A tooling for assisting in the assembly of wire guide seats

By designing the tooling and utilizing the combination of the assembly base plate, positioning rotating plate, and positioning seat, the problem of the sliding seat and the guide wire seat body being difficult to align during guide wire seat assembly was solved, achieving precise and stable installation, reducing the risk of wire skipping, and improving installation accuracy.

CN122299352APending Publication Date: 2026-06-30无锡钱桥纺机设备有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
无锡钱桥纺机设备有限公司
Filing Date
2026-04-30
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

During the assembly of the yarn guide seat, due to the zero tolerance fit between the bolts and the mounting holes and the fact that the sliding seat is made of plastic material, it is difficult for the sliding seat and the yarn guide seat body to remain parallel, resulting in yarn skipping and affecting yarn tension and uneven thickness.

Method used

A tooling is used to achieve precise positioning and stable installation of the sliding seat by assembling a base plate, a positioning rotating plate, a positioning seat, and a placement block, ensuring that the mounting holes and bolts correspond precisely and reducing the possibility of thread skipping.

Benefits of technology

It achieves precise and stable installation of the guide wire seat, reduces the possibility of wire skipping during the wire guiding process, and improves the connection accuracy between the sliding seat and the guide wire seat body.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a tooling for assisting in the assembly of a wire guide seat, comprising an assembly base plate, placement blocks, a positioning rotating plate, and a positioning seat. Two placement blocks are vertically arranged on the top surface of the assembly base plate, and each placement block has a placement groove. The two placement blocks are correspondingly arranged with two placement shafts, which rest in their respective placement grooves. The positioning seat is positioned between the two placement blocks and includes two vertical sections on the top surface of the assembly base plate, located on opposite sides of the wire guide seat body in the width direction. One end of the positioning rotating plate is rotatably connected to the top of one of the vertical sections, and the other end rests on the top of the other vertical section. The positioning rotating plate is provided with a positioning pressure strip, and the top surface of one of the sliding end plates is provided with a positioning pressure groove corresponding to the positioning pressure strip. This application has the effect of achieving precise and stable installation of the wire guide seat and reducing the possibility of wire skipping during wire guiding.
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Description

Technical Field

[0001] This application relates to the technical field of guide wire seat installation, and in particular to a tooling for assisting guide wire seat assembly. Background Technology

[0002] Reference Figure 1 A wire guide holder includes a wire guide holder body 01, a placement shaft 012, and a reciprocating lead screw 013. The reciprocating lead screw 013 is rotatably disposed inside the wire guide holder body 01 along its length. The placement shaft 012 is coaxially disposed at both ends of the wire guide holder body 01 along its length. A sliding seat 02 is placed on the wire guide holder body 01. The sliding seat 02 includes two sliding end plates 021 and a connecting slide rod 022 parallel to and connected between the two sliding end plates 021. The connecting slide rod 022 is arranged parallel to the reciprocating lead screw 013. The sliding end plates 021 are made of plastic material. A combing seat 024 is slidably disposed on one of the connecting slide rods 022. The combing seat 024 has a combing through hole 025 for the wire. The sliding end plate 021 has a countersunk hole 023. The top surface of the guide wire seat body 01 has several mounting blocks 015. The top of the mounting block 015 has a mounting thread hole 016. The countersunk holes 023 and the mounting thread holes 016 on the mounting blocks 015 are set one-to-one and connected by bolts.

[0003] During the assembly of the guide seat, the sliding seat needs to be bolted to a predetermined position on the guide seat body. However, because the bolts are not perfectly calibrated with the threaded holes and countersunk holes, and the sliding end plate is made of a non-high-hardness material such as plastic, there may be relative angular errors between the guide seat body and the installed sliding seat during installation. Furthermore, due to the different tightening strengths of the multiple bolts, the plane of the sliding seat cannot be parallel to the top surface of the guide seat body. This prevents the combing seat from moving parallel to the length of the reciprocating screw, causing yarn skipping when the yarn moves through the grooves on the reciprocating screw. This results in uneven tension and thickness of the yarn on the wound bobbin, affecting subsequent processing. Summary of the Invention

[0004] In order to achieve precise and stable installation of the guide wire seat and reduce the possibility of wire skipping during the wire guiding process, this application provides a tooling for assisting in the assembly of the guide wire seat.

