A luminaire assembly apparatus
By integrating turntable modules and process modules, the lighting assembly equipment solves the problem of manual labor dependence in traditional lighting production, realizes efficient and low-cost semi-automated production, and improves production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG NVC LAMPS
- Filing Date
- 2025-07-08
- Publication Date
- 2026-07-10
AI Technical Summary
Traditional lighting production relies heavily on manual labor, resulting in low production efficiency, high labor costs, difficulty in ensuring consistent product quality, and complex processes that cannot meet high-quality requirements.
Design a lighting assembly equipment that integrates multiple processes on the periphery of the first table through turntable modules and process modules, including brightness measurement, pressure resistance testing, rejection, positioning, riveting, flipping, dispensing, cover application, and cleaning mechanisms, to achieve semi-automated production.
This significantly improved production efficiency, increasing it from 1200 pieces/hour to 1500 pieces/hour, reducing the defect rate to below 0.5%, and ensuring the stability and consistency of product quality.
Smart Images

Figure CN224475847U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting manufacturing technology, specifically to a lighting assembly equipment. Background Technology
[0002] In the actual operation of lamp manufacturing, the following shortcomings exist;
[0003] Firstly, traditional lighting production methods rely heavily on manual labor, resulting in low production efficiency and high labor costs.
[0004] Secondly, when assembling lamps by hand, product quality is easily affected by the worker's skill level and working condition, making it difficult to guarantee consistency.
[0005] In addition, manual operation has limitations in complex processes, such as precise component installation and delicate wiring connections, making it difficult to meet the growing market demand and the requirements for high-quality lighting fixtures.
[0006] Therefore, it is essential to develop a high-efficiency, low-cost lighting assembly equipment. Utility Model Content
[0007] The purpose of this utility model is to provide a lamp assembly equipment. This equipment integrates multiple processes in a ring around the periphery of the first table, which reduces the number of workers and significantly improves work efficiency.
[0008] To achieve the above objectives, this utility model provides the following technical solution: a lamp assembly device, the lamp body including a lampshade and a lamp holder, wherein the lamp holder is composed of a lamp cup and a lamp head, the assembly device including: a first table; a turntable module disposed on the first table, the turntable module including a first driving rotating seat installed in the middle of the first table, the first platform having a fixed output end of the first driving rotating seat; a first through hole annularly opened on the first platform for placing a plurality of lamp holders one by one; and a process module disposed on the first table; the process module including a brightness measuring mechanism, a pressure resistance testing mechanism, a first rejection mechanism, a positioning mechanism, a riveting mechanism, and a flipping mechanism arranged sequentially along the running direction of the turntable module, for performing lighting tests, pressure resistance tests, screening of defective products, angle positioning, riveting, and up-and-down flipping on the lamp holders in the first through hole; and further including a dispensing assembly, a cover mounting mechanism, and a cleaning mechanism arranged sequentially after the flipping mechanism and annularly distributed, for applying silicone glue, installing the lampshade, and dry ice cleaning on the flipped lamp holders.
[0009] Preferably, the diameter of each of the first through holes is larger than the diameter of the lamp head but smaller than the diameter of the lamp cup.
[0010] Preferably, a gap is left on the first platform between the brightness measuring mechanism and the cleaning mechanism for loading the lamp holder.
[0011] Preferably, the brightness testing mechanism includes an E-type power supply base mounted on the first table body, and a brightness tester is mounted on the E-type power supply base; the withstand voltage testing mechanism includes an E-type power supply base fixed to the first table body, and a withstand voltage tester is mounted on the E-type power supply base, wherein the brightness tester and the withstand voltage tester are both aligned with the first through hole below them.
[0012] Preferably, the first rejection mechanism includes a screening drive arm mounted on the first table body; the positioning mechanism includes a support mounted on the surface of the first table body and positioned below the screening drive arm, wherein a CCD positioning device is provided on the support, and the CCD positioning device and the operating end of the screening drive arm are both aligned with the first through hole below it.
[0013] Preferably, the riveting mechanism includes an E-riveting lamp head and an E-riveting lamp head mounted on the surface of the first table body, wherein the E-riveting lamp head and the E-riveting lamp head occupy two work positions and are respectively aligned with two first through holes below them; the flipping mechanism includes an assembly base disposed on the surface of the first table body, and a flipping operating arm is mounted on the assembly base.
[0014] Preferably, the dispensing assembly includes a dispensing device mounted on the surface of the first table body; a second rejection mechanism disposed on the surface of the first table body; and an AOI visual inspection instrument disposed on the second rejection mechanism and aligned with the first through hole.
