An assembly line for light source modules

By integrating reflective paper focusing groove forming equipment and light source module assembly equipment, the problem of low efficiency in the light source module assembly process was solved, and direct assembly of reflective paper and lamp board was realized, improving production efficiency and precision.

CN224417140UActive Publication Date: 2026-06-26TUOYU INTELLIGENT TECH (HUIZHOU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TUOYU INTELLIGENT TECH (HUIZHOU) CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing light source module assembly process involves unnecessary unloading, loading, and waiting processes, which limits production efficiency.

Method used

Design an assembly line for light source modules, integrating reflective paper focusing groove forming equipment and light source module assembly equipment. The reflective paper and lamp board are directly assembled through material transfer and bonding components, reducing intermediate transfer processes.

Benefits of technology

The production efficiency of the light source module has been improved. Through integrated processing, repetitive actions have been reduced, and assembly accuracy and efficiency have been increased.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of assembly lines of light source module, including reflective paper light groove forming equipment, light source module assembly equipment, and control the material transfer and attachment assembly of reflective paper feeding to light source module assembly equipment on the light panel on;Reflective paper light groove forming equipment includes light groove forming die and turnover assembly;Light groove forming die is used for the forming of the light groove on reflective paper;Turnover assembly includes the material taking component one for taking the reflective paper after generating light groove and the turnover drive component for driving material taking component one overturn;Light source module assembly equipment includes the light panel feeding tool for positioning light panel and the light panel glue spraying component for carrying out glue spraying to light panel, material transfer and attachment assembly are used to assemble the reflective paper after overturn on material taking component one to the light panel after glue spraying.The scheme is integrated by reasonable design, reflective paper light groove forming equipment, light source module assembly equipment is no longer needed intermediate transfer process, effectively improve the efficiency of production.
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Description

Technical Field

[0001] This utility model belongs to the field of light source module assembly technology, and in particular relates to an assembly line for a light source module. Background Technology

[0002] The backlight module (also known as the light source module) is one of the key components of an LCD panel. Its function is to provide sufficient brightness and evenly distributed light source so that images can be displayed normally. Its core components are the lamp panel and the backlight paper that are combined together.

[0003] The assembly of the light source module involves processes such as forming the reflective paper, applying glue to the lamp board, bonding the reflective paper to the lamp board, and pressing the reflective paper to the lamp board. In the existing technology, each process is mostly handled separately and transported in a centralized manner. This results in unnecessary unloading, loading, and waiting processes to obtain the assembled light source module, which limits production efficiency. Based on this, the applicant redesigned the entire production process, reduced unnecessary processes, and improved the overall level of automation, so as to improve the production efficiency of the light source module. Utility Model Content

[0004] The purpose of this invention is to provide an assembly line for a light source module to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, one technical solution adopted by this utility model is: an assembly line for a light source module, including a reflective paper focusing groove forming equipment, a light source module assembly equipment, and a material transfer and bonding component for controlling the feeding of reflective paper to the lamp plate on the light source module assembly equipment;

[0006] The reflective paper focusing groove forming equipment includes a focusing groove forming mold and a flipping component;

[0007] The focusing groove forming mold is used to form the focusing groove on the reflective paper;

[0008] The flipping component includes a material-grabbing component 1 for picking up the reflective paper after the light-collecting groove is generated and a flipping drive component for driving the material-grabbing component 1 to flip.

[0009] The light source module assembly equipment includes a lamp board loading fixture for positioning the lamp board and a lamp board adhesive spraying assembly for spraying adhesive onto the lamp board. The material transfer and bonding assembly is used to assemble the reflective paper flipped up by the material taking assembly onto the lamp board after adhesive spraying.

[0010] Preferably, the focusing groove forming mold includes a lower mold and an upper film. The lower mold is a variable pitch module, which includes a plurality of forming blocks and a driving component for controlling the plurality of forming blocks to converge and separate. A positioning block is provided on the top surface of the forming block. The upper film has a clearance groove for the positioning block to move within it. A positioning lamp hole is provided on the reflective paper that can be fitted onto the positioning block, and the reflective paper is located between the upper film and the positioning block.

[0011] Preferably, the upper mold is provided with an edge forming component, the edge forming component including a forming drive component and a pressure block placed at its working end, the pressure block being able to press the edge of the reflective paper tightly against the side of the gathered pressure block.