[0005] The tooling for assisting in the assembly of the wire guide seat provided in this application adopts the following technical solution: A tooling for assisting in the assembly of a wire guide seat is provided for the installation of the wire guide seat body and a sliding seat. The wire guide seat body has a placement shaft coaxially arranged at both ends along its length. The top surface of the wire guide seat body has an installation cavity. A reciprocating lead screw is rotatably arranged along the length of the installation cavity within the wire guide seat body. The sliding seat includes a sliding end plate, a connecting slide rod, and a comb seat. Two sliding end plates are provided, and two connecting slide rods are connected parallel to each other between the two sliding end plates. The comb seat is slidably mounted on the connecting slide rod. The sliding seat is located on the top surface of the wire guide seat, and the connecting slide rod is parallel to the reciprocating lead screw. The sliding end plate has a countersunk hole for mounting. A plurality of mounting blocks are provided on the inner wall of the installation cavity. The top surface of each mounting block has a mounting threaded hole, and the plurality of mounting threaded holes correspond one-to-one with the plurality of mounting countersunk holes. The assembly includes... The assembly includes a base plate, placement blocks, a positioning rotating plate, and a positioning seat. Two placement blocks are vertically arranged on the top surface of the assembly base plate, and each placement block has a placement groove on its top surface. The two placement blocks correspond one-to-one with two placement shafts, and the placement shafts are placed in their respective placement grooves. The positioning seat is located between the two placement blocks and includes two vertical sections on the top surface of the assembly base plate. The two vertical sections are located on opposite sides of the guide wire seat body in the width direction. One end of the positioning rotating plate is rotatably connected to the top of one of the vertical sections, and the other end rests on the top of the other vertical section. The positioning rotating plate is provided with a positioning pressure strip, and the top surface of one of the sliding end plates is provided with a positioning pressure groove corresponding to the positioning pressure strip. When the positioning pressure strip is embedded in the positioning pressure groove, the mounting countersunk hole and the mounting threaded hole are corresponding one-to-one.

[0006] By adopting the above technical solution, during assembly, the sliding seat is placed on the top surface of the guide wire seat body. Rotating the positioning plate causes the positioning pressure strip on it to embed into the positioning groove of the corresponding sliding end plate, achieving precise positioning of the sliding seat. At this point, several mounting threaded holes and several mounting countersunk holes correspond precisely. Using tools, bolts are connected to the corresponding mounting countersunk holes and mounting threaded holes. The sliding seat and the guide wire seat body will not slide relative to each other during installation, which helps improve the accuracy of the connection structure. The connecting slide rod is parallel to the length direction of the guide wire seat body. Through the mutual cooperation of the assembly base plate, placement block, positioning plate, and positioning seat, precise positioning between the guide wire seat body and the sliding seat is achieved, resulting in precise and stable installation of the guide wire seat and reducing the possibility of wire skipping during the wire guiding process.

[0007] Optionally, an embedding block is provided on the inner wall of the positioning groove, and a corresponding embedding groove is provided on the bottom surface of the positioning strip. When the positioning strip is embedded in the positioning groove, the embedding block is embedded in the embedding groove.

[0008] Optionally, one positioning seat is provided at each end of the length direction of each sliding seat, and the two positioning seats are provided in a one-to-one correspondence with the two sliding end plates of the sliding seat. A connecting vertical plate is vertically provided at the top of one of the vertical sections, and a connecting waist-shaped hole is vertically provided on the connecting vertical plate. A connecting slide rod is provided at one end of the positioning rotating plate. The connecting slide rod is slidably and rotatably disposed in the connecting waist-shaped hole. A first extension plate is provided on the positioning rotating plate of one of the positioning seats, and a positioning pressure strip is provided on the bottom surface of the first extension plate. A positioning insertion rod is vertically provided on the bottom surface of the positioning rotating plate of the other positioning seat. When the positioning rotating plate is rotated to the horizontal, the positioning insertion rod abuts against one side of the sliding end plate. At this time, a plurality of mounting countersunk holes and a plurality of mounting threaded holes are provided in a one-to-one correspondence.

