through-hole and the first atomizing piece of connecting first slider, second atomizing piece subassembly is including the second slider that is equipped with the through-hole and the second atomizing piece of connecting the second slider, first slider upside is equipped with the recess, second slider downside is equipped with the matching the bellying of recess makes the bellying of second slider can imbed and slide on the recess of first slider.

In order to better realize the mutual matching of the first atomization plate component and the second atomization plate component, the first atomization plate component comprises a first sliding block and a first atomization plate, the first sliding block and the first atomization plate can be integrally designed or can be disassembled, the first sliding block is arranged at one end of the first atomization plate, and the first sliding block can slide on the first guide rail component by arranging a through hole on the first sliding block. The second sliding block is also provided with a through hole, so that the second sliding block can slide on the second guide rail assembly.

First atomizing piece and second atomizing piece comprise the atomizing material, can realize the atomization effect of light behind first atomizing piece and/or the second atomizing piece. The upper side of the first sliding block is provided with a groove, the lower side of the second sliding block is provided with a protruding part matched with the groove, and the protruding part can be embedded into the groove and can slide in the groove. When the protruding part slides to one end of the groove, the first atomization sheet and the second atomization sheet are in an overlapped state; when the protrusion slides to the other end of the groove, the first atomization sheet and the second atomization sheet are in an unfolded state, and no light-transmitting gap exists between the first atomization sheet and the second atomization sheet when the first atomization sheet and the second atomization sheet are in the unfolded state, so that a better light-transmitting effect is achieved.

Further, first slider includes open end and closed end, the open end of first slider still is equipped with and prevents that the second slider roll-off the screens of recess.

In order to ensure that the second sliding block can better limit the second sliding block to slide in the groove of the first sliding block, the groove of the second sliding block is provided with an open end and a closed end, wherein the open end is provided with a clamping position which can be a limiting column or a limiting buckle to prevent the second sliding block from sliding out of the groove, and the groove and the limiting buckle are arranged, so that on one hand, the sliding range of the second sliding block can be ensured, the relative sliding range of the first atomizing sheet component and the second atomizing sheet component is ensured to be between overlapping and complete unfolding, and when the first atomizing sheet component and the second atomizing sheet component are completely unfolded, no light-transmitting gap is required to be ensured between the first atomizing sheet component and the second atomizing.

The invention can realize the overlapping to unfolding of the first atomizing plate component and the second atomizing plate component through the limit of the simple structure, and then realize the overlapping effect, has simple operation, can realize the quick opening and closing of the atomizing effect, has low production cost and is suitable for popularization and use.

Furthermore, the first guide rail assembly comprises a first slide rail penetrating through the through hole of the first slide block and a guide pillar support fixing two ends of the first slide rail on the mainboard, the second guide rail assembly comprises a driving wheel connected with the motor, a driven wheel, a belt connected with the driving wheel and the driven wheel, and a second slide rail penetrating through the through hole of the second slide block, two ends of the second slide rail are fixed on the guide pillar support, and a belt fixing plate is arranged on the second slide block, so that when the motor drives the driving wheel to rotate, the belt can drive the second slide block to move on the second slide rail.

The first sliding block is provided with two transverse through holes which are parallel to the groove and arranged on two sides of the groove, the first sliding rail comprises two through holes which respectively penetrate through the first sliding block, two ends of the first sliding rail are fixed through guide pillar supports, the guide pillar supports also comprise two through holes which are respectively used for fixing two ends of the first sliding rail and two ends of the second sliding rail, and therefore the first atomizing sheet assembly and the second atomizing sheet assembly can stably slide. The guide rail support is U-shaped, so that the contact area between the guide rail support and the main board is increased, and the guide rail support is fixed more firmly.

The second sliding block is also provided with two through holes which cross the second sliding block and are parallel to each other, the sliding of the second sliding block is driven by a belt, therefore, the second guide rail component comprises a driving wheel connected with a motor, the driving wheel is connected with the motor and arranged on one side of the guide pillar support at one end, the driven wheel is arranged on one side of the guide pillar support at the other end, the driving wheel and the driven wheel are connected through the belt, and the straight line formed by the connection is parallel to the straight line formed by the two guide pillar supports.

