A semiconductor equipment profile bevel splicing and positioning structure
By using components such as connecting shafts, fixing sleeves, limiting plates, and fixing bolts in the beveled splicing and positioning structure of semiconductor equipment profiles, the problem of difficulty in changing the angle during beveled splicing and positioning is solved, achieving a more convenient and stable effect for angle adjustment and fixing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TONGZHOU DONGDA MASCH CO LTD
- Filing Date
- 2025-04-29
- Publication Date
- 2026-06-30
AI Technical Summary
When positioning and splicing existing semiconductor equipment profiles at an angle, it is difficult to change the angle, the structure is troublesome to install, and the operation is inconvenient.
An angled splicing positioning structure, including a first fixed frame and a second fixed frame, is adopted. Through the cooperation of components such as connecting shaft, fixed sleeve, limiting plate, fixed plate and fixing bolt, the angle change and fixation during angled splicing can be realized.
The angle can be changed more easily when positioning at an angle, the fixation is more stable, the operation is simple, the labor cost is reduced and the installation efficiency is improved.
Smart Images

Figure CN224424695U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of semiconductor equipment installation technology, and in particular to a beveled splicing and positioning structure for semiconductor equipment profiles. Background Technology
[0002] The existing semiconductor equipment profiles are basically made of welded or precision-cast parts. When welding or fixing these frames, manual labor or other tools are needed to ensure the splicing size, which is inefficient, has high labor costs, and makes it difficult to guarantee the size.
[0003] Among the existing patents, CN 217433483 U proposes a beveled splicing and positioning structure for semiconductor rack profiles, which includes two hollow connecting tubes, a first connecting tube and a second connecting tube, connected at their ends. One end of each connecting tube has a beveled splicing surface, and a positioning mechanism is provided on the splicing surface. The positioning mechanism enables the two splicing surfaces to be quickly positioned and welded and fixed. However, it is difficult to change the angle when positioning the beveled splice, and the structure is troublesome to install and inconvenient to operate. Utility Model Content
[0004] The purpose of this utility model is to solve the problems of difficulty in changing the angle when positioning at an angle, and the troublesome installation and inconvenient operation of the structure in the existing technology, and to propose an angled splicing and positioning structure for semiconductor equipment profiles.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a semiconductor equipment profile oblique splicing and positioning structure, including a first fixing frame and a second fixing frame, wherein a first fixing component is provided inside the slots of the first fixing frame and the second fixing frame, the first fixing component includes a connecting shaft, the connecting shaft is provided inside the slots of the first fixing frame and the second fixing frame, a fixing sleeve is sleeved on the outer surface of the connecting shaft, and a first limiting plate is fixedly installed on the outer surface of the connecting shaft and the fixing sleeve, a first fixing plate is fixedly installed on one side of the two first limiting plates, the two first limiting plates and the first fixing plate are respectively located inside the slots of the first fixing frame and the second fixing frame, a plurality of first limiting holes are respectively opened on one side of the two first limiting plates and the first fixing plate, a first fixing bolt is provided inside the plurality of first limiting holes, a support plate is provided inside the slots of the first fixing frame and the second fixing frame, a second limiting plate is provided on the top of the support plate, the support plate and the second limiting plate are slidably connected, a second limiting groove is opened on the bottom of the support plate, a plurality of first limiting grooves are opened on the top of the second limiting plate, and a fixing nut is provided inside the plurality of first limiting grooves.
