CN110794323A

CN110794323A - Lamp assembling and aging device

Info

Publication number: CN110794323A
Application number: CN201911190175.2A
Authority: CN
Inventors: 李剑; 郭群涛; 贺志民; 郭庆水
Original assignee: Shenzhen Ex Lighting Technology Holdings Co Ltd
Current assignee: Shenzhen Ex Lighting Technology Holdings Co Ltd
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-02-14

Abstract

The embodiment of the invention provides a lamp assembling and aging device, which comprises an aging detection cabinet and a plurality of supporting plates, wherein one side of the aging detection cabinet is provided with an opening for taking and placing materials, the plurality of supporting plates are arranged in the aging detection cabinet in a layered mode, the plurality of supporting plates are respectively and movably placed on the corresponding supporting plates, the lamp assembling and aging device comprises a rack which is movably close to the outer side of the opening of the aging detection cabinet and takes a preset height position as an assembling station, and a two-dimensional carrying mechanism which is assembled on the rack and used for taking out the supporting plates on the supporting plates in the aging detection cabinet one by one through the opening and sending the supporting plates to the assembling station for assembling lamp strings, and sending the supporting plates with the lamp strings assembled at the assembling station back to the supporting plates through the opening. In the embodiment, the rack is arranged on the outer side of the opening of the aging detection cabinet, the aging detection cabinet can store light strings and can age the light strings after the light strings are assembled, and the occupied space can be effectively reduced during the assembly and aging test of the lamp.

Description

Lamp assembling and aging device

Technical Field

The embodiment of the invention relates to the technical field of lamp storage, in particular to a lamp assembling and aging device.

Background

The existing landscape lamp is a lamp string formed by connecting a plurality of lamp monomers in series, the lamp string is generally long, when the lamp string is assembled, each lamp monomer can only be linearly unfolded due to the fact that the lamp monomer cannot be extruded, so that the corresponding assembly table surface is also long, and if the plurality of lamp strings are assembled at the same time, the occupied area is very large; in addition, the aging test is usually carried out after the lamp string is assembled, however, the existing aging detection equipment is independent from the assembly table, and the lamp string repeatedly occupies space during the front and back carrying processes.

Disclosure of Invention

The technical problem to be solved by the embodiment of the invention is to provide a lamp assembling and aging device, which can effectively reduce the occupied space during lamp assembling and aging test.

In order to solve the above technical problem, an embodiment of the present invention provides the following technical solutions: the utility model provides a lamps and lanterns equipment and aging device, include be equipped with the open ageing detection cabinet that supplies to get the blowing and install with the layering in a plurality of bearing plates in the ageing detection cabinet, the inside multilayer bedplate frame that is provided with of ageing detection cabinet, a plurality of bearing plates are placed on corresponding bedplate frame movably respectively, lamps and lanterns equipment and aging device still include movably the next-door neighbour set up in the open outside of ageing detection cabinet and use predetermined altitude position as the frame of equipment station and assemble in be used for in the frame with the bearing plate on each bedplate frame is gradually via the uncovered is taken out and is delivered to the equipment station for the equipment lamp cluster and with the bearing plate via again that the equipment station department has assembled the lamp cluster the uncovered two-dimensional transport mechanism that sends back on the corresponding bedplate frame.

Furthermore, the two-dimensional carrying mechanism comprises a bracket for bearing the supporting plate, a material taking part assembled on the bracket and used for taking and placing the supporting plate, a vertical lifting module for driving the bracket to move up and down, and a transverse displacement module fixed on the bracket and used for driving the material taking part to enter and exit the aging detection cabinet through the opening.

Furthermore, vertical lifting module includes that two groups locate stand, two sets of slidable respectively overlap the slider and the drive of locating on corresponding a set of stand that frame both ends the slider is followed the first linear power component that the stand goes up and down, the both ends of bracket are fixed in respectively on a set of slider that corresponds.