[0012] Preferably, the reflective paper focusing groove forming equipment further includes a dispensing assembly and a colloid curing assembly;

[0013] The dispensing assembly includes a dispensing head and a dispensing head drive assembly for controlling the movement of the dispensing head, and the upper film has a dispensing port for the dispensing head to enter.

[0014] The colloid curing component is used for curing colloids.

[0015] Preferably, the reflective paper focusing groove forming equipment further includes an upper mold lifting assembly, which includes a support and a first lifting assembly mounted on the support. The upper mold is mounted on the working end of the first lifting assembly. The working end of the first lifting assembly is equipped with a self-connecting connector, and the upper mold is equipped with a mating block that cooperates with the self-connecting connector.

[0016] The upper mold lifting assembly is provided in two sets and is respectively located before and after the dispensing assembly. One of the upper mold lifting assemblies places the upper mold on the lower mold before the lower mold passes the dispensing assembly and disconnects the self-connecting connector and mating block. The other upper mold lifting assembly places the upper mold on the lower mold and picks it up after the lower mold leaves the dispensing assembly.

[0017] Preferably, the reflective paper focusing groove forming equipment further includes a transport component, and the lower mold is moved by the transport component.

[0018] Preferably, the light source module assembly equipment further includes a pressure holding component, which includes a third lifting component and a pressure plate installed at the working end of the third lifting component. The pressure plate is provided with a plurality of pressure holding blocks that fit the shape of the focusing groove so that the reflective paper adheres to the lamp plate.

[0019] Preferably, the material transfer and bonding assembly includes a transfer drive assembly and a material picking assembly II located at the working end of the transfer drive assembly.

[0020] Preferably, both the material handling component one and the material handling resistance two include a plurality of suction heads.

[0021] The beneficial effects of this utility model are as follows: This solution integrates the reflective paper focusing groove forming equipment and the light source module assembly equipment through reasonable design, eliminating the need for intermediate transfer processes and effectively improving production efficiency.

[0022] Among them, by setting up a focusing groove forming mold, the forming of the focusing groove and the subsequent assembly of reflective paper and lamp board are integrated, thereby further improving production efficiency;

[0023] Among them, by setting an edge forming component, the edge of the reflective paper is formed into the required folded shape;

[0024] By setting up two sets of upper mold lifting components and having them operate separately, the curing effect was ensured, and the rational use of the actions was achieved throughout the assembly process, without any repetitive or redundant actions.

[0025] Among them, the pressure-holding component can ensure the bonding effect between the reflective paper and the lamp panel;

[0026] By setting both the material picking component one and the material picking resistance two to include several suction heads, the force applied when picking up the reflective paper can be uniform, thus improving the accuracy of the assembly. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the overall structural distribution of this utility model;

[0028] Figure 2 This is a schematic diagram of the overall structure of the reflective paper focusing groove forming equipment in this utility model;

[0029] Figure 3 This is a schematic diagram of the overall structure of the light source module assembly equipment in this utility model;

[0030] Figure 4 This is a schematic diagram of the structure of the focusing groove forming mold and the upper mold lifting assembly in this utility model;

[0031] Figure 5 This is a schematic diagram of the lower mold structure in this utility model;

[0032] Figure 6 This is a schematic diagram of the upper mold in this utility model;

[0033] Figure 7 This is a schematic diagram of the dispensing assembly in this utility model;

[0034] Figure 8 This is a schematic diagram of the transportation pricing structure in this utility model;

[0035] Figure 9 This is a schematic diagram of the structure of the flipping component in this utility model;

[0036] Figure 10 This is a schematic diagram of the material transfer and bonding component in this utility model;

[0037] Figure 11 This is a schematic diagram of the lamp plate loading tool and its upper lamp plate in this utility model;

[0038] Figure 12 This is a schematic diagram of the structure of the lamp panel adhesive spraying assembly in this utility model;

[0039] Figure 13 This is a schematic diagram of the top structure of the pressure-holding component in this utility model;

[0040] Figure 14 This is a schematic diagram of the structure of the lamp plate and reflective paper combined in this utility model;

[0041] Figure 15 This is a schematic diagram of the bottom structure of the pressure-holding component in this utility model;

[0042] Figure 16 This is a schematic diagram of the structure of the reflective paper with a focusing groove in this utility model;

[0043] Figure 17 This is a schematic diagram of the reflective paper before the light-gathering groove is generated in this utility model;

