CN109802333B

CN109802333B - Modular combined cable wiring tool

Info

Publication number: CN109802333B
Application number: CN201811582561.1A
Authority: CN
Inventors: 张琪涣; 吴友海; 齐雪梅
Original assignee: Beijing Research Institute of Telemetry; Aerospace Long March Launch Vehicle Technology Co Ltd
Current assignee: Beijing Research Institute of Telemetry; Aerospace Long March Launch Vehicle Technology Co Ltd
Priority date: 2018-12-24
Filing date: 2018-12-24
Publication date: 2020-10-02
Anticipated expiration: 2038-12-24
Also published as: CN109802333A

Abstract

A modular combined cable routing tool, comprising: splicing modules and positioning assemblies; the splicing modules comprise a plurality of rows of coplanar panels, mounting holes are uniformly distributed in the panels, the splicing modules are spliced pairwise, and every two adjacent splicing modules can rotate relatively; the positioning assembly positions the connector of the cable to a pre-connection position through the mounting hole, and positions the routing path of the cable through the mounting hole. The invention is modularized and combined to better fit the envelope curved surface and the routing path and improve the assembly efficiency of cabinet products.

Description

Modular combined cable wiring tool

Technical Field

The invention relates to a modular combined cable wiring tool, and belongs to the technical field of electronic product final assembly processes.

Background

The general assembly of electronic products needs to be carried out by depending on a system structure after the production of single electronic equipment, the system structure and a system cable network is completed, and a large amount of process allowance is wasted. The more complex the electronic product, the more time and material loss of the system cable net during final assembly. The cable time of the cable screen cloth of the compression system has important significance for accelerating response, reducing cost, reducing material purchasing pressure and improving product market competitiveness.

The subdivision structure is installed on the electronic equipment system structure according to the lattice distance range, which is helpful to improve the preforming precision of the system cable network, but the subdivision installation structure such as the cable tie beam and the like seriously affects the operable range of the equipment in the system and is not beneficial to the overhaul and maintenance of electronic products.

The product relates to a wire management tool and a method for unifying network cables and management wires in RACK empty cabinet production procedures, and the wire management tool has certain length and no expandability, so that a wiring area beyond the length range cannot be offline; meanwhile, the tool needs to depend on a cabinet structure, so that the assembly of a system cable network and the production task of the cabinet cannot be parallel, and the assembly efficiency is influenced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the defects of the prior art are overcome, the modular combined cable wiring tool is provided, and the problems that the existing cable wiring technology is low in forming precision, not visual in preforming, poor in universality, inconvenient to use and large in occupied area are solved.

The technical scheme of the invention is as follows:

a modular combined cable routing tool, comprising: the splicing module, the positioning assembly and the moving mechanism are arranged on the frame;

the splicing modules comprise a plurality of rows of coplanar panels, mounting holes are uniformly distributed in the panels, the splicing modules are spliced pairwise, and every two adjacent splicing modules can rotate relatively;

the positioning assembly positions the connector of the cable to a pre-connection position through the mounting hole, and positions the routing path of the cable through the mounting hole.

The height of the panel is matched with the modulus of the mechanical structure of the electronic equipment.

The positioning assembly comprises: the connector positioning assembly and the routing positioning assembly;

the joint positioning assembly comprises: the elastic base, the telescopic rod and the thread gluing are arranged;

one end of the telescopic rod is fixed on the mounting hole of the splicing module, the end part of the other end of the telescopic rod is positioned at the pre-connection position of the cable connector, and the cable connector is fixed with the end part of the other end of the telescopic rod by using a thread gluing; the telescopic rod and the splicing module can be disassembled;

the cable is fixed on the wiring positioning assembly, and the wiring positioning assembly positions the wiring path of the cable through the mounting hole of the splicing module.

The telescopic rod is provided with a scale for displaying the length of the telescopic rod.

One end of the telescopic rod is fixed on the mounting hole of the splicing module through the elastic base;

the elastic base is provided with a through hole for connecting a telescopic rod, one end of the elastic base is provided with an elastic unit for being connected with a mounting hole of the splicing module, the elastic unit is a revolving body, grooves are uniformly distributed in the circumferential direction of the revolving body, and the length direction of the opening of the grooves is parallel to the axis of the revolving body.

