CN113422312A - Power distribution cabinet convenient to install - Google Patents

Abstract

The invention discloses a power distribution cabinet convenient to install, which comprises a left shell, wherein a left power distribution cavity is arranged on the right side surface of the left shell, a right shell is arranged on the right side surface of the left shell, a right power distribution cavity is arranged on the left side surface of the right shell, two vertically symmetrical left limiting blocks are fixedly arranged on the inner wall of the left power distribution cavity, a left power distribution board is arranged in the left power distribution cavity in a sliding manner, the upper end and the lower end of the left power distribution board are respectively correspondingly inserted into the left limiting blocks on the same side, two vertically symmetrical right limiting blocks are fixedly arranged on the inner wall of the right power distribution cavity, a right power distribution board is arranged in the right power distribution cavity in a sliding manner, the upper end and the lower end of the right power distribution board are respectively correspondingly inserted into the right limiting blocks on the same side, the power distribution cabinet is divided into two shells by arranging a connecting mechanism to be assembled and spliced, so that the power distribution cabinet is convenient to install and disassemble and is convenient to transport the power distribution cabinet, and the sliding power distribution board is installed, not only the flexibility of the distribution board is improved, but also the distribution board is more convenient to install.

Description

Power distribution cabinet convenient to install

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet convenient to install.

Background

The switch board is also called a distribution board, which is the previous-level distribution equipment of the distribution box, the volume is larger, wherein larger electrical equipment can be put in, therefore, the switch board is not only inconvenient to install and dismantle, but also difficult to transport and move, and the distribution board is centralized, switched and distributed with electric energy, therefore, the distribution board can emit heat when in operation, thereby easily causing fire, and the distribution board generally comprises a cabinet body, a switch, a protection device, a monitoring device, an electric energy meter and other secondary components, therefore, a large amount of electric wires need to be connected, and a fixed frame in the switch board, which makes staff inconvenient to maintain and install.

Disclosure of Invention

The invention aims to provide a power distribution cabinet convenient to install, which is used for overcoming the defects in the prior art.

The invention relates to a power distribution cabinet convenient to install, which comprises a left shell, wherein a left power distribution cavity is formed on the right side surface of the left shell, a right shell is fixedly arranged on the right side of the left shell, a right power distribution cavity is formed on the left side surface of the right shell, the right side surface of the left shell is attached to the left side surface of the right shell, so that the right power distribution cavity is communicated with the left power distribution cavity, a water tank is fixedly arranged on the left wall of the left power distribution cavity, two vertically symmetrical left limiting blocks are fixedly arranged on the inner wall of the left power distribution cavity, a left power distribution board is arranged in the left power distribution cavity in a sliding manner, the upper end and the lower end of the left power distribution board are respectively correspondingly inserted into the left limiting blocks on the same side, a cooling tank is fixedly arranged on the right wall of the right power distribution cavity, two vertically symmetrical right limiting blocks are fixedly arranged on the inner wall of the right power distribution cavity in a sliding manner, the upper end and the lower end of the right power distribution board are respectively correspondingly inserted into the right limiting blocks on the same side, the left side distribution intracavity slides and is equipped with the control box that extends right, the control box right flank inserts in the right side distribution intracavity, run through around the control box left side distribution chamber back wall with right side distribution chamber back wall.

According to the technical scheme, a water cavity is formed in the water tank, a water inlet and a water outlet are formed in the rear wall of the water cavity, a cooling cavity is formed in the cooling box, a lower inlet and an upper outlet are formed in the rear wall of the cooling cavity, cooling water is introduced into the water inlet and the lower inlet, the cooling water flows into the water cavity and the cooling cavity simultaneously, the cooling water in the water cavity can flow out through the water outlet, and the cooling water in the cooling cavity can flow out through the upper outlet.

Further technical scheme, the fixed left spool that is equipped with on the left side electricity distribution panel right flank, the fixed right spool that is equipped with on the right side electricity distribution panel left flank, left side line chamber has been seted up in the spool of a left side, the vertical fixation is equipped with left outlet pipe on the left side spool trailing flank, left side line chamber back wall with port intercommunication before the left side outlet pipe, right side line chamber has been seted up in the spool of the right side, the vertical fixation is equipped with the right outlet pipe on the right side spool trailing flank, right side line chamber back wall with port intercommunication before the right side outlet pipe, run through around the left side outlet pipe left side electricity distribution chamber back wall, run through around the right side outlet pipe right side electricity distribution chamber back wall, then left electric wire in the left side electricity distribution chamber can pass through left side spool with the left side outlet pipe is inserted, just right electric wire in the right side electricity distribution chamber can pass through right side spool with the right side outlet pipe is inserted.