[0009] Optionally, a support rod is provided on the assembly base plate, and the support rod is disposed between the two placement blocks. When the support rod abuts against the bottom surface of the guide wire seat body, the top surface of the guide wire seat body is in a horizontal state.

[0010] Optionally, two abutment end plates are vertically arranged on the assembly base plate. The two abutment end plates are located on opposite sides of the two placement blocks. One abutment end plate is abutted against one of the placement shafts. The other abutment end plate is horizontally threaded with an abutment bolt along the length direction of the guide wire seat body. The end of the abutment bolt is pressed against one end of the guide wire seat body along its length direction.

[0011] Optionally, a snap-fit ​​pin is vertically provided at the top of the vertical section, and a snap-fit ​​through hole is provided at both ends of the positioning rotating plate. When the positioning rotating plate is rotated to a horizontal state, the two snap-fit ​​pins correspond one-to-one with the two snap-fit ​​through holes and are inserted into each other.

[0012] Optionally, a side stop post is vertically connected to the bottom surface of the first extension plate, and the side stop post abuts against the side of the sliding end plate with the positioning groove. A positioning end block is connected to the bottom surface of the second extension plate, and the positioning end block abuts against the side of the sliding end plate with the positioning hole.

[0013] Optionally, the top of the guide wire seat body is provided with an overlapping groove along the circumferential direction of the inner wall of the mounting cavity, and the opposite sides of the sliding end plate overlap in the overlapping groove.

[0014] In summary, this application includes at least one of the following beneficial technical effects: By assembling the base plate, placement block, positioning rotating plate and positioning seat in cooperation, the precise positioning between the guide wire seat body and the sliding seat is achieved, which has the effect of achieving precise and stable installation of the guide wire seat and reducing the possibility of wire skipping during the guide wire process. The overlapping groove enables the initial positioning of the sliding seat in the width direction of the guide wire seat body, which facilitates precise positioning in subsequent operations. The fastening pin and through hole enable the positioning of the positioning plate, allowing the positioning plate to be set in a direction parallel to the width direction of the guide wire seat body. Attached Figure Description

[0015] Figure 1 This is a schematic diagram illustrating the structure of the guide wire seat body and the sliding seat in an embodiment of this application.

[0016] Figure 2 This is a schematic diagram illustrating the structure of a tooling for assisting in the assembly of a wire guide seat, as described in this application.

[0017] Figure 3 This is a partial cross-sectional view of the block and the abutment plate in the embodiments of this application.

[0018] Figure 4 This is a structural schematic diagram illustrating the positioning seat and guide wire seat body in the embodiments of this application.

[0019] Figure 5 This is a partial cross-sectional view of the positioning end block and positioning rod in the embodiments of this application.

[0020] Explanation of reference numerals in the attached drawings: 01, Guide wire seat body; 011, Overlapping groove; 012, Placement shaft; 013, Reciprocating lead screw; 014, Helical reciprocating guide wire groove; 015, Mounting block; 016, Mounting threaded hole; 02, Sliding seat; 021, Sliding end plate; 022, Connecting slide rod; 023, Mounting countersunk hole; 024, Combing seat; 025, Combing through hole; 1, Assembly base plate; 2, Positioning seat; 21, Horizontal section; 22, Vertical section; 23. Connecting vertical plate; 231. Connecting waist-shaped hole; 24. Fastening pin; 25. Positioning rotating plate; 251. Fastening through hole; 26. Moving slide rod; 3. Placement block; 31. Placement groove; 4. Abutting end plate; 5. Support rod; 6. Abutting bolt; 7. First extension plate; 8. Second extension plate; 9. Positioning pressure strip; 91. Embedding groove; 10. Positioning pressure groove; 11. Embedding block; 12. Side stop post; 13. Positioning insert rod; 14. Positioning end block. Detailed Implementation

[0021] The following is in conjunction with the appendix Figure 1-5 This application will be further described in detail below. Embodiments of this application provide a tooling for assisting in the assembly of a wire guide seat, which has the effect of achieving precise and stable installation of the wire guide seat and reducing the possibility of wire skipping during the wire guiding process.