The second slide rail is also provided with two through holes which respectively penetrate through the second slide block, two ends of the second slide rail are also fixed on the two guide pillar supports, the plane fixed by the first slide rail is closer to the plane where the light-transmitting lens is located relative to the plane fixed by the second slide rail, and therefore two planes staggered with each other can be formed, and the first atomizing plate assembly and the second atomizing plate assembly can be overlapped in a staggered mode.

The belt is arranged between the two second sliding rails, and when the motor drives the driving wheel to rotate, the belt drives the second sliding block to move, so that the second atomization sheet assembly starts to move, the first sliding block can be driven to move, and the first atomization sheet assembly can be moved.

Furthermore, a guide pillar magnet is arranged on the guide pillar support at one end, a first magnetic attraction area magnetically attracted with the guide pillar magnet is arranged at the opening end of the first sliding block, a second magnetic attraction area is arranged at the closed end of the first sliding block, and a third magnetic attraction area capable of being magnetically attracted with the second magnetic attraction area is arranged on the protruding portion of the second sliding block.

In order to better realize the mutual matching of the first sliding block and the second sliding block, the guide post magnet is arranged on the guide post support at one end, the open end of the first sliding block groove is provided with the first magnetic attraction area mutually matched with the guide post magnet, and the magnetic attraction structure is arranged so that when the atomization effect needs to be closed, on one hand, the second sliding block is driven by the motor to move to the initial position, on the other hand, the first sliding block can be fixed at the initial position through the magnetic attraction effect, and the structure is more stable.

In the process that the second sliding block drives the first sliding block to move, when the second sliding block stops moving, the first sliding block can continue to move due to the inertia effect, so that the closed end of the first sliding block is provided with the second magnetic attraction area, the protruding part of the second sliding block is provided with the third magnetic attraction area capable of magnetically attracting the second magnetic attraction area mutually, and when the second sliding block stops sliding, the first sliding block can be kept still under the action of magnetic attraction, so that the structure is more stable.

The position of the magnetic attraction area is not required to be very fixed, the magnetic attraction position can achieve the technical effect of the invention, the range of the magnetic attraction area is not limited, and the technical effect of the invention can be achieved. Therefore, the invention can further ensure the stability of the whole structure through the arrangement of the simple magnetic attraction structure, and achieves the required technical effect in the moving process of the atomization component.

Furthermore, the recess of first slider still is equipped with fourth magnetism and inhales the district, be equipped with on the mainboard and inhale the detection magnetic sensitive board that the district detected that the state detected that opens and shuts atomizes with the fourth magnetism.

In order to realize the switch of the atomization state more intelligently, the detection magnetic sensitive plate is arranged on the main board and is matched with the fourth magnetic suction area at the groove of the first sliding block, so that the detection of the opening and closing state of the atomization state is realized. The fourth induction zone coverage area is less, it has the detection area of certain limit to detect the magnetic sensitive plate, along with first slider is removing, when detecting the signal that the magnetic sensitive plate detected the fourth magnetism and inhale the district, explains that the atomizing lamp subassembly is in the atomizing and opens the state, when detecting the signal that the magnetic sensitive plate did not detect the fourth magnetism and inhale the district, explains that the atomizing lamp is in the atomizing and closes the state.

Consequently, detect the quick board of magnetism through the setting, can further detect the state that opens and shuts of atomizing lamp for the user can be more audio-visual looks over the state that opens and shuts of atomizing lamp, and it is more convenient to use.

Further, a method for opening and closing a lamp atomization assembly comprises the following steps:

the atomization opening comprises the following steps:

s1: the second atomization plate assembly is driven by a motor to slide towards the direction of the light-transmitting lens;

s2: the protruding part of the second atomization plate component slides to the closed end of the first sliding block to drive the first atomization plate component to move rightwards; in the sliding process, the third magnetic attraction area of the second sliding block and the second magnetic attraction area of the first sliding block are attracted, so that the sliding synchronization is ensured;

s3: the motor drives the second atomizing sheet assembly to slide rightwards to the guide pillar support, so that the opening action of the atomizing sheet is realized;

the atomization shut-off comprises the following steps:

c1: the motor drives the second atomization sheet component to slide towards one end far away from the light-transmitting lens and drives the first atomization sheet component to slide;

c2: first atomizing piece subassembly slides to the guide pillar support of guide pillar other end to inhale through first magnetism and inhale district and guide pillar magnet magnetism, stop moving:

c3: the motor drives the second atomizing sheet assembly to continuously slide to the guide pillar support towards the end far away from the transparent lens, and the closing action of the atomizing sheet is realized.