[0044] In the diagram: 1. Workbench; 2. Lower mold; 201. Horizontal X-axis drive assembly; 22. Horizontal Y-axis drive assembly; 23. Molding block; 24. Positioning block; 3. Upper mold; 31. Molding drive assembly; 32. Pressure block; 33. Cover pressure block; 34. Injection port; 35. Relief groove; 36. Mating block; 4. Upper mold lifting assembly one; 41. Support one; 42. First lifting assembly; 43. Self-connecting disconnecting connector; 5. Dispensing assembly; 51. Support two; 52. Dispensing head drive assembly; 53. Dispensing head; 54. Support lifting assembly one; 6. Glue curing device; 7. Upper mold lifting assembly two; 8. Tilting assembly; 81. Support four; 82. Tilting drive assembly; 83. Material picking assembly one; 84. Support lifting assembly two; 9. Material transfer and bonding assembly; 91. Horizontal X-axis linear movement. Component 1; 92. Horizontal Y-axis linear movement component 1; 93. Second lifting component; 94. Material handling component 2; 11. Transport component; 12. Reflective paper; 121. Positioning lamp hole; 122. Molding anti-overlapping groove; 123. Focusing groove body 2; 124. Side edge of focusing groove body; 125. Fold line; 126. Seam line; 13. Double speed chain component; 14. Lamp panel glue spraying component; 141. Horizontal X-axis linear movement component 2; 142. Horizontal Y-axis linear movement component 2; 143. Fourth lifting component; 144. Glue spraying head; 15. Pressure holding component; 151. Mounting bracket; 152. Pressure plate; 153. Pressure holding block; 16. Lamp panel loading fixture; 161. Unloading plate; 162. Snap-fit ​​component; 17. Loading station; 18. Assembly station; 19. Unloading station; 21. Lamp panel. Detailed Implementation

[0045] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the scope of protection of the present invention.

[0046] Among them, see Figure 16 , Figure 17A reflective paper used in the focusing groove forming mold of this solution has the following specific structure: The reflective paper 12 has several positioning lamp holes 121; wherein, the reflective paper 12 has several forming anti-overlapping grooves 122, and during the extrusion forming process of the reflective paper 12, each pair of the forming anti-overlapping grooves 122 are bonded together to form one edge of its focusing groove body 123. Specifically, the focusing groove body 123 in this solution is a frustum-shaped quadrangular pyramid, and the forming anti-overlapping grooves 122 are star-shaped. Thus, during the forming process, each star of the forming anti-overlapping grooves 122 can be formed. The two sides of the corner converge to form the side edge 124 of the light-concentrating groove. The reflective paper is also provided with fold lines. The forming blocks are arrayed in the X and Y axis directions. After the positioning lamp hole is fitted onto the positioning block, the fold lines 125 are distributed on the reflective paper between two adjacent rows in the X axis direction and two adjacent columns in the Y axis direction to reduce forming pressure. The reflective paper is also provided with a seam line 126. After the positioning lamp hole is fitted onto the positioning block, the seam line is opened along the top surface of the forming block at the edge of the top surface of the forming block. Similarly, the seam line 126 is also to reduce forming stress. Example

[0047] See Figure 1 An assembly line for a light source module includes a reflective paper 12 focusing groove forming equipment, a light source module assembly equipment, and a material transfer and bonding component 9 for controlling the feeding of the reflective paper 12 onto the lamp plate of the light source module assembly equipment.

[0048] The light source module assembly equipment includes a lamp board loading fixture 16 for positioning the lamp board and a lamp board adhesive spraying assembly 14 for spraying adhesive onto the lamp board. The material transfer and bonding assembly 9 is used to assemble the reflective paper 12 flipped on the material taking assembly 83 onto the lamp board after adhesive spraying.

[0049] Among them, see Figure 2-6The reflective paper 12 focusing groove forming equipment includes a workbench 1, and a focusing groove forming mold, a dispensing component 5, an upper mold lifting component, a colloid curing component, a flipping component 8, a material transfer and bonding component 9, and a transport component 11, all mounted on the workbench 1. The focusing groove forming mold includes a lower mold and an upper mold. The reflective paper 12 forms a focusing groove within the focusing groove forming groove. The lower mold 2 is moved on the workbench 1 via the transport component 11. The dispensing component 5 is used to inject colloid into the reflective paper 12 within the focusing groove forming mold to achieve the shaping of the focusing groove on the reflective paper 12. The upper mold is provided with a dispensing assembly. The injection port 34 for injection of glue in component 5; the upper mold lifting assembly is used to control the lifting of the upper mold; the flipping assembly 8 includes a bracket 81 mounted on the worktable 1, a flipping drive assembly 82 mounted on the bracket 81, and a material picking assembly 83 mounted on the working end of the flipping drive assembly 82. The worktable 1 is also provided with a bracket lifting assembly 84 that can drive the bracket 81 / flipping drive assembly 82 to lift. The material picking assembly 83 is preferably a negative pressure suction head in a combination of several arrays. The bracket lifting assembly 84 can be a linear movement mechanism driven by a linear motor. The flipping drive assembly 82 can be a rotary cylinder.

