CN113347843A

CN113347843A - Automatic control cabinet of electrified equipment

Info

Publication number: CN113347843A
Application number: CN202110740194.9A
Authority: CN
Inventors: 蔡一斌; 余智正; 谢鸿帛; 郭文灵
Original assignee: Shishi Xinmao Automation Equipment Co ltd
Current assignee: Shishi Xinmao Automation Equipment Co ltd
Priority date: 2021-07-01
Filing date: 2021-07-01
Publication date: 2021-09-03
Anticipated expiration: 2041-07-01
Also published as: CN113347843B

Abstract

The invention discloses an automatic control cabinet of an electrified device, which comprises a control cabinet assembly, wherein the control cabinet assembly comprises a first mounting frame and a second mounting frame, and a right frame and a left frame are arranged on the inner frame wall of the first mounting frame. This automatic control cabinet for electric equipment, the locating plate of leading to the groove position in the inner chamber of installing frame one is used for the fixed to the nut fixed plate, the butt joint middle part of installing frame one and installing frame two is the shape of wearing simultaneously, the wire is through wearing the position from the inner chamber of installing frame one introduction installing frame two, and holistic locating plate and supporting structure all are used for doing the adjustment to the displacement after arranging of wire, rotatory bolt can control the inner tower and slide at the inner chamber position of spacing groove simultaneously, control is done in the upper and lower adjustment of indirect control inner tower, the wire that makes arranging is more smooth and easy.

Description

Automatic control cabinet of electrified equipment

Technical Field

The invention relates to the field of automatic control cabinets, in particular to an automatic control cabinet of an electrified device.

Background

The automatic control cabinet is a programmable control cabinet, the control cabinet is a complete set of control cabinet, an electric cabinet capable of realizing control of a motor and a switch and a PLC (programmable logic controller) control cabinet can finish equipment automation and process automation control, perfect network functions are realized, and the automatic control cabinet has the characteristics of stable performance, expandability, strong interference resistance and the like, can be matched with a human-computer interface touch screen, and achieves the purpose of easy operation.

At present when assembling automatic cabinet, directly pass through the screw butt joint with two sets of cabinets bodies, in addition the assembly of circuit and adapter, but this type of equipment needs to break off and dismantle the internal circuit of cabinet that corresponds, just can realize the separation of the cabinet body, and the track body is in the installation simultaneously, and the introduction that the wire corresponds is also fairly loaded down with trivial details, arranges the wire simultaneously and easily appears the bending that the wire end was extrudeed and is caused, leads to the fact the damage to the line body.

Disclosure of Invention

The invention aims to provide an automatic control cabinet of an electrified device, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic control cabinet for electrified equipment comprises a control cabinet assembly, wherein the control cabinet assembly comprises a first mounting frame and a second mounting frame, a wire arrangement mechanism is arranged in an inner frame of the first mounting frame, a right frame and a left frame are arranged on the wall of the inner frame of the first mounting frame, a right cabinet assembly component is arranged in the inner frame of the right frame, a left cabinet assembly component is arranged in the inner frame of the left frame, a bottom frame is arranged at the bottom end of the inner frame of the left cabinet assembly component, an inner cavity wall of the second mounting frame is fixedly connected with an adjusting mechanism by an upper part, a rotary buckle is arranged at the top end of the first mounting frame close to a top corner part, the bottom of the rotary buckle penetrates through the upper surface of the second mounting frame and is fixedly connected with a hook, a side plate is welded at one end of the hook, a grounding switch is welded at the outer frame of the left cabinet assembly component by a lower part, a first hinge and a second hinge are arranged on the front side surface of, the back surface of the inner frame of the left cabinet self-assembly component is provided with a bus frame, and the lower part of the inner frame of the left cabinet self-assembly component is fixedly connected with a positioning plate through screws.

As a still further scheme of the invention: the utility model discloses a cable access mechanism, including left side cabinet whole dress component, circuit breaker and division board, the spacing frame in back is installed to the inboard of division board, the inside casing back of left side cabinet whole dress component leans on lower position welding to have earthing switch, spacing frame before earthing switch's preceding facade fixedly connected with, both sides all have through screw connection to connect the generating line bridge on the outer wall of preceding spacing frame and take, connect the top that the generating line bridge was taken and install cable access mechanism, circuit breaker insulating transverse bar is installed on the top that cable access mechanism.

