CN209824259U - Inside integrated wiring structure of rack - Google Patents

Abstract

The utility model discloses an inside integrated wiring structure of rack, including the rack main part, be equipped with cable tray and the trough of arrangement cable in the rack main part, the trough is fixed along the vertical direction of rack main part and is set up on the left side board and the right side board of rack main part, and the cable tray is fixed along the horizontal direction of rack main part and is set up between the left side board and the right side board of rack main part, and the cable tray includes the cable bracket and sets up a plurality of segmentation supports on the cable bracket, the length direction interval arrangement of a plurality of segmentation support cable brackets along the line. The utility model discloses a cabinet for the wiring of arranging back-hanging terminal module cable, designed the cable tray, this cable tray has the cable bracket of the cable tie-up point and to each back-hanging terminal module's wiring arrangement's segmentation support, arranges and ties up the cable; meanwhile, a tray guide frame for installing the cable tray is designed, and the installation position of the cable tray is adjusted forwards and backwards through the tray guide frame, so that the arrangement and bundling of cables are facilitated.

Description

Inside integrated wiring structure of rack

Technical Field

The utility model relates to an electric rack technical field, concretely relates to inside comprehensive wiring structure of rack.

Background

The cabinet is generally made of cold-rolled steel plates or alloys and used for storing computers and related control equipment, can provide protection for the storage equipment, shields electromagnetic interference, and arranges the equipment orderly and orderly, thereby facilitating the subsequent maintenance of the equipment. Cabinets are generally classified into server cabinets, network cabinets, console cabinets, and the like. The cabinets with various styles can be seen in all large computer rooms, and the functions embodied by the cabinets are larger and larger along with the continuous breakthrough of the computer industry. The cabinet is generally used between network wiring, floor wiring, central machine room, data machine room, control center, monitoring room, monitoring center, etc.

The traditional cabinet is generally formed by sheet metal bending and welding molding or section bar splicing combination molding, cooperative accessories, angle rails and the like, and electronic instrument equipment adopts a front wire outlet or rear wire outlet mode and is directly connected with an equipment interface through a transfer cable to realize the functions of signal transmission and transfer. In the cabinet of the automatic instrument control system, the arrangement of cables and devices has requirements on installation and operation space in the cabinet, and for the cabinet with large number of cables and devices, the arrangement of the cables and the devices is disordered, and the available space in the cabinet is very nervous.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve is that the cable device arranges the confusion among the current rack, causes the narrow and small technical problem in rack space, and aim at provides an inside comprehensive wiring structure of rack.

The utility model discloses a following technical scheme realizes:

the utility model provides an inside comprehensive wiring structure of rack, includes the rack main part, be equipped with cable tray and the trough of arrangement cable in the rack main part, the trough is fixed along the vertical direction of rack main part and is set up on the left side board and/or the right side board of rack main part, cable tray is fixed along the horizontal direction of rack main part and is set up between the left side board and/or the right side board of rack main part, cable tray includes the cable bracket and sets up a plurality of segmentation supports on the cable bracket, the length direction interval arrangement of cable bracket along a plurality of segmentation supports.

Preferably, still be equipped with the angle gauge in the rack main part and subtract wide support, it is equipped with a plurality ofly to subtract wide support, and a plurality ofly subtracts wide support and fixes on the left side board of rack main part and/or right side board along the vertical direction of rack main part, the angle gauge is fixed on the support that subtracts wide on the left side board of rack main part and/or right side board, is fixed with quick-witted case on the angle gauge, is connected with hanging terminal module of back of the body electricity at the back of quick-witted case.

According to the preferred scheme, the wiring groove comprises a wiring groove frame and a wiring partition plate detachably connected in the wiring groove frame, the wiring partition plate divides the wiring groove frame into a plurality of wiring channels, wiring holes for binding cables are formed in the wiring groove frame and the wiring partition plate, tapping screw holes are formed in the connection position of the wiring groove frame and the wiring partition plate, and the wiring groove frame and the wiring partition plate are connected through tapping screws.