Furthermore, the transverse displacement module comprises a guide rod fixed on the bracket, a sliding seat slidably sleeved on the guide rod and a second linear power assembly driving the sliding seat to slide back and forth along the guide rod, and the material taking part is fixed on the sliding seat.

Furthermore, the whole bearing plate is made of a magnetic adsorption material or a magnetic adsorption material block is fixedly arranged at a preset position, and the material taking part is an electromagnet.

Further, the lamp assembling and aging device further comprises a controller for controlling the material taking part, the vertical lifting module and the transverse displacement module to cooperatively operate.

Further, the first linear power assembly comprises a first rotary power member and a first transmission module for converting the rotary power output by the first rotary power member into linear power.

Furthermore, the second linear power assembly comprises a second rotary power piece and a second transmission module for converting the rotary power output by the second rotary power piece into linear power.

Furthermore, the platen frames in the aging detection cabinet are arranged in parallel to divide the internal space of the aging detection cabinet into a plurality of layers of storage areas, a bearing plate is placed in each layer of storage area, a limit baffle is further arranged on one side, away from the opening, of each layer of storage area, an induction switch extending towards the internal direction of the storage area is further arranged on the bearing plate, and the induction switch is triggered by the limit baffle to generate an in-place signal and send the signal to the controller.

Furthermore, each bearing plate is correspondingly provided with a power supply module for supplying power to the lamp strings on the bearing plate.

After the technical scheme is adopted, the embodiment of the invention at least has the following beneficial effects: in the embodiment of the invention, the rack with the preset height position as the assembly station is movably arranged outside the opening of the aging detection cabinet, the bearing plates on the table plate frames in the aging detection cabinet can be taken out one by one through the opening and sent to the assembly station for assembling the lamp strings through the two-dimensional carrying mechanism assembled on the rack, and the bearing plates assembled with the lamp strings at the assembly station are sent back to the corresponding table plate frame through the opening; moreover, the rack is movable, and when the aging detection device is specifically implemented, the rack assembled with the two-dimensional carrying mechanism can be conveniently and flexibly moved to the opening of each aging detection cabinet in sequence to carry out the assembly operation of the light string, so that the assembly efficiency is improved, and the defects that special transfer equipment is required to be adopted, the space is occupied and the efficiency is low in the assembled light string transfer process are overcome.

Drawings

Fig. 1 is a schematic perspective view of an alternative embodiment of a lamp assembling and aging apparatus according to the present invention.

Fig. 2 is a schematic structural view of an aging detection cabinet and a rack of an alternative embodiment of the lamp assembling and aging apparatus of the present invention.

Fig. 3 is a partially enlarged view of a degradation detection cabinet of an alternative embodiment of the lamp assembling and degradation device of the present invention at a point a in fig. 2.

Fig. 4 is a schematic structural diagram of a vertical lifting module according to an alternative embodiment of the lamp assembling and aging apparatus of the present invention.

Fig. 5 is a schematic structural diagram of a lateral displacement module according to an alternative embodiment of the lamp assembling and aging apparatus of the present invention.

Detailed Description

The present application will now be described in further detail with reference to the accompanying drawings and specific examples. It should be understood that the following illustrative embodiments and description are only intended to explain the present invention, and are not intended to limit the present invention, and features of the embodiments and examples in the present application may be combined with each other without conflict.

As shown in fig. 1 to 3, an alternative embodiment of the present invention provides a lamp assembling and aging apparatus, which includes an aging detection cabinet 1 having an opening 10 for material taking and placing on one side thereof and a plurality of support plates 12 installed in the aging detection cabinet 1 in layers, a plurality of layers of bedplate frames 14 are arranged in the aging detection cabinet 1, the plurality of bearing plates 12 are respectively and movably arranged on the corresponding bedplate frames 14, the lamp assembling and aging device further comprises a rack 3 which is movably and closely arranged outside the opening 10 of the aging detection cabinet 1 and takes a preset height position as an assembling station, and a two-dimensional carrying mechanism 5 which is assembled on the rack 3 and used for taking out the bearing plates 12 on the table board frames 14 in the aging detection cabinet 1 one by one through the opening 10 and sending the bearing plates 12 to the assembling station for assembling the lamp string, and sending the bearing plates 12 with the assembled lamp string at the assembling station back to the corresponding table board frames 14 through the opening 10.