As a still further scheme of the invention: the utility model discloses a circuit breaker, including instrument mounting bracket, installation frame, circuit breaker skeleton, support side piece, inboard fixedly connected with combined bay, the lower surface of circuit breaker skeleton is provided with the cushion, and the bottom of cushion is installed through the bolt and is connect the end, connect the lower pin position of end to install the lead head, the lower pin of lead head and the top electric connection of circuit breaker.

As a still further scheme of the invention: the side-mounting of circuit breaker has spacing piece, the inside casing lateral wall fixed connection of spacing piece and left cabinet ready-package component, connect the last pin position of end to install the leader body through the bolt, the horizontal piece position overlap joint of leader body has the generating line frame, the back of generating line frame leans on upper portion position fixed connection with the inside casing back of left cabinet ready-package component, the below of circuit breaker is provided with the insulating horizontal piece of circuit breaker.

As a still further scheme of the invention: the inner side of the front vertical face of the connecting end is fixedly connected with a guide sheet through a screw, the screw at the lower part of the front vertical face of the guide sheet is fixedly connected with a breaker insulation transverse block, and the breaker insulation transverse block is electrically connected with a limiting piece.

As a still further scheme of the invention: the first mounting frame and the second mounting frame are both openable on the front and back surfaces.

As a still further scheme of the invention: the right side cabinet is put the component in order and is included grafting end and heat dissipation mechanism and last mounting bracket, the foot rest is installed at the top position placed in the middle of the grafting end, the insulating disc is installed at the inside casing position of foot rest, the lower contact seat is installed at the inner ring position of insulating disc, install the grafting end on the outer wall of lower contact seat, the preceding facade of heat dissipation mechanism leans on upper portion fixedly connected with location diaphragm, install the introduction wire frame on the back of location diaphragm.

As a still further scheme of the invention: the side plate is installed on the left wall of the inner frame of the right cabinet self-contained component, the mounting box is arranged on the front vertical face of the side plate, connecting pins are installed on the top end and the bottom end of the mounting box and fixedly connected with the front face of the side plate, a lead lithium cylinder is installed on the inner frame of the mounting box, and one end of the lead lithium cylinder is electrically connected with a vertical row.

As a still further scheme of the invention: the adjusting mechanism comprises a positioning plate body and is two sets of a nut fixing plate fixedly connected with a front vertical face of the positioning plate body, a motor is installed on the back face of the nut fixing plate, a rotary table is installed at the position, between two sides, of the front vertical face of the nut fixing plate, the back face of the rotary table is connected with a driving shaft of the motor in a rotating mode, a centrifugal block is fixedly connected with the outer edge position of the front vertical face of the rotary table, a centrifugal plate is installed on the front vertical face of the centrifugal block, a bolt is installed at the position, between two sides, of the front vertical face of the centrifugal plate, and the bottom of the bolt penetrates through the front vertical face of the centrifugal plate and is fixedly connected with the front vertical face of the centrifugal block.

As a still further scheme of the invention: the welding of the preceding facade of centrifugal plate has through-hole welded piece and outrigger, through-hole welded piece is located the top of outrigger, the bolt is installed on the top of through-hole welded piece, and the bottom of bolt runs through the upper surface of through-hole welded piece and the upper surface of outrigger respectively to fixedly connected with inner frame, the spacing groove has been seted up to the preceding facade of inner frame, the bottom electric connection of inner frame has the cable to draw the end, fixedly connected with slider on the back of inner frame, the inside casing of outrigger and the outer wall sliding connection of slider.

As a still further scheme of the invention: the utility model discloses a contact structure, including limiting groove, contact seat, articulated elements, contact seat, stopper, insulating head, clamp plate, torsion bar, contact seat, limiting groove, contact seat's inside casing position is installed respectively and is waited to contact seat and contact seat, the articulated elements is installed to the one end of contact seat, the outer wall upper surface mounting of contact seat has the mounting, the one end of mounting is passed through the stopper and is installed in the upper surface department of waiting to contact the seat, the insulation head is installed to the front end of contact seat, the front end of waiting to contact the seat is installed and is pressed from both sides the dish, press from both sides the dish one side and install the torsion bar.

