A nb line body device assisted aggregation apparatus
By introducing an adjustment mechanism and cooling components into the auxiliary polymerization device of the NB liner equipment, the problems of traditional devices being unable to control the liner diameter and having excessively long cooling times have been solved. This has enabled precise control of the liner diameter and rapid cooling, reducing the risk of damage and workload.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 重庆市川仁智能科技有限公司
- Filing Date
- 2025-02-26
- Publication Date
- 2026-06-05
Smart Images

Figure CN224329865U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of NB (notebook) production lines, and in particular to an auxiliary polymerization device for NB production lines. Background Technology
[0002] NB lines typically refer to equipment used in the semiconductor manufacturing process, particularly in wafer fabrication and packaging testing. NB lines are equipment used on the production line to process and test wafers, mainly including front-end and back-end process equipment. NB line production equipment mainly includes components of various linear motion systems, such as micro guides, heavy-duty guides, roller guides, ball splines, linear bearings, box bearings, cross guides, and linear modules. NB line equipment often requires auxiliary polymerization devices for polymerization.
[0003] Currently available auxiliary polymerization devices have the following problems during use:
[0004] 1. Traditional auxiliary polymerization equipment often requires control of the diameter of the production line before production, but cannot control the diameter of the production line during production.
[0005] 2. In most auxiliary polymerization equipment, the cooling time after production is too long, which can easily cause the surface of the production line to be scratched and damaged before it is fully cooled. This requires relevant personnel to take protective measures, increasing their workload. Utility Model Content
[0006] This utility model aims to at least partially solve one of the technical problems in the above-mentioned technologies.
[0007] To achieve the above objectives, this utility model provides the following technical solution: an auxiliary polymerization device for NB line equipment, comprising a polymerization device body, wherein an adjustment mechanism is provided on the polymerization device body;
[0008] The adjustment mechanism includes a bottom shell, an adjustment plate, a slide groove, a slider, a sector plate, a cover plate, a fixing hole, a fixing post, and an adjustment ring. The bottom shell is fixed to the main body of the polymerization device, and the adjustment plate is provided on the bottom shell. The adjustment plate has a slide groove, and the slider is installed inside the adjustment plate. The sector plate is fixed on the slider. The cover plate is installed on the bottom shell, and the bottom wall of the cover plate has a fixing hole. The sector plate is fixed with a fixing post, and the outer wall of the adjustment plate is fixed with an adjustment ring.
[0009] Preferably, the polymerization device body includes a machine body, a feeding hopper, and a discharge pipe, wherein the feeding hopper is fixed on the machine body and the discharge pipe is fixed on the machine body.
[0010] Preferably, multiple sets of the sector-shaped plates are provided, and the sector-shaped plates are symmetrically arranged about the central axis of the cover plate.
[0011] Preferably, the fixing holes are symmetrically opened about the central axis of the cover plate, and the inner wall of the cover plate matches the outer wall size of the fixing column.
[0012] Preferably, the slide is symmetrically opened about the central axis of the adjusting plate, and the inner wall of the slide matches the outer wall size of the slider.
[0013] Preferably, the polymerization device body is provided with a cooling assembly, which includes a cooling box, a feed inlet, a water inlet pipe, a water outlet pipe, a water tank, and a water pump. The cooling box is installed on the machine body, the inner wall of the cooling box has a feed inlet, the outer wall of the cooling box has a water inlet pipe, the bottom wall of the cooling box has a water outlet pipe, one end of the water outlet pipe is connected to a water tank, and the outer wall of the water tank is connected to a water pump.
[0014] Preferably, the water outlet pipe is symmetrically arranged with respect to the central axis of the bottom side of the water tank, and the feed inlet is symmetrically opened with respect to the central axis of the side side of the water tank.
[0015] Compared with the prior art, the beneficial effects of this utility model are:
[0016] 1. This auxiliary polymerization device for NB production line equipment, through the setting of a sector plate and an adjusting ring, the adjusting ring drives the adjusting plate to rotate. At this time, the slider will slide in the slide groove, thereby driving the sector plate to move. The fixed column on the sector plate is in the fixed hole. When the slider slides in the slide groove, the fixed column will rotate in the fixed hole. At this time, the sector plate will rotate, thereby controlling the opening size of the sector plate, and thus controlling the diameter of the produced line.