Preferably, the cable tray is equipped with a plurality ofly, and a plurality of cable trays pass through tray leading truck interval along the vertical direction of rack main part and fix on the trough, the bent plate of cable bracket for setting for the angle of bending, the segmentation support is L shape bent plate, the segmentation support passes through bolted connection with the cable bracket, sets up the waist shape hole of binding the cable on the segmentation support, sets up the wire binding bridge and/or the wire binding hole of tying up the cable on the cable bracket.

According to the preferred scheme, the width reducing support is a rectangular frame with an opening at one end and a closed periphery, the side walls of the width reducing support are provided with wire passing holes, the two parallel side walls of the width reducing support are provided with mounting holes, the width reducing support is formed by integrally bending and splicing steel plates, the angle gauge comprises a mounting plate and vertical plates vertically connected to the two sides of the mounting plate, square holes are formed in one of the vertical plates at intervals along the length direction of the angle gauge, a folded edge parallel to the mounting plate is arranged on the other vertical plate, the folded edge extends along the length direction of the angle gauge, through holes are formed in the folded edge at intervals along the length direction of the angle gauge, the mounting plate of the angle gauge is fixedly connected with the width reducing support, and the connecting part of the mounting plate of the angle gauge and the width reducing support is provided with the.

Preferably, the hanging terminal module of back of body includes base and PCB subassembly, the PCB subassembly passes through base screw and base fixed connection, is equipped with the terminal of connecting cable on the PCB subassembly, be equipped with the connector of being connected with the terminal electricity on the base, the base passes through the connector and is connected with the signal switching module electricity at quick-witted case back, the base is rectangle aluminum alloy cavity structure, is equipped with the locating pin at the tip of base and does not deviate from the double-screw bolt, the locating pin with do not deviate from the back fixed connection of double-screw bolt and quick-witted case.

Preferably, the wire casing frame includes the bottom plate and connects the curb plate in the bottom plate both sides perpendicularly, seted up the line hole on the curb plate, all be equipped with the overlap joint board parallel with the bottom plate on the curb plate, the overlap joint board extends along the length direction of wire casing frame, has seted up a plurality of square holes on the overlap joint board, the length direction interval equipartition range of a plurality of square holes along the wire casing frame, walk the line baffle and be the right angle bent plate structure, set up waist shape hole and/or bundle line hole of tying up the cable on walking the line baffle.

Preferably, still be equipped with dull and stereotyped installing support and the swash plate installing support of installation electrical components on the wire casing frame, dull and stereotyped installing support includes the dull and stereotyped DIN guide rail of passing through the screw connection on the flat board, set up the mounting hole of being connected with the wire casing frame and tie up the waist shape hole of cable on the flat board, the swash plate installing support includes the swash plate and passes through the DIN guide rail of screw connection on the swash plate, be equipped with the mounting hole of being connected with the wire casing frame and tie up the waist shape hole and/or the wire binding bridge of cable on the swash plate.

Preferably, the tray leading truck includes two blocks of steel sheets of mutually perpendicular, and the pressure is riveted on one of them steel sheet has a plurality of pressure riveting nuts, and a plurality of pressure riveting nuts are arranged along the length direction interval equipartition of tray leading truck, has seted up microscler mounting hole on another steel sheet, the cable tray is through pressing riveting nut and tray leading truck fixed connection, the tray leading truck passes through microscler mounting hole and trough fixed connection.

According to the preferable scheme, a floating nut is connected in a square hole of the angle gauge, the case is fixedly connected with the angle gauge through the floating nut, and a wire binding point and/or a wire passing hole are/is formed in a mounting plate of the angle gauge.

Compared with the prior art, the utility model, following advantage and beneficial effect have: the utility model discloses an inside integrated wiring structure of rack is equipped with cable tray and the trough of tying up the cable in the rack main part, and the cable is tied up on trough and cable tray according to the line route of walking of setting for, still is equipped with the width reduction support and the angle gauge of fixed machine case in the rack main part, and the machine case is fixed on the angle gauge according to setting for the position.