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

according to the invention, after the motor operates, the turntable is driven to rotate, the centrifugal block arranged at the eccentric part of the through hole welding block drives the centrifugal plate to rotate, so that the position of the centrifugal plate can be adjusted, at the moment, the position of the centrifugal plate corresponds to the part of the penetrating notch formed in the butting surface of the mounting frame II and the mounting frame, a wire is led in through one end of the contact seat, the wire to be butted is positioned in the inner cavity of the seat to be contacted, the fixing piece is controlled to rotate, the contact seat can be pushed to the part of the clamping and pressing disc, the wire positioned in the contact seat is led into the part of the clamping and pressing disc, the wire to be butted through the torsion bar and the led-in wire are clamped and butted, when the mounting frame II is separated from the mounting frame I, only the butting part of the wire needs to be separated, the structure is more optimized, and the design.

According to the nut fixing device, the positioning plate arranged at the through groove part of the inner cavity of the first mounting frame is used for fixing the nut fixing plate, meanwhile, the middle part of the butt joint surface of the first mounting frame and the second mounting frame is in a penetrating shape, the wire is led into the inner cavity of the second mounting frame from the first mounting frame through the penetrating part, the integral positioning plate and the matching structure are used for adjusting the displacement of the arranged wire, meanwhile, the rotating bolt can control the inner frame to slide in the inner cavity part of the limiting groove, the up-and-down adjustment of the inner frame is indirectly controlled, and the arranged wire is smoother.

Drawings

FIG. 1 is a schematic diagram of an automatic control cabinet for an electrical device;

FIG. 2 is a block diagram of a control cabinet assembly for an automatic control cabinet of an electrical device;

FIG. 3 is a top view of a control cabinet assembly in an automatic control cabinet for an electrical device;

FIG. 4 is a block diagram of a left cabinet self-contained component of an automatic control cabinet for an electrical device;

FIG. 5 is an exploded view of a left cabinet self-contained component of an automatic control cabinet for an electrical device;

FIG. 6 is a cross-sectional view of a left cabinet self-contained component of an automatic control cabinet for an electrical device;

FIG. 7 is a block diagram of a right cabinet self-contained component of an automatic control cabinet for an electrical device;

FIG. 8 is a block diagram of an adjustment mechanism in an automatic control cabinet for an electrical device;

FIG. 9 is a top view of an adjustment mechanism in an automatic control cabinet for an electrical device;

FIG. 10 is an enlarged view of FIG. 9 at A of an electrical equipment automation cabinet.