[0022] Reference Figure 1The bottom surface and top surface of the wire guide body 01 are not parallel. A mounting cavity is formed on the top surface of the wire guide body 01, and an overlapping stepped groove 011 is formed along the inner ring wall of the top of the mounting cavity. A cylindrical placement shaft 012 is connected to both ends of the wire guide body 01 along its length, and the two placement shafts 012 are coaxially arranged. A reciprocating lead screw 013 is rotatably mounted in the mounting cavity of the wire guide body 01 along its length. The reciprocating lead screw 013 is provided with a helical reciprocating wire guide groove 014 for guiding the wire. Several mounting blocks 015 are provided on the inner wall of the mounting cavity. The top surface of the mounting blocks 015 is flush with the top surface of the overlapping stepped groove 011, and the top surface of the mounting blocks 015 is provided with mounting threaded holes 016.

[0023] Reference Figure 1 Two sliding seats 02 are provided on the guide wire seat body 01. Each sliding seat 02 includes two parallel sliding end plates 021 and a connecting slide rod 022 connecting the two sliding end plates 021. Two connecting slide rods 022 are parallel to each other between the two sliding end plates 021. The sliding end plates 021 have countersunk holes 023 for mounting. One of the connecting slide rods 022 is slidably and rotatably connected to a comb seat 024. The comb seat 024 has a combing through hole 025 for the wire to pass through. When guiding and pulling the wire, the comb seat 024 rotatably overlaps the connecting slide rod 022. The sliding seats 02 rest on the top surface of the guide wire seat body 01, and the opposite sides of the sliding end plates 021 overlap on the overlapping groove 011.

[0024] Reference Figure 2 and Figure 3 A tooling for assisting in the assembly of a wire guide seat includes an assembly base plate 1, a positioning seat 2, placement blocks 3, and an abutment end plate 4. Two placement blocks 3 are vertically arranged on the top surface of the assembly base plate 1. Each placement block 3 has a V-shaped groove 31 for supporting a placement shaft 012. Two placement shafts 012 are positioned one-to-one with the two placement blocks 3, resting in the placement groove 31. A support rod 5 is inclinedly connected to the assembly base plate 1. When the bottom surface of the wire guide seat body 01, placed between the two placement blocks 3, contacts the bottom surface of the support rod 5, the top surface of the wire guide seat body 01 is horizontal. Two abutment end plates 4 are vertically connected on the top surface of the assembly body. The two abutment end plates 4 are respectively provided with two placement blocks 3 on opposite sides. One abutment end plate 4 abuts with one of the placement shafts 012. The other abutment end plate 4 is horizontally threaded with an abutment bolt 6 along the length direction of the guide wire seat body 01. The end of the abutment bolt 6 abuts against the end of the corresponding guide wire seat body 01 along the length direction.

[0025] Reference Figure 2-4Several positioning seats 2 are arranged between two placement blocks 3, and each positioning seat 2 corresponds to a number of sliding end plates 021. Each positioning seat 2 includes a horizontal section 21, a vertical section 22, a connecting vertical plate 23, a fastening pin 24, a positioning rotating plate 25, and a movable slide rod 26. The horizontal section 21 is connected to the top surface of the assembly base plate 1 and is arranged along the width direction of the guide wire seat body 01. One vertical section 22 is vertically arranged on the top surface of each end of the horizontal section 21. Two vertical sections 22 in the same positioning seat 2 are located on opposite sides of the width direction of the guide wire seat body 01. Two connecting vertical plates 23 are fixed to the top of one of the vertical sections 22 and are connected in parallel. A connecting waist-shaped hole 231 is formed on the connecting vertical plate 23 along the vertical direction. The positioning rotating plate 25 is arranged along the width direction of the guide wire seat body 01, and one end of the positioning rotating plate 25 is perpendicularly connected to the movable slide rod 26 in the length direction. The movable slide rod 26 is a round rod. The two ends of the movable slide rod 26 correspond one-to-one with the connecting waist-shaped holes 231 on the two corresponding connecting vertical plates 23 and slide in fit. A snap-fit ​​pin 24 is vertically installed at the top of each vertical segment 22, and a snap-fit ​​through hole 251 is opened at both ends of the positioning rotating plate 25 along its length. When the positioning rotating plate 25 rotates to simultaneously rest on the two corresponding vertical segments 22, the two snap-fit ​​through holes 251 on the positioning rotating plate 25 correspond one-to-one with the two snap-fit ​​pins 24 and engage in fit.

