CN108988212B

CN108988212B - Forming method and device for three-dimensional cable bundle in cabinet equipment

Info

Publication number: CN108988212B
Application number: CN201810753539.2A
Authority: CN
Inventors: 张玄辉; 李绘娟
Original assignee: 709 Institute Of China Shipbuilding Heavy Industry Group Corp
Current assignee: 709 Institute Of China Shipbuilding Heavy Industry Group Corp
Priority date: 2018-07-10
Filing date: 2018-07-10
Publication date: 2020-01-14
Anticipated expiration: 2038-07-10
Also published as: CN108988212A

Abstract

The method for forming the three-dimensional cable bundle in the cabinet equipment comprises the following steps: s1, arranging a main frame according to the internal space structure of the cabinet equipment, and connecting a wire-following frame for binding cables in the cabinet equipment with the main frame in advance to form a cable bundle three-dimensional forming auxiliary device together with the main frame; s2, binding cables on the cable bundle three-dimensional forming auxiliary device according to the cable trend in the cabinet equipment to form a cable bundle; s3, moving the cable bundle three-dimensional forming auxiliary device containing the cable bundle into the cabinet equipment, spreading the cable bundle three-dimensional forming auxiliary device according to the direction of the cable in the cabinet equipment, detaching the cable bundle and the wire following frame on the main frame from the main frame and binding the cable bundle and the wire following frame to a corresponding position in the cabinet equipment. The advantages are that: the cable bundle arranging work in the cabinet equipment is reduced, and the cable bundle generating efficiency is improved; the auxiliary device supports the cable bundle and controls the shape change of the cable bundle, so that the stress is reduced, the damage between the cable bundle and a structural member is reduced, and the product quality of the cable bundle is improved.

Description

Forming method and device for three-dimensional cable bundle in cabinet equipment

Technical Field

The invention relates to the technical field of installation and fixation of a cable bundle in a cabinet equipment, in particular to a method and a device for forming a three-dimensional cable bundle in the cabinet equipment.

Background

In the shipboard counter-cabinet type devices (for example, display and control consoles of patent numbers 201030537067.1 and 200930183184. X), various unit modules are installed, such as a man-machine interface computer, a task computer, a keyboard and trackball control assembly, a main display, a sub-display, a UPS, an external adapter board, and the like. The unit modules are interconnected through corresponding cables. Wherein: each unit module is provided with a plurality of aviation sockets, and two ends of each cable are provided with corresponding aviation plugs which are connected with the sockets in an inserting mode. In the cabinet equipment, bending, bundling, installation and fixation are carried out according to the path trend of the cable. A plurality of bundled cables is called a cable bundle.

At present, the cable bundle is mainly manufactured by the following methods: (see HB 7262.3-95 aviation products for making wire harness and cable)

1) Template wiring method

Paving a flat wood board with the following steps: 1 drawing a two-dimensional cable bundle drawing, called a template drawing. Steel nails were nailed to the template at the turns and branches of the cable bundle. And laying each cable to be manufactured into a cable bundle on the template graph in sequence, wherein the path of the cable bundle, including turning and branching, is consistent with the overlapping of the template graph.

2) Continuous binding method according to picture

Drawing a cable bundle drawing instead of 1: 1, marking a bundling starting point, a bundling end point and a bundling direction on the drawing, marking the numbers and the lengths of lead wires of swing or continuous wires of a trunk and branches, and using ⊙ or ⊙ for the bundling direction vertical to the upward or downward direction of the drawing

And (4) showing. And (4) manufacturing a cable bundle according to the binding direction and the binding length on the drawing.

3) And (4) performing on-machine wiring method.

And (3) directly bending and forming, bundling, installing and fixing each cable in the equipment.

The above 3 methods all require moving the cable or the manufactured cable bundle to the inside of the cabinet equipment for installation, and because the cable or the cable bundle is not fixedly supported, the cable or the cable bundle is bent or pulled due to the action of gravity or rearrangement of the cable during the moving process and the installation process, thereby generating redundant stress. In addition, during the installation and arrangement process, the cables or the cable bundles can rub against the internal structural members of the cabinet equipment, and the cables can be damaged.