[0050] The lower mold includes a variable pitch module, which includes several forming blocks 23 and a driving component that controls the convergence and separation of the forming blocks 23. The driving component controls the movement of the forming blocks 23 through a horizontal X-axis driving component 201 and a horizontal Y-axis driving component 22. The variable pitch module is a commonly available variable pitch module. The top surface of the forming blocks 23 is provided with a positioning block 24. The upper mold is provided with a clearance groove 35 for the positioning block 24 to move within it. Specifically, the upper mold 3 is a plate with several arrayed cover blocks 33 on its bottom surface. The groove formed between the cover blocks 33 is the clearance groove 35. The injection port 34 is opened from the top surface of the upper mold 3 downward and passes through the cover blocks 33. The reflective paper 12 is provided with a positioning lamp hole 121 that can be fitted onto the positioning block 24, and the reflective paper 12 is located between the upper mold and the positioning block 24.

[0051] Among them, see Figure 4 , Figure 6 The upper mold is provided with an edge forming component, which includes a forming drive component 31 and a pressure block 32 placed at its working end. The pressure block 32 can press the edge of the reflective paper 12 against the side of the gathered pressure block 32. The edge forming component can be a linear cylinder.

[0052] Among them, see Figure 7The dispensing assembly 5 includes a second bracket 51 mounted on the workbench 1, a dispensing head drive assembly 52 mounted on the second bracket 51, and a dispensing head 53 disposed at the output end of the dispensing head drive assembly 52. ​​In a more preferred embodiment, a first bracket lifting assembly 54 is mounted on the workbench 1 to allow the second bracket 51 to move up and down. The first bracket lifting assembly 54 can enable the entire dispensing assembly 5 to quickly detach from the lower mold 2 so that it can enter the next process in time. The first bracket lifting assembly 54 can be a linear movement assembly driven by a linear motor, and the dispensing head drive assembly 52 can be a linear cylinder.

[0053] Among them, see Figure 4 The upper mold lifting assembly includes a bracket 41 and a first lifting assembly 42 mounted on the bracket 41. The upper mold 3 is mounted on the working end of the first lifting assembly 42, which can be a linear cylinder.

[0054] The first lifting component 42 has a self-connecting connector 43 installed at its working end. The upper mold has a mating block 36 that matches the self-connecting connector. The upper mold lifting components are arranged in two sets, one in front of the other in front of the dispensing component 5. One upper mold lifting component places the upper mold 3 in front of the lower mold 2 before the dispensing component 5 and disconnects the self-connecting connector and the mating block 36. The other upper mold lifting component places the upper mold 3 in front of the lower mold 2 after the lower mold 2 leaves the dispensing component 5 and picks it up. The self-connecting connector and the mating block 36 can be quick-change modules for industrial robots, such as the WOMMER robot quick-change device. According to the process sequence, the first upper mold lifting component is named upper mold lifting component one 4, and the second upper mold lifting component is named upper mold lifting component two 7.

[0055] Among them, see Figure 10 The material transfer and bonding component 9 includes a support five (not shown), a transfer drive component mounted on the support five, and a material picking component two 94 placed at the working end of the transfer drive component. The transfer drive component includes a horizontal X-axis linear moving component one 91 mounted on the support five, a horizontal Y-axis linear moving component one 92 mounted at the working end of the horizontal X-axis linear moving component one 91, and a second lifting component 93 mounted at the working end of the horizontal Y-axis linear moving component one 92. The material picking component two 94 is mounted at the working end of the second lifting component 93. The horizontal X-axis linear moving component one 91 and the horizontal Y-axis linear moving component one 92 can be linear moving mechanisms driven by linear motors, the second lifting component 93 can be a linear cylinder, and the material picking component two 94 can be a plurality of arrayed suction heads.