In the embodiment of the invention, the rack 3 with the preset height position as the assembling station is movably arranged outside the opening 10 of the aging detection cabinet 1, and the bearing plates 12 on each platform frame 14 in the aging detection cabinet 1 can be taken out one by one through the opening 10 and sent to the assembling station for assembling the lamp strings through the two-dimensional carrying mechanism 5 assembled on the rack 3, and the bearing plates 12 with the lamp strings assembled at the assembling station are sent back to the corresponding platform frame 14 through the opening 10, so that the aging detection cabinet 1 can store the lamp strings to be assembled on one hand, and can immediately perform the aging test of the lamp strings after the lamp strings are assembled on the other hand, the space is recycled, and the occupied space can be effectively reduced during the lamp assembly and the aging test; moreover, the rack 3 is movable, and in specific implementation, the rack 3 assembled with the two-dimensional carrying mechanism 5 can be conveniently and flexibly moved to the open openings 10 of the aging detection cabinets 1 in sequence to carry out the assembly operation of the light strings, so that the assembly efficiency is improved, and the defects of special transfer equipment, space occupation and low efficiency in the assembled light string transfer process are avoided.

In another optional embodiment of the present invention, the two-dimensional carrying mechanism 5 includes a bracket 50 for carrying the support plate 12, a material taking member 52 assembled on the bracket 50 for taking and placing the support plate 12, a vertical lifting module 54 for driving the bracket 50 to move up and down, and a lateral displacement module 56 fixed on the bracket 50 for driving the material taking member 52 to enter and exit the aging testing cabinet 1 through the opening 10. In the embodiment of the invention, the vertical lifting module 54 drives the bracket 50 to move up and down, and the transverse displacement module 56 drives the material taking part 52 to enter and exit the opening 10, so that the structure is simpler, and the supporting plate 12 can be smoothly taken and placed.

In an optional embodiment of the present invention, the vertical lifting module 54 includes two sets of uprights 541 disposed at two ends of the frame 3, two sets of sliders 543 slidably sleeved on the corresponding set of uprights 541, and a first linear power assembly 545 driving the sliders 543 to lift along the uprights 541, and two ends of the bracket 50 are fixed to the corresponding set of sliders 543, respectively. In the embodiment, the two sets of first linear power assemblies 545 drive the sliders 543 to ascend and descend along the vertical posts 541, and the two ends of the bracket 50 are respectively fixed on the corresponding set of sliders 543, so that the ascending and descending of the supporting plate 12 are more stable, and the structure is relatively simple.

In yet another alternative embodiment of the present invention, the lateral displacement module 56 includes a guide rod 561 fixed on the bracket 50, a sliding seat 563 slidably sleeved on the guide rod 561, and a second linear power assembly 565 for driving the sliding seat 563 to slide back and forth along the guide rod 561, wherein the material fetching member 52 is fixed on the sliding seat 563. In this embodiment, the second linear power assembly 565 drives the sliding seat 563 to slide back and forth along the guide rod 561, so as to fix the material taking member 52 on the sliding seat 563, thereby effectively achieving the taking and placing of the supporting plate 12.

In an alternative embodiment of the present invention, the supporting plate 12 is made of a magnetic material or is fixedly provided with a magnetic material block at a predetermined position, and the material taking member 52 is an electromagnet. In this embodiment, the material taking member 52 is an electromagnet, when the electromagnet is energized to generate magnetic force to magnetically attract the supporting plate 12, the supporting plate 12 is taken out of the aging detection cabinet 1 under the driving of the second linear power assembly 565, and when the electromagnet is de-energized, the supporting plate 12 is abutted against the supporting plate 12 under the driving of the second linear power assembly 565 to push the supporting plate 12 into the aging detection cabinet 1, so that the structure is very simple, and the taking and placing of the supporting plate 12 are also convenient. In specific implementation, the material taking part 52 can also be realized in the form of sucking the support plate 12 by a sucking disc or clamping the support plate 12 by a clamp.