The routing positioning assembly comprises: the mounting base, the U-shaped elastic buckle and the fastening screw are arranged;

the U-shaped elastic buckle is of an elastic structure with a U-shaped section, and the U-shaped opening end is bent inwards and is not closed; the U-shaped elastic buckle is bent inwards to generate a clamping force for fixing the cable;

one end of the mounting base is fixed on a mounting hole of the splicing module, and the other end of the mounting base fixes the U-shaped elastic buckle through the set screw.

The moving mechanism is used for moving the splicing module;

the moving mechanism includes: the device comprises an upper base, a lower base, a slide rail combination and universal wheels;

the splicing module is fixed on the upper base, the upper base is assembled and installed on the lower base through the sliding rails, the splicing module moves relative to the lower base in the direction vertical to the surface of the splicing module, and the universal wheels are installed on the lower base.

The utility model provides a modular combination cable wiring frock, includes two liang of articulated three concatenation modules, and the concatenation module that is located the centre is as the main panel that is used for fixing a position the cable joint, and the concatenation module on both sides is as the left panel and the right panel of walking the line route of fixing a position the cable respectively.

A method for carrying out cable wiring by using the wiring tool comprises the following steps:

1) according to the cable routing path design result, fixing a plurality of joint positioning components on the mounting holes of the left panel and the right panel respectively;

2) one end of each cable to be assembled is tied to the telescopic rod through a sticky buckle, and joint positioning of the cables to be assembled is completed;

3) then, the cable to be assembled passes through a plurality of U-shaped elastic buckles corresponding to the routing path to complete the routing path positioning of the cable, and the cable sections in the same path in the cable are bound and molded;

4) adjusting an included angle between the left panel and the main panel and an included angle between the right panel and the main panel according to the shape of the cabinet, so that the main panel corresponds to the back plate of the electronic equipment in position;

5) the cable joint fixed on the main panel is transferred to the electronic equipment, and the cables on the left panel and the right panel are correspondingly transferred to the side wall of the cabinet according to the wiring path positioned in the step 3);

6) and removing the thread gluing and the U-shaped elastic buckle on the cable to be assembled to finish the cable wiring work.

A modular combined cable wiring tool comprises n groups of stations, wherein each group of stations comprises three splicing modules, the splicing module positioned in the middle is used for positioning a cable joint, and the splicing modules positioned at two sides are used for positioning a wiring path of a cable; the two adjacent stations are connected through a splicing module sharing a wiring path for positioning the cable, the n stations are connected in sequence, the splicing modules used for positioning the cable joint at the two adjacent stations do not have a common edge, and n is a positive integer.

Compared with the prior art, the invention has the beneficial effects that:

(1) due to the fact that the modular design is adopted, the tool can fit a complex curved surface according to unit grid distance size, the cable screen cloth is good in universality, visual in wiring, convenient to operate and high in preforming precision, and repeated production of the tool and material preparation waste can be reduced;

(2) due to the adoption of vertical combined installation, the tool can be expanded in a large-scale space range, the space utilization rate of a workshop can be greatly improved, the tool is suitable for parallel arrangement of multiple system cable networks, and the tool is particularly suitable for overall scheduling and production of an electronic product assembly workshop;

(3) the tool is independent of products, facilitates cable network layout, preforming, modification, transfer and maintenance, can be produced with single-machine electronic equipment and system structures in parallel, and can greatly improve the production efficiency of system products;

(4) the joint positioning assembly and the positioning assembly are simple to assemble and clamp, stepless to adjust, and high in assembling, adjusting and disassembling efficiency.

Drawings

FIG. 1 is a schematic view of the tooling of the present invention;

FIG. 2 is a schematic view of the moving mechanism of the present invention;

FIG. 3 is a schematic diagram of an exemplary modular assembly according to the present invention;

FIG. 4 is a schematic view of a main panel assembly according to an embodiment of the present invention;

FIG. 5 is a schematic view of a left panel assembly according to an embodiment of the present invention;

FIG. 6 is a right panel assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a trace positioning assembly according to the present invention;

FIG. 8 is a schematic view of a joint positioning assembly of the present invention;

fig. 9 is a schematic diagram illustrating application of a multi-station parallel scenario according to an embodiment of the present invention.