Moreover, when the cabinet equipment product is put into use, the cable needs to be repaired when a cable fault occurs (a common fault is represented by the fact that the cable and a connector welding point are broken), or the cable needs to be integrally replaced when the cable is aged for a long time, the problems of inconvenient operation, excessive stress generation and damage to the outer layer of the cable also exist.

Disclosure of Invention

In order to solve the technical defects, the invention provides a method and a device for forming a three-dimensional cable bundle in a cabinet equipment, which avoid the shape error of the cable bundle manufacture and are convenient to install and disassemble in the cabinet equipment.

The invention provides a method for forming a three-dimensional cable bundle in a cabinet equipment, which comprises the following steps:

s1, arranging a main frame according to the internal space structure of the cabinet equipment, connecting a line-following frame which is required to be arranged in the cabinet equipment and used for binding cables with the main frame in advance, and forming a cable bundle three-dimensional forming auxiliary device together with the main frame, so that the structure of the cable bundle three-dimensional forming auxiliary device is matched with the space structure of the internal space of the cabinet equipment, which is required to be provided with the cable trend;

s2, binding cables on the cable bundle three-dimensional forming auxiliary device according to the cable trend in the cabinet equipment to form a cable bundle;

s3, moving the cable bundle stereoscopic forming auxiliary device containing the cable bundle into the cabinet equipment, spreading the cable bundle stereoscopic forming auxiliary device according to the direction of the cable in the cabinet equipment, detaching the cable bundle and the wire following frame on the main frame from the main frame, binding the cable bundle and the wire following frame to a corresponding position in the cabinet equipment, and finally moving the main frame out of the cabinet equipment.

Preferably, in step S1, a cable three-dimensional model is drawn through three-dimensional software having a cable three-dimensional modeling function, a mechanical structure three-dimensional model of the cable bundle three-dimensional forming auxiliary device is drawn, and then a real object is manufactured;

further, the three-dimensional software is UG, PROE, CATIA, SOLIDWORKS, etc.

Another aspect of the present invention provides an auxiliary device for three-dimensional shaping of a cable harness, comprising: the binding device comprises a main frame, a wire following frame, a connecting pin and a binding belt, wherein the main frame is connected with the wire following frame through the connecting pin, and the binding belts are arranged on the main frame and the wire following frame and used for binding cables.

A method and a device for forming a three-dimensional cable bundle in a cabinet equipment have the advantages that:

1. according to the internal structure of the cabinet equipment and the actual path of the cable, the cable bundle is manufactured outside the cabinet equipment by using the cable bundle three-dimensional forming auxiliary device, the cable bundle is supported and fixed, the shape of the cable bundle is controlled and the cable bundle is moved into the cabinet equipment, and then the cable bundle and a line following frame are fixed at the corresponding position in the cabinet equipment, the cable bundle three-dimensional forming auxiliary device is moved out of the cabinet equipment to complete the installation of the cable bundle, so that the arrangement work of the cable bundle in the cabinet equipment is reduced, and the generation efficiency of the cable bundle is improved;

2. according to the method, the self-made cable bundle three-dimensional forming auxiliary device supports the cable bundle and controls the shape change of the cable bundle, so that the stress generated by bending or pulling the cable bundle is reduced, the damage caused by friction between the cable bundle and a structural member is reduced, and the product quality of the cable bundle is improved;

3. when the cable harness fixed by the method needs to be maintained or replaced in the cabinet equipment, the main frame can be moved into the cabinet equipment, the cable harness and the line-following frame provided with the cable harness are bound and fixed onto the main frame together to form the cable harness three-dimensional forming auxiliary device provided with the cable harness, and after the cable harness three-dimensional forming auxiliary device is moved out of the cabinet equipment, the cables on the cable harness can be maintained or replaced.

4. The cable bundle three-dimensional forming auxiliary device is designed according to the cable trend requirement of the internal space of the cabinet equipment, and the wire following frame of one of the components is a fixed structure which needs to be arranged in the cabinet equipment, so that the prepared cable bundle three-dimensional forming auxiliary device has simple structure and low cost; the working procedures are saved in the preparation and forming process of the cabinet equipment (namely, the cable bundle and the cable-following frame are arranged in the cabinet equipment after the cable-following frame is directly connected with the main frame and the cable-following frame is manufactured), so that the efficiency is high; moreover, according to the structure of the cabinet equipment, the prepared auxiliary device with the cable harness is convenient to install and operate in the cabinet equipment, namely, the operation can be completed only by detaching and moving out the main frame on the auxiliary device from the cabinet equipment.