[0015] Preferably, the second rejection mechanism includes a first electric telescopic rod, the output end of which is fixed to a first electric slide rail; a first electric slider slidably mounted on the first electric slide rail; and a first suction head disposed at the bottom of the first electric slider, with the suction end of the first suction head aligned with a first through hole below it.
[0016] Preferably, the upper cover mechanism includes a lampshade conveying rail that is inclinedly fixed to the surface of the first table body for placing the lampshade; the surface of the first table body is also provided with a first suction rack assembly, the first suction rack assembly includes a bracket, the top of the bracket is provided with a second electric slide rail; a second electric slider is provided on the surface of the second electric slide rail and can slide horizontally, the bracket is also provided with a second electric telescopic rod; and a second suction head is installed on the telescopic end of the second electric telescopic rod for transferring and installing the lampshade.
[0017] Preferably, the cleaning mechanism includes a second adsorption rack assembly disposed on the surface of the first table body and identical to the first adsorption rack assembly; a transfer frame mounted on the surface of the first table and positioned below the second electric slide rail where the second adsorption rack assembly is located; and a support leg, on which a transfer rail connected to the first table body is fixed, wherein one end of the transfer rail is connected to the end of the transfer frame away from the first table, and the other end is fixed to the second table body; a second rotating seat is disposed on the surface of the second table body; a second table surface disposed at the output end of the second rotating seat, wherein a second through hole is annularly formed on the second table surface; and a first dry ice cleaner and a second dry ice cleaner disposed on the surface of the second table body and aligned with the second through hole, for cleaning the lamps built into the second through hole; and further includes a third adsorption rack assembly and a discharge frame disposed on the surface of the second table body, wherein the third adsorption rack assembly has the same structure as the second adsorption rack assembly, and the discharge frame is positioned below the second electric slide rail where the third adsorption rack assembly is located.
[0018] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0019] This utility model features a turntable module and a process module. The process module is arranged along the rotation direction of the first table surface, including a brightness measuring mechanism, a pressure resistance testing mechanism, a first rejection mechanism, a positioning mechanism, a riveting mechanism, a flipping mechanism, a dispensing assembly, a cover-up mechanism, and a cleaning mechanism. By integrating multiple processes in a ring around the periphery of the first table surface, the number of manual workers is reduced while work efficiency is significantly improved. Attached Figure Description
[0020] Figure 1 This is a first-view perspective three-dimensional structural diagram of the present invention;
[0021] Figure 2 This is a second-view perspective three-dimensional structural diagram of the present invention;
[0022] Figure 3 This is a third-view three-dimensional structural diagram of the present invention;
[0023] Figure 4 This is a top view of the structure of this utility model;
[0024] Figure 5 This is a front view structural diagram of the present utility model;
[0025] Figure 6 for Figure 1 A partially enlarged structural diagram;
[0026] Figure 7 for Figure 2 A partially enlarged structural diagram.
[0027] In the diagram: 111, First table body; 1121, First drive rotating base; 1122, First tabletop; 1123, First through hole; 113, Brightness measuring mechanism; 1131, E26 power socket; 1132, Brightness meter; 114, Withstand voltage testing mechanism; 1141, E17 power socket; 1142, Withstand voltage meter; 115, Positioning mechanism; 1151, Support; 1152, CCD positioning device; 116, Screening drive arm; 117, E26 riveting lamp head; 118, E17 riveting lamp head; 119, Flipping mechanism; 1191, Assembly base; 1192, Flipping operating arm; 120, Dispensing equipment; 121, Second rejection mechanism; 1211, First electric telescopic rod; 12 12. First electric slide rail; 1213. First electric slider; 1214. First suction head; 122. Recycling frame; 123. Upper cover mechanism; 1231. Support; 1232. Second electric slider; 1233. Second electric telescopic rod; 1234. Second suction head; 1235. Second electric slide rail; 124. Lampshade conveyor rail; 125. Second suction rack assembly; 126. Transfer frame; 127. Support leg; 128. Transfer track; 129. Second table body; 130. Third suction rack assembly; 131. Second rotating seat; 132. Second tabletop; 133. Second through hole; 134. Unloading frame; 135. First dry ice cleaner; 136. Second dry ice cleaner. Detailed Implementation
[0028] In the description of this utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. The various embodiments of this utility model are described in detail below with reference to the accompanying drawings.
