A die strip winding jig positioning structure
By adding foot pad support blocks and anti-slip textures to the tail of the die strip wiring fixture, the problem of insufficient force support in existing fixtures is solved, thereby improving stability and precision, avoiding collisions, and extending service life.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YINGTONG (PUBEI) INTELLIGENT ELECTRONICS CO LTD
- Filing Date
- 2025-06-05
- Publication Date
- 2026-06-30
AI Technical Summary
The existing wiring fixtures lack an effective load-bearing support structure, which causes shaking during use, affecting the accuracy and efficiency of the wiring, and may lead to collisions with the mold positioning fixture, increasing maintenance costs.
At least two foot pad support blocks are added to the tail of the module strip wiring fixture, with anti-slip texture, and fixed with screws to provide a reliable force support structure and enhance the support effect.
It effectively eliminates the shaking phenomenon of the die strip wiring fixture, improves stability and precision, avoids collisions, extends service life, and improves production efficiency.
Smart Images

Figure CN224425303U_ABST
Abstract
Description
Technical fields:
[0001] This utility model relates to the technical field of mold processing auxiliary devices, and specifically to a positioning structure for a mold strip wiring fixture. Background technology:
[0002] With the development of science and technology and industry, the technical requirements for wiring fixtures are constantly increasing, needing to meet the demands of modern large-scale, diversified, and high-precision industrial manufacturing. In the mold processing and production process, wiring fixtures are used to assist in the wiring of mold strips, and they need to be accurately installed on the mold base positioning fixture. Wiring fixtures typically consist of a main board, a front plate, and wiring fixing blocks, with a simple structure and flexible design. The mounting holes and back plate design of the fixture allow it to be easily installed on the device using bolts and other fasteners. Wiring fixtures can also be used to fix and protect wiring, preventing damage during production. They can be used in various production environments, such as welding and assembly, ensuring the stability and reliability of the wiring.
[0003] Currently available wiring fixtures lack effective load-bearing support structures after the wire is placed into the mold positioning fixture. For example, Chinese utility model patent application CN115939908A discloses a wiring fixture suitable for core wire production, which includes: a placement seat, which serves as a carrier for placing the core wire; a placement groove on the top of the placement seat for placing the core wire; and a stripping seat on the top of the placement seat, which serves as a platform for stripping the core wire's outer sheath. The stripping seat has a stripping groove on its side. In this wiring fixture suitable for core wire production, the first slider slides through the groove, and the stripping seat moves, driving the lower and upper blades to move. The movement of the lower and upper blades strips the core wire's outer sheath, facilitating rapid stripping. Simultaneously, the alignment plate moves, aligning the core wires for rapid alignment.
[0004] However, this existing wiring fixture still has the following shortcomings:
[0005] In this technical solution, the placement seat does not have an effective force support structure. This design can easily cause the wiring fixture to shake during actual use, which not only affects the accuracy and efficiency of the die strip wiring, but may also cause the wiring fixture to collide with the die blank positioning fixture, resulting in equipment damage, increased maintenance costs, and reduced production efficiency.
[0006] In view of the above, the inventors propose the following technical solution. Utility model content:
[0007] The purpose of this utility model is to overcome the shortcomings of the prior art and provide a positioning structure for a module strip wiring fixture.
[0008] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: a positioning structure for a die strip wiring fixture, comprising: a die blank positioning fixture, wherein a die strip slot is recessed on the die blank positioning fixture, and several first grooves for accommodating wires are also recessed on the die blank positioning fixture; a die strip wiring fixture disposed on the die blank positioning fixture, and several second grooves for accommodating wires are recessed on the die strip wiring fixture; at least two foot pad support blocks disposed on the die strip wiring fixture and used to enhance the support force; and the upper end surface of the foot pad support blocks is provided with anti-slip textures to increase friction.
[0009] Furthermore, in the above technical solution, the template cable laying fixture includes a first template plate, a first limiting strip disposed in the template slot and detachably connected to the end of the first template plate, and several first positioning blocks arranged on the first template plate for positioning the wire.