[0056] The reflective paper focusing groove forming equipment also includes a machine vision inspection component that detects the position of the reflective paper after the material transfer and bonding component picks it up. The transfer drive component adjusts the position of the reflective paper of the material picking component two according to the detection result of the machine vision inspection component. Specifically, the machine vision inspection component can be an industrial camera, which is mainly used to detect the offset of the reflective paper picked up by the material picking component two in the horizontal direction, so that the transfer drive component can adjust the position to ensure the subsequent bonding accuracy.

[0057] The workbench 1 is also equipped with a colloid curing device 6 to accelerate the curing of the colloid on the reflective paper 12. The colloid curing device 6 can be an ultraviolet curing device.

[0058] The transport component 11 includes a transport drive component and a transport track installed on the workbench 1. The transport drive component is used to drive the lower mold 2 to slide along the transport track. The transport drive component can be a linear drive structure driven by a linear motor that enables the lower mold 2 to run on the transport track, or it can be a multi-stroke rodless cylinder, etc.

[0059] Among them, see Figure 3 , Figure 11 The light source module assembly equipment is specifically manifested as a transport device with a double-speed chain assembly 13 as the main transport body. The lamp plate loading fixture 16 includes a feeding plate 161 transported by the double-speed chain assembly 13. The feeding plate 161 is provided with a snap fastener 162 for fixing the lamp plate. The snap fastener 162 is a lever-type buckle, which is used to snap the four corners of the lamp plate on the feeding plate 161. The lamp plate glue spraying assembly 14 and the pressure holding assembly 15 are both distributed along the double-speed chain assembly 13. There are a loading station 17, an assembly station 18 and a unloading station 19 on the double-speed chain assembly 13. The loading station 17 is set in front of the lamp plate glue spraying assembly 14 for loading the lamp plate. The assembly station 18 is set between the lamp plate glue spraying assembly 14 and the pressure holding assembly 15 for material transfer. The bonding assembly 9 assembles the reflective paper 12 onto the lamp plate. The unloading assembly is located after the pressure holding assembly 15 for unloading.

[0060] Among them, see Figure 12 The light panel adhesive spraying assembly 14 includes a bracket six (not shown), a horizontal X-axis linear moving assembly two 141 mounted on the bracket six, a horizontal Y-axis linear moving assembly two 142 mounted on the working end of the horizontal X-axis linear moving assembly two 141, and a fourth lifting assembly 143 mounted on the working end of the horizontal Y-axis linear moving assembly one 92. The working end of the fourth lifting assembly 143 is equipped with an adhesive spraying head 144 for spraying adhesive. The horizontal X-axis linear moving assembly one 91 and the horizontal Y-axis linear moving assembly one 92 can be linear moving mechanisms driven by linear motors, and the fourth lifting assembly 143 can be a linear cylinder (slicing cylinder).

[0061] Among them, see Figure 3 , Figure 13-15 The light source module assembly equipment also includes a pressure holding component 15, which includes a mounting frame 151. A third lifting component (not shown) is mounted on the mounting frame 151. A pressure plate 152 is mounted on the working end of the third lifting component. Several pressure holding blocks 153 that fit the shape of the focusing groove are provided on the pressure plate 152 so that the reflective paper 12 is attached to the lamp plate. In order to ensure the attachment effect, the pressure holding blocks 153 are provided with slots to avoid the lamp body on the lamp plate 21.

[0062] Working principle and process:

[0063] In use, the reflective paper 12 is placed on the focusing groove forming mold for shaping. Then, the first upper mold lifting assembly places the upper mold 3 onto the lower mold 2. The transport assembly 11 moves the lower mold 2 and upper mold 3 to below the dispensing assembly 5. The dispensing head 53 of the dispensing assembly 5 extends into the injection port 34 to dispense adhesive. Then, the transport assembly 11 moves the lower mold 2 and upper mold 3 together to the colloid curing device 6 for colloid curing. Next, the transport assembly 11 moves the lower mold 2 and upper mold 3 together to the second upper mold lifting assembly, which lifts the upper mold 3. Then, the transport assembly 11... The lower mold 2 is moved to the flipping component 8. The flipping component 8 picks up the formed reflective paper 12 and flips it so that the focusing groove opening faces upward. Then, the reflective paper 12 is assembled onto the lamp board on the assembly station 18 by the material transfer and bonding component 9. Before this, the lamp board is manually loaded at the loading station 17 and the locking component 162 is controlled to fix the lamp board. Then, the lamp board enters the lamp board spraying component 14 for spraying. After the reflective paper 12 is assembled with the lamp board, the pressure holding component 15 is pressed down and the pressure holding block 153 is controlled to make the reflective paper 12 and the lamp board tightly bonded. Finally, the material is unloaded at the unloading station 19.