[0026] Reference Figure 2-4 Two positioning seats 2 corresponding to the same sliding seat 02 form a group. The positioning rotating plate 25 of one positioning seat 2 is connected to the first extension plate 7 by a connector, and the positioning rotating plate 25 of the other positioning seat 2 is connected to the second extension plate 8 by a connector. The bottom surface of the first extension plate 7 is connected to a positioning pressure strip 9 along the width direction of the guide wire seat body 01. The top surface of the corresponding sliding end plate 021 is provided with a positioning pressure groove 10 along the width direction of the guide wire seat body 01. An embedding block 11 is fixedly installed on the inner wall of the top of the positioning pressure groove 10. The bottom surface of the positioning pressure strip 9 is provided with an embedding groove 91 corresponding to the shape of the embedding block 11. When the positioning plate 25, which is equipped with the first extension plate 7, rotates to the top of the corresponding two vertical sections 22, the positioning pressure strip 9 is embedded in the positioning pressure groove 10 on the sliding end plate 021, and the embedding block 11 is embedded in the embedding groove 91 of the positioning pressure strip 9. At this time, a number of mounting countersunk holes 023 and a number of mounting threaded holes 016 on the sliding end plate 021 are correspondingly set one-to-one. A number of side stops 12 are vertically arranged on the bottom surface of the first extension plate 7. When the sliding seat 02 is positioned, one side of the sliding end plate 021 abuts against the side stops 12.

[0027] Reference Figure 2 , Figure 4 and Figure 5The bottom surface of the positioning rotating plate 25, which is equipped with the second extension plate 8, is vertically connected to two positioning rods 13, and the bottom surface of the second extension plate 8 is vertically connected to a positioning end block 14. When the positioning rotating plate 25 with the second extension plate 8 rotates to a horizontal position, the positioning rods 13 and the positioning end block 14 abut against the opposite sides of the sliding end plate 021, and at this time, a number of mounting countersunk holes 023 and a number of mounting threaded holes 016 are precisely matched one-to-one.

[0028] Reference Figure 2 and Figure 3 When installing the guide wire seat body 01 and the sliding seat 02, first place the guide wire seat body 01 on the assembly base plate 1. Two placement shafts 012 are correspondingly set with two placement blocks 3, and the placement shafts 012 overlap the corresponding placement grooves 31. Rotate the guide wire seat body 01 so that its bottom surface abuts against the top of the support rod 5. At this time, the top surface of the guide wire seat body 01 is in a horizontal state, facilitating the subsequent precise installation of the sliding seat 02. Tighten the abutment bolt 6, so that one of the placement shafts 012 abuts against the abutment end plate 4, and the abutment bolt 6 abuts against one end of the guide wire seat body 01 along its length, achieving precise positioning and locking of the guide wire seat body 01. Several mounting points on the guide wire seat body 01 can precisely correspond to several positioning seats 2 on the assembly base plate 1.

[0029] Reference Figure 2-4 The sliding seat 02 is placed on the top surface of the guide wire seat body 01, and the edge of the sliding end plate 021 overlaps the overlapping groove 011 of the guide wire seat body 01, thus achieving initial positioning of the sliding seat 02 in the width direction of the guide wire seat body 01. The positioning rotating plate 25, which is provided with the first extension plate 7, is rotated to be above the guide wire seat body 01. The positioning rotating plate 25 is pressed down, and the sliding rod 26 slides down in the connecting waist-shaped hole 231 of the connecting vertical plate 23. When the positioning rotating plate 25 moves down to the top of the two vertical sections 22, the positioning rotating rod is in a horizontal state. The two snap-fit ​​through holes 251 on the positioning rotating plate 25 correspond one-to-one with the snap-fit ​​pins 24 on the two vertical sections 22 and are inserted and engaged, so that the setting direction of the positioning rotating plate 25 is parallel to the width direction of the guide wire seat body 01. At this time, the positioning strip 9 is embedded in the positioning groove 10 on the sliding end plate 021, and the embedding block 11 is embedded in the embedding groove 91 on the bottom surface of the positioning strip 9, realizing the precise positioning of the sliding end plate 021 in the width direction of the guide wire seat body 01, which facilitates the precise positioning of the sliding seat 02 in the subsequent process. The side stop post 12 abuts against one side of the sliding end plate 021, realizing the precise positioning of the sliding end plate 021 on the guide wire seat body 01.