[0006] The overall effect of Embodiment 1 is as follows: a first fixing component is provided inside the slots of the first fixing frame and the second fixing frame. The first fixing component includes a connecting shaft. The connecting shaft is provided inside the slots of the first fixing frame and the second fixing frame. A fixing sleeve is fitted on the outer surface of the connecting shaft. Under the action of the connecting shaft, the first fixing frame and the second fixing frame can be connected. This makes it more convenient to change the angle when positioning at an angle. First limiting plates are fixedly installed on the outer surfaces of the connecting shaft and the fixing sleeve, respectively. A first fixing plate is fixedly installed on one side of each of the two first limiting plates. The two first limiting plates and the first fixing plates are located inside the slots of the first fixing frame and the second fixing frame, respectively. Multiple first limiting holes are opened on one side of each of the two first limiting plates and the first fixing plate. A first fixing bolt is installed inside the first limiting hole. A support plate is installed inside the first fixing frame and the second fixing frame slot. A second limiting plate is installed on the top of the support plate. The support plate and the second limiting plate are slidably connected. A second limiting groove is opened at the bottom of the support plate. Multiple first limiting grooves are opened at the top of the second limiting plate. Fixing nuts are installed inside the multiple first limiting grooves. By placing the first limiting plate and the first fixing plate inside the first fixing frame and the second fixing frame slot respectively, the positions of the support plate and the second limiting plate inside the slot are moved. The two support plates are hinged to each other. The first fixing bolt is placed inside the first limiting hole. The first fixing bolt and the fixing nut are used to fix the first fixing frame and the second fixing frame.
[0007] Preferably, one of the first limiting plates is fixedly connected to the connecting shaft and does not contact the fixing sleeve, while the other first limiting plate is fixedly connected to the outer wall of the fixing sleeve and does not contact the connecting shaft. The fixing nuts are respectively matched with the first fixing bolts. The two support plates are hinged to each other. The width of the second limiting groove is greater than the diameter of the first fixing bolt. The second fixing assembly includes a second fixing plate, which is fixedly installed inside the first fixing bracket slot. A first fixing plate is provided on one side of the second fixing plate. A third fixing plate is fixedly installed inside the second fixing bracket slot. A fourth fixing plate is fixedly installed on the top of the third fixing plate. A second fixing plate is provided on one side of the fourth fixing plate. The first fixing plate and the second fixing plate are hinged to each other. A plurality of third limiting holes are opened at one end of the first fixing plate and the second fixing plate. The plurality of third limiting holes are arranged in a ring. The angle between the two third limiting holes and the center of the first fixing plate is 15 degrees. A fixing piece is provided at the top of the second fixing plate. A plurality of pins are provided at one end of the fixing piece. A second fixing bolt is provided at the center of the fixing piece. The first limiting groove, the fixing nut, and the first fixing bolt are on the same axis.
[0008] The overall effect of Embodiment 2 is as follows: one of the first limiting plates is fixedly connected to the connecting shaft without contacting the fixing sleeve, and the other first limiting plate is fixedly connected to the outer wall of the fixing sleeve without contacting the connecting shaft. The fixing nuts are respectively matched with the first fixing bolts. The first fixing bolts can be used to fix the first fixing frame and the second fixing frame. The two support plates are hinged together, and the width of the second limiting groove is greater than the diameter of the first fixing bolt. The hinged connection of the support plates makes it easier to fix the first fixing frame and the second fixing frame. The second limiting groove makes it easier for the first fixing bolt to enter the fixing nut. The second fixing assembly includes a second fixing plate, which is fixedly installed inside the first fixing frame slot. A first fixing disc is provided on one side of the second fixing plate. A third fixing plate is fixedly installed inside the second fixing frame slot. A fourth fixing plate is fixedly installed on the top of the third fixing plate. A second fixing disc is provided on one side of the fourth fixing plate. The first fixing disc and the second fixing disc are hinged together. The second fixing plate is installed inside the slot of the first fixing frame. The first fixing plate is installed on one side of the second fixing plate. The third and fourth fixing plates are installed inside the slot of the second fixing frame. The second fixing plate is installed on one side of the fourth fixing plate. The first and second fixing plates are hinged to each other, making angle adjustment more convenient. Multiple third limiting holes are provided at one end of the first and second fixing plates. The multiple third limiting holes are arranged in a ring. The angle between two third limiting holes and the center of the first fixing plate is 15 degrees. A fixing plate is provided at the top of the second fixing plate. Multiple pins are provided at one end of the fixing plate. A second fixing bolt is provided at the center of the fixing plate. The fixing plate is fixed to the top of the second fixing plate by the second fixing bolt. The pins at one end of the fixing plate are inserted into the third limiting holes, making the first and second fixing frames more secure and easier for workers to install and operate. The first limiting groove, the fixing nut, and the first fixing bolt are on the same axis, which makes the installation of the first fixing bolt more convenient.