The technical scheme is that two limiting rods which are symmetrical front and back are fixedly arranged on the left side surface of a left distribution board, a limiting cavity is formed in one surface, close to each other, of each two limiting rods, a sliding board is arranged on the left side of the left distribution board in a sliding mode, a sliding shaft is arranged in the sliding board in a rotating mode, two sliding gears which are symmetrical front and back are fixedly arranged on the periphery of the sliding shaft, the two sliding gears are respectively meshed with the left wall of the limiting cavity on the same side, a sliding power source is fixedly arranged in the sliding board and is in power connection with the sliding shaft, a left supporting board is fixedly arranged on the rear wall of the left distribution cavity, a left motor is fixedly arranged on the top surface of the left supporting board, a left rotating shaft is dynamically connected onto the top surface of the left motor, a left rotating gear is fixedly arranged on the periphery of the left rotating shaft, and is meshed with the right side surface of the left distribution board, left side distribution board the restriction pole left side spool with run through around a left side play spool homoenergetic left side shell leading flank opens the slip power supply makes sliding gear rotates, makes the slip dish slides from top to bottom, opens left side motor makes left side rotation gear revolve makes left side distribution board is followed the antedisplacement of left side distribution intracavity makes left side spool with the restriction pole is followed the antedisplacement of left side distribution intracavity.

A further technical scheme, the fixed explosion-proof case that is equipped with on the right side electricity distribution panel right flank, the fixed right branch fagging that is equipped with on the right side electricity distribution cavity back wall, the fixed right motor that is equipped with on the right side supporting plate top surface, power connection has right axis of rotation on the right side motor top surface, the fixed right rotation that is equipped with in right side axis of rotation periphery moves the gear, right side rotation move the gear with the meshing of right side electricity distribution panel left surface, right side distribution panel explosion-proof case right spool with right side spool is run through around the spool homoenergetic right side shell front flank, opens right side motor makes right rotation moves the gear and rotates, makes right side distribution panel follows right side electricity distribution intracavity roll-off makes explosion-proof case with right side spool is followed there is the distribution intracavity roll-off forward.

In a further technical scheme, two grooves which are symmetrical left and right are formed in the bottom surface of the control box, supporting rods are fixedly arranged on the rear wall of the left power distribution cavity and the rear wall of the right power distribution cavity, the top surfaces of the two supporting rods are respectively inserted into the grooves on the same side, supporting shafts are rotatably arranged in the two supporting rods, supporting power sources are fixedly arranged in the two supporting rods, the two supporting power sources are respectively in power connection with the supporting shafts on the same side, supporting gears are fixedly arranged on the peripheries of the two supporting shafts, the two supporting gears are respectively meshed with the top surfaces of the grooves on the same side, the control box is internally and fixedly provided with a control block, the left side surface and the right side surface of the control block are respectively and fixedly provided with a control panel, the supporting power source is started, the supporting gear rotates, and the control box can slide back from the left shell and the right shell.

In a further technical scheme, two pulley cavities which are symmetrical front and back are respectively arranged on the bottom surface of the left shell and the bottom surface of the right shell, pulley blocks which extend upwards are respectively arranged in the four pulley cavities in a sliding manner, pulley shafts are respectively fixedly arranged in the four pulley blocks, pulleys are respectively sleeved on the peripheries of the four pulley shafts in a rotating manner, two sliding block shafts are symmetrically arranged in the bottom surface of the left shell and the bottom surface of the right shell in a front-back rotating mode, sliding block gears are fixedly arranged on the peripheries of the four sliding block shafts, the four sliding block gears are respectively meshed with the pulley blocks on the same side, the pulley gear is arranged on the sliding block shaft, the pulley shaft is arranged on the left shell bottom surface and the right shell bottom surface, the pulley shaft is connected with the pulley shaft through the pulley power source, the pulley shaft is connected with the pulley power source, the pulley power source is opened, the sliding block gear rotates to enable the pulley block to slide downwards, and the pulley is enabled to slide downwards from the pulley cavity.