Drawings

FIG. 1 is a schematic structural view of a cable harness three-dimensional forming auxiliary device;

FIG. 2 is an exploded view of the main frame;

FIG. 3 is a schematic structural diagram of a cabinet apparatus according to an embodiment;

FIG. 4 is a schematic view of the spatial shape of a cable bundle prepared for molding;

FIG. 5 is a schematic structural view of a cable harness disposed in the cable harness three-dimensional shaping auxiliary device;

fig. 6 is a state diagram of the cabinet equipment in the first embodiment, after the external adapter plate on the cabinet equipment is turned over, when the cable bundle three-dimensional forming auxiliary device is to be installed in the cabinet equipment;

fig. 7 is a schematic view of an internal structure of the cable harness three-dimensional forming auxiliary device according to the first embodiment after being installed in the cabinet equipment;

FIG. 8 is a schematic view illustrating a state where the main frame is removed and placed outside the cabinet after the cable harness is installed according to the first embodiment;

fig. 9 is a schematic structural diagram of a cabinet device after a cable harness is set therein in the first embodiment;

wherein:

a main frame 1, an upper wiring board 11, and a first hollow portion 111;

the upper bracket 12, the L-shaped transverse plate 121, the vertical plate 122 and the second hollow part 123;

the intermediate wiring board 13, the third hollow portion 131, the notch 132, and the clip 133;

the lower support 14, the upper top 141, the lower bottom 142, the connecting part 143, the fourth hollow part 144 and the pin seat 15;

the cable-following frame 2, the cable bundle 3, the connecting pin 4 and the binding belt 5;

the display module 100, the display frame 101, the internal adapter plate 102, the external adapter plate 103, the first socket 104 and the second socket 105;

an operating table assembly 200;

chassis component 300, chassis frame 301, chassis 302, cabling rack 303, third socket 304, chassis frame top surface 305;

a plug 400.

Detailed Description

s1, arranging a main frame 1 according to the internal space structure of the cabinet equipment, connecting a wire-following frame 2 which is required to be arranged in the cabinet equipment and used for binding cables with the main frame 1 in advance to form a cable bundle three-dimensional forming auxiliary device together with the main frame 1, so that the structure of the cable bundle three-dimensional forming auxiliary device is matched with the space structure of the internal space of the cabinet equipment, which is required to be provided with the cable trend;

s2, binding cables on the cable bundle three-dimensional forming auxiliary device according to the cable trend in the cabinet equipment to form a cable bundle 3;

s3, moving the cable bundle three-dimensional forming auxiliary device containing the cable bundle 3 into the cabinet equipment, spreading the cable bundle three-dimensional forming auxiliary device according to the direction of cables in the cabinet equipment, then detaching the cable bundle 3 and the line following frame 2 on the main frame 1 from the main frame 1, binding the cable bundle 3 and the line following frame 2 bound with the cable bundle 3 to a corresponding position in the cabinet equipment, fixing the cable bundle 3 detached from the main frame 1 and the line following frame 2 bound with the cable bundle 3 to a corresponding position in the cabinet equipment, completing the fixing work of the cable bundle 3 in the cabinet equipment, and finally moving the main frame 1 out of the cabinet equipment.

Preferably, the cable bundle stereoforming auxiliary device is used for fixing the cable bundle 3 to stereoform.

In order to further save the work of welding cables on the cabinet equipment, the original socket of the cabinet equipment is not installed on the cabinet equipment, and in step S2, after the plugs 400 at the two ends of the cables and the socket are directly and completely welded, the cable bundle 3 is manufactured through the cable bundle three-dimensional forming auxiliary device and is moved into the cabinet equipment, and finally, the socket is directly and fixedly installed on the cabinet equipment.

According to fig. 1 and 2, another aspect of the present invention provides a cable bundle stereoforming auxiliary device, including: the binding device comprises a main frame 1, a wire following frame 2, a connecting pin 4 and a binding belt 5, wherein the main frame 1 is connected with the wire following frame 2 through the connecting pin 4, and the binding belt 5 is arranged on the main frame 1 and the wire following frame 2 and used for binding cables.