[0009] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0010] 1. In this utility model, by placing the first limiting plate and the first fixing plate inside the slots of the first fixing frame and the second fixing frame respectively, the positions of the support plate and the second limiting plate inside the slots are moved, and the two support plates are hinged to each other. The fixing bolt is placed inside the first limiting hole, and the first fixing frame and the second fixing frame are fixed by the cooperation of the fixing bolt and the fixing nut. Under the action of the connecting shaft, the first fixing frame and the second fixing frame are connected, which makes it more convenient to change the angle when positioning at an angle.
[0011] 2. In this utility model, the second fixing plate is installed inside the slot of the first fixing frame, and the first fixing plate is installed on one side of the second fixing plate. The third fixing plate and the fourth fixing plate are installed inside the slot of the second fixing frame, and the second fixing plate is installed on one side of the fourth fixing plate. The first fixing plate and the second fixing plate are hinged to each other to adjust the angle. A fixing piece is provided at the top of the second fixing plate, and the fixing piece is fixed at the top of the second fixing plate by the second fixing bolt. A pin is provided at one end of the fixing piece, and the pin is inserted into the third limiting hole to make the first fixing frame and the second fixing frame more secure, which makes it more convenient for workers to install and easier to operate. Attached Figure Description
[0012] Figure 1 This utility model provides a three-dimensional structural diagram of a beveled splicing and positioning structure for semiconductor equipment profiles;
[0013] Figure 2 This utility model provides a three-dimensional structural diagram of the first fixing component of a beveled splicing and positioning structure for semiconductor equipment profiles;
[0014] Figure 3 This utility model provides a three-dimensional structural diagram of the second fixing component of a beveled splicing and positioning structure for semiconductor equipment profiles;
[0015] Figure 4 This utility model provides a three-dimensional cross-sectional view of the second fixing component of a beveled splicing and positioning structure for semiconductor equipment profiles.
[0016] Legend: 1. First fixing frame; 2. Second fixing frame; 3. First fixing assembly; 301. Connecting shaft; 302. Fixing sleeve; 303. First limiting plate; 304. First fixing plate; 305. First limiting hole; 306. First fixing bolt; 307. Support plate; 308. Second limiting plate; 309. Second limiting groove; 310. First limiting groove; 311. Fixing nut; 5. Second fixing assembly; 501. Second fixing plate; 502. First fixing disc; 503. Third fixing plate; 504. Fourth fixing plate; 505. Second fixing disc; 506. Third limiting hole; 507. Pin; 6. Fixing piece; 7. Second fixing bolt. Detailed Implementation
[0017] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.
[0018] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.
[0019] Example 1, such as Figure 1 - Figure 4 As shown, this utility model provides a beveled splicing and positioning structure for semiconductor equipment profiles, including a first fixing frame 1 and a second fixing frame 2. A first fixing component 3 is disposed inside the slots of the first fixing frame 1 and the second fixing frame 2. The first fixing component 3 includes a connecting shaft 301. A fixing sleeve 302 is fitted onto the outer surface of the connecting shaft 301. First limiting plates 303 are fixedly installed on the outer surfaces of the connecting shaft 301 and the fixing sleeve 302, respectively. First fixing plates 304 are fixedly installed on one side of each of the two first limiting plates 303. The two first limiting plates 303 and the first fixing plates 304 are respectively located at... Inside the slots of the first fixing frame 1 and the second fixing frame 2, a plurality of first limiting holes 305 are respectively provided on one side of the two first limiting plates 303 and the first fixing plate 304. First fixing bolts 306 are provided inside the plurality of first limiting holes 305. A support plate 307 is provided inside the slots of the first fixing frame 1 and the second fixing frame 2. A second limiting plate 308 is provided on the top of the support plate 307. The support plate 307 and the second limiting plate 308 are slidably connected. A second limiting groove 309 is provided at the bottom of the support plate 307. A plurality of first limiting grooves 310 are provided on the top of the second limiting plate 308. Fixing nuts 311 are provided inside the plurality of first limiting grooves 310.