[0017] 2. This auxiliary polymerization device for NB production line equipment, through a cooling tank and a water pump, activates the water pump when the product is discharged through the discharge pipe. The water pump draws coolant from the water tank and delivers it to the cooling tank. At this time, the product passes through the cooling tank and is then discharged from the top of the cooling tank. The surface temperature of the product is carried away by the coolant in the cooling tank, thereby rapidly cooling it. The increased temperature of the coolant causes it to flow back into the water tank through the water outlet pipe, and the water pump then sends the coolant from the water tank into the cooling tank, thus achieving water circulation cooling and improving cooling efficiency. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the overall appearance and structure of the present utility model;
[0019] Figure 2 This is a side view of the overall appearance of the present utility model;
[0020] Figure 3This is a schematic diagram of the structure of the bottom shell and the adjusting ring used together in this utility model;
[0021] Figure 4 This is a schematic diagram of the structure of the adjustment plate and fixing hole used in this utility model.
[0022] Figure 5 This is a schematic diagram of the cooling component structure of this utility model.
[0023] In the diagram: 1. Polymerization unit body; 11. Machine body; 12. Feed hopper; 13. Discharge pipe; 2. Adjustment mechanism; 21. Bottom shell; 22. Adjustment plate; 23. Slide groove; 24. Sliding block; 25. Sector plate; 26. Cover plate; 27. Fixing hole; 28. Fixing column; 29. Adjustment ring; 3. Cooling assembly; 31. Cooling box; 32. Feed inlet; 33. Water inlet pipe; 34. Water outlet pipe; 35. Water tank; 36. Water pump; Detailed Implementation
[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0025] Please see Figure 1 -5. This utility model provides a technical solution: an auxiliary polymerization device for NB line equipment, including a polymerization device body 1, and an adjustment mechanism 2 is provided on the polymerization device body 1;
[0026] The adjusting mechanism 2 includes a base shell 21, an adjusting plate 22, a slide groove 23, a slider 24, a sector plate 25, a cover plate 26, a fixing hole 27, a fixing post 28, and an adjusting ring 29. The base shell 21 is fixed to the main body 1 of the polymerization device. The adjusting plate 22 is mounted on the base shell 21. The adjusting plate 22 has a slide groove 23. A slider 24 is installed inside the adjusting plate 22. A sector plate 25 is fixed to the slider 24. The cover plate 26 is mounted on the base shell 21. A fixing hole 27 is formed in the bottom wall of the cover plate 26. A fixing post 28 is fixed to the sector plate 25. An adjusting ring 29 is fixed to the outer wall of the adjusting plate 22. Through the arrangement of the base shell 21, adjusting plate 22, slide groove 23, slider 24, sector plate 25, cover plate 26, fixing hole 27, fixing post 28, and adjusting ring 29, the device can be used... When the fan-shaped plate 25 is inserted into the fixing hole 27 through the fixing post 28, it is then inserted into the slide groove 23 on the adjusting plate 22 by the slider 24. The adjusting plate 22 is then installed on the bottom shell 21 through the cover plate 26 and fixed to the bottom shell 21 by bolts. When the polymerization device body 1 is used for production line production, the adjusting plate 22 is rotated by the adjusting ring 29. At this time, the slider 24 will slide in the slide groove 23, thereby moving the fan-shaped plate 25. The fixing post 28 on the fan-shaped plate 25 is in the fixing hole 27. When the slider 24 slides in the slide groove 23, the fixing post 28 will rotate in the fixing hole 27. At this time, the fan-shaped plate 25 will rotate, thereby controlling the opening size of the fan-shaped plate 25, and thus controlling the diameter of the produced line.
[0027] Furthermore, the polymerization device body 1 includes a body 11, a feeding hopper 12, and a discharge pipe 13. The feeding hopper 12 and the discharge pipe 13 are fixed on the body 11. Through the arrangement of the body 11, the feeding hopper 12, and the discharge pipe 13, the polymerization material is fed into the feeding hopper 12 during use, and then polymerization takes place inside the body 11 and the finished product is discharged through the discharge pipe 13.