[0029] Please see Figures 1 to 7The present invention preferably provides the following technical solution: the lamp body includes a lampshade and a lamp holder, wherein the lamp holder is composed of a lamp cup and a lamp head; the assembly equipment includes: a first table 111; a turntable module disposed on the first table 111, the turntable module including a first drive rotating seat 1121 installed in the middle of the first table 111, a first platform 1122 fixed at the output end of the first drive rotating seat 1121; a first through hole 1123 annularly opened on the first platform 1122 for placing a plurality of lamp holders; and a process module disposed on the first table 111; The sequence module includes a brightness testing mechanism 113, a pressure testing mechanism 114, a first rejection mechanism, a positioning mechanism 115, a rivet mechanism, and a flipping mechanism 119 arranged sequentially along the running direction of the turntable module. These mechanisms are used to perform lighting tests, pressure tests, screening of defective products, angle positioning, rivet pin installation, and up-and-down flipping on the lamp holders in the first through hole 1123. The module also includes a dispensing assembly, a cover mechanism 123, and a cleaning mechanism arranged in a ring after the flipping mechanism 119. These mechanisms are used to apply silicone sealant to the flipped lamp holders, install the lamp cover, and perform dry ice cleaning.
[0030] The existing lamp manufacturing process is known to be: install driver - install heat-conducting plate - press heat-conducting plate - install lamp head - apply thermal grease - install light source board - tighten screws - weld power cord - lighting test - rivet pins - apply silicone sealant - install PC cover - weld lamp head wire - dry ice cleaning - aging - withstand voltage test - lighting test - packaging. All of the above processes are completed manually and require approximately 31 people.
[0031] This application addresses the shortcomings of traditional lighting production methods, which rely heavily on manual labor, resulting in low production efficiency and high labor costs. It designs a lighting assembly equipment that semi-automates processes such as lighting testing, pressure resistance testing, defective product screening, angle positioning (including rotation), pinning, silicone sealant application, AOI visual inspection, PC cover installation, and dry ice cleaning. This process requires only two workers, and automation significantly improves production efficiency, solving bottleneck processes. The overall line efficiency is increased from 1200 pieces / hour to 1500 pieces / hour. Furthermore, product quality is guaranteed; through precise mechanical operation and rigorous testing procedures, the defect rate is reduced to below 0.5%, and product quality stability is greatly improved.
[0032] Specific combination Figure 1 , 2 As shown in Figures 3 and 4, a turntable module and a process module are respectively assembled in the middle and on the outer periphery of the first table body 111. The turntable module is mounted on the first table surface 1122, which is installed at the output end of the first drive rotary base 1121 and realizes the rotation operation. The first through hole 1123 opened on the surface of the first table surface 1122 is used for the inversion of the lamp holders. Figure 6 As shown, this is to facilitate the continuous transport of several lamp holders;
[0033] The process module is arranged in sequence along the rotation direction of the first table 1122, including a brightness measuring mechanism 113, a pressure resistance testing mechanism 114, a first rejection mechanism, a positioning mechanism 115, a riveting mechanism, a flipping mechanism 119, a dispensing assembly, a cover mounting mechanism 123, and a cleaning mechanism. By integrating multiple processes in a ring around the periphery of the first table 1122, the number of manual workers is reduced while work efficiency is significantly improved.
[0034] Furthermore, the diameter of each first through hole 1123 is larger than the diameter of the lamp head but smaller than the diameter of the lamp cup.
[0035] like Figure 6 , 7 As shown, the lamp holder is composed of lamp cups and lamp heads distributed vertically. Before running to the flipping mechanism 119, the lamp holder is inverted and the lamp head is placed above the lamp cup so that the lamp head can be tested for brightness and pressure and the lamp head pins can be tightened. In subsequent processing, silicone glue needs to be applied to the lamp cup. Then the flipping mechanism 119 flips the lamp holder. At this time, the diameter of the first through hole 1123 is used for the support of the lamp cup and the passage of the lamp head.
[0036] Furthermore, a gap is left on the first platform 1122 between the brightness measuring mechanism 113 and the cleaning mechanism for loading the lamp holder, such as... Figure 6 As shown, space is reserved for manual filling of lamp cups.