In the figure: control cabinet assembly 1, first mounting frame 2, second mounting frame 3, adjusting mechanism 4, wire row mechanism 5, right cabinet self-contained component 6, left cabinet self-contained component 7, instrument mounting frame 8, breaker framework 9, busbar frame 10, grounding switch 11, first hinge leaf 12, isolation plate 13, bottom frame 14, cable entry mechanism 15, breaker 16, lead head 17, torsion bar 18, terminal 19, clamping disc 20, mounting frame 21, combined frame 22, second hinge leaf 23, fixing piece 24, limiting piece 25, terminal body 26, breaker insulating transverse block 27, terminal strip 28, front limiting frame 29, positioning plate 30, rear limiting frame 31, connecting busbar bridge 32, side plate 33, hook 34, rotating buckle 35, left frame 36, right frame 37, positioning plate body 38, motor 39, centrifugal plate 40, insulating head 41, bolt 42, centrifugal block 43, nut fixing plate 44, rotating disc 45, through hole welding block 46, rotating disc 45, The device comprises a bolt 47, an outer frame 48, a sliding block 49, a cable leading-out terminal 50, an inner frame 51, an upper mounting frame 52, a seat 53 to be contacted, a connecting pin 54, a lithium leading cylinder 55, a mounting box 56, a limiting groove 57, a vertical row 58, a positioning transverse plate 59, a heat dissipation mechanism 60, a leading-in wire frame 61, a vertical guide bar 62, a lower contact seat 63, a plug-in terminal 64, an insulating disc 65, a leading foot frame 66, a contact seat 67 and a hinge piece 68.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10, in an embodiment of the present invention, an automatic control cabinet for an electrical device includes a control cabinet assembly 1, the control cabinet assembly 1 includes a first mounting frame 2 and a second mounting frame 3, a wire arrangement mechanism 5 is disposed in an inner frame of the first mounting frame 2, a right frame 37 and a left frame 36 are mounted on an inner frame wall of the first mounting frame 2, a right cabinet assembly member 6 is mounted in the inner frame of the right frame 37, a left cabinet assembly member 7 is mounted in the inner frame of the left frame 36, a bottom frame 14 is mounted at a bottom end of the inner frame of the left cabinet assembly member 7, an adjustment mechanism 4 is fixedly connected to an upper portion of an inner cavity wall of the second mounting frame 3, a rotating buckle 35 is mounted at a top end of the first mounting frame 2, a bottom portion of the rotating buckle 35 penetrates through an upper surface of the second mounting frame 3, and is fixedly connected to a hook 34, a side plate 33 is welded to one end of the hook 34, a grounding switch 11 is welded to a lower portion of the left cabinet assembly member 7, the front side of the outer frame of the left cabinet self-contained component 7 is provided with a first hinged leaf 12 and a second hinged leaf 23, the back of the inner frame of the left cabinet self-contained component 7 is provided with a bus frame 10, the lower part of the inner frame of the left cabinet self-contained component 7 is fixedly connected with a positioning plate 30 through screws, the left cabinet self-contained component 7 comprises an instrument mounting frame 8, a circuit breaker 16 and a partition plate 13, the inner side of the partition plate 13 is provided with a rear limiting frame 31, the back of the inner frame of the left cabinet self-contained component 7 is welded with a grounding switch 11 near the lower part, the front vertical face of the grounding switch 11 is fixedly connected with a front limiting frame 29, the outer walls of the front limiting frames 29 at two sides are respectively connected with a connecting bus bridge 32 through screws, the top end of the connecting bus bridge 32 is provided with a cable inlet mechanism 15, the top end of the cable inlet mechanism 15 is provided with a circuit breaker insulating transverse block 27, the bottom end of the instrument mounting frame 8 is provided with a mounting frame 21, one end of the mounting frame 21 is provided with a circuit breaker frame 9 through screws, the other end of the breaker framework 9 is provided with a supporting side block, the inner side of the supporting side block is fixedly connected with a combined frame 22, the lower surface of the breaker framework 9 is provided with a cushion block, the bottom end of the cushion block is provided with a joint end 19 through a bolt, the lower pin part of the joint end 19 is provided with a lead head 17, the lower pin of the lead head 17 is electrically connected with the top end of a breaker 16, the side surface of the breaker 16 is provided with a limiting piece 25, the limiting piece 25 is fixedly connected with the side wall of the inner frame of the left cabinet self-contained component 7, the upper pin part of the joint end 19 is provided with a lead body 26 through a bolt, the transverse piece part of the lead body 26 is lapped with a bus frame 10, the back surface of the bus frame 10 is fixedly connected with the back surface of the inner frame of the left cabinet self-contained component 7 close to the upper part, the lower part of the breaker 16 is provided with a breaker insulating transverse block 27, the inner side of the front vertical surface of the joint end 19 is fixedly connected with a guide piece through a screw, and the lower part of the front vertical surface of the guide piece is fixedly connected with the breaker insulating transverse block 27, the circuit breaker insulating transverse block 27 is electrically connected with the limiting piece 25, the mounting frame I2 and the mounting frame II 3 are both in an openable shape, the right cabinet integrally-assembled component 6 comprises a plug-in end 64, a heat dissipation mechanism 60 and an upper mounting frame 52, a foot guide frame 66 is installed at the middle part of the top end of the plug-in end 64, an insulating disc 65 is installed at the inner frame part of the foot guide frame 66, a lower contact seat 63 is installed at the inner frame part of the insulating disc 65, the plug-in end 64 is installed on the outer wall of the lower contact seat 63, a positioning transverse plate 59 is fixedly connected to the front vertical surface of the heat dissipation mechanism 60 close to the upper part, a lead-in wire frame 61 is installed on the back surface of the positioning transverse plate 59, a side plate is installed on the left wall of the inner frame of the right cabinet integrally-assembled component 6, a mounting box 56 is arranged on the front vertical surface of the side plate, connecting pins 54 are installed at the top end and the bottom end of the mounting box 56, the connecting pins 54 are fixedly connected with the front surface of the side plate, a lead-in the inner frame part of the mounting box 56 is provided with a lead-in lithium cylinder 55, one end of the lithium ion battery lead cylinder 55 is electrically connected with a vertical bar 58, the adjusting mechanism 4 comprises positioning plate bodies 38, the front vertical faces of the two groups of positioning plate bodies 38 are fixedly connected with a nut fixing plate 44, a motor 39 is installed on the back face of the nut fixing plate 44, a rotating disc 45 is installed at the central part of the front vertical face of the nut fixing plate 44, the back face of the rotating disc 45 is rotatably connected with a driving shaft of the motor 39, the outer edge part of the front vertical face of the rotating disc 45 is fixedly connected with a centrifugal block 43, a centrifugal plate 40 is installed on the front vertical face of the centrifugal plate 43, a bolt 42 is installed at the central part of the front vertical face of the centrifugal plate 40, the bottom of the bolt 42 penetrates through the front vertical face of the centrifugal plate 40 and is fixedly connected with the front vertical face of the centrifugal block 43, a through hole welding block 46 and an outer frame 48 are welded on the front vertical face of the centrifugal plate 40, the through hole welding block 46 is located above the outer frame 48, a bolt is installed at the top end of the through hole welding block 46, and the bottom of the bolt penetrates through hole welding block 46 and the upper surface of the outer frame 48 respectively, the inner frame 51 is fixedly connected with the inner frame 51, a limiting groove 57 is formed in the front vertical surface of the inner frame 51, a cable leading-out end 50 is electrically connected to the bottom end of the inner frame 51, a sliding block 49 is fixedly connected to the back surface of the inner frame 51, an inner frame of the outer frame 48 is in sliding connection with the outer wall of the sliding block 49, a to-be-contacted seat 53 and a contact seat 67 are respectively installed at the inner frame part of the limiting groove 57, an articulated piece 68 is installed at one end of the contact seat 67, a fixing piece 24 is installed on the upper surface of the outer wall of the contact seat 67, one end of the fixing piece 24 is installed on the upper surface of the to-be-contacted seat 53 through a limiting block, an insulating head 41 is installed at the front end of the contact seat 67, a clamping disc 20 is installed at the front end of the to-be-contacted seat 53, and a torsion bar 18 is installed on one side of the clamping disc 20.