[0028] Furthermore, multiple sets of sector plates 25 are provided, and the sector plates 25 are symmetrically arranged around the central axis of the cover plate 26. Through the arrangement of the sector plates 25, during use, the adjusting ring 29 drives the adjusting plate 22 to rotate. At this time, the slider 24 will slide in the slide groove 23, thereby driving the sector plates 25 to move. The fixing post 28 on the sector plate 25 is in the fixing hole 27. When the slider 24 slides in the slide groove 23, the fixing post 28 will rotate in the fixing hole 27. At this time, the sector plate 25 will rotate, thereby controlling the opening size of the sector plate 25, and thus controlling the diameter of the produced line.
[0029] Furthermore, the fixing holes 27 are symmetrically opened around the central axis of the cover plate 26. The inner wall of the cover plate 26 matches the outer wall size of the fixing post 28. With the setting of the fixing holes 27, during use, the adjusting ring 29 drives the adjusting plate 22 to rotate. At this time, the slider 24 will slide in the slide groove 23, thereby driving the sector plate 25 to move. The fixing post 28 on the sector plate 25 is inside the fixing holes 27. When the slider 24 slides in the slide groove 23, the fixing post 28 will rotate in the fixing holes 27. At this time, the sector plate 25 will rotate around the fixing post 28 as the center, thereby controlling the overall opening size.
[0030] Furthermore, the slide 23 is symmetrically opened about the central axis of the adjusting plate 22. The inner wall of the slide 23 matches the outer wall size of the slider 24. With the setting of the adjusting plate 22, during use, the adjusting ring 29 drives the adjusting plate 22 to rotate. At this time, the slider 24 will slide in the slide 23 and thus drive the sector plate 25 to move. The slider 24 is fixed to the bottom wall of the sector plate 25. At this time, the sector plate 25 will start to move as the adjusting plate 22 rotates.
[0031] Furthermore, a cooling assembly 3 is provided on the main body 1 of the polymerization device. The cooling assembly 3 includes a cooling box 31, a feed inlet 32, a water inlet pipe 33, a water outlet pipe 34, a water tank 35, and a water pump 36. The cooling box 31 is installed on the main body 11. The feed inlet 32 is opened on the inner wall of the cooling box 31. The water inlet pipe 33 is installed on the outer wall of the cooling box 31. The water outlet pipe 34 is installed on the bottom wall of the cooling box 31. The water tank 35 is installed at one end of the water outlet pipe 34. The water pump 36 is installed on the outer wall of the water tank 35. Through the arrangement of the cooling box 31, the feed inlet 32, the water inlet pipe 33, the water outlet pipe 34, the water tank 35, and the water pump 36, the cooling box 31 is installed during use. The pump is mounted on the body 11, and the inlet 32 is aligned and fixed with the outlet pipe 13. The output end of the water pump 36 is connected and fixed to the cooling tank 31 through the water inlet pipe 33. Then, the input end of the water pump 36 is connected to the water tank 35, and the water tank 35 is connected to the cooling tank 31 through the water outlet pipe 34. When the product is discharged through the outlet pipe 13, the water pump 36 is started. The water pump 36 draws out the coolant from the water tank 35 and delivers it to the cooling tank 31. At this time, the product will pass through the cooling tank 31 and then be discharged from the top of the cooling tank 31. At this time, the temperature of the product surface will be carried away by the coolant in the cooling tank 31, thereby cooling it quickly.
[0032] Furthermore, the water outlet pipe 34 is symmetrically arranged with respect to the central axis of the bottom side length of the water tank 35, and the feed inlet 32 is symmetrically opened with respect to the central axis of the side side length of the water tank 35. Through the arrangement of the water outlet pipe 34, during use, the coolant in the cooling tank 31 flows back to the water tank 35 through the water outlet pipe 34, and the coolant in the water tank 35 is sent into the cooling tank 31 by the water pump 36, thereby realizing water circulation cooling.