Detailed Description

The invention discloses a modular combined cable wiring tool, as shown in figure 1, comprising: the splicing device comprises a moving mechanism 1, a splicing module 2 and a positioning assembly;

the splicing module 2 comprises a plurality of rows of coplanar panels, mounting holes are uniformly distributed on the panels, the height of the panels is matched with the modulus of the mechanical structure of the electronic equipment, and both sides of the panels of the splicing module 2 can be used for cable wiring. Preferably, the panel is provided with a plurality of rows of mounting holes, and the value range of the mounting holes is 2-3; the splicing modules 2 are spliced in pairs, and every two adjacent splicing modules 2 can rotate relatively;

The positioning assembly includes: the connector positioning component 3 and the routing positioning component 4;

as shown in fig. 8, the joint positioning assembly 3 includes: the telescopic rod 32, the thread gluing 33 and the elastic base 31; one end of the telescopic rod 32 is fixed on the mounting hole of the splicing module 2, the length of the telescopic rod is changed to enable the end part of the other end of the telescopic rod 32 to be located at the pre-connection position of the cable connector, and the cable connector and the end part of the other end of the telescopic rod 32 are fixed through the thread gluing 33; the telescopic rod 32 is provided with a scale for displaying the length of the telescopic rod, and the telescopic rod 32 and the splicing module 2 are detachable; one end of the telescopic rod 32 is fixed on the mounting hole of the splicing module 2 through the elastic base 31; as shown in fig. 8, elastic base 31 opens has the through-hole that is used for connecting telescopic link 32, elastic base 31's one end is provided with the elastic element that is used for being connected with concatenation module 2 mounting hole, the elastic element is the solid of revolution that is formed by the curved plate around the outer rotatory a week of axis of curved plate, the outer wall of the solid of revolution outwards protrudes, solid of revolution circumference equipartition is slotted, the opening length direction in groove with the axis of the solid of revolution is parallel, elastic element circumference maximum diameter is greater than the diameter of concatenation module 2 panel mounting hole, the elastic element produces deformation at the exogenic action, passes deformation recovery realization fixed connection behind the mounting hole, and this elastic element can dismantle repeatedly. The one end of telescopic link 32 is fixed through elasticity base 31 the mode on the mounting hole of concatenation module 2 specifically is: the elastic unit of the elastic base 31 is inserted into the corresponding mounting hole on the panel of the splicing module 2, the telescopic rod 32 is inserted into the through hole of the elastic base 31, and the distance between the end of the telescopic rod 32 and the surface of the splicing module 2 is adjusted by the scale on the telescopic rod 32, so that the end of the telescopic rod 32 is positioned at the pre-connection position of the cable joint.

The cable is fixed on the routing positioning component 4, and the routing positioning component 4 positions the routing path of the cable through the mounting hole of the splicing module 2. As shown in fig. 7, the trace positioning component 4 includes: a mounting base 41, a U-shaped elastic buckle 42 and a set screw 43; the U-shaped elastic buckle 42 is an elastic structure with a U-shaped section, and the U-shaped opening end is bent inwards and is not closed; the U-shaped elastic buckle 42 is bent inwards to generate a clamping force for fixing the cable; one end of the mounting base 41 is fixed on the mounting hole of the splicing module 2, and the other end of the mounting base 41 is fixed with a U-shaped elastic buckle 42 through a set screw 43.

The moving mechanism 1 is used for moving the splicing module 2, as shown in fig. 2, the moving mechanism 1 comprises: the device comprises an upper base 11, a lower base 12, a slide rail combination 13 and universal wheels 14; the splicing module 2 is fixed on an upper base 11, the upper base 11 is arranged on a lower base 12 through a sliding rail assembly 13, so that the splicing module 2 moves relative to the lower base 12 in the direction vertical to the surface of the splicing module 2, and the lower base 12 is provided with a universal wheel 14. The upper base 11 is provided with a mounting hole corresponding to the stepped shaft large shaft of the female adapter bracket 212 of the main panel assembly 21 to form a hinged mounting shaft.