The working principle of the invention is as follows: in installation, the right cabinet self-contained component 6 and the left cabinet self-contained component 7 are respectively installed in the left frame 36 and the right frame 37, also called as boxes, and then lead wires are arranged,

specifically, the method comprises the following steps: because the right cabinet self-contained component 6 and the left cabinet self-contained component 7 are matched facilities, the distribution line segment of the right cabinet self-contained component 6 needs to be butted with the distribution line segment of the left cabinet self-contained component 7 to realize the circulation of electric energy, the circuit breaker 16 arranged at the position of the left cabinet self-contained component 7 is an operation part of a whole circuit, the circuit breaker 16 is controlled to control the switch of the circuit, the pin part of the circuit breaker 16 is butted with the lead head 17, the lead head 17 is fixed with the connecting end 19 through a screw nut, the lead body 26 arranged at the tail end of the connecting end 19 is butted with external electric energy, the bus frame 10 is used for separating two groups of left cabinet self-contained components 7 and realizing the separation, partial electric energy reaches the insulating transverse block 27 of the circuit breaker through the inner side of the connecting end 19 and is distributed on the cable inlet mechanism 15 and the connecting end 28 and is introduced to the rear limiting frame 31 through the connecting end 28, the isolation plate 13 arranged at the front part of the rear limiting frame 31 is sealed and isolated;

a plurality of connecting wires are installed at the position of the rear limiting frame 31, the plurality of wires are finally introduced into the inner frame of the right cabinet self-contained component 6, the wires enter the installation box 56, are discharged through the vertical row 58 and are connected with supporting facilities again, a part of wires are introduced into the inner cavity of the lower contact base 63 through the positioning transverse plate 59, a part of wires are introduced into the position of the upper installation frame 52, and the installed heat dissipation mechanism 60 performs a heat dissipation function;

when the first mounting frame 2 and the second mounting frame 3 are separated, the conducting wire lapped between the first mounting frame 2 and the second mounting frame 3 needs to be separated;