First the first atomizing piece subassembly and the second atomizing piece subassembly are in the initial position of overlapping each other, and wherein the first magnetism of first slider is inhaled the district and is passed through the magnetic attraction effect with guide pillar magnet and hold, and after the motor was opened, the action wheel drives the belt and removes, drives the slip of second slider through the belt, and when the bellying of second slider slided to the closed end of first slider, the second slider can drive first slider and remove towards the printing opacity camera lens direction together, and at this moment, first atomizing piece subassembly and second atomizing piece subassembly were in the state of expanding. Furthermore, the second magnetic attraction area of the first sliding block and the third magnetic attraction area of the second sliding block attract each other, so that the positions of the first magnetic attraction area and the third magnetic attraction area are relatively fixed and move stably. After the second slider slides to other end guide pillar support, because be equipped with the separation blade that prevents the roll-off on the guide pillar support, consequently the second slider can stop sliding, and because the magnetic attraction effect of second slider and first slider, first slider also can stop to continue to slide for first atomizing piece and second atomizing piece just cover the printing opacity camera lens completely, realize opening of atomizing effect.

When the atomization effect needs to be closed, similarly, the motor drives the second sliding block to move towards the direction of the initial position, and the second sliding block can drive the first sliding block to move towards the initial position simultaneously due to the magnetic attraction effect of the first sliding block and the second sliding block. When first slider is close to the guide pillar support of initial position, the first magnetism of first slider is inhaled the district and can be attracted with the guide pillar magnet of guide pillar support, and at this moment, the magnetic attraction of first slider and second slider can be overcome to the motor, continues to drive the second slider and removes to initial position, slides to the guide pillar support when the second slider, and perhaps the bellying of second slider slides to the recess open end of first slider, stops moving in screens department, realizes closing of atomization effect.

Further, the opening and closing method further comprises the step of detecting the opening and closing state of the atomization sheet by the magnetic sensitive plate.

The magnetic sensitive detection plate is mutually matched with the fourth magnetic suction area at the groove of the first sliding block, so that the detection of the opening and closing state of the atomization state is realized. The step of detecting runs through in whole atomization effect adjustment process, can realize real-time detection, and the accessible sets up corresponding procedure on the mainboard, can realize remote monitoring, perhaps realizes real-time monitoring through setting up the pilot lamp on the mainboard.

The invention has the beneficial effects that:

(1) according to the invention, the guide rail device is arranged on the main board, so that the atomization plate assembly can slide on the guide rail device, and the opening and closing of the atomization effect are further realized.

(2) The multi-stage atomization assembly can be tiled, unfolded or overlapped, when the multi-stage atomization plate assembly is in a tiled state and unfolded and moved to the position of the light-transmitting lens, the atomization effect can be opened, and when the multi-stage atomization plate assembly is overlapped and moved to one side of the main plate, the atomization effect can be closed. The method is simple and easy to operate, and can save space to the greatest extent.

(3) The invention realizes the movement of the sliding block through the matching of the guide rail and the belt, and the moving process is more stable.

(4) According to the invention, the corresponding magnetic attraction areas are arranged on the sliding block and the guide pillar support, so that the sliding block cannot generate position deviation due to inertia when stopping moving, the sliding block can be stopped accurately, and the opening and closing stability of the atomization effect is ensured.

(5) According to the invention, the opening and closing state of the atomizing lamp can be further detected by arranging the detection magnetic sensitive plate, so that a user can more visually check the opening and closing state of the atomizing lamp, and the use is more convenient.

(6) The opening and closing method of the lamp atomization component is convenient to use and simple to operate, and can detect the opening and closing state in real time.

Drawings

FIG. 1 is a schematic view of an initial state of a lamp atomizing assembly according to the present invention.

FIG. 2 is a partial schematic view of a lamp atomizing assembly according to the present invention.