As shown in fig. 9, a modular combined cable routing tool includes n groups of stations, each group of stations includes three splicing modules 2, the splicing module 2 located in the middle is used for positioning a cable joint, and the splicing modules 2 located at two sides are used for positioning a cable routing path; the two adjacent stations are connected through a splicing module 2 sharing a wiring path for positioning cables, the n stations are connected in sequence, the splicing module 2 used for positioning cable joints of the two adjacent stations does not have a common edge, and n is a positive integer.

Examples

A modular combination cable routing tool, as shown in fig. 3, 4, 5 and 6, comprising: a main panel combination 21, a left panel combination 22 and a right panel combination 23;

the main panel assembly 21 includes: the main panel 211, the female adapter bracket 212 and the set screw 43, wherein the female adapter bracket 212 is respectively installed on the left side and the right side of the main panel 211 and fixedly connected through the set screw 43, and the two female adapter brackets 212 are installed on the same surface of the main panel 211 and have the same direction of the large end and the small end of the stepped shaft.

The left panel assembly 22 includes: the left panel combination 22 is provided with a left rotary connecting frame 221 close to the main panel combination 21 side, the female connecting frame 212 far away from the main panel combination 21 side, the left rotary connecting frame 221 and the female connecting frame 212 of the left panel combination 22 are fixedly connected with the left panel 222 through the fastening screw 43, the fastening screw 43 is arranged on the inner side surface of the left panel 222, the orientation of the elastic terminal 2211 on the left rotary connecting frame 221 is consistent with the orientation of the small end of the female connecting frame 212 on the rotary connecting frame 221, and the left panel combination 22 and the main panel combination 21 are hinged through a corresponding mounting shaft hole on the same side of the main panel mounting surface 211 of the left shell 2214 and the elastic terminal 2211 of the left rotary connecting frame 221 and the female connecting frame 212 of the main panel combination 21. The left rotary joint frame 221 includes: the elastic terminal 2211, the end cap 2212, the spring 2213, the left shell 2214, the handle 2215 and the limiting sheet 2216, wherein the end cap 2212 presses the large end of the elastic terminal 2211 so as to press the spring 2213 and be fixedly connected with the left shell 2214, the large end of the elastic terminal 2211 is provided with a hole for mounting the handle 2215 and penetrates out of the long round hole of the left shell 2214, the small end limiting sheet 2216 of the elastic terminal 2211 is used for limiting the stroke of the elastic terminal 2211 in the corresponding protruding shaft mounting hole of the female adapter 212 which is connected with the elastic terminal to form a hinge joint, and the other end of the left shell 2214 is fixedly connected with the left panel 222.

The right panel assembly 23 includes: the right panel combination 23 is provided with a right male adapter frame 231 close to the main panel combination 21 side, the female adapter frame 212 far away from the main panel combination 21 side, the right male adapter frame 231 and the female adapter frame 212 of the right panel combination 23 are fixedly connected with the right panel 232 through the fastening screws 43, the fastening screws 43 are arranged on the inner side surface of the right panel 232, the orientation of the elastic terminal 2211 on the right male adapter frame 231 is consistent with the orientation of the small end of the female adapter frame 212 on the right male adapter frame 231, and the right panel combination 23 and the main panel combination 21 are hinged with the mounting shafts through the right shell 2314 and the elastic terminal 2211 of the right male adapter frame 231 and the corresponding holes of the female adapter frame 212 of the main panel combination 21 on the same side of the mounting surface of the main panel 211.

The right male coupling bracket 231 includes: the elastic terminal 2211, the end cap 2212, the spring 2213, the right shell 2314, the handle 2215 and the limiting sheet 2216, wherein the end cap 2212 presses the large end of the elastic terminal 2211 so as to press the spring 2213 and be fixedly connected with the right shell 2314, the large end of the elastic terminal 2211 is provided with a hole for mounting the handle 2215 and penetrates out of the long round hole of the right shell 2314, the small end limiting sheet 2216 of the elastic terminal 2211 is used for limiting the stroke of the elastic terminal 2211 in the corresponding protruding shaft mounting hole of the female adapter frame 212 which is connected with the elastic terminal to form a hinge, and the other end of the right shell 2314 is fixedly connected with the right panel 222.