In another optional embodiment of the present invention, the lamp assembling and aging device further includes a controller 7 for controlling the material taking member 52, the vertical lifting module 54 and the transverse displacement module 56 to work cooperatively. In the embodiment of the invention, the controller 7 is used for controlling the material preparing part 52, the vertical lifting module 54 and the transverse displacement module 56 to cooperatively work, and when an assembler finishes assembling the lamp string to be assembled or the lamp string on the bearing plate 12, the controller 7 can be used for directly controlling the lamp string to be assembled, so that the operation is more convenient.

In yet another alternative embodiment of the present invention, the first linear power assembly 545 comprises a first rotary power member 5451 and a first transmission module 5453 for converting the rotary power output from the first rotary power member 5451 into linear power. In this embodiment, the first transmission module 5453 is matched with the first rotary power piece 5451, so that the linear power can be effectively output. In specific implementation, the first rotary power member 5451 may be a motor or a rotary cylinder, and in the embodiment shown in fig. 4, a motor is used.

In the embodiment shown in fig. 4, the first transmission module 5453 includes a driving gear 5453a fixed to the output end of the first rotary power member 5451, a first transmission rod 5453b, a driven gear 5453c fixed to the first transmission rod 5453b and engaged with the driving gear 5453a, a second transmission rod 5453d, a first bevel gear 5453e and a second bevel gear 5453f engaged with each other and fixed to the first transmission rod 5453b and the second transmission rod 5453d, a first transmission pulley 5453g and a second transmission pulley 5453h fixed to the bottom end of the bracket 3 and the top end of the bracket 3, respectively, and a first transmission belt 5453i wound around the first transmission pulley 5453g and the second transmission pulley 5453h, wherein the rotation axes of the first bevel gear 5453e and the second bevel gear 5453f are perpendicular to each other, and the slider 543 is fixedly connected to the first transmission belt 5453 i.

In yet another alternative embodiment of the present invention, the second linear power assembly 565 includes a second rotary power member 5651 and a second transmission module 5653 for converting the rotary power outputted from the second rotary power member 5651 into linear power. In the embodiment, the second transmission module 5653 is matched with the second rotating power piece 5651, so that the linear power can be effectively output. In a specific implementation, the second rotary power member 5651 may be a motor or a rotary cylinder, and in the embodiment shown in fig. 5, a motor is used.

In the embodiment shown in fig. 5, the second transmission module 5653 includes a third conical gear 5653a and a fourth conical gear 5653b which are engaged with each other and have rotation axes perpendicular to each other, a third transmission pulley 5653c and a fourth transmission pulley 5653d which are fixed to the bracket 50 and close to the opening 10 and far from both ends of the opening 10, respectively, a second transmission belt 5653e wound around the third transmission pulley 5653c and the fourth transmission pulley 5653d, the third conical gear 5653a and the fourth conical gear 5653b are fixedly connected to the third transmission pulley 5453c and the output end of the second rotary power member 5651, respectively, and the sliding seat 563 is fixedly connected to the second transmission belt 5653 e.

In another optional embodiment of the present invention, the rack supports 14 fixed in the aging testing cabinet 1 are arranged in parallel to each other to divide the internal space of the aging testing cabinet 1 into multiple layers of receiving areas 18, a supporting plate 12 is placed in each layer of receiving area 18, a limit baffle 19 is further disposed on one side of each layer of receiving area 18 away from the opening 10, a sensing switch 121 extending towards the internal direction of the receiving area 18 is further disposed on the supporting plate 12, and the sensing switch 121 is triggered by the limit baffle 19 to generate a position signal and send the position signal to the controller 7. The embodiment of the invention further provides the limit baffle 19, and the limit baffle 19 is matched with the inductive switch 121, so that the controller 7 can control the material taking piece 52, the vertical lifting module 54 and the transverse displacement module 56 to be matched with each other according to a preset control logic, the actions of taking out and putting back the bearing plates 12 are completed, the placing positions of the bearing plates 12 on the corresponding platform frame 14 can be ensured to be relatively consistent, and the taking and the placing are convenient.