1) In order to arrange the wiring of the back-hanging terminal module cables, the cabinet is provided with a cable tray which is provided with a cable bracket with cable bundling points and a sectional bracket for arranging the wiring of each back-hanging terminal module, and the cables are arranged and bundled; meanwhile, the tray guide frame for installing the cable tray is designed, the installation position of the cable tray can be adjusted forwards and backwards according to the wiring condition, and the arrangement and bundling of cables are facilitated.

2) The cabinet is designed with a wiring groove for accommodating and regulating various cables in the cabinet main body, and the wiring groove is composed of a wiring groove frame and wiring partition plates. In order to facilitate the collection of various cables, the wire slot frame and the wire routing partition plate are provided with wire bundling holes and wire passing holes for bundling the cables, and various cables can pass in and out of the wire passing holes in the top, the bottom and the side surfaces of the wire slot frame. The wiring partition plate divides the wire slot frame into a plurality of wiring channels, and the mounting and fixing positions of the wiring partition plate can be adjusted in the upper direction, the lower direction, the left direction and the right direction according to the wiring quantity and the wiring condition, so that the partitioned arrangement of the cables is realized, and the ordered and compact arrangement of the cables is kept.

3) For realizing the installation of the expansion devices, the cabinet is provided with a panel mounting bracket and an inclined plate mounting bracket on the wiring groove, and the panel mounting bracket and the inclined plate mounting bracket are both connected with DIN guide rails, so that the expansion devices of different types can be conveniently installed. Meanwhile, a flat plate of the flat plate mounting support is provided with a mounting hole connected with the trunking frame and a waist-shaped hole for binding the cable, and an inclined plate of the inclined plate mounting support is provided with a mounting hole connected with the trunking frame and a waist-shaped hole for binding the cable and/or a wire binding bridge, so that the cable arrangement and binding of the expansion device are facilitated.

4) This rack has set up in the rack main part for installing quick-witted case and has subtracted wide support and angle gauge for installing quick-witted case, subtracts wide support and fixes the angle gauge on the left side board and the right side board of rack main part, all designed the line hole about subtracting wide support with around, the cable of being convenient for penetrates and stretches out. The angle gauge is provided with a square hole capable of being provided with a floating nut, the case is fixedly connected with the angle gauge through the floating nut, and a wire bundling point and a wire passing hole are formed in a mounting plate of the angle gauge and used for arranging and bundling cables, so that the cables are kept to be placed in order.

5) The machine case in the cabinet is provided with a back-hanging terminal module for connecting the cable, the back-hanging terminal module is provided with a base and a PCB assembly, the PCB assembly is fixedly connected with the base through a base screw, a terminal for connecting the cable is arranged on the PCB assembly, a connector electrically connected with the terminal is arranged on the base, and the cable is electrically connected with external equipment through the terminal. The base is electrically connected with the signal switching module at the back of the case through the connector, the end part of the base is provided with a positioning pin and a non-disengagement stud, the positioning pin and the non-disengagement stud are fixedly connected with the back of the case, and the back-hanging terminal module is conveniently connected and fixed with the case.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view along the horizontal direction of the cabinet main body of the present invention;

fig. 3 is a partial sectional view along the vertical direction of the cabinet main body of the present invention;

fig. 4 is a schematic structural view of the cable tray of the present invention;

fig. 5 is a schematic structural view of the tray guide frame of the present invention;

FIG. 6 is a schematic structural view of the wiring duct of the present invention;

fig. 7 is a top view of the wiring duct of the present invention;

fig. 8 is a schematic structural view of a flat plate mounting bracket according to the present invention;

fig. 9 is a schematic structural view of the swash plate mounting bracket of the present invention;

fig. 10 is a schematic structural view of the flat mounting bracket and the inclined plate mounting bracket of the present invention mounted in the wiring duct;

fig. 11 is a schematic structural view of the angle gauge of the present invention;

fig. 12 is a schematic structural view of the width-reducing bracket of the present invention;

fig. 13 is a schematic structural diagram of the back-hanging terminal module of the present invention;

fig. 14 is a schematic structural view of the connection between the back-hanging terminal module and the chassis of the present invention.