Main panel 211, left panel 222, right panel 232 all adopt concatenation module 2 to realize, two liang of articulations, and left panel combination 22 and right panel combination 23 can be from increasing on length direction respectively, and main panel 211, left panel 222, right panel 232 all can increase the wiring space of direction of height through the panel stack from bottom to top.

The main panel 211 located in the middle is used for positioning the main panel 211 of the cable connector, and the left panel 222 and the right panel 232 on the two sides are respectively used for positioning the routing path of the cable.

The upper base 11 is provided with a mounting hole corresponding to the stepped shaft large shaft of the female adapter bracket 212 of the main panel assembly 21 to form a hinged mounting shaft.

The connector positioning assembly 3 comprises an elastic base 31, a scale and a thread gluing 33, the scale is installed in the elastic base 31 and can slide back and forth to adjust the length, the thread gluing 33 is used for fixing an electric connector and an initial end cable of the cable on the scale, and the connector positioning assembly 3 can be fixedly connected to the main panel combination 21, the left panel combination 22, the right panel combination 23 or new panel combinations with the length thereof increased by self through the elastic base 31.

The routing positioning component 4 comprises a mounting base 41, a U-shaped elastic buckle 42 and a set screw 43, the U-shaped elastic buckle 41 is fixedly connected with the mounting base 41 through the set screw 43 and then used for fixing the middle section of the cable, and the routing positioning component 4 is fixedly connected to the main panel combination 21, the left panel combination 22, the right panel combination 23 or new panel combinations with the lengths thereof increased by self through the mounting base 41.

As shown in fig. 1, the universal wheel assembly further includes an adapter plate 51, the base of the universal wheel 14 is fixedly connected to the adapter plate 51, and a mounting shaft which is correspondingly mounted to the left panel assembly 22 and the right panel assembly 23 to form a hinge is provided on a side surface of the adapter plate 51 opposite to the mounting surface of the base of the universal wheel 14.

The main panel 211 is characterized in that: the wiring panel of a mounting hole equipartition, corresponding to the electronic equipment panel, the height is unanimous with electronic equipment mechanical structure's modulus, generally gets 1U height, and the width is less than electronic equipment mechanical structure's installation space width and main panel combination 21 overall width is less than electronic equipment mechanical structure's installation space width, is used for fixed joint locating component 3 and walks line locating component 4 according to installation lattice apart from the equipartition mounting hole on the panel to there is the hole that is used for linking firmly with female switching frame 212 in the side about the panel.

The female adapter 212 is characterized in that: a stepped shaft variant with symmetrical structure is characterized in that a mounting hole is formed in the large end of a stepped shaft and used for being hinged to the small end of the stepped shaft of a bus switching frame 212 of a splicing module 2 expected to be installed in a superposed mode, protruding shafts which can be installed corresponding to a main panel 211 are arranged in the axial left-right symmetry mode of the stepped shaft, holes which are in the same direction as the stepped shaft are formed in the protruding shafts and used for installing set screws 43, protruding shafts which can be installed corresponding to a left revolution connecting frame 221 of a left panel combination 22 and a right revolution connecting frame 231 of a right panel combination 23 are arranged in the axial front-back symmetry mode of the stepped shaft, mounting holes are formed in the protruding shafts in a penetrating mode, and the shaft diameter of the small end of the stepped shaft is consistent with the mounting hole in the large end of the stepped shaft but the length of the.

The elastic terminal 2211 is characterized in that: a big end has the stepped shaft of mounting hole, and the epaxial mounting hole of stepped shaft has the installation that can be used to handle 2215, and the stepped shaft tip has the screw thread to be used for spacing piece 2216's installation.

The left housing 2214 is characterized in that: the L-shaped structure body is a hollow L-shaped structure body with a long circular hole sliding groove, one end of the L-shaped structure body is a cylinder section, protruding milk nails are arranged at the bottom of the cylinder section to be hinged with mounting holes of the female adapter bracket 212, a blind hole is arranged in the cylinder, and a long circular stroke control hole which is in the same direction with the cylinder axis is arranged at the position, facing outwards, of the cylinder, the normal direction formed by the L-shaped wall which is protruded from the left side and the cylinder axis. The blind hole of the cylinder is internally provided with a spring 2213 and an elastic terminal 2211 which are sealed by an end cap 2212, and the other end of the L-shaped wall is fixedly connected with the mounting hole of the left panel 222 through a mounting shaft under the action of a set screw 43.

