CN212109935U - Wire harness full-freedom-degree key size production detection assembly and wire harness detection tool thereof - Google Patents

Abstract

The utility model discloses a full degree of freedom key dimension production of pencil detects assembly and pencil detection frock thereof, wherein, the pencil detects the frock and includes: a platform and a full-freedom test stand; the full degree of freedom test support includes: a bracket base; a plurality of mounting structures matched with the support base are arranged in the same plane of the platform; the first movable joint can rotate around the X direction and is arranged on the bracket base; the second movable joint can rotate around the Y direction and is arranged on the first movable joint; a third movable joint which can rotate around the Z direction and is arranged on the second movable joint; the test board can move along the Z direction and is arranged on the third movable joint and used for being matched with the wire harness to be detected. The scheme can realize the adjustment of six degrees of freedom of the full-degree-of-freedom test support, so that the key size control and detection of the full-degree of freedom can be provided for the full-degree-of-freedom test support in the process of wire harness production and detection, and the problems that the detection is inaccurate, and the detection of partial key positions cannot be realized are effectively avoided.

Description

Wire harness full-freedom-degree key size production detection assembly and wire harness detection tool thereof

Technical Field

The utility model relates to a pencil production technical field, in particular to full degree of freedom key dimension production of pencil detects assembly and pencil detection frock thereof.

Background

The wiring harness belongs to a flexible material, the size and the wire outlet direction of the wiring harness are difficult to accurately control in actual production, but for the application of the wiring harness, the critical positions of the end, the fixed end and the like of a wiring harness connector need accurate size and wire outlet direction, otherwise, serious problems of dragging, bending interference and the like of the wiring harness can occur, and the function of the wiring harness is affected.

Other prior arts focus on detection of on-off of the wire harness, wrong connection and the like, and some prior arts focus on size detection, but only relate to the size of the two-degree-of-freedom or three-degree-of-freedom plane wire length. In actual use, the wire harness is a space six-degree-of-freedom use environment, and partial critical dimensions cannot be detected in two-degree-of-freedom detection, so that the use performance of the wire harness is influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a pencil full degree of freedom key dimension production detects frock can detect (production) in-process at the pencil, for its key dimension control that provides the full degree of freedom with detect to avoid appearing detecting inaccurate, the unable detection scheduling problem in part key position.

The utility model also provides an use the full degree of freedom key dimension production of pencil that foretell full degree of freedom key dimension production detected frock and detect the assembly.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a full degree of freedom key dimension production of pencil detects frock, includes: a platform and a full-freedom test stand;

the full-freedom test stand includes:

a bracket base; a plurality of mounting structures matched with the support base are arranged in the same plane of the platform;

the first movable joint can rotate around the X direction and is arranged on the bracket base;

the second movable joint can rotate around the Y direction and is arranged on the first movable joint;

a third movable joint which can rotate around the Z direction and is arranged on the second movable joint;

and the third movable joint can move along the Z direction and is used for being matched with the test board of the wire harness to be detected.

Preferably, the first movable joint is provided with a first rotation stopping locking structure matched with the bracket base; the second movable joint is provided with a second rotation stopping locking structure matched with the first movable joint; the third movable joint is provided with a third rotation stopping locking structure matched with the second movable joint; and/or the test board is provided with a stop locking structure used for being matched with the third movable joint.

Preferably, the first rotation stop locking structure, the second rotation stop locking structure, the third rotation stop locking structure and/or the stop locking structure comprises: bolt locking structure.

Preferably, a plurality of the mounting structures are arranged in a matrix in the same plane of the platform.

Preferably, each of the mounting structures is a platform threaded hole provided in the platform; the bracket base is provided with a base threaded hole matched with the platform threaded hole;

full degree of freedom key dimension production of pencil detects frock still includes: and the bolt is used for connecting the platform threaded hole and the base threaded hole.

Preferably, the number of the threaded holes of the base is multiple and the threaded holes are arranged in a matrix;

the quantity of platform screw hole is a plurality of, and with a plurality of base screw hole one-to-one arranges.

Preferably, the platform further comprises: the steel wire tooth socket is embedded in the hole wall of the platform threaded hole.