Reference numbers and corresponding part names in the drawings:

1-back-hung terminal module, 101-base, 102-PCB assembly, 103-terminal, 104-base screw, 105-connector, 106-positioning pin, 107-non-removable stud;

2-cable tray, 201-cable tray, 202-segmented rack, 203-screw, 204-kidney-shaped hole, 205-wire-binding bridge, 206-wire-binding hole;

3-a tray guide frame, 301-a rivet pressing nut and 302-a long mounting hole;

4-routing groove, 401-wiring groove frame, 402-routing clapboard, 403-tapping screw, 404-threading hole, 405-tapping screw hole, 406-wiring hole, 407-square hole, 408-first routing channel, 409-second routing channel, 410-third routing channel, 411-waist-shaped hole;

5-plate mounting bracket, 501-plate, 502-DIN guide, 503-mounting hole, 504-waist-shaped hole, 505-screw;

6-sloping plate mounting bracket, 601-sloping plate, 602-DIN guide rail, 603-mounting hole, 604-waist-shaped hole, 605-screw and 606-wire binding bridge;

7-angle gauge, 701-square hole, 702-bundling point and 703-line-passing hole;

8-width reducing support, 801-wire passing hole and 802-mounting hole;

9-case, 901-signal switching module;

10-cabinet body.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1 to 3, the utility model relates to an inside integrated wiring structure of rack, including rack main part 10, be equipped with cable tray 2 and the trough 4 of arrangement cable in this rack main part 10. The wiring grooves 4 are provided with two groups, the two groups of wiring grooves 4 are respectively fixedly arranged on the left side plate and the right side plate of the cabinet main body 10 along the vertical direction of the cabinet main body 10, and the two groups of wiring grooves 4 are positioned on the rear side of the cabinet main body 10. The cable tray 2 is fixedly arranged between the two groups of wiring grooves 4 on the left side plate and the right side plate of the cabinet main body 10 along the horizontal direction of the cabinet main body 10, the cable tray 2 comprises a cable bracket 201 and a plurality of segmented supports 202 arranged on the cable bracket 201, and the segmented supports 202 are arranged at intervals along the length direction of the cable bracket 201.

Still be equipped with angle gauge 7 and subtract wide support 8 in the rack main part, it is equipped with a plurality ofly to subtract wide support 8, and a plurality ofly subtract wide support 8 and fix on the left side board and the right side board of rack main part 10 along the vertical direction of rack main part 10, subtracts wide support 8 and is equipped with two sets ofly on the left side board and the right side board of rack main part 10 respectively to it is located the front side of rack main part 10 to subtract wide support 8. The angle gauges 7 are four, the four angle gauges 7 are fixed on width reducing supports 8 on a left side plate and a right side plate of a cabinet main body 10, a cabinet 9 is fixed on the angle gauges 7, and a back-hanging terminal module 1 is electrically connected to the back of the cabinet 9.

Specifically, as shown in fig. 6 and 7, the cabling duct 4 includes a trunking frame 401 and a cabling partition 402 detachably connected in the trunking frame 401, the number of the cabling partitions 402 is determined according to specific use requirements, in this embodiment, two sets of cabling partitions 402 are taken as an example for explanation, and the two sets of cabling partitions 402 divide the trunking frame into a first cabling channel 408, a second cabling channel 409 and a third cabling channel 410. The first routing channel 408, the second routing channel 409 and the third routing channel 410 are parallel to each other, and different types of cables can be bound by the first routing channel 408, the second routing channel 409 and the third routing channel 410, so that the cables can be conveniently bound by different bins. The wire slot frame 401 and the wiring partition plate 402 are both provided with wire binding holes 406 for binding the cables, and the cables are bound on the wire binding holes 406 through binding tools such as a binding belt to position the cables, so that the cables are ensured to be orderly arranged, and the occupied space of the cables is saved. Tapping screw holes 405 are formed in the joints of the wire groove frame 401 and the wiring partition plate 402, and the wire groove frame 401 and the wiring partition plate 402 are connected with the tapping screw holes 405 through tapping screws 403.