[0010] Furthermore, in the above technical solution, the first template plate has a first extension portion and a second extension portion protruding from both sides for detachable connection with the first limiting strip. Correspondingly, the first limiting strip has a first clearance portion and a second clearance portion formed at both ends. The first extension portion is fixed to the first clearance portion by a first fixing screw, and the second extension portion is fixed to the second clearance portion by a second fixing screw.
[0011] Furthermore, in the above technical solution, the first mold plate is also formed with a third extension portion for abutting against the mold base positioning fixture, and correspondingly, the mold base positioning fixture is provided with a useful third clearance portion; the third extension portion is provided with a first sub-groove that matches the first line groove, and the first limiting strip is provided with a second sub-groove that matches the first line groove.
[0012] Furthermore, in the above technical solution, the module strip wiring fixture is provided with several first positioning grooves for accommodating the first positioning pressure block, and the first positioning grooves are connected to the second wire groove.
[0013] Furthermore, in the above technical solution, the first positioning block has a first limiting part and a second limiting part protruding from both sides, and the first positioning groove has a third positioning groove and a fourth positioning groove formed therein for accommodating the first limiting part and the second limiting part, so as to axially limit the wire.
[0014] Furthermore, in the above technical solution, the foot pad support block is cylindrical, and the foot pad support block is detachably connected to the module strip wiring fixture by a fourth fixing screw. The upper end of the foot pad support block is provided with a fourth screw hole, and correspondingly, the module strip wiring fixture is provided with a fourth through hole. The fourth fixing screw passes through the fourth through hole and is inserted into the fourth screw hole, so that the foot pad support block is fixed to the module strip wiring fixture.
[0015] Furthermore, in the above technical solution, the die-cutting fixture has a recessed groove for accommodating wires, and the first wire groove and the first sub-groove are both connected to the accommodating groove.
[0016] Furthermore, in the above technical solution, the foot pad support block is made of metal material.
[0017] After adopting the above technical solution, this utility model has the following beneficial effects compared with the prior art: In this utility model, by adding at least two foot support blocks to the tail of the die-laying fixture, a reliable force-bearing support structure is provided for the die-laying fixture, effectively eliminating the shaking phenomenon after the die-laying fixture is placed into the die-laying positioning fixture, significantly improving the stability of the die-laying fixture, and thus improving the accuracy and efficiency of the wiring. In addition, the foot support blocks are also provided with anti-slip textures, which greatly enhances the structural stability and support effect, effectively avoiding collisions between the die-laying fixture and the die-laying positioning fixture, and extending the service life of the entire positioning structure. Attached image description:
[0018] Figure 1 This is a three-dimensional schematic diagram of the present invention;
[0019] Figure 2 This is a three-dimensional schematic diagram of the first module plate in this utility model;
[0020] Figure 3 This is a schematic diagram of the disassembled state of this utility model;
[0021] Figure 4 This is a schematic diagram of the structure of the first positioning block in this utility model;
[0022] Figure 5 This is a schematic diagram of the structure of the support block with added points in this utility model. Detailed implementation method:
[0023] The present invention will be further described below with reference to specific embodiments and accompanying drawings.
[0024] See Figures 1 to 5The diagram shows a positioning structure for a wire strip laying fixture, comprising: a mold base positioning fixture 1, on which a mold strip groove 11 is recessed and several first grooves 12 for accommodating wires 101 are also recessed; a mold strip laying fixture 2, disposed on the mold base positioning fixture 1, and having several second grooves 22 recessed on it for accommodating wires 101; at least two foot pad support blocks 3, disposed on the mold strip laying fixture 2 and used to enhance support; and anti-slip textures 31 on the upper surface of each foot pad support block 3 to increase friction. Here, the upper surface of the foot pad support block 3 is the surface that contacts the mold strip laying fixture 2, and the anti-slip textures 31 on the upper surface effectively increase the friction between them, preventing displacement of the foot pad support block 3 during use.
[0025] In this invention, by adding at least two foot support blocks 3 to the tail of the die-laying fixture 2, a reliable force-bearing support structure is provided for the die-laying fixture 2. This effectively eliminates the shaking phenomenon after the die-laying fixture 2 is placed into the die-laying positioning fixture 1, significantly improving the stability of the die-laying fixture 2, and thus enhancing the accuracy and efficiency of the wiring. In addition, the foot support blocks 3 are also provided with anti-slip textures 31, which greatly enhances the structural stability and support effect, effectively preventing collisions between the die-laying fixture 2 and the die-laying positioning fixture 1, and extending the service life of the entire positioning structure.