[0064] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. An assembly line for a light source module, characterized in that: It includes a reflective paper focusing groove forming equipment, a light source module assembly equipment, and a material transfer and bonding component (9) that controls the feeding of reflective paper (12) to the lamp plate on the light source module assembly equipment; The reflective paper focusing groove forming equipment includes a focusing groove forming mold and a flipping component (8); The focusing groove forming mold is used to form the focusing groove on the reflective paper (12); The flipping component (8) includes a material picking component (83) for picking up the reflective paper (12) after the light-collecting groove is generated and a flipping drive component (82) for driving the material picking component (83) to flip. The light source module assembly equipment includes a lamp board loading fixture (16) for positioning the lamp board and a lamp board adhesive spraying assembly (14) for spraying adhesive onto the lamp board. The material transfer and bonding assembly (9) is used to assemble the reflective paper (12) flipped on the material taking assembly (83) onto the lamp board after adhesive spraying.

2. The assembly line for a light source module according to claim 1, characterized in that: The focusing groove forming mold includes a lower mold and an upper mold. The lower mold is a variable pitch module. The variable pitch module includes several forming blocks (23) and a driving component that controls the several forming blocks (23) to converge and separate. The top surface of the forming block (23) is provided with a positioning block (24). The upper mold is provided with a clearance groove (35) for the positioning block (24) to move within it. The reflective paper (12) is provided with a positioning lamp hole (121) that can be fitted onto the positioning block (24). The reflective paper (12) is located between the upper mold and the positioning block (24).

3. The assembly line for a light source module according to claim 2, characterized in that: The upper mold is provided with an edge forming component, which includes a forming drive component (31) and a pressure block (32) placed at its working end. The pressure block (32) can press the edge of the reflective paper (12) against the side of the gathered pressure block (32).

4. The assembly line for a light source module according to claim 3, characterized in that: The reflective paper focusing groove forming equipment also includes a dispensing component (5) and a colloid curing component; The dispensing assembly (5) includes a dispensing head and a dispensing head drive assembly (52) for controlling the movement of the dispensing head. The upper mold is provided with a dispensing port (34) for the dispensing head to enter. The colloid curing component is used for curing colloids.

5. The assembly line for a light source module according to claim 4, characterized in that: The reflective paper focusing groove forming equipment also includes an upper mold lifting assembly, which includes a support (41) and a first lifting assembly (42) installed on the support (41). The upper mold (3) is installed on the working end of the first lifting assembly (42). The working end of the first lifting assembly (42) is equipped with a self-connecting connector, and the upper mold is equipped with a mating block (36) that matches the self-connecting connector. The upper mold lifting assembly is provided in two sets and is respectively located in front of and behind the dispensing assembly (5). One of the upper mold lifting assemblies places the upper mold (3) in front of the lower mold (2) and disconnects the self-connecting connector and mating block (36) before the lower mold (2) passes through the dispensing assembly (5). The other upper mold lifting assembly places the upper mold (3) in front of the lower mold (2) and picks it up after the lower mold (2) leaves the dispensing assembly (5).

6. An assembly line for a light source module according to claim 5, characterized in that: The reflective paper focusing groove forming equipment also includes a transport component (11), and the lower mold is moved by the transport component (11).

7. The assembly line for a light source module according to claim 1, characterized in that: The light source module assembly equipment also includes a pressure holding component (15), which includes a third lifting component and a pressure plate (152) installed at the working end of the third lifting component. The pressure plate (152) is provided with a plurality of pressure holding blocks (153) that fit the shape of the focusing groove so that the reflective paper (12) is attached to the lamp plate.

8. An assembly line for a light source module according to claim 1, characterized in that: The material transfer and bonding assembly (9) includes a transfer drive assembly and a material picking assembly two (94) placed at the working end of the transfer drive assembly.

9. An assembly line for a light source module according to claim 8, characterized in that: Both the material handling component one (83) and the material handling resistance two include several suction heads.

10. An assembly line for a light source module according to claim 8, characterized in that: The reflective paper focusing groove forming equipment also includes a machine vision detection component that detects the position of the reflective paper after the material transfer and bonding component picks up the reflective paper. The transfer drive component adjusts the position of the reflective paper on the material picking component two according to the detection result of the machine vision detection component.