[0030] Reference Figure 2 , Figure 4 and Figure 5The positioning plate 25, equipped with the second extension plate 8, is rotated so that it simultaneously overlaps the tops of the two vertical sections 22 of the corresponding positioning seat 2. The opposite sides of the corresponding sliding end plate 021 abut against the positioning end block 14 and the positioning rod 13, respectively. By precisely limiting the two sliding end plates 021 at both ends of the sliding seat 02, precise positioning of the sliding seat 02 on the top surface of the guide wire seat body 01 is achieved. At this time, several countersunk holes 023 on the sliding end plate 021 correspond precisely to the mounting threaded holes 016 on the mounting block 015. Countersunk bolts are then connected to the corresponding countersunk holes 023 and mounting threaded holes 016 using a tool. Because the two positioning seats 2 at both ends of the sliding seat 02 position it, the sliding seat 02 can precisely correspond to the mounting point of the guide wire seat body 01 throughout the installation process, which helps improve the installation accuracy of the sliding seat 02. After installation, the connecting slide bar 022 is set parallel to the reciprocating lead screw 013 in the guide wire seat body 01. The comb seat 024 slides along the connecting slide bar 022 during the wire guiding process, reducing the possibility of wire skipping.

[0031] Reference Figure 3 After completing the stable and precise installation between the guide wire seat body 01 and the sliding seat 02, the positioning rotating plate 25 is lifted off the guide wire seat body 01, and the abutment bolt 6 is rotated in the opposite direction to release the lock on the guide wire seat body 01. The guide wire seat body 01 is then removed from the assembly fixture to prepare for the next round of installation.

[0032] The implementation principle of a tooling for assisting in the assembly of a wire guide seat in this embodiment is as follows: First, the wire guide seat body 01 is placed on the assembly base plate 1, and the wire guide seat body 01 is locked using the abutment bolts 6. The sliding seat 02 is then placed on the top surface of the wire guide seat body 01. The positioning plate 25 is rotated, and the two snap-fit ​​through holes 251 on the positioning plate 25 are engaged with the snap-fit ​​pins 24 on the two vertical sections 22. At this time, the positioning pressure strip 9 is embedded in the positioning pressure groove 10, and the side stop post 12 abuts against one side of the sliding end plate 021. The opposite sides of the sliding end plate 021 abut against the positioning end block 14 and the positioning insertion rod 13, respectively. By precisely limiting the two sliding end plates 021 at both ends of the sliding seat 02, the sliding seat 02 is accurately positioned on the top surface of the wire guide seat body 01, which helps to improve the installation accuracy of the sliding seat 02.

[0033] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A tooling for assisting in the assembly of a wire guide seat, used for the installation of a wire guide seat body (01) and a sliding seat (02), wherein both ends of the wire guide seat body (01) are coaxially provided with a placement shaft (012), the sliding seat (02) includes two sliding end plates (021) and a connecting slide rod (022) connecting the two, the sliding seat (02) is disposed on the top surface of the wire guide seat body (01), the sliding end plates (021) are provided with mounting countersunk holes (023), the inner wall of the mounting cavity is provided with a plurality of mounting blocks (015), the mounting blocks (015) are provided with mounting threaded holes (016), and the plurality of mounting threaded holes (016) correspond one-to-one with the plurality of mounting countersunk holes (023), characterized in that, The assembly includes an assembly base plate (1), placement blocks (3), a positioning rotating plate (25), and a positioning seat (2). Two placement blocks (3) are vertically arranged on the top surface of the assembly base plate (1). The top surface of each placement block (3) has a placement groove (31). The two placement blocks (3) correspond one-to-one with the two placement shafts (012). The placement shafts (012) are placed in the corresponding placement grooves (31). The positioning seat (2) includes two vertical sections (22) arranged on the top surface of the assembly base plate (1). The positioning plates (25) are located on opposite sides of the guide wire seat body (01). One end of the positioning plate (25) is rotatably connected to the top of one of the vertical sections (22), and the other end is placed on the top of the other vertical section (22). The positioning plate (25) is provided with a positioning pressure strip (9). The top surface of one of the sliding end plates (021) is provided with a positioning pressure groove (10). When the positioning pressure strip (9) is embedded in the positioning pressure groove (10), the mounting countersunk hole (023) and the mounting threaded hole (016) are set one-to-one.

