CN111668736A - Power distribution cabinet for power engineering - Google Patents

Abstract

The invention discloses a power distribution cabinet for electric power engineering, which structurally comprises a display screen, a control box, a handle, a closing door, a processing box and a machine body, wherein the display screen is arranged above the machine body, the control box is arranged below the display screen, the closing door is connected with the machine body in a clamping way, the handle is movably connected with the closing door through a connecting shaft, the processing box is mechanically connected with the machine body, the processing box is provided with a box body, a cooler, a piston, a wire arranging device, a winder and a slide way, the upper part of the box body is mechanically connected with the cooler, the slide way is arranged at the periphery of the box body, the wire arranging device is arranged in the middle of the box body, a guide block at the front end of a wire body connected with a fine bundle body can rapidly penetrate into a hole of the wire hole body, so that the wire body cannot penetrate into the hole due to being too soft, the wire body at two sides can be wrapped and bound after penetrating, when pressing the body and loosening, the line body of putting has the spring in the line, and the line body of putting into the line body meeting is fixed downthehole realization.

Description

Power distribution cabinet for power engineering

Technical Field

The invention relates to the field of power equipment, in particular to a power distribution cabinet for power engineering.

Background

The power engineering is related to power transmission, distribution, installation and the like, the installation and distribution of electric wires are very strict, particularly in a large power plant engineering, the wiring and the distribution all need to be well assembled by calculation and planning step by step, the power plant needs large-area transmission, so that the electric wires of the power plant are very many, when general technicians assemble the electric wires into a power distribution cabinet, the electric wires are mixed and disorderly, the technicians can select to bundle the electric wires together after the electric wires are assembled, and if the electric wires are too long, the electric wires can be selected to be wound, so that the electric wires are mixed and disorderly, once the problem of wire outgoing needs to be replaced, the electric wires with the problem are wound together and are difficult to take out, the power distribution cabinet is not good in heat dissipation system, the electric wires are densely assembled, and the damage to the power distribution cabinet is easily caused.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a power distribution cabinet for power engineering structurally comprises a display screen, a control box, a handle, a closing door, a processing box and a machine body, wherein the display screen is arranged above the machine body, the control box is arranged below the display screen, the closing door is connected with the machine body in a clamping manner, the handle is movably connected with the closing door through a connecting shaft, and the processing box is mechanically connected with the machine body;

the treatment box is provided with a box body, a cooler, a piston, a wire arranging device, a wire winder and a slide, wherein the upper part of the box body is mechanically connected with the cooler, the slide is arranged at the periphery of the box body, the wire arranging device is arranged in the middle of the box body, the wire winder is movably connected with the box body through a connecting shaft, the piston is slidably connected with the slide, the lower part of the slide is an arc-shaped transition edge, the concave parts at the two sides of the piston are provided with sliding connecting blocks with cambered surfaces at the front ends, and springs are arranged at the rear.

As a further optimization of the technical scheme, the wire arranging device is provided with a wire hole body, a pressing body, an installation block, a connection shaft, a clamping shaft, a fine bundle body, a wire bundling body and a clamping block, the wire hole body is connected with the pressing body in a sliding mode, the connection shaft is fixedly connected with the clamping shaft, the connection shaft is movably connected with the installation block through the movable shaft, the wire bundling body is installed on the inner side of the clamping shaft, the fine bundle body is connected with the clamping shaft in a sliding mode, the clamping block is connected with the clamping shaft in a clamping mode, the connection shaft and the connection shaft are connected with connecting blocks on two sides through the movable shaft, a spring is arranged at the rear end of the clamping block, and a groove is formed in the inner side.

As a further optimization of the technical scheme, the thin bundle body is of a semicircular structure, the front end of the thin bundle body is connected with a wire body, the front end of the wire body of the thin bundle body is provided with a spherical structure as a perforation guide block, the wire body on one side of the thin bundle body is connected with a wire hole body and a pressing body, the wire hole body and the middle section of the pressing body are both provided with circular holes with the same size, the upper end of the wire hole body protrudes out of the plane of the pressing body, and the lower end of the wire hole body and the semicircular structure of the thin bundle body are both provided with springs.