specifically, the method comprises the following steps: the positioning plate body 38 arranged at the through groove part of the inner cavity of the mounting frame I2 is used for fixing the nut fixing plate 44, meanwhile, the middle part of the butt joint surface of the mounting frame I2 and the mounting frame II 3 is in a penetrating shape, a lead is led into the inner cavity of the mounting frame II 3 from the mounting frame I2 through the penetrating part, the whole positioning plate body 38 and a matched structure are used for adjusting the displacement of the lead after arrangement, meanwhile, the rotary bolt 47 can control the inner frame 51 to slide in the inner cavity part of the limiting groove 57, and the up-and-down adjustment of the inner frame 51 is indirectly controlled, so that the arranged lead is smoother;

specifically, the method comprises the following steps: after the motor 39 operates, the rotating disc 45 is driven to rotate, the centrifugal block 43 arranged at the eccentric part of the through hole welding block 46 drives the centrifugal plate 40 to rotate, so that the position of the centrifugal plate 40 can be adjusted, at the moment, the position of the centrifugal plate 40 corresponds to a penetrating notch part arranged on the butt joint surface of the mounting frame II 3 and the mounting frame I2, a lead is led in through one end of the contact seat 67, a lead to be butted is positioned in an inner cavity of the seat 53 to be contacted at the moment, the fixing part 24 is controlled to rotate, the contact seat 67 can be pushed to the position of the clamping disc 20, the lead positioned in the contact seat 67 is led into the position of the clamping disc 20, the lead to be butted and the led-in lead are clamped and butted through the torsion bar 18, and when the mounting frame II 3 is separated from the mounting frame I2, only the butt joint of the lead needs to be separated;

wherein the contact socket 67 and the socket to be contacted 53 are mounted in the cavity of the retaining groove 57.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an electrified equipment automatic control cabinet, includes switch board assembly (1), its characterized in that: the control cabinet assembly (1) comprises a first installation frame (2) and a second installation frame (3), a wire row mechanism (5) is arranged in an inner frame of the first installation frame (2), a right frame (37) and a left frame (36) are installed on the inner frame wall of the first installation frame (2), a right cabinet assembling component (6) is installed in the inner frame of the right frame (37), a left cabinet assembling component (7) is installed in the inner frame of the left frame (36), a bottom frame (14) is installed at the bottom end of the inner frame of the left cabinet assembling component (7), an inner cavity wall of the second installation frame (3) is close to an upper portion fixedly connected with adjusting mechanism (4), a rotary buckle (35) is installed at the top end of the first installation frame (2) close to a top corner portion, the bottom of the rotary buckle (35) penetrates through the upper surface of the second installation frame (3) and is fixedly connected with a hook (34), and a side plate (33) is welded at one end of the hook (34), the outer frame of the left cabinet integrally-assembled component (7) is welded by a lower part, and is provided with a grounding switch (11), the front side surface of the outer frame of the left cabinet integrally-assembled component (7) is provided with a first hinge (12) and a second hinge (23), the back surface of the inner frame of the left cabinet integrally-assembled component (7) is provided with a bus frame (10), and the lower part of the inner frame of the left cabinet integrally-assembled component (7) is provided with a positioning plate (30) through a screw fixedly connected with.

2. The automatic control cabinet of electrified equipment of claim 1, wherein: left side cabinet is put in order component (7) and is included instrument mounting bracket (8), circuit breaker (16) and division board (13), spacing frame (31) in back are installed to the inboard of division board (13), the inside casing back of left side cabinet is put in order component (7) leans on lower part position welding to have earthing switch (11), spacing frame (29) before the preceding facade fixedly connected with of earthing switch (11), both sides all have connection generating line bridge to take (32) through the screw connection on the outer wall of preceding spacing frame (29), cable admission mechanism (15) are installed on the top of connecting the generating line bridge and taking (32), circuit breaker insulating crosspiece (27) are installed on the top of cable admission mechanism (15).

3. The automatic control cabinet of electrified equipment according to claim 2, wherein: installation frame (21) are installed to the bottom of instrument mounting bracket (8), there is circuit breaker skeleton (9) one end of installation frame (21) through the screw installation, the other end of circuit breaker skeleton (9) is installed and is supported the side piece, and supports inboard fixedly connected with combined bay (22) of side piece, the lower surface of circuit breaker skeleton (9) is provided with the cushion, and the bottom of cushion installs through the bolt and connect end (19), connect the lower pin position of end (19) and install lead (17), the lower pin of lead (17) and the top electric connection of circuit breaker (16).