The trunking frame 401 includes a bottom plate and side plates vertically connected to two sides of the bottom plate, and the side plates are provided with wire passing holes 404, so that cables in the trunking frame 401 or cables outside the trunking frame 401 can conveniently penetrate or extend from the wire passing holes 404. All be equipped with the lapping plate parallel with the bottom plate on the curb plate, the lapping plate extends along the length direction of trunking frame 401, has seted up a plurality of square holes 407 on the lapping plate, and a plurality of square holes 407 are arranged along the length direction interval equipartition of trunking frame 401, are equipped with floating nut in a plurality of square holes 407, and cable tray 2 is connected with trough 4 through floating nut. The wiring partition plate 402 is of a right-angle bent plate structure, the waist-shaped holes 411 for binding the cables are formed in the wiring partition plate 402, the cables are bound on the waist-shaped holes 411 through binding tools such as a binding belt, the cables are positioned, the cables are placed in order, and the occupied space of the cables is saved. The bottom plate of the trunking frame 401 is provided with a cable binding hole 406 for binding cables, the cables are bound on the cable binding hole 406 through binding tools such as a binding belt, the cables are positioned, the cables are placed in order, and the occupied space of the cables is saved.

As shown in fig. 1, 4 and 5, the cable tray 2 is provided with a plurality of cable trays 2, the number of the cable trays 2 is determined according to specific use requirements, and the embodiment is not limited in detail here. A plurality of cable trays 2 are fixed on the cabling channel 4 at intervals through tray guiding frames 3 along the vertical direction of the cabinet main body 10. The cable bracket 201 is a bent plate with a set bending angle, the sectional support 202 is an L-shaped bent plate, the sectional support 202 is connected with the cable bracket 201 through a screw 203, a waist-shaped hole 204 for binding the cable is formed in the sectional support 202, and a cable binding bridge 205 and a cable binding hole 206 for binding the cable are formed in the cable bracket 201.

The tray guide frame 3 comprises two steel plates which are perpendicular to each other, a plurality of press riveting nuts 301 are press riveted on one steel plate, and the plurality of press riveting nuts 301 are uniformly arranged along the length direction of the tray guide frame 3 at intervals; a long mounting hole 302 is formed in the other steel plate, the cable tray 2 is fixedly connected with the tray guide frame 3 through a pressure riveting nut 301, and the tray guide frame 3 is fixedly connected with the wiring groove 4 through the long mounting hole 302.

The cable tray 2 is provided with a cable bracket 201 with a cable binding point and a sectional bracket 202 for arranging the wiring of each back-hanging terminal module 1, and is used for arranging and binding cables; the tray guide frame 3 for installing the cable tray 2 is designed, the installation position of the cable tray 2 can be adjusted by the tray guide frame 3 according to the wiring condition, and the arrangement and bundling of cables are facilitated.

As shown in fig. 11 and 12, the width reducing support 8 is a rectangular frame with an opening at one end and a closed periphery, the side walls of the width reducing support 8 are all provided with wire passing holes 801, the two parallel side walls of the width reducing support 8 are provided with mounting holes 802, the width reducing support 8 is fixedly connected with the left side plate or the right side plate of the cabinet main body 10 through the mounting holes 802, and the width reducing support 8 is a steel plate integral bending and splicing structure. The angle gauge 7 comprises a mounting plate and vertical plates vertically connected to two sides of the mounting plate, and square holes 701 are formed in one vertical plate at intervals along the length direction of the angle gauge 7. And a hem parallel to the mounting plate is arranged on the other vertical plate, the hem extends along the length direction of the angle gauge 7, and through holes are arranged on the hem at intervals along the length direction of the angle gauge 7. The mounting panel of angle gauge 7 passes through mounting hole 802 fixed connection with reducing wide support 8, and line hole 703 has been seted up with reducing wide support 8 junction to the mounting panel of angle gauge 7, makes things convenient for the cable in angle gauge 7 and the reducing wide support 8, the inside and outside cable of angle gauge 7 and reducing wide support 8 or the cable between angle gauge 7 and the reducing wide support 8 to penetrate or stretch out from passing in the line hole 703. Floating nuts are connected in square holes 701 of the angle gauge 7, the case 9 is fixedly connected with the angle gauge 7 through the floating nuts, and wire binding points 702 and wire passing holes 703 are formed in a mounting plate of the angle gauge 7, so that cables can be conveniently sorted and bundled up, and the cables are kept to be orderly placed.