The main frame 1 includes an upper wiring board 11, an upper support 12, an intermediate wiring board 13, and a lower support 14 connected to the upper support 12 in this order, and one side of the upper wiring board 11, the intermediate wiring board 13, the lower support 14, and both sides of the upper support 12 are provided with pin bosses 15, and the pin bosses 15 are penetrated by the connecting pins 4, so that the upper wiring board 11 and the upper support 12, and the upper support 12 and the intermediate wiring board 13 and the lower support 14 are all connected in a folded manner.

Further, the connecting pin 4 penetrates through the pin seat 15 on the upper wiring board 11 and the pin seat 15 on the side of the upper bracket 12 at the same time, so as to fold and connect the upper wiring board 11 and the upper bracket 12; the connecting pin 4 simultaneously passes through one of the pin bases 15 on the other side of the upper bracket 12 and the pin base 15 on the middle wiring board 13 so as to fold and connect the upper bracket 12 and the middle wiring board 13; the connecting pin 4 simultaneously passes through another pin seat 15 on the other side of the upper bracket 12 and a pin seat 15 on one side of the lower bracket 14 to connect the upper bracket 12 and the lower bracket 14 in a folding way.

Preferably, the upper wiring board 11 is rectangular, and the pin bosses 15 on the upper wiring board 11 are provided along the length direction thereof;

furthermore, at least one group of first hollow parts 111 is arranged on the upper wiring board 11 along the length direction of the upper wiring board, and the first hollow parts 111 are rectangular and used for a binding belt 5 to pass through so as to bind cables; if there are two groups of the first hollow-out portions 111, the two groups of the first hollow-out portions 111 are arranged in parallel along the width direction of the upper wiring board 11;

at least one rectangular hollow structure, preferably two rectangular hollow structures, are arranged in the group of first hollow parts 111, and the lengths of the two rectangular hollow structures are equal or unequal;

preferably, the upper bracket 12 includes an L-shaped horizontal plate 121 and two vertical plates 122, and one ends of the two vertical plates 122 are vertically welded to the vertical plate in the L-shaped horizontal plate 121, so that the upper ends of the vertical plates 122 are aligned with the upper ends of the vertical plate; the upper end and the lower end of the vertical plate 122 are both provided with pin bosses 15, the upper end of the vertical plate 122 is at least provided with one pin boss 15, the lower end of the vertical plate 122 is at least provided with two pin bosses 15, and the two pin bosses 15 positioned at the lower end of the vertical plate 122 are arranged in parallel and longitudinally along the vertical plate 122; the pin bosses 15 at the upper and lower ends of the vertical plate 122 are respectively welded to two opposite surfaces of the vertical plate 122, so that the connecting pin 4 simultaneously passes through the pin boss 15 on the upper wiring board 11 and the pin boss 15 at the upper end of the vertical plate 122, and the upper wiring board 11 is connected with the upper support 12 in a folding way;

the upper support 12 is connected with the middle wiring board 13 in a folding way by connecting pins 4 which simultaneously penetrate through one pin seat 15 at the lower end of the vertical plate 122 and the pin seat 15 on the middle wiring board 13; the upper bracket 12 is connected with the lower bracket 14 in a folding way by a connecting pin 4 which simultaneously passes through another pin base 15 at the lower end of the vertical plate 122 and a pin base 15 at the upper end of the lower bracket 14;

at least one second hollowed-out part 123 is formed in the vertical plate 122, and the pin boss 15 arranged on the vertical plate 122 is located below the bottom end of the second hollowed-out part 123, so that the second hollowed-out part 123 is used for a binding belt 5 to pass through to bind a cable;

the number of the second hollow parts 123 is selected according to actual needs; the second hollow portions 123 are preferably two and are longitudinally arranged side by side on the vertical plate 122.

Preferably, the middle wiring board 13 is provided with a plurality of third hollowed-out portions 131 and at least two gaps 132, and the third hollowed-out portions 131 are used for the cable ties 5 to pass through to tie the cables; the notch 132 is used for placing a wire clamp 133;

the third hollow-out portions 131 are rectangular, the sizes of the third hollow-out portions 131 are equal or unequal, and the arrangement form is set according to the cable trend requirement in the cabinet equipment;

the notch 132 is provided at an end of the intermediate wiring board 13 remote from the upper rack 12, and the opening direction of the notch 132 is toward the outside of the intermediate wiring board 13.