As a further optimization of the technical scheme, the wire bundling body is provided with a fixing hole, a folding edge, a sliding rail, a sliding shaft, an assembling block, a clamping body, a moving bolt and a closing block, the clamping body is provided with the closing block, the closing block is connected with the moving bolt in a sliding manner, the folding edge is installed on the closing block, the sliding rail is arranged at the lower end of the clamping body, the sliding shaft is connected with the sliding rail in a sliding manner, the assembling block is movably connected with the sliding shaft through a connecting shaft, the fixing hole and the clamping body are of an integrated structure, the left side of the assembling block is provided with a rotating handle, the lower end of the assembling block is a protruding arc-shaped edge, the width of the arc-shaped edge of the assembling block is consistent with the groove of the connecting shaft, spring beads are arranged on two sides of the arc-.

As a further optimization of the technical scheme, the folding edge is in a triangular folding shape and is installed at the inner side of the clamp body and the gap of the closing block, the top point of the folding edge clamps the ball block, a spring is arranged inside the ball body of the folding edge, the outer side of the clamp body is provided with an arc-shaped protruding block and a concave part, and the inner side of the clamp body is provided with a soft cotton layer protruding block.

As a further optimization of this technical scheme, the winder is equipped with the sliding block, extends piece, spool stand, separates the line frame, separates the line piece, connector, spout, the sliding block passes through loose axle swing joint with the spool stand, sliding block and spout sliding connection, the extension piece is established in the spool stand both sides, separate the line frame and establish on the connector, separate line frame and separate line piece sliding connection, the spool stand upper end is equipped with the cambered surface of irregular fluctuation form, and its lower extreme is equipped with the spring, be equipped with semielliptical recess on the spout, there is the slip handle upper end of sliding block, and its lower extreme is the protruding face of arc, and this protruding face of arc is unanimous with spout and depressed part.

As a further optimization of the technical scheme, the front end of the wire separation block is a spherical cambered surface, the side surface of the wire separation block is a concave cambered surface, the wire separation block is installed on the inner side of the wire separation frame, the wire separation frame is a circle with a notch at the front end, and the inner side of the structure is provided with a sliding cavity.

As a further optimization of this technical scheme, the cooler is equipped with the ware body, rotates the chamber, connects chamber, rotating vane, rotatory fan, rotates the fan, be equipped with in the middle of the ware body and rotate the chamber, connect chamber and rotating vane structure as an organic whole, it rotates the fan to have installed on the rotation chamber, the below and the rotatory mechanical connection of fan of the ware body, it is connected with connecting chamber mechanical connection to rotate the chamber, the ware body has rotatory fan, the arc limit front end of rotatory fan is the arc face, rotatory fan rotates the face towards the box, it is equipped with the structure that plane plate and filter screen are connected in succession with the junction that rotates the fan to rotate the fan.

As a further optimization of the technical scheme, one side of the rotating blade, above one supporting rod, is connected with the arc-shaped plane, the central sections of the connecting cavity and the rotating cavity are hollow, and a spherical groove is formed in the surface of the rotating cavity.

Advantageous effects

Compared with the prior art, the power distribution cabinet for the power engineering has the following advantages:

1. the wire body front end guide block connected with the fine bundle body can rapidly penetrate into the hole of the wire hole body, so that the phenomenon that the wire body cannot penetrate into the hole due to being too soft is avoided, the wire can be wrapped and bound by surrounding wires after the wire bodies on two sides penetrate into the hole, the clamping diameter is changed by pulling the wire clamping hole body and the pressing body, when the pressing body is loosened, the spring is arranged below the wire hole body, and the wire body can be clamped in the hole to be fixed by the wire hole body.

2. The outer side of the clamp body is provided with the convex blocks and the grooves, and the clamp body can be assembled and connected with another clamp body, so that the space is saved, more wire bundling bodies can be assembled by equipment, and the inner side of the clamp body is provided with the soft convex blocks, so that the friction can be reduced, and the damage to the surface of the electric wire is reduced.

3. The wire separating block can separate the wires at the end, which needs to be rolled up, of the wires, and due to the accumulation of the wires, if the wires are heated due to faults, the wires can sit continuously, so that the wires around the wires are damaged, the wires are separated to prevent the continuous sitting, the wires are easier to take out during replacement, and the side surface of the wire separating block is an arc-shaped concave edge, so that the wires can be attached to each other.