As shown in fig. 13 and 14, the back-hanging terminal module 1 includes a base 101 and a PCB assembly 102, and the PCB assembly 102 is fixedly connected to the base 101 by base screws 104. The PCB assembly 102 is provided with a terminal 103 for connecting a cable, and the terminal 103 is electrically connected to the cable outside the cabinet body 10. The base 101 is provided with a connector 105 electrically connected to the terminal 103, and the base 101 is electrically connected to a signal relay module 901 on the back of the housing 9 via the connector 105. The base 101 is a rectangular aluminum alloy cavity structure, the end of the base 101 is provided with a positioning pin 106 and a non-removing stud 107, and the positioning pin 106 and the non-removing stud 107 are fixedly connected with the back of the case 9, so that the back-hung terminal module 1 can be conveniently detached and connected with the case 9.

As shown in fig. 8, 9 and 10, the trunking frame 401 further includes a flat plate mounting bracket 5 and a sloping plate mounting bracket 6 for mounting the expansion electrical components. The flat mounting bracket 5 comprises a flat plate 501 and a DIN guide rail 502 connected to the flat plate 501 through a screw 505, and the expansion electrical appliance element is clamped on the DIN guide rail 502, so that the installation and the disassembly are convenient, and the disassembly and assembly efficiency and the attractiveness of the expansion electrical appliance element are improved. The flat plate 501 is provided with a mounting hole 503 connected to the raceway frame 401 and a waist-shaped hole 504 for bundling cables. The flat plate mounting bracket 5 is connected with a lapping plate of the trunking frame 401 through a mounting hole 503, a floating nut is mounted in a square hole 407 on the lapping plate of the trunking frame 401, and the flat plate mounting bracket 5 is in threaded connection with the floating nut through the mounting hole 503. When the electric wire casing is used, the mounting position of the flat mounting bracket 5 on the wire casing frame 401 is determined according to the requirement of expanding electric elements, so that the installation of the electric elements and the arrangement of cables can be conveniently expanded. The inclined plate mounting bracket 6 comprises an inclined plate 601 and a DIN guide rail 602 connected to the inclined plate through a screw 605, and the expansion electrical component is clamped on the DIN guide rail 602, so that the installation and the disassembly are convenient, and the disassembly and assembly efficiency and the attractiveness of the expansion electrical component are improved. The sloping plate 601 is a steel plate with a certain bending angle, and the sloping plate 601 is provided with a mounting hole 603 connected with the bottom plate of the trunking frame 401, a kidney-shaped hole 604 for binding cables, and a wire binding bridge 606. The mounting hole 603 is a long hole, and the inclined plate mounting bracket 6 can adjust the position on the bottom plate of the trunking frame 401 through the mounting hole 603, so that the position of an electric appliance element and the cable bundling position can be adjusted and expanded conveniently and flexibly.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The utility model provides an inside integrated wiring structure of rack, includes the rack main part, its characterized in that, be equipped with cable tray and the trough of arrangement cable in the rack main part, the trough is fixed to be set up on the left side board and/or the right side board of rack main part along the vertical direction of rack main part, the cable tray is fixed to be set up between the left side board and/or the right side board of rack main part along the horizontal direction of rack main part, the cable tray includes the cable bracket and sets up a plurality of segmentation supports on the cable bracket, the length direction interval arrangement of cable bracket along the line of a plurality of segmentation supports.