[0026] The template cable routing fixture 2 includes a first template plate 210, a first limiting strip 220 disposed in the template slot 11 and detachably connected to the end of the first template plate 210, and several first positioning blocks 230 arranged on the first template plate 210 for positioning the wire 101. Here, the template cable routing fixture 2 adopts a split structure, and the first limiting strip 220 can be detached relative to the first template plate 210. Compared with the one-piece molding method, this effectively reduces the production difficulty and improves the ease of use.
[0027] The first template 210 has protruding extensions 211 and 212 on both sides for detachable connection with the first limiting strip 220. Correspondingly, the first limiting strip 220 has a first clearance portion 221 and a second clearance portion 222 at both ends. The first extension portion 211 is fixed to the first clearance portion 221 by the first fixing screw 5, and the second extension portion 212 is fixed to the second clearance portion 222 by the second fixing screw 6. The first extension portion 211 has a first through hole 215, the second extension portion 212 has a second through hole 216, the first clearance portion 221 has a first screw hole 225, and the second clearance portion 222 has a second screw hole 226. The first fixing screw 5 passes through the first through hole 215 and is inserted into the first screw hole 225 to fix the first extension portion 211 to the first clearance portion 221. The second fixing screw 6 passes through the second through hole 216 and is inserted into the second screw hole 226 to fix the second extension portion 212 to the second clearance portion 222.
[0028] The first mold plate 210 also has a protruding third extension portion 213 for abutting against the mold base positioning fixture 1. Correspondingly, the mold base positioning fixture 1 has a useful third clearance portion 103. The third extension portion 213 has a first sub-groove 2131 that matches the first groove 12, and the first limiting strip 220 has a second sub-groove 2201 that matches the first groove 12. Here, the third extension portion 213 abuts against the third clearance portion 103, which can further enhance the stability of the overall structure.
[0029] The module strip wiring fixture 2 has several first positioning grooves 203 for accommodating the first positioning block 230, and the first positioning grooves 203 are connected to the second wire groove 22.
[0030] The first positioning block 230 has a first limiting part 231 and a second limiting part 232 protruding from both sides. The first positioning groove 203 has a third positioning groove 2031 and a fourth positioning groove 2032 formed therein to accommodate the first limiting part 231 and the second limiting part 232, respectively, so as to axially limit the wire 101. Here, the first positioning block 230 is made of a flexible material (such as TPE, PPE, etc.), which can hold the wire well and will not scratch the core wire. The first limiting part 231 and the second limiting part 232 are formed on both sides of the first positioning block 230, and the third positioning groove 2031 and the fourth positioning groove 2032 are formed in the first positioning groove 203 to limit the wire in the axial direction, which can effectively prevent the wire 101 from accidentally sliding during the processing.
[0031] In this embodiment, the foot pad support block 3 and the module cable laying fixture are fixed with screws, making the connection between the foot pad support block 3 and the module cable laying fixture 2 stable and reliable, and easy to disassemble and replace, thus reducing maintenance costs. Specifically, the foot pad support block 3 is cylindrical and is detachably connected to the module cable laying fixture 2 by a fourth fixing screw 8. The upper end of the foot pad support block 3 has a fourth screw hole 34, and correspondingly, the module cable laying fixture 2 has a fourth through hole 24. The fourth fixing screw 8 passes through the fourth through hole 24 and is inserted into the fourth screw hole 34, so that the foot pad support block 3 is fixed to the module cable laying fixture 2.
[0032] The die-cutting fixture 2 has a recessed groove 20 for accommodating the wire 101, and the first wire groove 12 and the first sub-groove 2131 are both connected to the groove 20.
[0033] The foot pad support block 3 is made of metal. Preferably, the foot pad support block 3 is made of a metal material with high hardness, such as aluminum alloy or stainless steel.