[0020] The overall effect of Embodiment 1 is as follows: A first fixing component 3 is provided inside the slots of the first fixing frame 1 and the second fixing frame 2. The first fixing component 3 includes a connecting shaft 301. A fixing sleeve 302 is sleeved on the outer surface of the connecting shaft 301. Under the action of the connecting shaft 301, the first fixing frame 1 and the second fixing frame 2 can be connected. This makes it more convenient to change the angle when positioning at an angle. First limiting plates 303 are fixedly installed on the outer surfaces of the connecting shaft 301 and the fixing sleeve 302 respectively. First fixing plates 304 are fixedly installed on one side of each of the two first limiting plates 303. The two first limiting plates 303 and the first fixing plates 304 are located inside the slots of the first fixing frame 1 and the second fixing frame 2 respectively. Multiple first limiting holes 305 are opened on one side of each of the two first limiting plates 303 and the first fixing plates 304. The first fixing bolt 306 is provided inside the first fixing frame 1 and the second fixing frame 2. The first fixing frame 1 and the second fixing frame 2 are provided with a support plate 307 inside the slot. The top of the support plate 307 is provided with a second limiting plate 308. The support plate 307 and the second limiting plate 308 are slidably connected. The bottom of the support plate 307 is provided with a second limiting groove 309. The top of the second limiting plate 308 is provided with multiple first limiting grooves 310. The multiple first limiting grooves 310 are provided with fixing nuts 311 inside. By placing the first limiting plate 303 and the first fixing plate 304 inside the slot of the first fixing frame 1 and the second fixing frame 2 respectively, the positions of the support plate 307 and the second limiting plate 308 inside the slot are moved. The two support plates 307 are hinged to each other. The first fixing bolt 306 is placed inside the first limiting hole 305. The first fixing bolt 306 and the fixing nut 311 cooperate to fix the first fixing frame 1 and the second fixing frame 2.
[0021] Example 2, as Figure 1 - Figure 4As shown, one of the first limiting plates 303 is fixedly connected to the connecting shaft 301 and does not contact the fixing sleeve 302, while the other first limiting plate 303 is fixedly connected to the outer wall of the fixing sleeve 302 and does not contact the connecting shaft 301. Fixing nuts 311 are respectively matched with first fixing bolts 306. The two support plates 307 are hinged to each other. The width of the second limiting groove 309 is greater than the diameter of the first fixing bolt 306. The second fixing assembly 5 includes a second fixing plate 501, which is fixedly installed inside the slot of the first fixing frame 1. A first fixing disc 502 is provided on one side of the second fixing plate 501. A third fixing plate 503 is fixedly installed inside the slot of the second fixing frame 2. A fourth fixing plate 504 is fixedly installed on the top of plate 503. A second fixing plate 505 is provided on one side of the fourth fixing plate 504. The first fixing plate 502 and the second fixing plate 505 are hinged to each other. A plurality of third limiting holes 506 are provided at one end of the first fixing plate 502 and the second fixing plate 505. The plurality of third limiting holes 506 are arranged in a ring. The angle between the two third limiting holes 506 and the center of the first fixing plate 502 is 15 degrees. A fixing piece 6 is provided at the top of the second fixing plate 505. A plurality of pins 507 are provided at one end of the fixing piece 6. A second fixing bolt 7 is provided at the center of the fixing piece 6. The first limiting groove 310, the fixing nut 311, and the first fixing bolt 306 are on the same axis.
