Temple processing copper needle machine with shaping structure

By introducing a guide plate and heating plate structure into the copper needle machine, the problem of narrow placement slots and difficulty in alignment is solved, enabling simple and accurate insertion of copper needles and tight fit of eyeglass temples, thus improving processing efficiency and aesthetics.

CN224372677UActive Publication Date: 2026-06-19HEYUAN KONG MING OPTICAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEYUAN KONG MING OPTICAL TECH CO LTD
Filing Date
2025-07-28
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional copper needle machines have narrow placement slots, making it difficult to align needles manually, which affects work efficiency.

Method used

A copper needle shaping machine with a shaping structure was designed, including a guide plate and a heating plate. The guide plate guides the copper needle to be placed accurately, and the cylinder drives the needle to be inserted. Combined with the heating plate, the temple of the eyeglasses is kept warm and shaped to ensure the precise insertion of the copper needle into the temple of the eyeglasses.

Benefits of technology

It enables simple and accurate placement and insertion of copper needles, improving work efficiency while ensuring the aesthetics of the eyeglass temples and the tightness of the insertion.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a copper needle machine with a shaping structure for processing eyeglass temples, including an operating table, a heating box, and a machine body disposed on the operating table. It further includes a shaping mechanism disposed on the machine body; a mounting base is provided on one side of the top outer wall of the operating table, a second cylinder is provided on the top outer wall of the mounting base, a push block is provided at the piston end of the second cylinder, and a push needle is provided on one side outer wall of the push block; a mounting platform is provided on the top outer wall of the operating table near the machine body, a placement platform is provided on the top outer wall of the mounting platform, a first placement groove is provided on the top outer wall of the placement platform, and guide plates are provided on both sides of the top outer wall of the placement platform. The copper needle machine with a shaping structure for processing eyeglass temples disclosed in this utility model has the advantages of simple and accurate placement of copper needles, tight insertion of copper needles into eyeglass temples, good shaping effect, and simple operation.
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Description

Technical Field

[0001] This utility model relates to the field of eyeglass temple processing technology, and in particular to a copper needle machine with a shaping structure for eyeglass temple processing. Background Technology

[0002] In the processing of eyeglass temples, copper pin machines can be used to precisely insert copper pins into designated positions on the temples. They are key equipment in the eyeglass manufacturing industry for achieving precise assembly and shaping of copper pins and temples, and play an important role in industrial production.

[0003] However, when using traditional copper needle machines for processing eyeglass temples, the placement slots for copper needles are relatively narrow, making it difficult to align the needles manually and hindering needle placement. For example, the copper needle machine precisely inserts copper needles into designated positions on the temples (arms) of eyeglasses. Since the copper needles are thin, the placement slots are correspondingly narrow, making it difficult to place them accurately manually and affecting work efficiency. Utility Model Content

[0004] This utility model discloses a copper needle machine with a shaping structure for processing eyeglass temples, aiming to solve the technical problem that the placement slot for placing copper needles is too narrow when using traditional copper needle machines for processing eyeglass temples, making it difficult to align the needles manually and thus unfavorable for placing copper needles.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A copper pin machine with a shaping structure for processing eyeglass temples includes an operating table, a heating box, and a machine body disposed on the operating table, and further includes:

[0007] Shaping mechanism: The shaping mechanism is located on the machine body;

[0008] A mounting base is provided on one side of the top outer wall of the operating table. A second cylinder is provided on the top outer wall of the mounting base. A push block is provided at the piston end of the second cylinder. A push needle is provided on one side outer wall of the push block. A mounting platform is provided on the top outer wall of the operating table near the machine body. A placement platform is provided on the top outer wall of the mounting platform. A first placement groove is provided on the top outer wall of the placement platform. Guide plates are provided on both sides of the top outer wall of the placement platform. The guide plates are used in conjunction with the first placement groove.

[0009] In this design, the heating box is used to heat the temples of the eyeglasses. The copper needle is placed in the first placement slot. The guide plates on both sides of the top of the first placement slot are used to guide the placement of the copper needle. It is not necessary to align the position. The copper needle can be placed between the two guide plates. The arc-shaped guide plates can make the placed copper needle fall directly into the inner first placement slot for limiting. This allows the pusher to move in the first placement slot to insert the copper needle. The operation is simple and the placement of the copper needle is more accurate.