[0034] In summary, by adding at least two foot support blocks 3 to the tail of the die-laying fixture 2, a reliable force-bearing support structure is provided for the die-laying fixture 2. This effectively eliminates the shaking phenomenon after the die-laying fixture 2 is placed into the die-laying positioning fixture 1, significantly improving the stability of the die-laying fixture 2, and thus enhancing the accuracy and efficiency of the wiring. In addition, the foot support blocks 3 are also provided with anti-slip textures 31, which greatly enhances the structural stability and support effect, effectively preventing collisions between the die-laying fixture 2 and the die-laying positioning fixture 1, and extending the service life of the entire positioning structure.
[0035] Of course, the above description is only a specific embodiment of the present utility model and is not intended to limit the scope of the present utility model. All equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model should be included in the scope of the claims of the present utility model.
Claims
1. A positioning structure for a module strip wiring fixture, characterized in that, include: The mold positioning fixture (1) has a mold strip groove (11) recessed on it, and several first wire grooves (12) for accommodating wires (101) are also recessed on it. A die strip wiring fixture (2) is provided on the die blank positioning fixture (1), and the die strip wiring fixture (2) has several second wire grooves (22) recessed on it for accommodating wires (101); At least two foot pad support blocks (3) are disposed on the template wiring fixture (2) and are used to enhance the support force; The upper surface of the foot pad support block (3) is provided with anti-slip texture (31) to increase friction.
2. The positioning structure of the module strip wiring fixture according to claim 1, characterized in that: The template cable laying fixture (2) includes a first template plate (210), a first limiting strip (220) disposed in the template slot (11) and detachably connected to the end of the first template plate (210), and several first positioning blocks (230) arranged on the first template plate (210) for positioning the wire (101).
3. The positioning structure of the module strip wiring fixture according to claim 2, characterized in that: The first template plate (210) has a first extension portion (211) and a second extension portion (212) protruding from both sides for detachable connection with the first limiting strip (220). Correspondingly, the first limiting strip (220) has a first clearance portion (221) and a second clearance portion (222) formed at both ends. The first extension portion (211) is fixed to the first clearance portion (221) by the first fixing screw (5), and the second extension portion (212) is fixed to the second clearance portion (222) by the second fixing screw (6).
4. The positioning structure of the module strip wiring fixture according to claim 2, characterized in that: The first mold plate (210) also has a protruding third extension (213) for abutting against the mold base positioning fixture (1). Correspondingly, the mold base positioning fixture (1) has a useful third clearance part (103). The third extension (213) has a first sub-groove (2131) that matches the first groove (12), and the first limiting strip (220) has a second sub-groove (2201) that matches the first groove (12).
5. The positioning structure of the module strip wiring fixture according to claim 2, characterized in that: The template wiring fixture (2) has several first positioning grooves (203) for accommodating the first positioning block (230), and the first positioning grooves (203) are connected to the second wire groove (22).
6. The positioning structure of the module strip wiring fixture according to claim 5, characterized in that: The first positioning block (230) has a first limiting part (231) and a second limiting part (232) protruding from both sides respectively. The first positioning groove (203) has a third positioning groove (2031) and a fourth positioning groove (2032) respectively for accommodating the first limiting part (231) and the second limiting part (232) to axially limit the wire (101).
7. A positioning structure for a module strip wiring fixture according to any one of claims 1-6, characterized in that: The foot pad support block (3) is cylindrical and is detachably connected to the template wiring fixture (2) by a fourth fixing screw (8). The upper end of the foot pad support block (3) is provided with a fourth screw hole (34). Correspondingly, the template wiring fixture (2) is provided with a fourth through hole (24). The fourth fixing screw (8) passes through the fourth through hole (24) and is inserted into the fourth screw hole (34) to fix the foot pad support block (3) to the template wiring fixture (2).
8. A positioning structure for a module strip wiring fixture according to any one of claims 1-6, characterized in that: The die-cutting fixture (2) has a recessed groove (20) for accommodating wires (101), and the first wire groove (12) and the first sub-groove (2131) are both connected to the accommodating groove (20).
9. A positioning structure for a module strip wiring fixture according to any one of claims 1-6, characterized in that: The foot pad support block (3) is made of metal.