According to a further technical scheme, two connecting structures which are symmetrical up and down are fixedly arranged on the left side surface of the right shell, the two connecting structures comprise connecting rods, two connecting cavities which are symmetrical up and down are formed in the right side surface of the left shell, two fixing cavities which are symmetrical up and down are formed in the rear wall of the left power distribution cavity, the two right walls of the fixing cavities are respectively communicated with the left wall of the connecting cavity at the same side, the two connecting rods respectively penetrate through the connecting cavities at the same side from left to right, the left ends of the two connecting rods are respectively inserted into the fixing cavities at the same side, spring cavities are respectively formed in the two connecting rods, spring plates are respectively fixedly arranged on the inner walls of the two spring cavities, springs are respectively fixedly arranged on the upper side surface and the lower side surface of the two spring plates, two fixing blocks which are symmetrical up and down are respectively arranged in the two spring cavities in a sliding manner, and the four springs are respectively fixed with the fixing blocks at the same side, four the fixed block can insert the homonymy respectively fixed intracavity, manual will the fixed block is impressed fixed spring intracavity, then will the connecting rod left end passes through connect the chamber to insert fixed intracavity, then the spring will the fixed block pushes away fixed intracavity makes the connecting rod can't be followed connect the intracavity roll-off.

The invention relates to a power distribution cabinet convenient to install, which comprises the following working procedures:

cooling function:

and cooling water is introduced into the water inlet and the lower inlet, so that the cooling water flows into the water cavity and the cooling cavity simultaneously, the cooling water in the water cavity can flow out through the water outlet, and the cooling water in the cooling cavity can flow out through the upper outlet.

The shell splicing function:

the fixed block is pressed into the spring cavity manually, then the left end of the connecting rod is inserted into the fixed cavity through the connecting cavity, then the spring pushes the fixed block into the fixed cavity, and the connecting rod cannot slide out of the connecting cavity.

A sliding control box:

and starting the supporting power source to enable the supporting gear to rotate, so that the control box can slide out backwards from the left shell and the right shell.

Sliding panel:

turning on the left motor to rotate the left rotating gear to slide the left distribution board forwards from the left distribution cavity, and then sliding the left spool and the limiting rod forwards from the left distribution cavity, and turning on the right motor to rotate the right rotating gear to slide the right distribution board forwards from the right distribution cavity, and then sliding the explosion-proof box and the right spool forwards from the distribution cavity;

and opening the sliding power source to enable the sliding gear to rotate, so that the sliding disc slides up and down.

Integral sliding function:

and opening the pulley power source, enabling the slider gear to rotate, enabling the pulley block to slide downwards, enabling the pulley to slide downwards in the pulley cavity, and enabling the left shell and the right shell to slide back and forth through the pulley.

The invention has the beneficial effects that: the power distribution cabinet convenient to install is provided with the connecting mechanism, so that the power distribution cabinet is divided into two shells which are combined and spliced, the power distribution cabinet is convenient to install and disassemble, and the power distribution cabinet is convenient to transport.

Drawings

Fig. 1 is a schematic external view of a power distribution cabinet convenient to install according to the present invention;

FIG. 2 is a schematic cross-sectional view of a power distribution cabinet of the present invention for ease of installation;

fig. 3 is a schematic cross-sectional view of a connection mechanism 101 in a switch cabinet of the present invention for easy installation;

FIG. 4 is an enlarged, fragmentary, schematic view at A of FIG. 2 of the present invention;

FIG. 5 is an enlarged partial schematic view of B of FIG. 2 in accordance with the present invention;

fig. 6 is a side schematic view of C-C of fig. 2 of the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one easy-to-install electrical distribution cabinet or several specific embodiments of the invention, and does not strictly limit the scope of protection specifically claimed by the invention, as used herein, the terms upper, lower, left and right are not limited to their strict geometric definitions, but include tolerances for machining or human error rationality and inconsistencies, the following detailed description of which is specific features of an easy-to-install electrical distribution cabinet:

referring to the attached drawings, the power distribution cabinet convenient to install according to the embodiment of the invention comprises a left shell 10, a left power distribution cavity 51 is formed on the right side surface of the left shell 10, a right shell 11 is fixedly arranged on the right side of the left shell 10, a right power distribution cavity 13 is formed on the left side surface of the right shell 11, the right side surface of the left shell 10 is attached to the left side surface of the right shell 11, so that the right power distribution cavity 13 is communicated with the left power distribution cavity 12, a water tank 12 is fixedly arranged on the left wall of the left power distribution cavity 51, two left limiting blocks 22 which are symmetrical up and down are fixedly arranged on the inner wall of the left power distribution cavity 51, a left power distribution board 24 is slidably arranged in the left power distribution cavity 51, the upper end and the lower end of the left power distribution board 24 are respectively and correspondingly inserted into the left limiting block 22 on the same side, a cooling tank 14 is fixedly arranged on the right wall of the right power distribution cavity 13, two right limiting blocks 21 which are symmetrical up and down are fixedly arranged on the inner wall of the right power distribution cavity 13, slide in the right side distribution chamber 13 and be equipped with right distribution board 23, both ends correspond respectively about the right side distribution board 23 insert the homonymy in the restriction piece 21 in the right side, slide in the left side distribution chamber 51 and be equipped with the control box 33 that extends right, control box 33 right side inserts in the right side distribution chamber 13, run through around the control box 33 left side distribution chamber 51 back wall with right side distribution chamber 13 back wall.

Advantageously or exemplarily, a water chamber 15 is formed in the water tank 12, a water inlet 16 and a water outlet 17 are formed on a rear wall of the water chamber 15, a cooling chamber 56 is formed in the cooling tank 14, a lower inlet 19 and an upper outlet 18 are formed on a rear wall of the cooling chamber 56, cooling water is introduced into the water inlet 16 and the lower inlet 19, the cooling water flows into the water chamber 15 and the cooling chamber 56 simultaneously, the cooling water in the water chamber 15 can flow out through the water outlet 17, and the cooling water in the cooling chamber 56 can flow out through the upper outlet 18.

Advantageously or exemplarily, a left conduit 30 is fixedly arranged on the right side of said left switchboard 24, a right wire pipe 44 is fixedly arranged on the left side surface of the right distribution board 23, a left wire cavity 31 is arranged in the left wire pipe 30, a left outlet pipe 32 is vertically and fixedly arranged on the rear side surface of the left line pipe 30, the rear wall of the left line cavity 31 is communicated with the front port of the left outlet pipe 32, a right wire cavity 46 is arranged in the right wire tube 44, a right wire outlet tube 45 is vertically and fixedly arranged on the rear side surface of the right wire tube 44, the rear wall of the right wire cavity 46 is communicated with the front end opening of the right wire outlet pipe 45, the left wire outlet pipe 32 penetrates through the rear wall of the left power distribution cavity 51 from front to back, the right wire outlet pipe 45 penetrates through the rear wall of the right power distribution cavity 13 from front to back, the left electric wire in the left electric distribution chamber 51 can be inserted through the left wire tube 30 and the left wire outlet tube 32, and the right electric wire in the right power distribution cavity 13 can be inserted out through the right wire pipe 44 and the right wire outlet pipe 45.

Beneficially or exemplarily, two limiting rods 25 are fixed on the left side surface of the left distribution board 24, which are symmetrical to each other in the front-back direction, a limiting cavity 55 is opened on one surface of the two limiting rods 25, a sliding disk 27 is slidably disposed on the left side of the left distribution board 24, a sliding shaft 57 is rotatably disposed in the sliding disk 27, two sliding gears 26 are fixed on the outer periphery of the sliding shaft 57, which are symmetrical to each other in the front-back direction, the two sliding gears 26 are respectively engaged with the left wall of the limiting cavity 55 on the same side, a sliding power source is fixedly disposed in the sliding disk 27, which is in power connection with the sliding shaft 57, a left supporting plate 62 is fixedly disposed on the rear wall of the left distribution cavity 51, a left motor 63 is fixedly disposed on the top surface of the left supporting plate 62, a left rotating shaft 64 is in power connection with the top surface of the left motor 63, and a left rotating gear 65 is fixedly disposed on the outer periphery of the left rotating shaft 64, the left side running gear 65 with the meshing of left side distribution board 24 right flank, left side distribution board 24 the restriction pole 25 left side spool 30 with run through around the left side play spool 32 homoenergetic left side shell 10 leading flank opens the slip power supply makes the slip gear 26 rotates, makes the slip dish 27 slides from top to bottom, opens left side motor 63 makes left side running gear 65 rotates, makes left side distribution board 24 follows the inside roll-off of left side distribution chamber 51 makes left side spool 30 with restriction pole 25 follows the inside roll-off of left side distribution chamber 51.