Preferably, the lower frame 14 includes an upper top 141 provided with a pin seat 15, a lower bottom 142, and a connecting portion 143 connecting the upper top 141 and the lower bottom 142, and the connecting pin 4 simultaneously passes through a pin seat 15 at the lower end of the vertical plate 122 and a pin seat 15 on the upper top 141, so that the upper frame 12 is connected with the lower frame 14 in a folding manner;

further, at least two pin bosses 15 are arranged on the upper top 141, and are longitudinally arranged on the upper top 141 side by side; the lower bottom 142 is provided with at least one pin boss 15; the pin seat 15 on the upper top 141 and the pin seat 15 on the lower bottom 142 are positioned on the same surface of the lower support 14, and the arrangement directions are opposite, so that the upper end and the lower end of the lower support 14 can be simultaneously connected with structures such as a wire-following frame 2 through connecting pins 4 to meet the requirement of cable moving direction in the cabinet equipment;

the connecting portion 143 is provided with at least one fourth hollow portion 144, and the fourth hollow portion 144 is vertically provided along the connecting member for the cable 5 to pass through for binding the cable.

Each set of connecting pins 4 is at least two and is intended to correspond to a pin seat 15.

Preferably, a hole is formed in the wire following frame 2 and used for the cable tie 5 to pass through so as to bind the cable; and one end of the wire-following frame 2 is connected with the connecting pin on the lower bracket through a pin seat, and the other end is used for connecting the screw into the cabinet equipment.

The invention is further illustrated with respect to specific examples below:

example one

FIG. 3 is a prior art cabinet apparatus, which is composed of a display assembly 100, a console assembly 200, and a cabinet assembly 300;

the display assembly 100 includes a display frame 101, an inner adapter plate 102, and an outer adapter plate 103; the inner adapter plate 102 and the outer adapter plate 103 are respectively provided with a first socket 104 and a second socket 105 which are different in number;

the chassis component 300 mainly comprises a chassis framework 301, a chassis 302, a wire following frame 2 and a cabling frame 303, wherein one end of the wire following frame 2 is connected with the chassis framework 301, the other end of the wire following frame 2 is connected with the chassis 302, and the wire following frame 2 can stretch and retract along with the push-and-pull of the chassis 302; a third socket 304 is mounted on the housing 302; in fig. 1, the number of the chassis 302 is 2, and the chassis is arranged in an upper row and a lower row, so that pushing and pulling can be realized respectively; each case 302 is provided with two wire-following frames 2 on the left and right;

the cable bundle 3 required to be arranged inside the display assembly 100 and the chassis assembly 300 is mainly connected between the internal patch panel 102, the external patch panel 103 and the chassis 302, the cable bundle 3 composed of cables is required to be welded with the first socket 104 and the second socket 105 on the internal patch panel 102 and the external patch panel 103, the cable bundle 3 composed of cables is required to be welded with the plug 400 at the end of the chassis 302, and the plug 400 is inserted into the third socket 304.

1. Firstly, manufacturing a cable bundle three-dimensional forming auxiliary device outside the cabinet equipment, namely, firstly, manufacturing a main frame 1 according to the cabinet equipment, and hinging a wire following frame 2 which is originally required to be installed in the cabinet equipment to the main frame 1 (as shown in fig. 2, an explosion diagram of the main frame 1 is shown, and fig. 1 is a schematic structural diagram of the cable bundle three-dimensional forming auxiliary device);

2. according to the requirement of the cable trend in the cabinet equipment, the cable is fixed on the cable bundle three-dimensional forming auxiliary device (as shown in fig. 4 and 5, space shape diagrams of prepared and formed cable bundles are respectively shown, and the cable bundle three-dimensional forming auxiliary device is provided with a structural schematic diagram of the cable bundle);

at the moment, the cables are bound on the main frame 1 and the line following frame 2 through the binding belt 5, the cables on the main frame 1 are temporarily bound, the cables on the line following frame 2 are fixedly bound, and meanwhile, the cable clamp is arranged on the cable bundle 3; the wire-following frame 2 can freely stretch and retract, and the upper wiring board 11 and the middle wiring board 13 on the main frame 1 can freely turn over;