4. The surface of the rotating cavity is a hemispherical groove, the contact area of the groove is increased, so that liquid is cooled more quickly, the rotating fan is arranged below the device body, liquid flows above the top of the rotating fan, and heat emitted during rotation can be absorbed by the liquid cooled above the rotating fan.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the overall structure of a power distribution cabinet in power engineering according to the present invention.

FIG. 2 is a schematic view of the structure of the treatment tank of the present invention.

Fig. 3 is a structural schematic diagram of the wire organizer of the present invention.

Fig. 4 is a schematic structural view of the wire harness body of the present invention.

FIG. 5 is a schematic view of the reel of the present invention.

Fig. 6 is a schematic view of the structure of the cooler of the present invention.

In the figure: display screen 1,control box 2,handle 3, closingdoor 4,processing box 5,machine body 6,box body 50,cooler 51,piston 52,wire arranging device 53,winder 54,slide way 55, wire hole body 53-1, pressing body 53-2, mounting block 53-3, connecting shaft 53-4, clamping shaft 53-5, thin bundle body 53-6, wire bundling body 53-7, clamping block 53-8, fixing hole 53-7a, folding edge 53-7b, slide rail 53-7c, slide shaft 53-7d, assembling block 53-7e, clamping body 53-7f, moving bolt 53-7g, closing block 53-7h, slide block 54-1, extending block 54-2, wire winding frame 54-3, wire separating frame 54-4, wire separating block 54-5, connecting body 54-6, Chute 54-7, body 51-1, rotating cavity 51-2, connecting cavity 51-3, rotating blade 51-4, rotating fan 51-5 and rotating fan 51-6.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, the invention provides a power distribution cabinet for power engineering, which structurally comprises a display screen 1, acontrol box 2, ahandle 3, aclosing door 4, aprocessing box 5 and amachine body 6, wherein the display screen 1 is arranged above themachine body 6, thecontrol box 2 is arranged below the display screen 1, theclosing door 4 is connected with themachine body 6 in a clamping manner, thehandle 3 is movably connected with theclosing door 4 through a connecting shaft, and theprocessing box 5 is mechanically connected with themachine body 6;

handle case 5 and be equipped withbox 50,cooler 51,piston 52,reason line ware 53, winder 54,slide 55,box 50 top and cooler 51 mechanical connection,slide 55 is established at thebox 50 periphery,reason line ware 53 is installed in the middle of thebox 50, winder 54 passes through connecting axle andbox 50 swing joint,piston 52 andslide 55 sliding connection, the below ofslide 55 is the excessive limit of arc, the sunken department inpiston 52 both sides is equipped with the sliding connection piece that the front end is the cambered surface, and the rear of this connecting piece is equipped with the spring, realizes the carding of electric wire.

Thewire arranging device 53 is provided with a wire hole body 53-1, a pressing body 53-2, an installing block 53-3, a connecting shaft 53-4, a clamping shaft 53-5, a fine bundle body 53-6, a wire bundling body 53-7 and a clamping block 53-8, the wire hole body 53-1 is in sliding connection with the pressing body 53-2, the connecting shaft 53-4 is fixedly connected with the clamping shaft 53-5, the connecting shaft 53-4 is movably connected with the installing block 53-3 through a movable shaft, the wire bundling body 53-7 is installed on the inner side of the clamping shaft 53-5, the fine bundle body 53-6 is in sliding connection with the clamping shaft 53-5, the clamping block 53-8 is in clamping connection with the clamping shaft 53-5, the connecting shaft 53-4 and the connecting shaft 53-4 are connected together through a movable shaft, the rear end of the buckling block 53-8 is provided with a spring, and the inner side of the connecting shaft 53-4 is provided with a groove, so that the wires can be better arranged and bound together.

The fine bundle body 53-6 is of a semicircular structure, the front end of the fine bundle body 53-6 is connected with a wire body, the front end of the wire body of the fine bundle body 53-6 is provided with a spherical structure as a perforation guide block, the wire body at one side of the fine bundle body 53-6 is connected with a wire hole body 53-1 and a pressing body 53-2, the middle sections of the wire hole body 53-1 and the pressing body 53-2 are provided with circular holes with the same size, the upper end of the wire hole body 53-1 protrudes out of the plane of the pressing body 53-2, and the lower end of the wire hole body 53-1 and the semicircular structure of the fine bundle body 53-6 are provided with springs, so that the binding of thin wires is realized.