The right housing 2314 is characterized in that: the L-shaped structure body is a hollow L-shaped structure body with a long circular hole sliding groove, one end of the L-shaped structure body is a cylinder section, protruding milk nails are arranged at the bottom of the cylinder section to be hinged with mounting holes of the female adapter bracket 212, a blind hole is arranged in the cylinder, and a long circular stroke control hole which is in the same direction with the cylinder axis is arranged at the position, facing outwards, of the cylinder, the normal direction formed by the L-shaped wall which is protruded from the right side and the cylinder axis. The blind hole of the cylinder is internally provided with a spring 2213 and an elastic terminal 2211 which are sealed by an end cap 2212, and the other end of the L-shaped wall is fixedly connected with the mounting hole of the right panel 232 under the action of a set screw 43 through a mounting shaft.

U type elasticity is detained 42, its characterized in that: a U-shaped elastic member is piled, the free ends of two sides of the U-shaped elastic member are provided with bends for protection, and the bottom of a U-shaped valley is provided with a through hole for connecting with a mounting base 41.

The elastic base 31 is characterized in that: the elastic body is formed by rolling and folding a metal plate, the port of the inner end of the elastic body is contracted, a section of straight section is formed backwards, the elastic body is expanded and opened to form a large end at the rear side, the elastic body is folded forwards to form a groove with a larger front vertical surface gradient and a larger rear vertical surface gradient but a smaller front vertical surface gradient than the rear vertical surface, the elastic body is bent forwards to form a front end with a gradient smaller than the front vertical surface of the groove, the elastic body is contracted and bent radially inwards at the front end to form a free end, and openings are uniformly distributed in the circumferential direction from the front end of the groove to the bending position.

When the electronic equipment assembling device is used, the size of the electronic equipment to be assembled is determined, and then the moving mechanism 1 and the splicing modules 2 with corresponding quantity are assembled.

And (3) assembling guide rails of a slide rail combination 13 at a position corresponding to the upper base 11, assembling two universal wheels 14 and bases of the two slide rail combinations 13 at positions corresponding to the lower base 12, and assembling the slide rail combinations 13 to finish the assembly of the moving mechanism 1.

The caster wheel 14 is attached to the adapter plate 51.

The main panel 211 is assembled with the main panel assembly 21 by the female terminal frames 212 on the left and right sides, respectively, in the same axial direction and orientation by the set screws 43. The spring 2213 and the elastic terminal 2211 are respectively and sequentially arranged in the left shell 2214 and the right shell 2314, the end cap 2212 is used for tightly covering the spring 2213 and the elastic terminal 2211, the elastic terminal 2211 is adjusted to a large axial end mounting hole to be aligned with a long circular hole of the corresponding shell, the handle 2215 is arranged, and the left rotary connecting frame 221 and the right rotary connecting frame 231 are assembled. The left rotary connecting frame 221 is mounted on one end of the left panel 222 by the set screw 43, and the female connecting frame 212 is mounted on the other side in the axial direction and the orientation, so that the assembly of the left panel assembly 22 is completed. In the same way, the assembly of the panel assembly 23 is completed. The left panel assembly 22 and the existing panel assembly 23 are mounted on the mounting shaft of the main panel assembly 21 on the main panel 211 side in such a manner that the elastic terminals 2211 are directed upward, and the assembly of the splice module 2 is completed.

The moving mechanism 1 is arranged under the main control board combination 21, and the universal wheels 14 are arranged under the left panel combination 22 and the right panel combination 23, so that the assembly of the base is completed. And then sequentially adding the splicing modules 2 upwards on the base according to the cable laying space of the electronic equipment until the size is enough. If the left and right lengths are not wide enough, the left panel assembly 22 may be added on the left panel assembly 22 side and the right panel assembly 23 may be added on the right panel assembly 23 side. After the cable is installed, the angles of the left panel combination 22, the right panel combination 23 and the main panel combination 21 are adjusted to enable the included angles to be in accordance with the surface condition of the electronic equipment needing cable laying. Note that the main panel combination 21, the left panel combination 22, and the right panel combination 23 must not be on the same plane. Thus, the wiring tool preparation work is completed.