Fig. 3 is a schematic view of the first atomizing plate assembly and the second atomizing plate assembly of the present invention in combination.

Fig. 4 is a front view of a first atomization plate assembly of the present invention.

Fig. 5 is a schematic view of the first atomizing plate assembly of the present invention in cooperation with a guide rail.

Fig. 6 is an exploded view of the lamp atomizing assembly of the present invention.

Fig. 7 is a view of the second atomizing plate assembly of the present invention.

Fig. 8 is a view of the rear side of the first atomization sheet assembly of the present invention.

Fig. 9 shows a lamp with an openable and closable atomizing assembly according to an embodiment of the present invention.

Detailed Description

In order to make the implementation objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be described in more detail below with reference to the accompanying drawings in the embodiments of the present invention. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are only some, but not all embodiments of the invention. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A lamp atomization assembly capable of being opened and closed is shown in figure 1 and comprises a main board 1 and a light-transmitting lens 2 arranged on the main board 1, wherein the main board 1 comprises a front surface 11 and a back surface 12, the lamp atomization assembly further comprises a guide rail device 3 arranged on the back surface of the main board 1, an atomization sheet assembly 4 capable of moving on the guide rail device 3, and a motor 5 enabling the atomization sheet assembly 4 to move on the guide rail device 3.

The atomizing piece assembly can slide on the guide rail device, can fix through the buckle between the adjacent atomizing assembly, when the atomizing piece assembly expandes, when the atomizing piece assembly slides to the junction, can realize the relative fixation of the two position through the buckle spare fast, when the atomizing piece assembly draws in, the drive effect of accessible motor makes the atomizing piece assembly break away from the buckle spare again, realizes closing.

Further, as shown in fig. 2, the atomizing plate assembly 4 includes a first atomizing plate assembly 41 and a second atomizing plate assembly 42, the guide rail device 3 includes a first guide rail assembly 31 and a second guide rail assembly 32, one end of the first atomizing plate assembly 41 is disposed on the first guide rail assembly 31, one end of the second atomizing plate assembly 42 is disposed on the second guide rail assembly 32, and the first atomizing plate assembly 41 can move on the second guide rail assembly 32, and the first atomizing plate assembly 41 is driven to move on the first guide rail assembly 31 by the movement of the second atomizing plate assembly 42.

Further, as shown in fig. 3, the first atomizing plate assembly 41 includes a first slider 411 provided with a through hole 10 and a first atomizing plate 412 connected to the first slider, the second atomizing plate assembly 42 includes a second slider 421 provided with a through hole 20 and a second atomizing plate 422 connected to the second slider 421, a groove 30 is provided on an upper side of the first slider 411, and a protrusion 40 matching with the groove 30 is provided on a lower side of the second slider 421, so that the protrusion 40 of the second slider 421 can be inserted into the groove 30 of the first slider 411 to slide.

Further, as shown in fig. 3 and 4, the first sliding block 411 includes an open end 50 and a closed end 60, and the open end 50 of the first sliding block 411 is further provided with a detent 70 for preventing the second sliding block 421 from sliding out of the groove 30.

Further, as shown in fig. 1 and 5, the first guide rail assembly 31 includes a first slide rail 311 passing through the through hole 10 of the first slider 411 and a guide post support 312 fixing two ends of the first slide rail 311 on the main board 1, as shown in fig. 6, the second guide rail assembly 32 includes a driving wheel 321 connected to the motor 5, a driven wheel 322, a belt 323 connecting the driving wheel 321 and the driven wheel 322, and a second slide rail 324 passing through the through hole 20 of the second slider 421, two ends of the second slide rail 324 are fixed on the guide post support 312, and the second slider 421 is provided with a belt fixing plate 4211, so that when the driving wheel 321 is driven by the motor 5 to rotate, the belt 323 can drive the second slider 421 to move on the second slide rail 324.

Further, as shown in fig. 6, a guide post magnet 80 is disposed on the guide post support 312 at one end, as shown in fig. 4, a first magnetic attraction area 90 magnetically attracted to the guide post magnet is disposed at the open end of the first slider, a second magnetic attraction area 100 is disposed at the closed end of the first slider, and as shown in fig. 7, a third magnetic attraction area 110 capable of magnetically attracting to the second magnetic attraction area is disposed at the protruding portion of the second slider.