The binding body 53-7 is provided with a fixing hole 53-7a, a folding edge 53-7b, a sliding rail 53-7c, a sliding shaft 53-7d, an assembling block 53-7e, a clamping body 53-7f, a moving bolt 53-7g and a closing block 53-7h, the clamping body 53-7f is provided with the closing block 53-7h, the closing block 53-7h is connected with the moving bolt 53-7g in a sliding manner, the folding edge 53-7b is arranged on the closing block 53-7h, the sliding rail 53-7c is arranged at the lower end of the clamping body 53-7f, the sliding shaft 53-7d is connected with the sliding rail 53-7c in a sliding manner, the assembling block 53-7e is movably connected with the sliding shaft 53-7d through a connecting shaft, the fixing hole 53-7a and the clamping body 53-7f are of an integrated structure, the left side of the assembling block 53-7e is provided with a rotating handle, the lower end of the assembling block is provided with a protruding arc-shaped edge, the width of the arc-shaped edge of the assembling block 53-7e is consistent with that of the groove of the connecting shaft 53-4, spring balls are arranged on two sides of the arc-shaped edge, the fixing hole 53-7a is of a hemispherical structure, threads are arranged in the hole, and wires and cables with larger diameters are arranged together.

The folding edges 53-7b are triangular folding shapes and are arranged at the inner sides of the clamp bodies 53-7f and the notches of the closing blocks 53-7h, the top points of the folding edges 53-7b clamp the ball body blocks, springs are arranged inside the ball body of the folding edges 53-7b, arc-shaped protruding blocks and concave positions are arranged on the outer sides of the clamp bodies 53-7f, soft cotton layer protruding blocks are arranged on the inner sides of the clamp bodies 53-7f, and the notches on the inner sides can be sealed when the equipment is closed.

Thewinder 54 is provided with a sliding block 54-1, an extension block 54-2, a winding frame 54-3, a wire separating frame 54-4, a wire separating block 54-5, a connecting body 54-6 and a sliding groove 54-7, the sliding block 54-1 is movably connected with the winding frame 54-3 through a movable shaft, the sliding block 54-1 is slidably connected with the sliding groove 54-7, the extension block 54-2 is arranged at two sides of the winding frame 54-3, the wire separating frame 54-4 is arranged on the connecting body 54-6, the wire separating frame 54-4 is slidably connected with the wire separating block 54-5, the upper end of the winding frame 54-3 is provided with an irregular and wavy arc surface, the lower end of the winding frame is provided with a spring, the sliding groove 54-7 is provided with a semi-elliptical groove, the upper end of the sliding block 54-1 is provided with a sliding, the lower end of the wire cable is provided with an arc-shaped convex surface which is consistent with the sliding groove 54-7 and the concave part, and the wire cable which are overlong are tidied and rolled together in an integrated way.

The front end of the wire separating block 54-5 is a spherical cambered surface, the side surface of the wire separating block is a concave cambered surface, the wire separating block 54-5 is arranged on the inner side of the wire separating frame 54-4, the wire separating frame 54-4 is a circle with a notch at the front end, and a sliding cavity is arranged on the inner side of the structure to separate the rolled wires and cables one by one.