[0010] In a preferred embodiment, the shaping mechanism includes a third cylinder disposed on the top outer wall of the machine body, the piston end of the third cylinder being provided with a pressure block, a first cylinder disposed on one side of the top outer wall of the operating table, the piston end of the first cylinder being provided with a connecting block, a placement plate disposed on one side outer wall of the connecting block, a second placement groove disposed on the top outer wall of the placement plate, a heating plate disposed on the bottom inner wall of the machine body, the placement plate being located on the heating plate, and the pressure block cooperating with the placement plate.

[0011] Using the above technical solution, the temples of the glasses are placed in the second placement slot. The heating plate continuously heats and keeps the temples of the glasses on the placement plate warm. The first cylinder works to move the placement plate into the machine body. At this time, the third cylinder works to drive the pressure block to press down and tighten the placement plate, thus maintaining pressure and shaping the temples of the glasses. This prevents the temples of the glasses from deforming during the insertion of the pins and prevents the pins from slipping through during the insertion of the copper pins. The copper pins are precisely inserted into the designated positions on the temples of the glasses, resulting in a tight fit and a more aesthetically pleasing overall appearance.

[0012] As can be seen from the above, a copper needle machine with a shaping structure for processing eyeglass temples includes an operating table, a heating box, and a machine body disposed on the operating table, and further includes:

[0013] Shaping mechanism: The shaping mechanism is located on the machine body;

[0014] A mounting base is provided on one side of the top outer wall of the operating table. A second cylinder is provided on the top outer wall of the mounting base. A push block is provided at the piston end of the second cylinder. A push needle is provided on one side of the outer wall of the push block. A mounting platform is provided on the top outer wall of the operating table near the machine body. A placement platform is provided on the top outer wall of the mounting platform. A first placement groove is provided on the top outer wall of the placement platform. Guide plates are provided on both sides of the top outer wall of the placement platform. The guide plates cooperate with the first placement groove. The copper needle machine with a shaping structure for processing eyeglass temples provided by this utility model has the technical advantages of simple and accurate placement of copper needles, tight fit of copper needles into eyeglass temples, good shaping effect, and simple operation. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of a copper needle machine with a shaping structure for processing eyeglass temples, as proposed in this utility model.

[0016] Figure 2 This is a schematic diagram of the machine body structure of a copper needle machine with a shaping structure for processing eyeglass temples, as proposed in this utility model.

[0017] Figure 3 This is an enlarged view of the guide plate structure of a copper needle machine with a shaping structure for processing eyeglass temples, as proposed in this utility model.

[0018] Figure 4 This is a schematic diagram of the pressing block structure of a copper needle machine with a shaping structure for processing eyeglass temples, as proposed in this utility model.

[0019] Figure 5 This is a schematic diagram of the placement plate structure of a copper needle machine with a shaping structure for processing eyeglass temples, as proposed in this utility model.

[0020] In the attached diagram: 1. Operating table; 2. Heating box; 3. Machine body; 4. Mounting platform; 5. Mounting base; 6. First cylinder; 7. Second cylinder; 8. Third cylinder; 9. Connecting block; 10. Fixing block; 11. Push block; 12. Limiting rod; 13. Push pin; 14. Placement platform; 15. First placement slot; 16. Guide plate; 17. Pressing block; 18. Heating plate; 19. Placement plate; 20. Second placement slot. Detailed Implementation

[0021] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. The components of the embodiments of this application described and marked in the accompanying drawings can be arranged and designed in various different configurations. Therefore, the following detailed description of the embodiments of this application provided in the accompanying drawings is not intended to limit the scope of the claimed application, but merely represents selected embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application without inventive effort are within the scope of protection of this application.

[0022] The copper needle machine with a shaping structure disclosed in this utility model is mainly used in scenarios where the placement slot for placing copper needles is narrow when using traditional copper needle machines for eyeglass temple processing, making it difficult to align the needles manually and unfavorable for placing copper needles.