Preferably, the test board is provided with a connector end mounting structure for mating with a connector end of the wire harness to be tested, and/or the test board is provided with a fixed end mounting structure for mating with a fixed end of the wire harness to be tested.

A full-freedom critical dimension production inspection assembly for wire harnesses comprises: the wire harness fixing tool is the wire harness full-freedom critical dimension production tool;

the auxiliary module is detachably mounted on the test board of the wire harness full-freedom key size production tool.

Preferably, the auxiliary module comprises: a wire diameter testing tool, a mistake proofing tool or a production auxiliary tool;

the test board is provided with a test tool mounting structure used for being matched with the wire diameter test tool, the test board is provided with a mistake-proofing tool mounting structure used for being matched with the mistake-proofing tool, and the test board is provided with an auxiliary tool mounting structure used for being matched with the production auxiliary tool.

According to the technical scheme, the utility model provides an among the full degree of freedom key dimension production of pencil detection frock, through the support base, first activity festival, the second activity festival, the third activity festival and survey test panel's connection cooperation, so that full degree of freedom test support can realize the regulation of six degrees of freedom, so that at pencil detection (production) in-process, can provide the key dimension control and the detection of full degree of freedom for it, so as to avoid appearing detecting inaccurate, the unable scheduling problem that detects of part key position.

The utility model also provides a pencil full degree of freedom critical dimension production detects assembly, owing to adopted foretell pencil full degree of freedom critical dimension production to detect the frock, consequently it also has corresponding beneficial effect, specifically can refer to preceding explanation, no longer gives unnecessary details here.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wire harness full-freedom critical dimension production detection tool provided by an embodiment of the present invention;

fig. 2 is an assembly schematic view of a wire harness full-freedom critical dimension production detection tool provided by the embodiment of the invention;

fig. 3 is a schematic structural diagram of a platform according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a full-freedom test bracket according to an embodiment of the present invention;

fig. 5 is an exploded schematic view of a full-freedom test stand according to an embodiment of the present invention;

fig. 6 is an example diagram of a wire harness full-freedom critical dimension production detection tool provided by the embodiment of the present invention.

Wherein, 10 is a platform, 11 is a platform bolt hole;

20 is a full-freedom test bracket, 21 is a bracket base, 22 is a first movable joint connecting pin shaft, 23 is a first movable joint, 24 is a second movable joint, 25 is a third movable joint, 26 is a test board, 27 is a fourth bolt, 20a is a first full-freedom test bracket, 20b is a second full-freedom test bracket, 20c is a third full-freedom test bracket, 20d is a fourth full-freedom test bracket, and 20e is a fifth full-freedom test bracket;

30 is a bolt;

40 is a wire harness to be detected.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model provides a full degree of freedom key dimension production of pencil detects frock, as shown in FIG. 1, include: a platform 10 and a full-freedom test stand 20;

as shown in fig. 4, 5 and 6, the full-freedom test stand 20 includes:

a holder base 21; a plurality of mounting structures matched with the bracket base 21 are arranged in the same plane of the platform 10; it should be noted that, by matching the bracket base 21 with mounting structures in different orientations, the adjustment of two linear degrees of freedom (X direction and Y direction) of the full-degree-of-freedom test bracket 20 is facilitated;

a first movable joint 23 which can rotate around the X direction and is arranged on the bracket base 21;

a second movable joint 24 rotatably provided around the Y direction to the first movable joint 23;

a third movable joint 25 rotatably provided to the second movable joint 24 in the Z direction;

and a test plate 26 movably disposed in the Z-direction at the third movable link 25 for cooperating with the wire harness 40 to be tested. It should be noted that, with the above design, it is further helpful to realize the adjustment of the three rotational degrees of freedom (X-axis, Y-axis, and Z-axis) and the third linear degree of freedom (X-direction) of the full-degree-of-freedom test rack 20; in addition, the test board 26 is provided with a structure for cooperating with an auxiliary tool (which is used for cooperating with the harness 40 to be detected so as to achieve other functions of the harness 40 to be detected) in addition to the structure for cooperating with the connector end and the fixed end of the harness 40 to be detected, details of which will be described later; in addition, each movable part in the scheme is provided with a stop locking structure so as to realize the fixation of the adjusting postures of the full-freedom test support 20 with different degrees of freedom, for example, the automatic fixation after the adjustment can be realized through interference fit; it should be further explained that the scheme is not only suitable for the detection of the wire harness, but also can be used for the production of the wire harness.