Further, as shown in fig. 8, the groove of the first slider is further provided with a fourth magnetic attraction area 120, as shown in fig. 6, the main board 1 is provided with a detection magnetic sensing board 6 capable of detecting the opening and closing state of atomization with the fourth magnetic attraction area 120.

Example 2

The embodiment is a specific opening and closing method of the lamp atomization component.

First, as shown in fig. 1, the first atomizing sheet assembly 41 and the second atomizing sheet assembly 42 are at initial positions overlapped with each other, and further, as shown in fig. 1 to 8, wherein the first magnetic attraction area 90 of the first slider 411 and the guide pillar magnet 80 are attracted by a magnetic attraction effect, after the motor 5 is turned on, the driving wheel 321 drives the belt 323 to move, the belt 323 drives the second slider 421 to slide, when the protruding portion 40 of the second slider 421 slides to the closed end 60 of the first slider 411, the second slider 421 drives the first slider 411 to move together toward the transparent lens 2, and at this time, the first atomizing sheet assembly 41 and the second atomizing sheet assembly 42 are in an unfolded state. Further, since the second magnetic attraction area 100 of the first slider 411 and the third magnetic attraction area 110 of the second slider 421 attract each other, the positions of the two are relatively fixed and move stably. After the second slider 421 slides to the guide post support 312 at the other end, because the guide post support 312 is provided with the retaining plate 130 for fastening the guide post support and the slide rail, the second slider 421 stops sliding, and because of the magnetic attraction effect of the second slider 421 and the first slider 411, the first slider 411 also stops sliding continuously, so that the first atomizing plate 412 and the second atomizing plate 422 just completely cover the transparent lens 2, and the opening of the atomizing effect is realized.

When the atomization effect needs to be closed, similarly, the motor 5 drives the second slider 421 to move towards the initial position, and due to the magnetic attraction effect of the first slider 411 and the second slider 421, the second slider 421 can drive the first slider 411 to move towards the initial position at the same time. When the first slider 411 is close to the guide post support 312 at the initial position, the first magnetic attraction area 90 of the first slider 411 can attract the guide post magnet 80 of the guide post support 312, at this time, the motor 5 can overcome the magnetic attraction force between the first slider 411 and the second slider 421, and continuously drive the second slider 421 to move towards the initial position, and when the second slider 421 slides to the guide post support 312, or the protrusion 40 of the second slider 421 slides to the opening end 50 of the groove 30 of the first slider 411, the movement is stopped at the position of the detent 70, or the motor stops rotating, so as to close the atomization effect.

Example 3

The embodiment is a specific application of the lamp atomization component.

As shown in fig. 9, a lamp with an openable and closable atomizing assembly includes a lamp holder 200, where the lamp holder is provided with an atomizing assembly 201, a light effect assembly 202, and a light source 203, and when the lamp atomizing assembly needs to be turned on, a motor can be started according to a program, and the lamp atomizing assembly can be turned on or off according to the method described in embodiment 2. The light effect component can comprise components with various light effects, including colors, shapes and the like, and the atomization component provided by the invention is used in lamps with different lamp effects and is within the protection scope of the invention.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention. Those skilled in the art can also make other changes and the like in the design of the present invention within the spirit of the present invention as long as they do not depart from the technical effects of the present invention. Such variations are intended to be included within the scope of the invention as claimed.

Claims (11)

1. The utility model provides a lamps and lanterns atomization component that can open and shut, includes the mainboard and sets up the printing opacity camera lens on the mainboard, its characterized in that, lamps and lanterns atomization component is still including setting up the guide rail device on the mainboard, the multistage atomization piece subassembly that can remove on the guide rail device to and drive guide rail device's motor, adjacent setting between the multistage atomization piece subassembly to can expand on the guide rail device step by step or draw in step by step and stack, just junction between the multistage atomization piece subassembly is equipped with the magnetic attraction district of inter attraction.

2. The lamp atomizing assembly of claim 1, wherein said multi-stage atomizing plate assembly is secured to one another by a snap-fit.