[0023] Reference Figure 1 and Figure 2 A copper needle machine with a shaping structure for processing eyeglass temples includes an operating table 1, a heating box 2, and a machine body 3 disposed on the operating table 1, and further includes:

[0024] Shaping mechanism: The shaping mechanism is located on body 3;

[0025] A mounting base 5 is provided on one side of the top outer wall of the operating table 1. A second cylinder 7 is provided on the top outer wall of the mounting base 5. A push block 11 is provided at the piston end of the second cylinder 7. A push needle 13 is provided on one side outer wall of the push block 11. A mounting platform 4 is provided on the top outer wall of the operating table 1 near the machine body 3. A placement platform 14 is provided on the top outer wall of the mounting platform 4. A first placement groove 15 is opened on the top outer wall of the placement platform 14. Guide plates 16 are provided on both sides of the top outer wall of the placement platform 14. The guide plates 16 are used in conjunction with the first placement groove 15.

[0026] In the specific working process, the temple of the glasses is placed inside the heating box 2 for heating. The copper needle is placed in the first placement groove 15. The guide plates 16 set on both sides of the top of the first placement groove 15 are used to guide the position of the copper needle. It is not necessary to align the position. The copper needle can be placed between the two guide plates 16. The arc-shaped guide plates 16 can make the placed copper needle fall directly into the inner first placement groove 15 for limiting. Then, the second cylinder 7 works to drive the push block 11 to move, so that the push pin 13 is aligned with the position of the first placement groove 15 and moves in the first placement groove 15 to insert the copper needle.

[0027] Reference Figure 1 and Figure 4 In a preferred embodiment, fixing blocks 10 are provided on both sides of the top outer wall of the mounting base 5, mounting rods are provided on the top outer wall of the operating table 1 near the mounting table 4, mounting blocks are provided on one side outer wall of the machine body 3, limiting rods 12 are provided on one side outer wall of the mounting rod and the mounting block, and limiting blocks are provided on both sides outer walls of the push block 11. The limiting rods 12 pass through the limiting blocks and are connected to the fixing blocks 10. The push block 11 is used in conjunction with the two limiting blocks respectively.

[0028] Specifically, during the process of the second cylinder 7 driving the push block 11 to move, the limiting blocks on both sides of the push block 11 move horizontally on the limiting rod 12, thereby limiting the movement position of the push block 11, so that the push block 11 moves in a straight line and will not deviate from the direction of movement.

[0029] Reference Figure 1 and Figure 3 In a preferred embodiment, the shaping mechanism includes a third cylinder 8 disposed on the top outer wall of the machine body 3, the piston end of the third cylinder 8 is provided with a pressure block 17, a first cylinder 6 is disposed on one side of the top outer wall of the operating table 1, the piston end of the first cylinder 6 is provided with a connecting block 9, a placement plate 19 is fixedly connected to one side outer wall of the connecting block 9, a second placement groove 20 is opened on the top outer wall of the placement plate 19, a heating plate 18 is disposed on the bottom inner wall of the machine body 3, the placement plate 19 is located on the heating plate 18, and the pressure block 17 is used in conjunction with the placement plate 19.

[0030] Specifically, after the glasses temples are heated in the heating box 2, they are placed in the second placement slot 20. The heating plate 18 on the machine body 3 can continuously heat and keep the glasses temples on the placement plate 19 warm. The first cylinder 6 works to move the placement plate 19 into the machine body 3. At this time, the third cylinder 8 works to drive the pressure block 17 to press down and tighten the placement plate 19, and to keep the glasses temples under pressure and shape them so that the glasses temples will not deform during the needle insertion process and will not pass through during the copper needle insertion process, so that the copper needle is accurately inserted into the designated position of the glasses temples.

[0031] The first placement slot 15 and the second placement slot 20 are connected and used together. The first placement slot 15 and the second placement slot 20 are positioned on the placement platform 14 next to the body 3, corresponding to the position of the placement plate 19 inside the body 3. At this time, the positions of the first placement slot 15 and the second placement slot 20 are corresponding and connected. Then, the copper needle in the first placement slot 15 is moved and inserted into the temple of the glasses in the second placement slot 20. The overall cooperation effect is good.