In another alternative embodiment of the present invention, a power module 123 for supplying power to the string of lights on the support plate 12 is further correspondingly assembled on each support plate 12. In the embodiment of the present invention, the power supply module 123 is correspondingly assembled on each support plate 12, so that complicated wiring is avoided, the layout is optimized, and the power supply modules 123 with different specifications can be specifically arranged according to the specific light string type of each support plate 12.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a lamps and lanterns equipment and ageing device, include that one side is equipped with the open ageing detection cabinet that supplies to get the blowing and install in with the layering a plurality of bearing plate in the ageing detection cabinet, its characterized in that, ageing detection cabinet is inside to be provided with multilayer platform board frame, a plurality of bearing plate are respectively placed on corresponding platform board frame movably, lamps and lanterns equipment and ageing device still include movably the next-door neighbour set up in the open outside of ageing detection cabinet and use predetermined altitude position as the frame of equipment station and assemble in be used for in the frame with the bearing plate on each platform board frame is via gradually the uncovered is taken out and is delivered to the equipment station for the equipment lamp cluster and with the bearing plate that the lamp cluster has been assembled to equipment station department via the two-dimensional transport mechanism on the platform board frame that the uncovered is sent back to corresponding.

2. The lamp assembling and aging device according to claim 1, wherein the two-dimensional carrying mechanism includes a bracket for carrying the support plate, a material taking member assembled on the bracket for taking and placing the support plate, a vertical lifting module for driving the bracket to move up and down, and a lateral displacement module fixed on the bracket for driving the material taking member to enter and exit the aging detection cabinet through the opening.

3. The lamp assembling and aging device according to claim 2, wherein the vertical lifting module includes two sets of posts disposed at two ends of the frame, two sets of sliders slidably sleeved on the corresponding set of posts, and a first linear power assembly driving the sliders to lift along the posts, and two ends of the bracket are fixed on the corresponding set of sliders.

4. The lamp assembling and aging device of claim 2, wherein the lateral displacement module comprises a guide rod fixed on the bracket, a sliding seat slidably sleeved on the guide rod, and a second linear power assembly driving the sliding seat to slide back and forth along the guide rod, and the material-taking member is fixed on the sliding seat.

5. The lamp assembling and aging device according to claim 2 or 4, wherein the supporting plate is made of a magnetic material or a magnetic material block is fixedly arranged at a predetermined position, and the material taking member is an electromagnet.

6. The lamp assembling and aging device according to claim 2, further comprising a controller that controls the material taking member, the vertical lifting module, and the lateral displacement module to cooperatively operate.

7. The lamp assembling and aging device of claim 3, wherein the first linear power assembly comprises a first rotary power member and a first transmission module for converting the rotary power output by the first rotary power member into linear power.

8. The lamp assembling and aging device of claim 4, wherein the second linear power assembly comprises a second rotary power member and a second transmission module for converting the rotary power output by the second rotary power member into linear power.

9. The lamp assembling and aging device according to claim 6, wherein the platen frames in the aging detection cabinet are arranged in parallel to each other to divide the internal space of the aging detection cabinet into multiple storage areas, a support plate is placed in each storage area, a limit baffle is further disposed on one side of each storage area away from the opening, a sensor switch extending towards the inside of the storage area is further disposed on the support plate, and the sensor switch is triggered by the limit baffle to generate a position signal and send the position signal to the controller.

10. The lamp assembling and aging device of claim 1, wherein each of the support plates is further assembled with a power module for supplying power to the string lights thereon.