[0033] Working principle: In use, the sector plate 25 is inserted into the fixing hole 27 through the fixing post 28, and then the slider 24 is engaged in the groove 23 on the adjusting plate 22. The adjusting plate 22 is then installed on the bottom shell 21 through the cover plate 26, and the cover plate 26 is fixed to the bottom shell 21 with bolts. When using the polymerization device body 1 for production, the adjusting plate 22 is rotated by the adjusting ring 29. At this time, the slider 24 slides in the groove 23, thereby moving the sector plate 25. The fixing post 28 on the sector plate 25 is in the fixing hole 27. When the slider 24 slides in the groove 23, the fixing post 28 rotates in the fixing hole 27. At this time, the sector plate 25 will rotate, thereby controlling the opening size of the sector plate 25, and thus controlling the diameter of the produced line. The cooling box 31 is installed on the machine body 11, and... Align and fix the inlet 32 with the outlet pipe 13. Connect and fix the output end of the water pump 36 to the cooling tank 31 through the inlet pipe 33. Then connect the input end of the water pump 36 to the water tank 35. Connect the water tank 35 to the cooling tank 31 through the outlet pipe 34. When the product is discharged through the outlet pipe 13, start the water pump 36. The water pump 36 draws out the coolant from the water tank 35 and delivers it to the cooling tank 31. At this time, the product will pass through the cooling tank 31 and then be discharged from the top of the cooling tank 31. At this time, the temperature of the product surface will be carried away by the coolant in the cooling tank 31, thereby cooling it quickly. The coolant with increased temperature flows back to the water tank 35 through the outlet pipe 34, and the coolant in the water tank 35 is sent into the cooling tank 31 by the water pump 36, thereby realizing water circulation cooling.
[0034] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An auxiliary polymerization device for NB production line equipment, comprising a polymerization device body (1), characterized in that: An adjustment mechanism (2) is provided on the main body (1) of the polymerization device; The adjustment mechanism (2) includes a bottom shell (21), an adjustment plate (22), a slide groove (23), a slider (24), a sector plate (25), a cover plate (26), a fixing hole (27), a fixing column (28), and an adjustment ring (29). The bottom shell (21) is fixed on the main body (1) of the polymerization device. An adjustment plate (22) is provided on the bottom shell (21). A slide groove (23) is provided on the adjustment plate (22). A slider (24) is installed inside the adjustment plate (22). A sector plate (25) is fixed on the slider (24). A cover plate (26) is installed on the bottom shell (21). A fixing hole (27) is provided on the bottom wall of the cover plate (26). A fixing column (28) is fixed on the sector plate (25). An adjustment ring (29) is fixed on the outer wall of the adjustment plate (22).
2. The auxiliary polymerization device for NB production line equipment according to claim 1, characterized in that: The main body (1) of the polymerization device includes a body (11), a feeding hopper (12) and a discharge pipe (13). The feeding hopper (12) is fixed on the body (11), and the discharge pipe (13) is fixed on the body (11).
3. The auxiliary polymerization device for NB production line equipment according to claim 1, characterized in that: Multiple sets of the sector plates (25) are provided, and the sector plates (25) are symmetrically arranged with respect to the central axis of the cover plate (26).
4. The auxiliary polymerization device for NB production line equipment according to claim 1, characterized in that: The fixing hole (27) is symmetrically opened with respect to the central axis of the cover plate (26), and the inner wall of the cover plate (26) matches the outer wall size of the fixing post (28).
5. The auxiliary polymerization device for NB production line equipment according to claim 1, characterized in that: The groove (23) is symmetrically opened about the central axis of the adjusting plate (22), and the inner wall of the groove (23) matches the outer wall size of the slider (24).
6. The auxiliary polymerization device for NB production line equipment according to claim 2, characterized in that: The polymerization device body (1) is provided with a cooling assembly (3). The cooling assembly (3) includes a cooling box (31), a feed inlet (32), a water inlet pipe (33), a water outlet pipe (34), a water tank (35), and a water pump (36). The cooling box (31) is installed on the machine body (11). The inner wall of the cooling box (31) is provided with a feed inlet (32). The outer wall of the cooling box (31) is provided with a water inlet pipe (33). The bottom wall of the cooling box (31) is provided with a water outlet pipe (34). One end of the water outlet pipe (34) is provided with a water tank (35). The outer wall of the water tank (35) is provided with a water pump (36).
7. The auxiliary polymerization device for NB production line equipment according to claim 6, characterized in that: The water outlet pipe (34) is symmetrically arranged with respect to the central axis of the bottom side length of the water tank (35), and the feed inlet (32) is symmetrically opened with respect to the central axis of the side side length of the water tank (35).