Firstly, after the electric wires and cables are installed, according to the assembly sequence of the electric wires, the clamping shaft 53-5 is opened, the bottom of the assembly block 53-7e of the wire bundling body 53-7 is aligned with the groove on the inner side of the clamping shaft 53-5, then the assembly block is slid to a proper position, the handle on the assembly block 53-7e is rotated, the arc edge of the bottom of the assembly block 53-7e is perpendicular to the groove on the inner side of the clamping shaft 53-5, the spring ball on the arc edge can be ejected out and clamped when the arc edge is perpendicular, one electric wire is placed on the clamp body 53-7f, the sliding moving bolt 53-7g pushes the closing block 53-7h to advance, the closing block 53-7h can be pulled to unfold when the closing block 53-7h advances, when the closing block 53-7h is completely clamped with the other side of the clamp body 53-7f, the folding edge 53-7b is completely opened, the gaps between the inner side closing blocks 53-7h and the clamp bodies 53-7f are filled, the front ends of the folding edges 53-7b are arc edges, springs are arranged inside the arc edges and can be unfolded along with the unfolding of the folding edges 53-7b to form arc surfaces, the electric wires cannot be cut, the electric wires can be surrounded in the closed state, if a bundling body 53-7 is installed, the clamp bodies 53-7f slide along the sliding shafts 53-7d through the sliding rails 53-7c, the clamping bodies 53-7f are inclined to enable the convex blocks on the outer sides of the clamp bodies 53-7f to be combined and buckled with the clamp bodies 53-7f on the other side, if thinner electric wires exist in the power distribution cabinet, the steps can be repeated, the thin bundling bodies 53-6 are installed on the clamping shafts 53-5, the electric wires with smaller diameters are placed on the semicircular structures of the thin bundling bodies 53-6, pressing the pressing body 53-2 downwards to make the circular hole of the pressing body 53-2 and the circular hole of the wire hole body 53-1 completely align with each other, smoothly threading the wire body at the other side into the hole through the guide block at the front end, then continuously pressing the pressing body 53-2, pulling the two wire bodies while pushing the wire hole body 53-1 upwards until the wire is completely wrapped, so as to release the pressing body 53-2, closing the clamping shaft 53-5 after adjusting the wire bundle body 53-7 and the fine wire bundle body 53-6, fixing the wire by the clamping block 53-8, so that the wire can be classified and fixed, when the wire and cable are too long, pulling the sliding block 54-1 according to the diameter of the wire to be wound, allowing the sliding block 54-7 to be buckled to change the length, then rotating the winding frame 54-3 to make the winding frame 54-3 perpendicular to the sliding block 54-1, when the wires and cables are rolled, the wire separating frame 54-4 is unfolded, the wire separating block 54-5 is slid to separate the junction of the wires and the cables, and after the wires are rolled, the extending block 54-2 is slid forwards to surround the wires and the cables to prevent the wires and the cables from falling off, so that the wires and the cables are orderly bound, and the wires can be found and taken out quickly when the wires go wrong.

Example two

Referring to fig. 1-6, the invention provides a power distribution cabinet for power engineering, which structurally comprises a display screen (1), acontrol box 2, ahandle 3, aclosing door 4, aprocessing box 5 and amachine body 6, wherein the display screen (1) is arranged above themachine body 6, thecontrol box 2 is arranged below the display screen (1), theclosing door 4 is connected with themachine body 6 in a clamping manner, thehandle 3 is movably connected with theclosing door 4 through a connecting shaft, and theprocessing box 5 is mechanically connected with themachine body 6;

handle case 5 and be equipped withbox 50,cooler 51,piston 52,reason line ware 53, winder 54,slide 55,box 50 top and cooler 51 mechanical connection,slide 55 is established at thebox 50 periphery,reason line ware 53 is installed in the middle of thebox 50, winder 54 passes through connecting axle andbox 50 swing joint,piston 52 andslide 55 sliding connection, the below ofslide 55 is the excessive limit of arc, the sunken department inpiston 52 both sides is equipped with the sliding connection piece that the front end is the cambered surface, and the rear of this connecting piece is equipped with the spring, realizes the carding of electric wire.

Thewire arranging device 53 is provided with a wire hole body 53-1, a pressing body 53-2, an installing block 53-3, a connecting shaft 53-4, a clamping shaft 53-5, a fine bundle body 53-6, a wire bundling body 53-7 and a clamping block 53-8, the wire hole body 53-1 is in sliding connection with the pressing body 53-2, the connecting shaft 53-4 is fixedly connected with the clamping shaft 53-5, the connecting shaft 53-4 is movably connected with the installing block 53-3 through a movable shaft, the wire bundling body 53-7 is installed on the inner side of the clamping shaft 53-5, the fine bundle body 53-6 is in sliding connection with the clamping shaft 53-5, the clamping block 53-8 is in clamping connection with the clamping shaft 53-5, the connecting shaft 53-4 and the connecting shaft 53-4 are connected together through a movable shaft, the rear end of the buckling block 53-8 is provided with a spring, and the inner side of the connecting shaft 53-4 is provided with a groove, so that the wires can be better arranged and bound together.