3. The lamp atomizing assembly of claim 1, wherein the guide rail device includes a plurality of stages of guide rail assemblies, each stage of the plurality of stages of atomizing assemblies is disposed on one of the guide rail assemblies and is capable of moving on the corresponding guide rail assembly, and the plurality of stages of atomizing assemblies can move all of the atomizing assemblies on the corresponding guide rail assembly by moving one of the atomizing assemblies.

4. The lamp atomizing assembly of claim 3, wherein the multi-stage atomizing plate assembly at least comprises a first atomizing plate assembly and a second atomizing plate assembly, the multi-stage guide rail assembly at least comprises a first guide rail assembly and a second guide rail assembly, one end of the first atomizing plate assembly is disposed on the first guide rail assembly, one end of the second atomizing plate assembly is disposed on the second guide rail assembly, and the second atomizing plate assembly can move on the second guide rail assembly and drives the first atomizing plate assembly to move on the first guide rail assembly through the movement of the second atomizing plate assembly.

5. A lamp atomization assembly as claimed in claim 4, wherein the first atomization assembly comprises a first slider with a through hole and a first atomization sheet connected with the first slider, the second atomization assembly comprises a second slider with a through hole and a second atomization sheet connected with the second slider, a groove is formed on the upper side of the first slider, and a protrusion matching with the groove is formed on the lower side of the second slider, so that the protrusion of the second slider can be embedded in the groove of the first slider to slide.

6. The lamp atomizing assembly of claim 4, wherein the first slider includes an open end and a closed end, the open end of the first slider further being provided with a detent that prevents the second slider from sliding out of the recess.

7. The lamp atomizing assembly of claim 4, wherein the first guide rail assembly includes a first slide rail passing through the through hole of the first slider and a guide pillar support for fixing two ends of the first slide rail to the main board, the second guide rail assembly includes a driving wheel connected to the motor, a driven wheel, a belt connecting the driving wheel and the driven wheel, and a second slide rail passing through the through hole of the second slider, two ends of the second slide rail are fixed to the guide pillar support, and the second slider is provided with a belt fixing plate, so that when the driving wheel is driven by the motor to rotate, the belt can drive the second slider to move on the second slide rail.

8. A lamp atomizing assembly as defined in claim 6, wherein the guide post holder at one end is provided with a guide post magnet, the first slider is provided at an open end thereof with a first magnetically attracting region magnetically attracting the guide post magnet, the closed end of the first slider is provided with a second magnetically attracting region, and the protruding portion of the second slider is provided with a third magnetically attracting region magnetically attracting the second magnetically attracting region.

9. A lamp atomizing assembly as claimed in claim 4, wherein the recess of the first slider is further provided with a fourth magnetic attraction area, and the main board is provided with a detection magnetic sensing board capable of detecting the atomizing opening/closing state with the fourth magnetic attraction area.

10. A method of opening and closing a lamp atomizing assembly, comprising the lamp atomizing assembly of claim 7, wherein the method of opening and closing the lamp atomizing assembly comprises the steps of:

the atomization opening comprises the following steps:

s1: the second atomization plate assembly is driven by a motor to slide towards the direction of the light-transmitting lens;

s2: the protruding part of the second atomization plate component slides to the closed end of the first sliding block to drive the first atomization plate component to move rightwards; in the sliding process, the third magnetic attraction area of the second sliding block and the second magnetic attraction area of the first sliding block are attracted, so that the sliding synchronization is ensured;

s3: the motor drives the second atomizing sheet assembly to slide rightwards to the guide pillar support, so that the opening action of the atomizing sheet is realized;

the atomization shut-off comprises the following steps:

c1: the motor drives the second atomization sheet component to slide towards one end far away from the light-transmitting lens and drives the first atomization sheet component to slide;

c2: first atomizing piece subassembly slides to the guide pillar support of guide pillar other end to inhale through first magnetism and inhale district and guide pillar magnet magnetism, stop moving:

c3: the motor drives the second atomizing sheet assembly to continuously slide to the guide pillar support towards the end far away from the transparent lens, and the closing action of the atomizing sheet is realized.

11. The method for opening and closing the atomization assembly of the lamp as claimed in claim 10, further comprising the step of detecting the opening and closing state of the atomization sheet by a magnetic sensing plate.

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