According to the technical scheme, the embodiment of the utility model provides an among the full degree of freedom key dimension production of pencil detects frock, through the support base, first activity festival, the second activity festival, the third activity festival and survey test panel's connection cooperation, so that full degree of freedom test support can realize the regulation of six degrees of freedom, so that at pencil detection (production) in-process, can provide the key dimension control and the detection of full degree of freedom for it, so as to avoid appearing detecting inaccurate, the unable scheduling problem that detects of part key position.

In this embodiment, the six degrees of freedom of the full-degree-of-freedom test fixture 20 are adjusted to the appropriate position based on the critical dimension of the wiring harness to be produced or inspected. In order to facilitate the better locking of the full-freedom test rack 20 in different adjustment postures, accordingly, a stop locking structure is required to constrain four degrees of freedom of the full-freedom test rack 20, wherein the four degrees of freedom include: three rotational degrees of freedom and one Z-direction linear degree of freedom (the X-and Y-direction linear degrees of freedom may be constrained by the mounting structure). Specifically, the first movable joint 23 is provided with a first rotation stopping locking structure for matching with the bracket base 21; the second movable joint 24 is provided with a second rotation stopping locking structure matched with the first movable joint 23; the third movable joint 25 is provided with a third rotation-stopping locking structure matched with the second movable joint 24; and/or test plate 26 is provided with a stop lock structure for mating with third movable joint 25.

Specifically, first locking structure, second locking structure, third locking structure and/or the position locking structure that splines includes: bolt locking structure. This scheme has adopted the bolt mode that compresses tightly promptly, has realized the fixed after four above-mentioned degrees of freedom are adjusted, and this mode has the structure simply, adjusts characteristics such as convenient. Further, the first rotation stop locking structure includes:

a first bolt hole provided in the first movable joint 23;

a first bolt which is matched with the first bolt hole and is used for pressing the bracket base 21;

the second rotation-stopping locking structure comprises:

a second bolt hole provided in the second movable joint 24;

a second bolt which is matched with the second bolt hole and is used for pressing the first movable joint 23;

the third locking structure of splining includes:

a third bolt hole provided in the third movable joint 25;

a third bolt which is matched with the third bolt hole and is used for pressing the second movable joint 24;

as shown in fig. 5, the anti-slip locking structure includes:

a fourth bolt hole provided in the test plate 26;

and a fourth bolt 27 matched with the fourth bolt hole and used for pressing the third movable joint 25.

In order to further optimize the above technical solution, a plurality of mounting structures are arranged in a matrix in the same plane of the platform 10. By the design, the full-freedom-degree test support 20 can realize the adjustment of the freedom degrees in the XY two directions, and the full-freedom-degree test supports 20 can be arranged on the platform 10 conveniently, so that the detection of a plurality of critical dimensions of the wire harness 40 to be detected is realized.

In the present solution, as shown in fig. 3, each mounting structure is a platform threaded hole 11 provided in the platform 10; the bracket base 21 is provided with a base threaded hole matched with the platform threaded hole 11;

full degree of freedom key dimension production of pencil detects frock still includes: and a bolt 30 for connecting the platform threaded hole 11 and the base threaded hole. Namely, the full-freedom test support 20 is mounted on the platform 10 by a screw connection mode, and the mode has the characteristics of simple structure, convenience in mounting and the like.