The fine bundle body 53-6 is of a semicircular structure, the front end of the fine bundle body 53-6 is connected with a wire body, the front end of the wire body of the fine bundle body 53-6 is provided with a spherical structure as a perforation guide block, the wire body at one side of the fine bundle body 53-6 is connected with a wire hole body 53-1 and a pressing body 53-2, the middle sections of the wire hole body 53-1 and the pressing body 53-2 are provided with circular holes with the same size, the upper end of the wire hole body 53-1 protrudes out of the plane of the pressing body 53-2, and the lower end of the wire hole body 53-1 and the semicircular structure of the fine bundle body 53-6 are provided with springs, so that the binding of thin wires is realized.

The binding body 53-7 is provided with a fixing hole 53-7a, a folding edge 53-7b, a sliding rail 53-7c, a sliding shaft 53-7d, an assembling block 53-7e, a clamping body 53-7f, a moving bolt 53-7g and a closing block 53-7h, the clamping body 53-7f is provided with the closing block 53-7h, the closing block 53-7h is connected with the moving bolt 53-7g in a sliding manner, the folding edge 53-7b is arranged on the closing block 53-7h, the sliding rail 53-7c is arranged at the lower end of the clamping body 53-7f, the sliding shaft 53-7d is connected with the sliding rail 53-7c in a sliding manner, the assembling block 53-7e is movably connected with the sliding shaft 53-7d through a connecting shaft, the fixing hole 53-7a and the clamping body 53-7f are of an integrated structure, the left side of the assembling block 53-7e is provided with a rotating handle, the lower end of the assembling block is provided with a protruding arc-shaped edge, the width of the arc-shaped edge of the assembling block 53-7e is consistent with that of the groove of the connecting shaft 53-4, spring balls are arranged on two sides of the arc-shaped edge, the fixing hole 53-7a is of a hemispherical structure, threads are arranged in the hole, and wires and cables with larger diameters are arranged together.

The folding edges 53-7b are triangular folding shapes and are arranged at the inner sides of the clamp bodies 53-7f and the notches of the closing blocks 53-7h, the top points of the folding edges 53-7b clamp the ball body blocks, springs are arranged inside the ball body of the folding edges 53-7b, arc-shaped protruding blocks and concave positions are arranged on the outer sides of the clamp bodies 53-7f, soft cotton layer protruding blocks are arranged on the inner sides of the clamp bodies 53-7f, and the notches on the inner sides can be sealed when the equipment is closed.

Thewinder 54 is provided with a sliding block 54-1, an extension block 54-2, a winding frame 54-3, a wire separating frame 54-4, a wire separating block 54-5, a connecting body 54-6 and a sliding groove 54-7, the sliding block 54-1 is movably connected with the winding frame 54-3 through a movable shaft, the sliding block 54-1 is slidably connected with the sliding groove 54-7, the extension block 54-2 is arranged at two sides of the winding frame 54-3, the wire separating frame 54-4 is arranged on the connecting body 54-6, the wire separating frame 54-4 is slidably connected with the wire separating block 54-5, the upper end of the winding frame 54-3 is provided with an irregular and wavy arc surface, the lower end of the winding frame is provided with a spring, the sliding groove 54-7 is provided with a semi-elliptical groove, the upper end of the sliding block 54-1 is provided with a sliding, the lower end of the cable is provided with an arc-shaped convex surface which is consistent with the sliding groove 54-7 and the concave part, and the overlong electric wires and cables are arranged and integrated together.

Thecooler 51 is provided with a cooler body 51-1, a rotating cavity 51-2, a connecting cavity 51-3, a rotating blade 51-4, a rotating fan 51-5 and a rotating fan 51-6, wherein the rotating cavity 51-2 is arranged in the middle of the cooler body 51-1, the connecting cavity 51-3 and the rotating blade 51-4 are of an integrated structure, the rotating fan 51-6 is installed on the rotating cavity 51-2, the lower part of the cooler body 51-1 is mechanically connected with the rotating fan 51-5, the rotating cavity 51-2 is mechanically connected with the connecting cavity 51-3, the rotating fan 51-5 is arranged under the cooler body 51-1, the front end of the arc edge of the rotating fan 51-5 is an arc plate surface, the rotating surface of the rotating fan 51-5 faces thebox body 50, and the connecting part of the rotating fan 51-6 and the rotating fan 51-6 is provided with a structure in which a plane plate block and a filter screen are connected in sequence, the heat dissipation effect of the power distribution cabinet is achieved.