The ruler is arranged in the elastic base 31, the extending length of the ruler is adjusted according to the position of the electronic equipment butt joint electric connector, and the joint positioning component 3 is arranged on the mounting hole at the corresponding position on the inner side of the wiring tool.

The U-shaped elastic buckle 42 is mounted on the mounting base 41 by the fastening screw 43, and then the routing positioning component 4 is mounted on the mounting hole at the corresponding position on the inner side of the wiring tool after the reasonable mounting grid distance is selected according to the routing path.

And (3) binding the cable to be assembled on the scale from one end by using the adhesive fasteners 33, and then sequentially passing through the U-shaped elastic fasteners of the routing path until the cable is arranged on the scale corresponding to the tail end electric connector and bound by using the adhesive fasteners 33, so that cable wiring is completed. If a plurality of cables exist, after the cable network is laid, the cable sections in the same path are bound and formed.

And adjusting the included angle between the left panel combination 22 and the right panel combination 23 and the main panel combination 21 to change the relative position of the main panel combination 21 from the original concave inner valley bottom to the door-shaped outer side, moving the whole tool to move the whole tool to the back of the electronic equipment to complete the butt joint of the electric connectors, and then sequentially taking down the formed cables on the left panel combination and the right panel combination and horizontally moving the formed cables to a system structure to complete binding.

When meeting the multiplex condition and being parallel, the positive and negative two sides of this frock all can be used to the wiring, on the same face, also can divide the region and carry out multitask parallel installation.

A method for carrying out cable wiring by using the tool comprises the following steps:

1) according to the cable routing path design result, fixing a plurality of joint positioning components 3 on the mounting holes of the left panel 222 and the right panel 232 respectively;

2) one end of each cable to be assembled is tied to the telescopic rod 32 through the thread gluing 33, and joint positioning of the cables to be assembled is completed;

3) then, the cable to be assembled passes through the plurality of U-shaped elastic buckles 42 corresponding to the routing path to complete the positioning of the routing path of the cable until the cable is installed on the telescopic rod 32 corresponding to the tail end electric connector and is bound by the thread gluing 33 to complete the cable wiring; if a plurality of cables exist, after the cable network is laid, binding and molding cable sections in the same path in the cables;

4) according to the shape of the cabinet, adjusting an included angle between the left panel 222 and the main panel 211 and an included angle between the right panel 232 and the main panel 211, and moving the main panel 211 to the back of the electronic equipment to enable the main panel 211 to correspond to the back plate of the electronic equipment;

5) the cable connector fixed on the main panel 211 is switched to the electronic equipment, and the cables on the left panel 222 and the right panel 232 are correspondingly switched to the side wall of the cabinet according to the wiring path positioned in the step 3); completing the butt joint of the electric connector;

6) removing the formed cables on the left panel 222 and the right panel 232 in sequence, and translating the cables to a system structure to complete binding;

7) and removing the thread gluing 33 and the U-shaped elastic buckle 42 on the cable to be assembled to finish the cable wiring work.

Those skilled in the art will appreciate that the details of the invention not described in detail in the specification are within the skill of those skilled in the art.

Claims

1. The utility model provides a modular combination cable routing frock which characterized in that includes: the splicing module (2) and the positioning assembly;

the splicing modules (2) comprise a plurality of rows of coplanar panels, mounting holes are uniformly distributed on the panels, the splicing modules (2) are spliced in pairs, and every two adjacent splicing modules (2) can rotate relatively;

the positioning assembly positions the joint of the cable to a pre-connection position through the mounting hole, and positions the routing path of the cable through the mounting hole;

the height of the panel is matched with the modulus of the mechanical structure of the electronic equipment;

the positioning assembly comprises: the connector positioning component (3) and the routing positioning component (4);