[0022] The overall effect of Embodiment 2 is as follows: one of the first limiting plates 303 is fixedly connected to the connecting shaft 301 without contacting the fixing sleeve 302, and the other first limiting plate 303 is fixedly connected to the outer wall of the fixing sleeve 302 without contacting the connecting shaft 301. The fixing nuts 311 are respectively matched with the first fixing bolts 306. The first fixing bolts 306 can be used to fix the first fixing frame 1 and the second fixing frame 2. The two support plates 307 are hinged to each other, and the width of the second limiting groove 309 is greater than the diameter of the first fixing bolt 306. The hinge of the support plates 307 makes the first fixing frame 1 and the second fixing frame 2 more secure. The fixing of the bracket 2 is more convenient. The second limiting groove 309 facilitates the easier insertion of the first fixing bolt 306 into the fixing nut 311. The second fixing assembly 5 includes a second fixing plate 501, which is fixedly installed inside the slot of the first fixing bracket 1. A first fixing disc 502 is provided on one side of the second fixing plate 501. A third fixing plate 503 is fixedly installed inside the slot of the second fixing bracket 2. A fourth fixing plate 504 is fixedly installed on the top of the third fixing plate 503. A second fixing disc 505 is provided on one side of the fourth fixing plate 504. The first fixing disc 502 and the second fixing disc 505 are hinged together, allowing for... The second fixing plate 501 is installed inside the slot of the first fixing frame 1. A first fixing plate 502 is installed on one side of the second fixing plate 501. The third fixing plate 503 and the fourth fixing plate 504 are installed inside the slot of the second fixing frame 2. A second fixing plate 505 is installed on one side of the fourth fixing plate 504. The first fixing plate 502 and the second fixing plate 505 are hinged together, making angle adjustment more convenient. Multiple third limiting holes 506 are provided at one end of the first fixing plate 502 and the second fixing plate 505. The multiple third limiting holes 506 are arranged in a ring, and the angle between two third limiting holes 506 and the center of the first fixing plate 502 is fifteen degrees. A fixing plate 6 is provided at the top of the fixing plate 505. Multiple pins 507 are provided at one end of the fixing plate 6. A second fixing bolt 7 is provided at the center of the fixing plate 6. The fixing plate 6 is fixed to the top of the second fixing plate 505 by the second fixing bolt 7. The pins 507 at one end of the fixing plate 6 are inserted into the third limiting hole 506, so that the first fixing frame 1 and the second fixing frame 2 are more firmly fixed, making it more convenient for workers to install and operate. The first limiting groove 310, the fixing nut 311 and the first fixing bolt 306 are on the same axis, which can make the installation of the first fixing bolt 306 more convenient.
[0023] Working Principle: When workers perform bevel splicing of semiconductor equipment profiles, they can adjust the angle of the first fixing frame 1 and the second fixing frame 2. The first limiting plate 303 and the first fixing plate 304 are respectively positioned inside the slots of the first fixing frame 1 and the second fixing frame 2. The positions of the support plate 307 and the second limiting plate 308 inside the slots are moved, and the two support plates 307 are hinged together. The first fixing bolt 306 is placed inside the first limiting hole 305. The first fixing bolt 306 and the fixing nut 311 cooperate to fix the first fixing frame 1 and the second fixing frame 2. Under the action of the connecting shaft 301, the first fixing frame 1 and the second fixing frame 2 are connected. This is used for bevel splicing positioning. The angle adjustment is more convenient. The second fixing plate 501 is installed inside the slot of the first fixing frame 1. The first fixing plate 502 is installed on one side of the second fixing plate 501. The third fixing plate 503 and the fourth fixing plate 504 are installed inside the slot of the second fixing frame 2. The second fixing plate 505 is installed on one side of the fourth fixing plate 504. The first fixing plate 502 and the second fixing plate 505 are hinged to each other to adjust the angle. The fixing piece 6 is fixed to the top of the second fixing plate 505 by the second fixing bolt 7. One end of the fixing piece 6 is provided with a pin 507. The pin 507 is inserted into the third limiting hole 506 to make the first fixing frame 1 and the second fixing frame 2 more secure. The installation is more convenient and the operation is simpler.