The side, above one supporting rod, of each rotating blade 51-4 is connected with an arc-shaped plane, the central sections of the connecting cavity 51-3 and the rotating cavity 51-2 are hollow, spherical grooves are formed in the surface of the rotating cavity 51-2, and the heat dissipation effect in the cavities is achieved through wind power.

On the basis of the second embodiment, aslideway 55 and acooler 51 are installed at the periphery and above the power distribution cabinet, cooling liquid is filled in the power distribution cabinet, the heat dissipation function of the power distribution cabinet is realized through the heat transfer and other energy of the liquid, a power supply is started, thepiston 52 moves in theslideway 55, the heated liquid in thepiston 52 is pressed upwards through extrusion force, when thepiston 52 moves at a corner, a slide block in thepiston 52 is ejected out and is tightly attached to the corner, the liquid is continuously pushed forwards to be pressed on thecooler 51 for cooling, then the liquid flows onto theslideway 55 to perform heat dissipation and cooling treatment on the power distribution cabinet, the circulation effect is realized, when the liquid is pushed onto thecooler 51, the connecting cavity 51-3 can be rotated to drive the rotating blade 51-4 to rotate, so that the rotating cavity 51-2 can also rotate in the inside, and the rotating fan 51-6 on the rotating cavity can stir the liquid above, therefore, the cooling effect can be accelerated, the plane plates connected between the two plates can shake liquid back and forth when rotating, the cooling of the liquid is further accelerated, the shaken liquid can fall to the other side through the filter screen, in order to realize the cooling effect more quickly, ice bags can be filled into the hollow parts of the rotating cavity 51-2 and the connecting cavity 51-3, the cooling effect is accelerated, the rotating fan 51-5 below the device body 51-1 can generate wind power through rotation during the cooling circulation of the liquid, so that the air in the cavity can circulate, the heat dissipation effect is facilitated, the rotating blade 51-4 is arranged outside the distribution box, the front end of the rotating blade is an arc surface, the area of the upper surface is larger than that of the lower surface, the upper surface is higher than the lower surface, the rotating blade can rotate by means of external wind power, the rotating cavity 51-2 and the rotating fan 51-6 are driven to rotate under the, the stirring cooling liquid is realized, and the heat dissipation of the distribution box can be realized through liquid heat transfer and air circulation.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides an electric power engineering switch board which characterized in that: the structure of the device comprises a display screen (1), a control box (2), a handle (3), a closing door (4), a processing box (5) and a machine body (6), wherein the display screen (1) is arranged above the machine body (6), the control box (2) is arranged below the display screen (1), the closing door (4) is connected with the machine body (6) in a clamping manner, the handle (3) is movably connected with the closing door (4) through a connecting shaft, and the processing box (5) is mechanically connected with the machine body (6);

handle case (5) and be equipped with box (50), cooler (51), piston (52), reason line ware (53), winder (54), slide (55), box (50) top and cooler (51) mechanical connection, establish at box (50) periphery in slide (55), reason line ware (53) are installed in the middle of box (50), winder (54) are through connecting axle and box (50) swing joint, piston (52) and slide (55) sliding connection.

2. The electrical power engineering switch board of claim 1, characterized in that: the wire arranging device (53) is provided with a wire hole body (53-1), a pressing body (53-2), an installation block (53-3), a connecting shaft (53-4), a clamping shaft (53-5), a thin bundle body (53-6), a wire bundling body (53-7) and a clamping block (53-8), the thread hole body (53-1) is connected with the pressing body (53-2) in a sliding way, the connecting shaft (53-4) is fixedly connected with the clamping shaft (53-5), the connecting shaft (53-4) is movably connected with the mounting block (53-3) through a movable shaft, the wire bundling body (53-7) is installed on the inner side of the clamping shaft (53-5), the thin bundling body (53-6) is connected with the clamping shaft (53-5) in a sliding mode, and the clamping block (53-8) is connected with the clamping shaft (53-5) in a clamping mode.