4. The automatic control cabinet of electrified equipment according to claim 2, wherein: the side-mounting of circuit breaker (16) has spacing piece (25), the inside casing lateral wall fixed connection of subassembly (7) is adorned entirely with left cabinet to spacing piece (25), connect the last pin position of end (19) to install through the bolt and lead end body (26), the horizontal piece position overlap joint of leading end body (26) has generating line frame (10), the back of generating line frame (10) leans on upper portion position fixed connection with the inside casing back of left cabinet dress component (7), the below of circuit breaker (16) is provided with circuit breaker insulating lateral mass (27).

5. The automatic control cabinet of electrified equipment of claim 3, wherein: the inner side of the front vertical face of the connecting end head (19) is fixedly connected with a guide sheet through a screw, the lower part of the front vertical face of the guide sheet is fixedly connected with a breaker insulation transverse block (27) through a screw, and the breaker insulation transverse block (27) is electrically connected with a limiting piece (25).

6. The automatic control cabinet of electrified equipment of claim 1, wherein: the mounting frame I (2) and the mounting frame II (3) are both openable on the front and back surfaces.

7. The automatic control cabinet of electrified equipment of claim 1, wherein: right side cabinet is put component (6) in order and is included grafting end (64) and heat dissipation mechanism (60) and last mounting bracket (52), foot rest (66) are installed to the top position placed in the middle of grafting end (64), insulating disc (65) are installed at the inside casing position of foot rest (66), contact base (63) are installed down to the inner ring position of insulating disc (65), install grafting end (64) on the outer wall of lower contact base (63), the preceding facade of heat dissipation mechanism (60) leans on upper portion position fixedly connected with location diaphragm (59), install on the back of location diaphragm (59) and introduce wire frame (61).

8. The automatic control cabinet of electrified equipment of claim 1, wherein: the side plate is installed on the left wall of the inner frame of the right cabinet self-contained component (6), a mounting box (56) is arranged on the front vertical face of the side plate, connecting pins (54) are installed at the top end and the bottom end of the mounting box (56), the connecting pins (54) are fixedly connected with the front face of the side plate, a lead lithium cylinder (55) is installed on the inner frame of the mounting box (56), and one end of the lead lithium cylinder (55) is electrically connected with a vertical row (58).

9. The automatic control cabinet of electrified equipment of claim 1, wherein: adjustment mechanism (4) are including locating plate body (38), two sets of preceding facade fixedly connected with nut fixed plate (44) of locating plate body (38), install motor (39) on the back of nut fixed plate (44), carousel (45) are installed to the preceding facade of nut fixed plate (44) position placed in the middle, the back of carousel (45) rotates with the drive shaft of motor (39) to be connected, preceding facade outer fringe position fixedly connected with centrifugation piece (43) of carousel (45), centrifuge plate (40) is installed to the preceding facade of centrifugation piece (43), bolt (42) are installed to the preceding facade position placed in the middle of centrifuge plate (40), the preceding facade of centrifuge plate (40) is run through to the bottom of bolt (42) to with the preceding facade fixed connection of centrifugation piece (43).

10. The automatic control cabinet of electrified equipment of claim 9, wherein: the welding of the preceding facade of centrifugal plate (40) has through-hole welding piece (46) and outrigger (48), through-hole welding piece (46) are located the top of outrigger (48), the bolt is installed on the top of through-hole welding piece (46), and the bottom of bolt runs through the upper surface of through-hole welding piece (46) and the upper surface of outrigger (48) respectively to fixedly connected with inner tower (51), spacing groove (57) have been seted up to the preceding facade of inner tower (51), the bottom electric connection of inner tower (51) has cable leading-out end (50), fixedly connected with slider (49) on the back of inner tower (51), the outer wall sliding connection of the inner frame slider (49) of outrigger (48).

11. The automatic control cabinet of electrified equipment of claim 1, wherein: the utility model discloses a contact structure, including limiting groove (57), contact seat (53) and contact seat (67), articulated elements (68) are installed to the one end of contact seat (67), the outer wall upper surface mounting of contact seat (67) has mounting (24), the upper surface department of waiting to contact seat (53) is installed through the stopper to the one end of mounting (24), insulator head (41) are installed to the front end of contact seat (67), wait to contact the front end of seat (53) and install and press from both sides pressure disk (20), torsion bar (18) are installed to one side of pressing from both sides pressure disk (20).