2. The inside comprehensive wiring structure of claim 1, wherein a plurality of angle gauges and width-reducing brackets are further arranged in the cabinet main body, the width-reducing brackets are fixed on the left side plate and/or the right side plate of the cabinet main body along the vertical direction of the cabinet main body, the angle gauges are fixed on the width-reducing brackets on the left side plate and/or the right side plate of the cabinet main body, a cabinet is fixed on the angle gauges, and a back-hanging terminal module is electrically connected to the back of the cabinet.

3. The inside integrated wiring structure of a cabinet according to claim 1, wherein the wiring trough includes a trough frame and a wiring partition detachably connected in the trough frame, the wiring partition divides the trough frame into a plurality of wiring channels, the trough frame and the wiring partition are both provided with wire binding holes for binding cables, the junction of the trough frame and the wiring partition is both provided with self-tapping screw holes, and the trough frame and the wiring partition are connected by self-tapping screws.

4. The cabinet interior comprehensive wiring structure according to claim 1, wherein the cable trays are arranged in plurality, the cable trays are fixed on the wiring duct at intervals along a vertical direction of the cabinet main body through tray guide frames, the cable brackets are bent plates with set bending angles, the segmented brackets are L-shaped bent plates, the segmented brackets are connected with the cable brackets through screws, waist-shaped holes for binding cables are formed in the segmented brackets, and cable binding bridges and/or cable binding holes for binding cables are formed in the cable brackets.

5. The inside comprehensive wiring structure of the cabinet according to claim 2, wherein the width reducing bracket is a rectangular frame with an opening at one end and a closed periphery, the side walls of the width reducing bracket are both provided with wire passing holes, the two parallel side walls of the width reducing bracket are provided with mounting holes, the width reducing bracket is formed by integrally bending and splicing steel plates, the angle gauge comprises a mounting plate and vertical plates vertically connected to two sides of the mounting plate, one of the vertical plates is provided with square holes at intervals along the length direction of the angle gauge, the other vertical plate is provided with a hem parallel to the mounting plate, the hem extends along the length direction of the angle gauge, the hem is provided with through holes at intervals along the length direction of the angle gauge, the mounting plate of the angle gauge is fixedly connected with the width reducing bracket, and the connecting part of the mounting plate of the angle gauge and the width reducing bracket is provided with wire passing holes.

6. The inside integrated wiring structure of claim 3, wherein the trunking frame comprises a bottom plate and side plates vertically connected to two sides of the bottom plate, the side plates are provided with wire passing holes, the side plates are provided with lap plates parallel to the bottom plate, the lap plates extend along the length direction of the trunking frame, the lap plates are provided with square holes, the square holes are uniformly distributed along the length direction of the trunking frame at intervals, the routing partition plate is of a right-angle bent plate structure, and the routing partition plate is provided with waist-shaped holes and/or wire bundling holes for bundling cables.

7. The cabinet internal comprehensive wiring structure according to claim 3, wherein the trunking frame is further provided with a flat plate mounting bracket and an inclined plate mounting bracket for mounting electrical components, the flat plate mounting bracket comprises a flat plate and a DIN rail connected to the flat plate through screws, the flat plate is provided with mounting holes connected to the trunking frame and waist-shaped holes for bundling cables, the inclined plate mounting bracket comprises an inclined plate and a DIN rail connected to the inclined plate through screws, and the inclined plate is provided with mounting holes connected to the trunking frame and waist-shaped holes for bundling cables and/or a wire bundling bridge.

8. The inside integrated wiring structure of claim 4, wherein the tray guide frame comprises two steel plates perpendicular to each other, a plurality of press riveting nuts are press-riveted on one of the steel plates, the press riveting nuts are evenly distributed along the length direction of the tray guide frame at intervals, a long mounting hole is formed in the other steel plate, the cable tray is fixedly connected with the tray guide frame through the press riveting nuts, and the tray guide frame is fixedly connected with the wiring groove through the long mounting hole.

9. The inside comprehensive wiring structure of claim 5, wherein floating nuts are connected in square holes of the angle gauge, the case is fixedly connected with the angle gauge through the floating nuts, and a wire binding point and/or a wire passing hole are/is formed in a mounting plate of the angle gauge.