Beneficially or exemplarily, the explosion-proof box 20 is fixedly arranged on the right side surface of the right distribution board 23, the right support board 58 is fixedly arranged on the rear wall of the right distribution cavity 13, the right motor 59 is fixedly arranged on the top surface of the right support board 58, the right rotating shaft 60 is connected to the top surface of the right motor 59 in a power manner, the right rotating gear 61 is fixedly arranged on the periphery of the right rotating shaft 60, the right rotating gear 61 is meshed with the left side surface of the right distribution board 23, the explosion-proof box 20, the right line pipe 44 and the right line pipe 45 can penetrate through the front side surface of the right housing 11 from front to back, the right motor 59 is started, the right rotating gear 61 is rotated, the right distribution board 23 slides forwards from the right distribution cavity 13, and the explosion-proof box 20 and the right line pipe 44 slide forwards from the distribution cavity 13.

Beneficially or exemplarily, two bilaterally symmetrical grooves 66 are formed in the bottom surface of the control box 33, support rods 36 are fixedly arranged on the rear wall of the left power distribution cavity 51 and the rear wall of the right power distribution cavity 13, top surfaces of the two support rods 36 are respectively inserted into the grooves 66 on the same side, support shafts 38 are rotatably arranged in the two support rods 36, support power sources are fixedly arranged in the two support rods 36, the two support power sources are respectively in power connection with the support shafts 38 on the same side, support gears 37 are fixedly arranged on the peripheries of the two support shafts 38, the two support gears 37 are respectively engaged with the top surfaces of the grooves 66 on the same side, a control block 35 is fixedly arranged in the control box 33, control panels 34 are fixedly arranged on the left side and the right side of the control block 35, the support power sources are turned on, and the support gears 37 are rotated, the control box 33 can be slid out backward from inside the left housing 10 and inside the right housing 11.

Beneficially or exemplarily, two pulley cavities 50 are formed on the bottom surface of the left housing 10 and the bottom surface of the right housing 11, the four pulley cavities 50 are provided with pulley blocks 39 extending upward in a sliding manner, the four pulley blocks 39 are provided with pulley shafts 40 fixedly therein, the four pulley shafts 40 are rotatably sleeved with pulleys 41 on the peripheries thereof, the left housing 10 is provided with slider shafts 43 in a rotating manner, the right housing 11 is provided with slider gears 42 on the peripheries thereof, the four slider gears 42 are respectively engaged with the pulley blocks 39 on the same side, pulley power sources are respectively fixedly provided in the left housing 10 and the right housing 11, the four pulley power sources are respectively connected with the slider shafts 43 on the same side in a power manner, the pulley power sources are turned on to rotate the slider gears 42, sliding the pulley block 39 downward slides the pulley 41 downward out of the pulley cavity 50.

Beneficially or exemplarily, two connecting structures 101 which are symmetrical up and down are fixedly arranged on the left side surface of the right housing 11, both of the two connecting structures 101 include connecting rods 28, two connecting cavities 49 which are symmetrical up and down are arranged on the right side surface of the left housing 10, two fixing cavities 48 which are symmetrical up and down are arranged on the rear wall of the left power distribution cavity 51, the right walls of the two fixing cavities 48 are respectively communicated with the left wall of the connecting cavity 49 on the same side, the two connecting rods 28 respectively penetrate through the connecting cavities 49 on the same side from left to right, the left ends of the two connecting rods 28 are respectively inserted into the fixing cavities 48 on the same side, spring cavities 52 are respectively arranged in the two connecting rods 28, spring plates 54 are fixedly arranged on the inner walls of the two spring cavities 52, springs 53 are fixedly arranged on the upper and lower side surfaces of the two spring plates 54, two fixing blocks 29 which are symmetrical up and down are slidably arranged in the two spring cavities 52, four spring 53 respectively with the homonymy fixed block 29 is fixed, four fixed block 29 can insert the homonymy respectively in the fixed chamber 48, manual will fixed block 29 impresses in the spring chamber 52, then will connecting rod 28 left end passes through connect the chamber 49 and insert in the fixed chamber 48, then spring 53 will fixed block 29 pushes in the fixed chamber 48, make connecting rod 28 can't follow slide-out in the connection chamber 49.