[0037] Furthermore, the brightness measuring mechanism 113 includes an E26 power supply base 1131 mounted on the first table 111, and a brightness measuring instrument 1132 is mounted on the E26 power supply base 1131; the withstand voltage testing mechanism 114 includes an E17 power supply base 1141 fixed to the first table 111, and a withstand voltage instrument 1142 is mounted on the E17 power supply base 1141, wherein the brightness measuring instrument 1132 and the withstand voltage instrument 1142 are both aligned with the first through hole 1123 below them; furthermore, the first rejection mechanism includes a screening drive arm 116 mounted on the first table 111; the positioning mechanism 115 includes a support 1151 mounted on the surface of the first table 111 and positioned below the screening drive arm 116, wherein a CCD positioning device 1152 is provided on the support 1151, wherein the CCD positioning device 1152 and the operating end of the screening drive arm 116 are both aligned with the first through hole 1123 below them.
[0038] Combination Figure 1 , 2As shown in Figures 3, 6, and 7, the 1132 brightness meter is an instrument that measures the brightness, chromaticity, and related optical parameters of an object's surface using optical principles. Its core technical parameters include spectral range, resolution, and gain level. The 1142 withstand voltage meter, also known as a withstand voltage tester, is a specialized instrument used to test the voltage withstand capability of electrical devices, insulating materials, and structures. It includes various models such as power frequency withstand voltage testers and programmable insulation withstand voltage testers. The 1152 CCD positioning device is a high-tech inspection device based on an industrial computer, mainly used for the identification, positioning, and quality inspection of precision-machined products in industrial production. Its core consists of a CCD image sensor, an image processing unit, and a programmable interface. It converts optical images into electrical signals and performs digital processing to classify and locate target objects. These are all existing mature technologies. The microcontroller inside the device receives the detection signals emitted by the brightness meter 1132 and the withstand voltage meter 1142 and controls the operation of the first rejection mechanism to remove defective products. Products that meet the standards can be CCD positioned by the CCD positioning device 1152 to provide an accurate position for subsequent injection.
[0039] Furthermore, the riveting mechanism includes E26 riveting lamp heads 117 and E17 riveting lamp heads 118 mounted on the surface of the first table body 111, wherein the E26 riveting lamp heads 117 and E17 riveting lamp heads 118 occupy two work positions and are respectively aligned with the two first through holes 1123 below them; the flipping mechanism 119 includes an assembly base 1191 disposed on the surface of the first table body 111, and a flipping operating arm 1192 is mounted on the assembly base 1191;
[0040] Furthermore, the dispensing assembly includes a dispensing device 120 mounted on the surface of the first table body 111; a second rejection mechanism 121 disposed on the surface of the first table body 111; and an AOI visual inspection instrument disposed on the second rejection mechanism 121 and aligned with the first through hole 1123.
[0041] Furthermore, the second rejection mechanism 121 includes a first electric telescopic rod 1211, the output end of which is fixed to a first electric slide rail 1212; a first electric slider 1213 slidably mounted on the first electric slide rail 1212; and a first suction head 1214 disposed at the bottom of the first electric slider 1213, with the suction end of the first suction head 1214 aligned with the first through hole 1123 below it; a recycling frame 122 is also disposed on the first table body 111.
[0042] The E26 riveting lamp head 117, E17 riveting lamp head 118, flipping operating arm 1192, dispensing equipment 120, and AO I visual inspection instrument on the second rejection mechanism 121 are arranged sequentially along the rotation direction of the first table 1122. They can respectively realize the inspection of the riveting pins, silicone glue application, and glue application of the lamp cup. The existing AO I visual inspection instrument is a visual inspection device applied to the surface mount technology (SMT) production line. Its core technology adopts feature vector analysis method and vector imaging technology. It defines the shape of the component through geometric information and adapts to complex scenarios such as component rotation and lighting changes. With a detection accuracy of ±0.02°, it can detect the silicone glue application on the lamp cup below it. If the application meets the standard, the subsequent cover operation continues. If the application does not meet the standard, the first electric telescopic rod 1211 and the first electric slider 1213 of the second rejection mechanism 121 move longitudinally and laterally to realize the rejection operation.
[0043] Furthermore, the upper cover mechanism 123 includes a lampshade conveying rail 124 that is inclinedly fixed to the surface of the first table body 111 for placing the lampshade; the surface of the first table body 111 is also provided with a first suction rack assembly, which includes a bracket 1231, a second electric slide rail 1235 on the top of the bracket 1231; a second electric slider 1232 that is disposed on the surface of the second electric slide rail 1235 and can slide horizontally; a second electric telescopic rod 1233 is also provided on the bracket 1231; and a second suction head 1234 installed at the telescopic end of the second electric telescopic rod 1233 for transferring and installing the lampshade.