3. The electrical power engineering switch board of claim 2, characterized in that: the thin bundle body (53-6) is of a semicircular structure, the front end of the thin bundle body is connected with a wire body, the front end of the wire body of the thin bundle body (53-6) is provided with a spherical structure as a perforation guide block, the wire body on one side of the thin bundle body (53-6) is connected with a wire hole body (53-1) and a pressing body (53-2), the middle sections of the wire hole body (53-1) and the pressing body (53-2) are provided with circular holes with the same size, and the upper end of the wire hole body (53-1) protrudes out of the plane of the pressing body (53-2).

4. The electrical power engineering switch board of claim 2, characterized in that: the binding body (53-7) is provided with fixing holes (53-7a), folding edges (53-7b), sliding rails (53-7c), sliding shafts (53-7d), assembling blocks (53-7e), clamping bodies (53-7f), moving bolts (53-7g) and closing blocks (53-7h), the clamping bodies (53-7f) are provided with closing blocks (53-7h), the closing blocks (53-7h) are connected with the moving bolts (53-7g) in a sliding mode, the folding edges (53-7b) are installed on the closing blocks (53-7h), the sliding rails (53-7c) are arranged at the lower ends of the clamping bodies (53-7f), the sliding shafts (53-7d) are connected with the sliding rails (53-7c) in a sliding mode, the assembling blocks (53-7e) are movably connected with the sliding shafts (53-7d), the fixing holes (53-7a) and the clamp bodies (53-7f) are of an integrated structure.

5. The electrical power engineering switch board of claim 4, characterized in that: the folding edges (53-7b) are triangular folding shapes and are arranged at the inner sides of the clamp bodies (53-7f) and the notches of the closing blocks (53-7h), the top points of the folding edges (53-7b) clamp the sphere blocks, and springs are arranged inside the spheres of the folding edges (53-7 b).

6. The electrical power engineering switch board of claim 1, characterized in that: the winder (54) is provided with a sliding block (54-1), an extension block (54-2), a winding frame (54-3), a line separating frame (54-4), a line separating block (54-5), a connecting body (54-6) and a sliding groove (54-7), the sliding block (54-1) is movably connected with the winding frame (54-3) through a movable shaft, the sliding block (54-1) is slidably connected with the sliding groove (54-7), the extension block (54-2) is arranged on two sides of the winding frame (54-3), the line separating frame (54-4) is arranged on the connecting body (54-6), the line separating frame (54-4) is slidably connected with the line separating block (54-5), the upper end of the winding frame (54-3) is provided with an irregular and fluctuated cambered surface, and the lower end of the winding frame is provided with a spring, a semi-elliptical groove is arranged on the sliding groove (54-7).

7. The electrical power engineering switch board of claim 6, characterized in that: the front end of the wire separating block (54-5) is a spherical cambered surface, the side surface of the wire separating block is a concave cambered surface, the wire separating block (54-5) is installed on the inner side of the wire separating frame (54-4), the wire separating frame (54-4) is a circle with a notch at the front end, and a sliding cavity is arranged on the inner side of the structure.

8. The electrical power engineering switch board of claim 1, characterized in that: cooler (51) are equipped with the ware body (51-1), rotate chamber (51-2), connect chamber (51-3), rotating vane (51-4), rotatory fan (51-5), rotate fan (51-6), be equipped with rotation chamber (51-2) in the middle of the ware body (51-1), connect chamber (51-3) and rotating vane (51-4) structure as an organic whole, rotation chamber (51-2) have been installed and have been rotated fan (51-6), the below and the rotatory fan (51-5) mechanical connection of ware body (51-1), rotate chamber (51-2) and connect chamber (51-3) mechanical connection, ware body (51-1) has rotatory fan (51-5).

9. The electrical power engineering switch board of claim 8, characterized in that: one side of the rotating blade (51-4) above one supporting rod is connected with an arc-shaped plane, the central sections of the connecting cavity (51-3) and the rotating cavity (51-2) are hollow, and a spherical groove is formed in the surface of the rotating cavity (51-2).

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