The invention relates to a power distribution cabinet convenient to install, which comprises the following working procedures:

cooling function:

cooling water is introduced into the water inlet 16 and the lower inlet 19, so that the cooling water flows into the water cavity 15 and the cooling cavity 56 simultaneously, the cooling water in the water cavity 15 can flow out through the water outlet 17, and the cooling water in the cooling cavity 56 can flow out through the upper outlet 18.

The shell splicing function:

the fixing block 29 is manually pressed into the spring cavity 52, then the left end of the connecting rod 28 is inserted into the fixing cavity 48 through the connecting cavity 49, and then the spring 53 pushes the fixing block 29 into the fixing cavity 48, so that the connecting rod 28 cannot slide out of the connecting cavity 49.

A sliding control box:

when the supporting power source is turned on and the supporting gear 37 is rotated, the control box 33 can slide out from the left housing 10 and the right housing 11.

Sliding panel:

turning on the left motor 63, the left rotating gear 65, the left distribution board 24, the left distribution chamber 51, the left conduit 30 and the limiting rod 25, the right motor 59, the right rotating gear 61, the right distribution board 23, the right distribution chamber 13, the explosion proof box 20 and the right conduit 44;

the sliding power source is turned on to rotate the sliding gear 26, so that the sliding disk 27 slides up and down.

Integral sliding function:

the pulley power source is started, the slider gear 42 is rotated, the pulley block 39 slides downwards, the pulley 41 slides downwards from the pulley cavity 50, and the left shell 10 and the right shell 11 can slide back and forth through the pulley 41.

The invention has the beneficial effects that: the power distribution cabinet convenient to install is provided with the connecting mechanism, so that the power distribution cabinet is divided into two shells which are combined and spliced, the power distribution cabinet is convenient to install and disassemble, and the power distribution cabinet is convenient to transport.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (5)

1. The utility model provides a switch board convenient to installation, includes left shell, left distribution chamber has been seted up on the left shell right flank, its characterized in that: the right side of the left shell is fixedly provided with a right shell, the left side surface of the right shell is provided with a right distribution cavity, the right side surface of the left shell is attached to the left side surface of the right shell to communicate the right distribution cavity with the left distribution cavity, the left wall of the left distribution cavity is fixedly provided with a water tank, the inner wall of the left distribution cavity is fixedly provided with two vertically symmetrical left limiting blocks, a left distribution board is arranged in the left distribution cavity in a sliding manner, the upper end and the lower end of the left distribution board are respectively correspondingly inserted into the left limiting blocks at the same side, the right wall of the right distribution cavity is fixedly provided with a cooling tank, the inner wall of the right distribution cavity is fixedly provided with two vertically symmetrical right limiting blocks, the right distribution board is arranged in the right distribution cavity in a sliding manner, the upper end and the lower end of the right distribution board are respectively correspondingly inserted into the right limiting blocks at the same side, and a control box extending rightwards is arranged in the left distribution cavity in a sliding manner, the right side surface of the control box is inserted into the right power distribution cavity, and the control box penetrates through the rear wall of the left power distribution cavity and the rear wall of the right power distribution cavity in a front-back mode; the left side surface of the left distribution panel is fixedly provided with a left wire pipe, the left side surface of the right distribution panel is fixedly provided with a right wire pipe, a left wire cavity is formed in the left wire pipe, the rear side surface of the left wire pipe is vertically and fixedly provided with a left wire outlet pipe, the rear wall of the left wire cavity is communicated with the front port of the left wire outlet pipe, a right wire cavity is formed in the right wire pipe, the rear side surface of the right wire pipe is vertically and fixedly provided with a right wire outlet pipe, the rear wall of the right wire cavity is communicated with the front port of the right wire outlet pipe, the left wire outlet pipe penetrates through the rear wall of the left distribution cavity from front to back, and the right wire outlet pipe penetrates through the rear wall of the right distribution cavity from front to back; the utility model discloses a power distribution cabinet, including left side distribution panel, fixed be equipped with the restriction pole of two longitudinal symmetries on the left side distribution panel left surface, two restriction chamber has all been seted up in the one side that the restriction pole is close to each other, left side distribution panel left side slides and is equipped with the slip dish, the slip dish internal rotation is equipped with the sliding shaft, the fixed slip gear that is equipped with two longitudinal symmetries in the slip shaft periphery, two the slip gear respectively with the homonymy restrict the left side wall meshing in chamber, the slip dish internal fixation is equipped with the slip power supply, the slip power supply with sliding shaft power is connected, fixed left support plate that is equipped with on the left side distribution chamber back wall, fixed left motor that is equipped with on the left support plate top surface, power connection has left axis of rotation on the left motor top surface, fixed left side axis of rotation gear is equipped with on the left side axis of rotation periphery, left side gear with left side distribution panel right flank meshing, left side distribution panel right flank, left side distribution panel, The limiting rod, the left line pipe and the left line outlet pipe can penetrate through the front side face of the left shell from front to back; the fixed explosion-proof case that is equipped with on the right side panel right flank, the fixed right branch fagging that is equipped with on the wall behind the right side distribution chamber, the fixed right motor that is equipped with on the right branch fagging top surface, power connection has right axis of rotation on the right side motor top surface, the fixed right rotation that is equipped with in the right side axis of rotation periphery moves the gear, right side rotation move the gear with the meshing of right side panel left surface, right side panel explosion-proof case right spool with right side outlet pipe homoenergetic forward and backward run through right side shell leading flank.