[0024] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. A semiconductor device profile bevel bond positioning structure, comprising a first fixture (1) and a second fixture (2), characterized in that: A first fixing component (3) is provided inside the slots of the first fixing frame (1) and the second fixing frame (2). The first fixing component (3) includes a connecting shaft (301). A connecting shaft (301) is provided inside the slots of the first fixing frame (1) and the second fixing frame (2). A fixing sleeve (302) is sleeved on the outer surface of the connecting shaft (301). A first limiting plate (303) is fixedly installed on the outer surfaces of the connecting shaft (301) and the fixing sleeve (302). A first fixing plate (304) is fixedly installed on one side of each of the two first limiting plates (303). The two first limiting plates (303) and the first fixing plate (304) are located inside the slots of the first fixing frame (1) and the second fixing frame (2), respectively. The first limiting plate (303) and the first fixing plate (304) are respectively provided with a plurality of first limiting holes (305) on one side. The plurality of first limiting holes (305) are provided with first fixing bolts (306). The first fixing bracket (1) and the second fixing bracket (2) are provided with a support plate (307) in their slots. The support plate (307) is provided with a second limiting plate (308) on the top. The support plate (307) and the second limiting plate (308) are slidably connected. The support plate (307) is provided with a second limiting groove (309) on the bottom. The second limiting plate (308) is provided with a plurality of first limiting grooves (310) on the top. The plurality of first limiting grooves (310) are provided with fixing nuts (311) inside.
2. A semiconductor device profile miter joint positioning structure according to claim 1, wherein: One of the first limiting plates (303) is fixedly connected to the connecting shaft (301) and does not contact the fixing sleeve (302), while the other first limiting plate (303) is fixedly connected to the outer wall of the fixing sleeve (302) and does not contact the connecting shaft (301). The fixing nuts (311) are respectively matched with the first fixing bolts (306).
3. A semiconductor device profile miter joint positioning structure as claimed in claim 1, wherein: The two support plates (307) are hinged to each other, and the width of the second limiting groove (309) is greater than the diameter of the first fixing bolt (306).
4. A semiconductor device profile miter joint positioning structure as claimed in claim 1, wherein: The second fixing component (5) includes a second fixing plate (501), which is fixedly installed inside the slot of the first fixing frame (1). A first fixing plate (502) is provided on one side of the second fixing plate (501). A third fixing plate (503) is fixedly installed inside the slot of the second fixing frame (2). A fourth fixing plate (504) is fixedly installed on the top of the third fixing plate (503). A second fixing plate (505) is provided on one side of the fourth fixing plate (504). The first fixing plate (502) and the second fixing plate (505) are hinged to each other.
5. A semiconductor device profile miter joint positioning structure according to claim 4, wherein: The first fixed plate (502) and the second fixed plate (505) are provided with a plurality of third limiting holes (506) at one end. The plurality of third limiting holes (506) are arranged in a ring. The angle between the two third limiting holes (506) and the center of the first fixed plate (502) is fifteen degrees. The top of the second fixed plate (505) is provided with a fixing piece (6). One end of the fixing piece (6) is provided with a plurality of pins (507). The center of the fixing piece (6) is provided with a second fixing bolt (7).
6. A semiconductor device profile miter joint positioning structure as claimed in claim 1, wherein: The first limiting groove (310), the fixing nut (311), and the first fixing bolt (306) are on the same axis.