[0044] Here as Figure 1 , 6 As shown, the lampshade built into the lampshade conveyor rail 124 needs to be placed manually, while the lampshade can be picked up and put down through the first suction rack assembly. When the second electric slider 1232 and the second electric telescopic rod 1233, where the first suction rack assembly is located, move horizontally and vertically, the second suction head 1234 can pick up and put down the lampshade.
[0045] Further, the cleaning mechanism includes a second suction rack assembly 125 disposed on the surface of the first table body 111 and identical to the first suction rack assembly; a transfer frame 126 mounted on the surface of the first tabletop 1122 and positioned below the second electric slide rail 1235 where the second suction rack assembly 125 is located; and a support leg 127, on which a transfer rail 128 connected to the first table body 111 is fixed, wherein one end of the transfer rail 128 is connected to the end of the transfer frame 126 away from the first tabletop 1122, and the other end is fixed to the second table body 129; a second rotating seat 131 is disposed on the surface of the second table body 129; A second table 132 is placed at the output end of the second rotary table 131, and a second through hole 133 is provided in a ring on the second table 132; a first dry ice cleaner 135 and a second dry ice cleaner 136 are provided on the surface of the second table body 129 and aligned with the second through hole 133 for cleaning the lamps built into the second through hole 133; it also includes a third adsorption rack assembly 130 and a feeding frame 134 provided on the surface of the second table body 129, wherein the third adsorption rack assembly 130 has the same structure as the second adsorption rack assembly 125, and the feeding frame 134 is placed below the second electric slide rail 1235 where the third adsorption rack assembly 130 is located.
[0046] When the lamp is basically assembled, the second suction rack assembly 125, which is the same as the first suction rack assembly, can transfer the lamp moved below it to the inside of the transfer frame 126 and the transfer track 128. Then the transfer track 128 moves the lamp to the position of the second table 129. At this time, the lamp is placed in the second through hole 133 opened on the second table surface 132 by hand, and the first dry ice cleaner 135 and the second dry ice cleaner 136 are driven to run, so as to remove the flux residue of the welding lamp head by using dry ice cleaning. After the cleaning is completed, the third suction rack assembly 130 realizes the transfer and unloading operation of the lamp.
[0047] It is worth noting that staff are required to be stationed at the material loading space and the cleaning mechanism. Due to the length design of the lampshade conveyor rail 124, staff stationed at the second table 129 can pre-place enough lampshades on the lampshade conveyor rail 124 and replenish them intermittently.
[0048] The transfer track 128 consists of a frame, transmission rollers, and transmission belts. When the lamp runs to the surface of the transmission belt, the transmission belt can transport the lamp to the position of the second table 129. The operation of the transmission rollers is controlled by the motor operated by the staff to achieve intermittent delivery of the transmission belt.
[0049] In this utility model, unless otherwise explicitly specified and limited, the terms "installation", "connection", "fixation" and other terms should be interpreted broadly. For example, it can be a fixed connection, a detachable connection, or an integral part. There are various ways to install detachably, such as by using a plug-in and snap-fit method, or by using a bolt connection, etc.
[0050] The above description of the specific embodiments of this utility model is only used to further illustrate this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-essential improvements and adjustments made to this utility model by technical engineers based on the above description of the utility model shall fall within the scope of protection of this utility model.
Claims
1. A lamp assembly device, wherein the lamp body includes a lampshade and a lamp holder, wherein, The lamp holder consists of a lamp cup and a lamp base, characterized in that: The assembly equipment includes: First table body (111); A turntable module is provided on the first table body (111), the turntable module includes a first drive rotary seat (1121) installed in the middle of the first table body (111), and a first table surface (1122) fixed at the output end of the first drive rotary seat (1121). A first through hole (1123) is formed in a ring on the first platform (1122) and is used to place several lamp holders one by one; And the process module disposed on the first table body (111); The process module includes a brightness measuring mechanism (113), a pressure resistance testing mechanism (114), a first rejection mechanism, a positioning mechanism (115), a rivet mechanism, and a flipping mechanism (119) arranged sequentially along the running direction of the turntable module. These mechanisms are used to perform lighting tests, pressure resistance tests, screening of defective products, angle positioning, rivet pin operation, and up-and-down flipping on the lamp holders in the first through hole (1123). It also includes a dispensing assembly, a cover-up mechanism (123), and a cleaning mechanism arranged in a ring after the flipping mechanism (119) for applying silicone sealant to the flipped lamp holder, installing the lamp cover, and cleaning with dry ice.