3. placing the cable bundle stereo-forming auxiliary device provided with the cable bundle 3 in the specific cabinet equipment (as shown in fig. 6, a state diagram of the cable bundle stereo-forming auxiliary device to be installed in the cabinet equipment after the external adapter plate on the cabinet equipment is turned over is shown in fig. 7, which is a schematic diagram of an internal structure of the cable bundle stereo-forming auxiliary device installed in the cabinet equipment, wherein a part of a structure of a display framework 101 on the cabinet equipment is not shown in the figure in order to clearly see the internal structure of the cabinet equipment);

at the moment, the cable bundle three-dimensional forming auxiliary device is unfolded inside the cabinet, so that the cable bundle 3 on the cable bundle three-dimensional forming auxiliary device is matched with the actual path of the cable bundle 3 inside the cabinet equipment;

the upper wiring board 11 corresponds to the external interposer 103 at this time, for binding the cable on the external interposer 103; the middle wiring board 13 corresponds to the top surface 305 of the chassis framework and is used for binding cables on the top surface 305 of the chassis framework;

4. removing a connecting pin 4 for connecting the wire-following frame 2 and the main frame 1 in the cabinet equipment, connecting the wire-following frame 2 and the cabinet equipment in a corresponding mode, loosening the binding belt 5 on the main frame 1, fixing the cable at a corresponding position in the cabinet equipment by using the binding belt 5, and moving the main frame 1 out of the cabinet equipment; at this time, the wire clamp is fixed on the cabinet equipment (at this time, the wire clamp is located at the notch 132);

because the space of the internal structure of the cabinet equipment is limited, the main frame 1 is difficult to be moved out of the cabinet equipment as a whole, so according to the structural characteristics of the main frame 1, the connecting pin 4 between the upper bracket 12 and the lower bracket 14 on the main frame 1 is removed, so that the main frame 1 is divided into an upper part and a lower part, wherein the upper part is provided with the upper bracket 12, the upper wiring board 11 and the middle wiring board 13, and the lower part is provided with the lower bracket 14; respectively moving the upper part and the lower part out of the cabinet equipment in different directions (as shown in fig. 8, a state schematic diagram when the main frame is detached and placed outside the cabinet equipment after the installation of the cable harness is finished, wherein, in order to clearly see the internal structure of the cabinet equipment, part of the structure of the display framework 101 on the cabinet equipment is not shown in the figure; fig. 9 is a structural schematic diagram after the cable harness is arranged inside the cabinet equipment, wherein, in order to clearly see the internal structure of the cabinet equipment, part of the structure of the display framework 101 on the cabinet equipment is not shown in the figure);

in summary, when the structural shape of the cabinet equipment is the same as that of the cabinet equipment described in the above embodiments, and only the internal cable connection configuration is different, the auxiliary device can be reused;

when the cabinet equipment structure shape is different, reset auxiliary device according to its inner space structure, structure and function are similar with above-mentioned device, promptly: the cable bundle 3 can be folded and turned over so as to facilitate the manufacture, assembly and disassembly of the cable bundle; different parts can be disassembled so as to be conveniently and respectively removed from the inside of the cabinet equipment; with the original partial cable ligature structure of cabinet equipment, if with earlier do not install on cabinet equipment such as line frame 2, and shift and install to this device to avoid at the inside cable ligature work to following partial structures such as line frame 2 of cabinet equipment.

In the invention, the cabinet equipment can be one of a display and control console, a cabinet or a command desk, and the shape skeleton of each is the same (for example, the cabinet equipment in the first embodiment is the display and control console).

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The method for forming the three-dimensional cable bundle in the cabinet equipment is characterized by comprising the following steps of:

s1, arranging a main frame (1) according to the internal space structure of the cabinet equipment, connecting a wire-following frame (2) which is required to be arranged in the cabinet equipment and used for binding cables with the main frame (1) in advance, and forming a cable bundle three-dimensional forming auxiliary device together with the main frame (1) so that the structure of the cable bundle three-dimensional forming auxiliary device is matched with the space structure of the internal space of the cabinet equipment and required to be provided with the cable trend;

s2, binding cables on the cable bundle three-dimensional forming auxiliary device according to the direction of the cables in the cabinet equipment to form a cable bundle (3);