2. The tooling for assisting in the assembly of the wire guide seat according to claim 1, characterized in that: An embedding block (11) is provided on the inner wall of the positioning groove (10), and a corresponding embedding groove (91) is provided on the bottom surface of the positioning strip (9). When the positioning strip (9) is embedded in the positioning groove (10), the embedding block (11) is embedded in the embedding groove (91).

3. The tooling for assisting in the assembly of the wire guide seat according to claim 2, characterized in that: One positioning seat (2) is provided at each end of the length direction of each sliding seat (02). The two positioning seats (2) are provided one-to-one with the two sliding end plates (021) of the sliding seat (02). A connecting vertical plate (23) is vertically provided at the top of one of the vertical sections (22). A connecting waist-shaped hole (231) is vertically provided on the connecting vertical plate (23). A movable slide rod (26) is provided at one end of the positioning rotating plate (25). The movable slide rod (26) is slidably and rotatably disposed in the connecting waist-shaped hole (231). In 1), a first extension plate (7) is provided on the positioning rotating plate (25) of one of the positioning seats (2), and the positioning pressure strip (9) is provided on the bottom surface of the first extension plate (7). A positioning insert (13) is vertically provided on the bottom surface of the positioning rotating plate (25) of the other positioning seat (2). When the positioning rotating plate (25) is rotated to the horizontal, the positioning insert (13) abuts against one side of the sliding end plate (021). At this time, a plurality of mounting countersunk holes (023) and a plurality of mounting threaded holes (016) are provided in a one-to-one correspondence.

4. The tooling for assembling an auxiliary wire guide seat according to claim 3, characterized in that: A support rod (5) is provided on the assembly base plate (1). The support rod (5) is located between the two placement blocks (3). When the support rod (5) abuts against the bottom surface of the guide wire seat body (01), the top surface of the guide wire seat body (01) is in a horizontal state.

5. The tooling for assisting in the assembly of the wire guide seat according to claim 4, characterized in that: Two abutment end plates (4) are vertically arranged on the assembly base plate (1). The two abutment end plates (4) are located on the side of the two placement blocks (3) that are far apart from each other. One of the abutment end plates (4) is abutted against one of the placement shafts (012). The other abutment end plate (4) is horizontally threaded with an abutment bolt (6) along the length direction of the guide wire seat body (01). The end of the abutment bolt (6) is abutted against one end of the guide wire seat body (01) along the length direction.

6. The tooling for assisting in the assembly of the wire guide seat according to claim 3, characterized in that: The top of the vertical section (22) is vertically provided with a snap-fit ​​pin (24), and both ends of the positioning rotating plate (25) are provided with a snap-fit ​​through hole (251). When the positioning rotating plate (25) is rotated to a horizontal state, the two snap-fit ​​pins (24) correspond one-to-one with the two snap-fit ​​through holes (251) and are inserted into each other.

7. The tooling for assembling an auxiliary wire guide seat according to claim 3, characterized in that: The bottom surface of the first extension plate (7) is vertically connected to a side stop post (12), which abuts against the side of the sliding end plate (021) with the positioning groove (10). The bottom surface of the second extension plate (8) is connected to a positioning end block (14), which abuts against the side of the sliding end plate (021) with the positioning hole.

8. The tooling for assisting in the assembly of the wire guide seat according to claim 1, characterized in that: The top of the guide wire seat body (01) is provided with an overlapping groove (011) along the circumferential direction of the inner wall of the mounting cavity, and the opposite sides of the sliding end plate (021) overlap in the overlapping groove (011).