2. The switch board convenient to installation of claim 1, characterized in that: the water tank is internally provided with a water cavity, the rear wall of the water cavity is provided with a water inlet and a water outlet, the cooling box is internally provided with a cooling cavity, and the rear wall of the cooling cavity is provided with a lower inlet and an upper outlet.

3. The switch board convenient to installation of claim 1, characterized in that: set up two bilateral symmetry's recess on the control box bottom surface, on the left side distribution chamber back wall with all fixed bracing piece, two of being equipped with on the right side distribution chamber back wall insert the homonymy respectively in the recess, two all rotate in the bracing piece and be equipped with the back shaft, two all fixed support power supply, two in the bracing piece support power supply respectively with the homonymy back shaft power is connected, two all fixed supporting gear, two in the back shaft periphery supporting gear respectively with the homonymy the meshing of recess top surface, the control box internal fixation is equipped with the control block, all fixed the control panel that is equipped with on the side about the control block.

4. The switch board convenient to installation of claim 3, characterized in that: the pulley cavity of symmetry around all seting up two on the left side shell bottom surface with on the right side shell bottom surface, four the pulley intracavity all slides and is equipped with the pulley block that upwards extends, four all fixed pulley shaft that is equipped with in the pulley block, four all rotate the cover in the pulley shaft periphery and have the pulley, the symmetry is equipped with the slider axle around all rotating two in the left side shell bottom surface with in the right side shell bottom surface, four all fixed slider gear that is equipped with in the slider shaft periphery, four the slider gear respectively with the homonymy the pulley block meshing, all fixed pulley power supply that is equipped with in the left side shell bottom surface with in the right side shell bottom surface, four the pulley power supply respectively with the homonymy the slider axle power is connected.

5. The switch board convenient to installation of claim 4, characterized in that: two connecting structures which are symmetrical up and down are fixedly arranged on the left side surface of the right shell, both the two connecting structures comprise connecting rods, two connecting cavities which are symmetrical up and down are arranged on the right side surface of the left shell, two fixed cavities which are symmetrical up and down are arranged on the rear wall of the left power distribution cavity, the right walls of the two fixed cavities are respectively communicated with the left wall of the connecting cavity at the same side, the two connecting rods respectively penetrate through the connecting cavities at the same side from left to right, and two the connecting rod left end inserts the homonymy respectively fixed intracavity, two all seted up the spring chamber in the connecting rod, two all fixed being equipped with spring plate, two on the spring chamber inner wall all fixed being equipped with the spring on the side about the spring plate, two the spring intracavity all slides and is equipped with two longitudinal symmetry's fixed block, four the spring respectively with the homonymy the fixed block is fixed, four the fixed block can insert the homonymy respectively fixed intracavity.

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