Specifically, in order to enhance the mounting stability of the bracket base 21, it is required that the bracket base 21 is provided with a plurality of mounting points located at different positions, and accordingly, the number of the base threaded holes is a plurality and arranged in a matrix; in the scheme, a plurality of base threaded holes of the support base 21 are arranged in a matrix manner so as to be matched with the matrix arrangement manner of the mounting structure of the platform 10, so that the full-freedom-degree test support 20 can better realize the adjustment of freedom degrees in the XY two directions;

in order to ensure the alignment installation of the bracket base 21 on the platform 10, the platform threaded holes 11 are multiple in number and are arranged in one-to-one correspondence with the base threaded holes. This is in this scheme promptly, and the hole centre-to-centre spacing of two adjacent platform screw hole 11 is the same with the hole centre-to-centre spacing of two adjacent base screw holes, and the hole centre joint direction of two adjacent platform screw hole 11 is the same with the hole centre joint direction of two adjacent base screw holes.

In order to further optimize the above technical solution, the platform 10 further includes: the steel wire facing, the steel wire facing is embedded in the pore wall of platform screw hole 11 to form effectual protection to the pore wall of platform screw hole 11, thereby help improving platform 10's life.

In the scheme, the test board 26 is provided with a connector end mounting structure which is used for being matched with a connector end of the wire harness 40 to be detected, so that a connector which is matched with the wire harness 40 to be detected can be mounted conveniently, and the effect of judging the on-off state and the wrong connection of the wire harness 40 to be detected can be achieved through the control of a chip; and/or the test board 26 is provided with a fixed end mounting structure for being matched with the fixed end of the wire harness 40 to be tested, so that the test of key dimensions such as the fixed end of the wire harness 40 to be tested is realized.

The embodiment of the utility model provides a full degree of freedom key dimension production of pencil detects assembly is still provided, include: the wire harness fixing tool is the wire harness full-freedom critical dimension production tool;

the auxiliary module is removably mounted to the test plate 26 of the wire harness full-freedom critical dimension production tooling. Because this scheme has adopted foretell pencil full degree of freedom critical dimension production frock, it also has corresponding beneficial effect consequently, can refer to preceding explanation specifically, no longer gives details here. In addition, on the basis of the full-freedom-degree test support 20, different auxiliary modules can be additionally configured to realize different functions of the wire harness 40 to be detected.

In this scheme, supplementary module includes: a wire diameter testing tool, a mistake proofing tool or a production auxiliary tool;

the test board 26 is provided with a test tool mounting structure for assembling with a wire diameter test tool so as to be convenient for mounting the wire diameter test tool to test whether the wire diameter of the wire harness 40 to be tested is qualified;

the test board 26 is provided with a mistake-proofing tool mounting structure for cooperating with the mistake-proofing tool so as to facilitate mounting of the mistake-proofing tool to prevent a wiring harness production mistake in the production process;

the test board 26 is provided with an auxiliary tool mounting structure for fitting with a production auxiliary tool so as to mount the production auxiliary tool to check whether the wire harness is qualified in the production process.

The present solution is further described below with reference to specific embodiments:

the utility model aims at:

1. the real using environment of the wire harness is restored, and full-freedom key position size control is provided for the wire harness production and detection processes;

2. and detecting unqualified products such as on-off and misconnection of the wire harness.

The technical scheme of the utility model:

as shown in fig. 1, the tool for producing and detecting the critical dimension of the wire harness in the full degree of freedom according to the scheme mainly comprises a production and detection platform (namely, a platform 10, the same below) and a full degree of freedom test support. The tool for producing and detecting the critical dimension of each wire harness in full freedom degree comprises a production platform and a detection platform, the size of the platform can be customized according to the size of the wire harness, or a large platform is used, and the production and the test of the small-size wire harness are compatible. The tool for producing and detecting the full-freedom critical dimension of each wire harness comprises more than or equal to two full-freedom testing supports, the number of the supports is determined according to the number of the produced or detected critical dimension of the wire harness, and a plurality of full-freedom testing supports can be used for compatibly producing and testing a small number of wire harnesses with the critical dimension number. Referring to fig. 2, the full-scale production and test support is connected to a production and detection platform through a hand-tightening bolt (namely, a bolt 30) to form a wire harness full-freedom critical dimension production and test tool.