2. The lamp assembly equipment according to claim 1, characterized in that: The diameter of each of the first through holes (1123) is larger than the diameter of the lamp head but smaller than the diameter of the lamp cup.
3. The lamp assembly equipment according to claim 1, characterized in that: A gap is left between the brightness measuring mechanism (113) and the cleaning mechanism on the first platform (1122) for loading the lamp holder.
4. The lamp assembly equipment according to claim 1, characterized in that: The brightness measuring mechanism (113) includes an E26 power socket (1131) installed on the first table (111), and a brightness measuring instrument (1132) is installed on the E26 power socket (1131); The withstand voltage testing mechanism (114) includes an E17 power socket (1141) fixed to the first table body (111), and a withstand voltage tester (1142) is installed on the E17 power socket (1141). The brightness tester (1132) and the withstand voltage tester (1142) are both aligned with the first through hole (1123) below them.
5. The lamp assembly equipment according to claim 1, characterized in that: The first rejection mechanism includes a screening drive arm (116) mounted on the first table (111); The positioning mechanism (115) includes a support (1151) installed on the surface of the first table body (111) and placed below the screening drive arm (116). A CCD positioning device (1152) is provided on the support (1151), wherein the CCD positioning device (1152) and the operating end of the screening drive arm (116) are aligned with the first through hole (1123) below them.
6. The lamp assembly equipment according to claim 1, characterized in that: The riveting mechanism includes an E26 riveting lamp head (117) and an E17 riveting lamp head (118) installed on the surface of the first table body (111), wherein the E26 riveting lamp head (117) and the E17 riveting lamp head (118) occupy two work positions and are respectively aligned with two first through holes (1123) below them. The flipping mechanism (119) includes a mounting base (1191) disposed on the surface of the first table body (111), and a flipping operating arm (1192) is mounted on the mounting base (1191).
7. The lamp assembly equipment according to claim 1, characterized in that: The dispensing assembly includes a dispensing device (120) mounted on the surface of the first table body (111); And a second rejection mechanism (121) disposed on the surface of the first table body (111); An AOI visual inspection instrument is mounted on the second rejection mechanism (121) and aligned with the first through hole (1123).
8. A lamp assembly device according to claim 7, characterized in that: The second rejection mechanism (121) includes a first electric telescopic rod (1211), and a first electric slide rail (1212) is fixed at the output end of the first electric telescopic rod (1211). The first electric slider (1213) is slidably mounted on the first electric slide rail (1212); And a first suction head (1214) is provided at the bottom of the first electric slider (1213), and the suction end of the first suction head (1214) is aligned with the first through hole (1123) below it.
9. A lamp assembly device according to claim 1, characterized in that: The upper cover mechanism (123) includes a lamp cover conveying rail (124) that is inclined and fixed to the surface of the first table body (111) for placing the lamp cover; The surface of the first table body (111) is also provided with a first suction rack assembly, the first suction rack assembly includes a bracket (1231), and a second electric slide rail (1235) is provided on the top of the bracket (1231); A second electric slider (1232) is provided on the surface of the second electric slide rail (1235) and can slide horizontally; a second electric telescopic rod (1233) is also provided on the bracket (1231); And a second suction head (1234) installed at the telescopic end of the second electric telescopic rod (1233) for the transfer and installation of the lampshade.
10. A lamp assembly device according to claim 1, characterized in that: The cleaning mechanism includes a second suction rack assembly (125) disposed on the surface of the first table body (111) and identical to the first suction rack assembly; A transfer frame (126) is installed on the surface of the first tabletop (1122) and placed below the second electric slide rail (1235) where the second suction rack assembly (125) is located; And a support leg (127), on which a transfer track (128) connected to its first table body (111) is fixed, wherein one end of the transfer track (128) is connected to the end of the transfer frame (126) away from the first table surface (1122), and the other end is fixed to a second table body (129); The second table body (129) is provided with a second rotating seat (131) on its surface; a second table surface (132) is provided at the output end of the second rotating seat (131), and a second through hole (133) is provided in a ring on the second table surface (132); And a first dry ice cleaner (135) and a second dry ice cleaner (136) are provided on the surface of the second table body (129) and aligned with the second through hole (133) for cleaning the built-in lamp in the second through hole (133); It also includes a third adsorption rack assembly (130) and a feeding frame (134) disposed on the surface of the second table body (129), wherein the third adsorption rack assembly (130) has the same structure as the second adsorption rack assembly (125), and the feeding frame (134) is placed below the second electric slide rail (1235) where the third adsorption rack assembly (130) is located.