s3, moving the cable harness three-dimensional forming auxiliary device containing the cable harness (3) into the cabinet equipment, spreading the cable harness three-dimensional forming auxiliary device according to the direction of cables in the cabinet equipment, detaching the cable harness (3) and the wire following frame (2) on the main frame (1) from the main frame (1), binding the cable harness and the wire following frame to a corresponding position in the cabinet equipment, and finally moving the main frame (1) out of the cabinet equipment;

the cable harness stereolithography auxiliary device includes: the cable binding machine comprises a main frame (1), a wire following frame (2), a connecting pin (4) and a binding belt (5), wherein the main frame (1) is connected with the wire following frame (2) through the connecting pin (4), and the binding belt (5) is arranged on both the main frame (1) and the wire following frame (2) and used for binding cables;

the main frame (1) comprises an upper wiring board (11), an upper support (12), a middle wiring board (13) and a lower support (14) connected to the upper support (12) in sequence, pin bases (15) are arranged on one sides of the upper wiring board (11), the middle wiring board (13) and the lower support (14) and on two sides of the upper support (12), and the upper wiring board (11) and the upper support (12) and the middle wiring board (13) and the lower support (14) are connected in a folding mode through connecting pins (4) penetrating through the pin bases (15);

the connecting pin (4) simultaneously penetrates through a pin seat (15) on the upper wiring board (11) and a pin seat (15) on one side of the upper bracket (12) to connect the upper wiring board (11) and the upper bracket (12) in a folding way; the connecting pin (4) simultaneously penetrates through one pin seat (15) on the other side of the upper support (12) and the pin seat (15) on the middle wiring board (13) to connect the upper support (12) and the middle wiring board (13) in a folding mode; the connecting pin (4) simultaneously penetrates through the other pin seat (15) on the other side of the upper bracket (12) and the pin seat (15) on one side of the lower bracket (14) to connect the upper bracket (12) and the lower bracket (14) in a folding way;

the upper support (12) comprises an L-shaped transverse plate (121) and two vertical plates (122), wherein one ends of the two vertical plates (122) are vertically welded on a vertical plate in the L-shaped transverse plate (121), so that the upper ends of the vertical plates (122) are aligned to the upper ends of the vertical plates; the upper end and the lower end of the vertical plate (122) are both provided with pin bosses (15), the upper end of the vertical plate (122) is at least provided with one pin boss (15), the lower end of the vertical plate (122) is at least provided with two pin bosses (15), and the two pin bosses (15) positioned at the lower end of the vertical plate (122) are arranged in parallel and longitudinally along the vertical plate (122); pin bases (15) at the upper end and the lower end of a vertical plate (122) are respectively welded on two opposite surfaces of the vertical plate (122), so that a connecting pin (4) simultaneously penetrates through the pin base (15) on an upper wiring board (11) and the pin base (15) at the upper end of the vertical plate (122) to enable the upper wiring board (11) and an upper support (12) to be connected in a folding mode, and one of the pin bases (15) at the lower end of the vertical plate (122) and the pin base (15) on a middle wiring board (13) simultaneously penetrate through the connecting pin (4) to enable the upper support (12) and the middle wiring board (13) to be connected in a folding; the connecting pin (4) simultaneously penetrates through another pin base (15) at the lower end of the vertical plate (122) and a pin base (15) at the upper end of the lower support (14), so that the upper support (12) is connected with the lower support (14) in a folding mode.

2. The method according to claim 1, characterized in that the cable bundles (3) and the wire-following frame (2) on the main frame (1) are removed from the main frame (1) and bound to corresponding positions in the cabinet equipment, so as to fix the cable bundles (3) removed from the main frame (1) and the wire-following frame (2) bound with the cable bundles (3) at corresponding positions in the cabinet equipment, thereby completing the fixing work of the cable bundles (3) in the cabinet equipment.

3. Method according to claim 1, characterized in that a cable bundle stereolithography auxiliary device is used for fixing the stereolithography of the cable bundle (3).

4. The method according to claim 1, wherein the upper wiring board (11) is provided with at least one set of first hollowed-out portions (111) along a length direction thereof;

at least one second hollow part (123) is formed in the vertical plate (122), and a pin boss (15) arranged on the vertical plate (122) is located below the bottom end of the second hollow part (123);

the middle wiring board (13) is provided with a plurality of third hollow parts (131); the first hollow-out part (111), the second hollow-out part (123) and the third hollow-out part (131) are all used for a binding belt (5) to pass through so as to bind a cable.