As shown in fig. 3, the platform is made of aluminum alloy, so that the flatness and the weight are better; matrix threaded holes are drilled in a production and detection platform according to standard sizes, the hole pitch clearance is consistent with the mounting hole pitch of the full-freedom testing support, the thread parameters are also consistent with the aperture of the mounting hole of the full-freedom testing support, and the steel wire tooth socket is embedded, so that the repeated service life of the platform is prolonged.

As shown in FIG. 4, the full-freedom production and test rack is mainly composed of a rack base, a first movable joint, a second movable joint, a third movable joint and a test board. The support base is mainly used for connecting a full-freedom production and test support and a production and test platform, and the support base realizes the control of linear freedom degrees in two directions through different hole sites of the connecting platform. In addition, the support base is connected with the first movable joint through a pin shaft (namely, the first movable joint is connected with the pin shaft 22) to realize the control of the first axial rotation freedom degree. The first movable joint and the second movable joint are also connected through a pin shaft, so that the control of the second axial rotation freedom degree is realized. The second movable joint is also connected with the third movable joint through a pin shaft, so that the control of the third axial rotation degree of freedom is realized. The third movable joint is connected with the test board through a sliding rail, so that the control of the linear degree of freedom in the third direction is realized, and the system realizes the control of six degrees of freedom through the connection of the support base, the first movable joint, the second movable joint, the third movable joint and the test board, namely the control of the critical dimension of the wire harness with full degree of freedom.

As shown in fig. 5, in the implementation process, according to the size of the wire harness to be produced or detected, the proper position of the bracket base is determined, and the bracket base is fixed on the platform by screwing four or more bolts (i.e., the bolts 30). And then adjusting the first movable joint to a proper position according to the key size of the wire harness to be produced or detected, and fixing the first movable joint to the bracket base by screwing four or more bolts (namely, the first bolts). And then adjusting the second movable joint to a proper position according to the key size of the wire harness to be produced or detected, and fixing the second movable joint to the first movable joint by screwing bolts (namely, second bolts) by four or more hands. And then adjusting the third movable joint to a proper position according to the key size of the wire harness to be produced or detected, and fixing the third movable joint to the second movable joint by screwing bolts (namely, third bolts) by four or more hands. The test board is then adjusted to the appropriate position based on the critical dimensions of the wiring harness to be produced or inspected and is secured to the third movable section by two or more hand-threaded bolts (i.e., fourth bolt 27). The adjustment of the wire harness full-freedom key size production and detection tool is realized.

On the test board, a connector matched with the wiring harness can be installed through the connector end installation structure, and whether the wiring harness is connected in an on-off mode or not is judged through chip control. The wire harness wire diameter test fixture can also be used for testing the wire harness wire diameter qualification or not by setting a mounting hole (namely a fixed end mounting structure), testing the critical dimensions of a wire harness fixed point and the like, and also can be used for testing the wire harness wire diameter qualification or not by using the fixed wire diameter test fixture, and also can be used for preventing production errors in the production process by using the fixed error-proof fixture, and also can be used for fixing the production auxiliary fixture, namely checking tools, wherein the tools are not listed one by one, and all the tools required in the wire harness production and detection process can be mounted on a test board.

As shown in fig. 6, the embodiment of the present invention is typical, take the wire harness 40 to be detected of fig. 6 as an example, according to the special characteristics of the wire harness, recognize that there are six critical dimensions, then adjust the tool position to the critical dimension position and lock, install this six-point fixing tool that matches with the wire harness. In the production process, the six points are taken as fixed points for production. And in the test process, the six points are used as detection points for detection.

In this embodiment, the test connection points between the wire harness 40 to be tested and the first full-freedom test bracket 20a, the second full-freedom test bracket 20b, and the third full-freedom test bracket 20c are connectors, and the test connection points between the wire harness 40 to be tested and the fourth full-freedom test bracket 20d, and the fifth full-freedom test bracket 20e are buckles.

The technical effects of the utility model:

1. the utility model discloses can realize in pencil production and testing process, provide the critical dimension control and the detection of full degree of freedom. Especially to the size that the precision is high, the complexity is high, the utility model discloses the effect is better, avoids the production of two existing degrees of freedom pencil and detects the frock and detect inaccurate, the unable scheduling problem that detects of part key position.