the joint positioning assembly (3) comprises: an elastic base (31), a telescopic rod (32) and a thread gluing (33); one end of the telescopic rod (32) is fixed on the mounting hole of the splicing module (2), the end part of the other end of the telescopic rod (32) is located at the pre-connection position of the cable connector, and the cable connector and the end part of the other end of the telescopic rod (32) are fixed through a thread gluing (33); the telescopic rod (32) and the splicing module (2) can be disassembled;

the routing positioning component (4) positions the routing path of the cable through the mounting hole of the splicing module (2);

the telescopic rod (32) is provided with a scale for displaying the length of the telescopic rod (32);

one end of the telescopic rod (32) is fixed on the mounting hole of the splicing module (2) through an elastic base (31);

the splicing module is characterized in that the elastic base (31) is provided with a through hole for connecting the telescopic rod (32), one end of the elastic base (31) is provided with an elastic unit for connecting with the mounting hole of the splicing module (2), the elastic unit is a revolving body, grooves are uniformly distributed in the circumferential direction of the revolving body, and the length direction of the opening of each groove is parallel to the axis of the revolving body;

the splicing modules (2) are hinged in pairs, the splicing module (2) positioned in the middle is used as a main panel (211) for positioning a cable joint, and the splicing modules (2) on the two sides are respectively used as a left panel (222) and a right panel (232) for positioning a routing path of a cable;

the main panel (211) corresponds to the back panel of the electronic equipment, the left panel (222) and the right panel (232) correspond to the side walls of the cabinet respectively, and the electronic equipment is placed in the cabinet.

2. The modular combination cable routing tooling of claim 1, wherein the routing alignment assembly (4) comprises: a mounting base (41), a U-shaped elastic buckle (42) and a set screw (43);

the U-shaped elastic buckle (42) is of an elastic structure with a U-shaped section, and the U-shaped opening end is bent inwards and is not closed; the U-shaped elastic buckle (42) is bent inwards to generate clamping force for fixing the cable;

one end of the mounting base (41) is fixed on a mounting hole of the splicing module (2), and the other end of the mounting base (41) is fixed with a U-shaped elastic buckle (42) through a set screw (43).

3. A modular combination cabling tooling as claimed in claim 1, further comprising a moving mechanism (1) for moving the splice module (2);

the moving mechanism (1) includes: the device comprises an upper base (11), a lower base (12), a slide rail combination (13) and universal wheels (14);

the splicing module (2) is fixed on an upper base (11), the upper base (11) is installed on a lower base (12) through a sliding rail assembly (13), so that the splicing module (2) moves relative to the lower base (12) in the direction vertical to the surface of the splicing module (2), and universal wheels (14) are installed on the lower base (12).

4. The modular combined cable routing tool according to claim 1, comprising n groups of stations, each group of stations comprising three splicing modules (2), the splicing module (2) located in the middle being used for positioning a cable joint, and the splicing modules (2) located at two sides being used for positioning a cable routing path; the two adjacent stations are connected through a splicing module (2) sharing a wiring path for positioning the cable, the n stations are connected in sequence, the splicing module (2) used for positioning the cable joint in the two adjacent stations does not have a common edge, and n is a positive integer.

5. A method of cabling using the modular combination cabling tooling of claim 1, comprising the steps of:

1) according to the routing path design result of the cable, a plurality of routing positioning components (4) are respectively fixed on the mounting holes of the left panel (222) and the right panel (232);

2) binding a cable to be assembled on a telescopic rod (32) by using a sticky fastener (33), positioning a joint of the cable to a pre-connection position, and finishing positioning of the joint of the cable to be assembled;

3) then, the cable to be assembled passes through a plurality of U-shaped elastic buckles (42) corresponding to the routing path to complete the routing path positioning of the cable, and the cable sections in the same path in the cable are bound and molded;

4) according to the shape of the cabinet, adjusting an included angle between a left panel (222) and a main panel (211) and an included angle between a right panel (232) and the main panel (211) to enable the main panel (211) to correspond to the back panel of the electronic equipment in position;

5) switching the cable connector fixed on the main panel (211) to the electronic equipment, and correspondingly switching the cables on the left panel (222) and the right panel (232) to the side wall of the cabinet according to the wiring path positioned in the step 3);

6) and removing the thread gluing (33) and the U-shaped elastic buckle (42) on the cable to be assembled to finish the cable wiring work.