[0032] It should be noted that: the control panel 1 in this solution only shows the achieved effect. The start and stop buttons of the first cylinder 6, the second cylinder 7 and the third cylinder 8 are not shown. The operator sits in front of the control panel 1 and operates the entire process in an orderly manner.

[0033] Working principle: In use, first place the temple of the glasses in the heating box 2 for heating, then place the heated temple into the second placement slot 20 in the placement plate 19. The heating plate 18 continuously heats the placement plate 19. Next, place the copper needle into the first placement slot 15. The two guide plates 16 above the first placement slot 15 guide the copper needle directly into the slot. At this time, the first cylinder 6 works, moving the placement plate 19 into the machine body 3. The third cylinder 8 works, moving the pressure block 17 downward to press the placement plate 19. At the same time, the second cylinder 7 works, and the push block 11 moves forward, moving the push needle 13 to move the copper needle in the first placement slot 15 into the pressed temple. After insertion, the first cylinder 6 resets, and the temple is taken out from the second placement slot 20 to proceed to the next process.

[0034] The above description is merely a preferred embodiment of this utility model, but the protection scope of this utility model is not limited thereto. The substitutions may be replacements of some structures, devices, or method steps, or they may be complete technical solutions. Equivalent substitutions or modifications made based on the technical solution and inventive concept of this utility model should all be covered within the protection scope of this utility model.

Claims

1. A copper needle machine with a shaping structure for processing eyeglass temples, comprising an operating table (1), a heating box (2), and a machine body (3) disposed on the operating table (1), characterized in that, Also includes: Shaping mechanism: The shaping mechanism is provided on the body (3); The operating table (1) has a mounting base (5) on one side of its top outer wall. The mounting base (5) has a second cylinder (7) on its top outer wall. The piston end of the second cylinder (7) has a push block (11). The push block (11) has a push needle (13) on one side of its outer wall. The operating table (1) has a mounting platform (4) on its top outer wall near the machine body (3). The mounting platform (4) has a placement platform (14) on its top outer wall. The placement platform (14) has a first placement groove (15) on its top outer wall. The placement platform (14) has guide plates (16) on both sides of its top outer wall. The guide plates (16) are used in conjunction with the first placement groove (15).

2. The copper needle machine with a shaping structure for processing an eyeglasses leg according to claim 1, characterized in that, Fixing blocks (10) are provided on both sides of the top outer wall of the mounting base (5). The operating table (1) is provided with a mounting rod on the top outer wall near the mounting table (4). A mounting block is provided on one side outer wall of the machine body (3). Limiting rods (12) are provided on one side outer wall of the mounting rod and the mounting block.

3. A copper needle machine with a shaping structure for processing eyeglass temples according to claim 2, characterized in that, Limiting blocks are provided on both outer walls of the push block (11). The limiting rod (12) passes through the limiting block and is connected to the fixing block (10). The push block (11) is used in conjunction with the two limiting blocks respectively.

4. A copper needle machine with a shaping structure for processing eyeglass temples according to claim 1, characterized in that, The shaping mechanism includes a third cylinder (8) located on the top outer wall of the machine body (3), and the piston end of the third cylinder (8) is provided with a pressure block (17).

5. A copper needle machine with a shaping structure for processing eyeglass temples according to claim 4, characterized in that, The operating table (1) has a first cylinder (6) on one side of the top outer wall. The piston end of the first cylinder (6) is provided with a connecting block (9). The connecting block (9) has a placement plate (19) on one side of its outer wall. The placement plate (19) has a second placement groove (20) on its top outer wall.

6. A copper needle machine with a shaping structure for processing eyeglass temples according to claim 5, characterized in that, A heating plate (18) is provided on the bottom inner wall of the body (3), and the placement plate (19) is located on the heating plate (18). The pressure block (17) is used in conjunction with the placement plate (19).

7. A copper needle machine with a shaping structure for processing eyeglass temples according to claim 5, characterized in that, The first placement slot (15) and the second placement slot (20) are connected and are used together.