2. The utility model discloses a simple and easy regulation and fixed, can realize the detection of the full degree of freedom critical dimension of different pencil, the detection of a frock various different forms of can compatible provides very big convenience with the detection to the pencil production in sample stage.

3. The utility model discloses a basic frame, according to different pencil functions, dispose different detection module installations, can realize the high accuracy of most separated time restraints, high difficulty detects.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a full degree of freedom key dimension production of pencil detects frock which characterized in that includes: a platform (10) and a full-freedom test stand (20);

the full-freedom test stand (20) includes:

a holder base (21); a plurality of mounting structures matched with the bracket base (21) are arranged in the same plane of the platform (10);

a first movable joint (23) which can rotate around the X direction and is arranged on the bracket base (21);

a second movable joint (24) rotatably provided to the first movable joint (23) in the Y direction;

a third movable joint (25) rotatably provided to the second movable joint (24) in the Z direction;

and the test board (26) is arranged on the third movable joint (25) in a movable mode along the Z direction and is used for being matched with the wire harness (40) to be detected.

2. The tool for detecting the production of the critical dimension of the wire harness in the full degree of freedom according to claim 1, wherein the first movable joint (23) is provided with a first rotation stopping locking structure used for being matched with the bracket base (21); the second movable joint (24) is provided with a second rotation stopping locking structure matched with the first movable joint (23); the third movable joint (25) is provided with a third rotation-stopping locking structure matched with the second movable joint (24); and/or the test board (26) is provided with a stop locking structure used for being matched with the third movable joint (25).

3. The full-freedom critical dimension production detection tool for wire harnesses according to claim 2, wherein the first rotation-stopping locking structure, the second rotation-stopping locking structure, the third rotation-stopping locking structure and/or the stop locking structure comprise(s): bolt locking structure.

4. The tool for detecting the production of the critical dimension of the wire harness with the full freedom degree according to claim 1, wherein a plurality of the mounting structures are arranged in a matrix in the same plane of the platform (10).

5. The tool for detecting the production of the critical dimension of the wire harness in the full degree of freedom according to claim 4, wherein each mounting structure is a platform threaded hole (11) arranged on the platform (10); the bracket base (21) is provided with a base threaded hole matched with the platform threaded hole (11);

full degree of freedom key dimension production of pencil detects frock still includes: and the bolt (30) is used for connecting the platform threaded hole (11) and the base threaded hole.

6. The tool for detecting the production of the critical dimension of the full degree of freedom of the wire harness according to claim 5, wherein the number of the threaded holes of the base is multiple and the threaded holes are arranged in a matrix;

the number of the platform threaded holes (11) is multiple, and the platform threaded holes are arranged in a one-to-one correspondence mode with the base threaded holes.

7. The tool for detecting the production of the critical dimension of the wire harness with the full freedom degree according to claim 5, wherein the platform (10) further comprises: the steel wire tooth socket is embedded in the hole wall of the platform threaded hole (11).

8. The wire harness full-freedom critical dimension production inspection tool according to claim 1, wherein the test board (26) is provided with a connector end mounting structure for mating with a connector end of the wire harness (40) to be inspected, and/or the test board (26) is provided with a fixed end mounting structure for mating with a fixed end of the wire harness (40) to be inspected.

9. A full-freedom critical dimension production inspection assembly for wire harnesses comprises: the wire harness fixing tool and the auxiliary module are characterized in that the wire harness fixing tool is the wire harness full-freedom critical dimension production tool according to any one of claims 1 to 8;

the auxiliary module is detachably mounted on a test board (26) of the wire harness full-freedom critical dimension production tooling.

10. The wire harness full degree of freedom critical dimension production inspection assembly of claim 9, wherein the auxiliary module comprises: a wire diameter testing tool, a mistake proofing tool or a production auxiliary tool;

survey test panel (26) and be equipped with be used for with line footpath test fixture complex test fixture mounting structure, survey test panel (26) be equipped with be used for with mistake proofing fixture complex mistake proofing fixture mounting structure, survey test panel (26) be equipped with be used for with the supplementary frock mounting structure of production auxiliary tool assembly.

Images