CN112081341A - Floor device for preventing electric shock in transformer substation - Google Patents

Abstract

The invention discloses a floor device for preventing electric shock in a transformer substation, which comprises a box body, wherein a cavity is arranged in the box body, the inner wall of the front side of the cavity is rotatably connected with a main belt pulley, the outer side of the main belt pulley is provided with a rotating ring which is centrosymmetric with the main belt pulley, and a linking cavity is arranged between the rotating ring and the main belt pulley.

Description

Floor device for preventing electric shock in transformer substation

Technical Field

The invention relates to the field of transformer substations, in particular to a floor device for preventing electric shock in a transformer substation.

Background

The existing transformer substation is generally in a place with rare smoke, if the problem occurs, the existing transformer substation cannot be repaired in time, equipment in the transformer substation can generate a large amount of heat during operation, although an exhaust port is arranged, the natural cooling effect is not good, and the existing transformer substation can lay a complete insulating floor on the ground, so that the heat can be accumulated in the transformer substation, the service life of the equipment and insulating materials can be greatly influenced, the ground in the transformer substation cannot be discharged in time if accumulated water is encountered under the closed condition, great potential safety hazard can be generated, the floor of the existing transformer substation has no automatic lifting insulating plate and the functions of heat dissipation and water drainage, and the floor device for preventing electric shock in the transformer substation, disclosed by the invention, can solve the problem.

Disclosure of Invention

The technical problem is as follows:

whether the automatic lifting insulating plate and the heat dissipation and drainage directly influence the treatment effect can be realized, and the floor of the existing transformer substation has no automatic lifting insulating plate and the heat dissipation and drainage functions.

In order to solve the problems, the embodiment designs an electric shock prevention floor device in a transformer substation, which comprises a box body, wherein a cavity is arranged in the box body, a main belt pulley is rotatably connected to the inner wall of the front side of the cavity, a rotating ring which is symmetrical about the center of the main belt pulley is arranged on the outer side of the main belt pulley, a linking cavity is arranged between the rotating ring and the main belt pulley, a fixed disc which is fixed on the inner wall of the rear side of the cavity and is rotatably connected to the rotating ring is rotatably connected to the rear side of the main belt pulley, three sliding grooves which are positioned in the linking cavity and distributed about the circumferential array of the main belt pulley are arranged on the front side of the fixed disc, sliding blocks are slidably connected to the inner walls of the sliding grooves, symmetrical auxiliary sliding grooves are arranged on one side of the sliding blocks, which is close to the main belt pulley, and springs are arranged between one side of the sliding blocks, three groups of fixing components which are distributed in a crossed manner with the sliding groove and distributed in a circumferential array manner about the main belt pulley are arranged in the linking cavity, one group of fixing components comprises two fixing blocks fixed on the inner wall of the linking cavity far away from one side of the main belt pulley, symmetrical auxiliary blocks are fixed on the rear side of the fixing block close to one side of the main belt pulley, auxiliary grooves which are concentric with the main belt pulley are arranged in the fixing blocks, auxiliary sliding blocks are connected on the inner wall of the auxiliary grooves in a sliding manner, connecting rods fixed on the main belt pulley are fixedly connected to the front sides of the auxiliary sliding blocks, connecting blocks fixed on the main belt pulley are arranged on one sides of the connecting rods far away from two symmetrical center lines of the connecting rods, fixing pins are fixed on the lower sides of the connecting blocks, arc-shaped rods which are concentric with the main belt pulley and are positioned on the rear side of, the horizontal pole sliding connection has and is located two sliding blocks of main belt pulley downside and bilateral symmetry, the turning block left and right sides butt is about two slide bars of main belt pulley bilateral symmetry, the slide bar is close to main belt pulley one side sliding connection has and is fixed in the vice sliding block of cavity rear side inner wall, main belt pulley meshing is connected with downwardly extending's belt, belt downside meshing is connected with main belt pulley, main belt pulley rear side rotation is connected with and is fixed in the motor of cavity rear side inner wall, be equipped with in the cavity and be used for jack-up insulation board, the cavity downside is equipped with and is used for the drainage and prevent the overflow, the motor both sides are equipped with and are used for the heat dissipation to blow.

Preferably, the connecting rod comprises two connecting rods which are fixedly connected with the rotating ring and are symmetrical about the center of the rotating ring, one side of the connecting rod, which is far away from the symmetrical center of the rotating ring, is rotatably connected with an auxiliary rod which extends to one side, which is far away from the rotating ring, is rotatably connected with an auxiliary connecting rod which extends upwards, the upper side of the auxiliary connecting rod is fixedly connected with a rotating shaft which is rotatably connected with the inner wall of the rear side of the cavity, the rotating shaft is fixedly provided with a V-shaped rod which is positioned at the front side of the auxiliary connecting rod, the upper side of the V-shaped rod is provided with an insulating plate which is slidably connected with the upper side of the box body, the lower side of the insulating plate is fixedly provided with two symmetrical fixing rods, the fixing rod, which is far away from one side of the rotating ring, is rotatably connected with, the dwang is kept away from swivel becket one side rotate connect in cavity rear side inner wall.

Preferably, including being fixed in the subbox of cavity slope side inner wall, be equipped with vice chamber in the subbox, vice chamber upside inner wall is fixed with electric putter, the electric putter downside is equipped with and is fixed in vice chamber rear side inner wall and bilateral symmetry's fixed box, be equipped with fixed chamber in the fixed box, fixed intracavity inner wall sliding connection have fixed connection in the clamp plate of electric putter downside, fixed chamber downside inner wall sliding connection has two baffles that extend and bilateral symmetry to the left and right sides, be equipped with through connection in vice incasement just about two logical grooves of electric putter bilateral symmetry, it is close to lead to the groove electric putter one side inner wall is fixed with and is located the inductor of baffle downside.

Preferably, keep away from including the meshing connect in the slide bar main belt pulley one side and rotate connect in the rolling disc of cavity rear side inner wall, the rolling disc front side is fixed with the turning block, the turning block rotates to be connected and is directional close to the pivot that main belt pulley one side was extended, the pivot is kept away from main belt pulley one side is fixed with the flabellum, the pivot downside is equipped with to rotate connect in the counter shaft of auxiliary tank upside, the counter shaft with connect through the awl tooth pair between the pivot, the motor downside is equipped with and is fixed with the main motor of cavity rear side inner wall, main motor downside rotates and is connected with the runner, the runner with connect through the auxiliary belt between the counter shaft.

Preferably, a underground water pipe is fixed on the lower side of the box body, a water pipe cavity communicated with the through groove is formed in the underground water pipe, four water outlets which penetrate upwards and are distributed in a rectangular array are formed in the inner wall of the upper side of the cavity, a water drainage pipe located in the cavity is fixed on the lower side of the water drainage pipe, an air exhaust cavity communicated up and down is formed in the water drainage pipe, an inclined plane block is fixed on the inner wall of one side, close to the main belt pulley, of the air exhaust cavity, and a fixing column located on the outer side of the fixing disc is fixed on.

The invention has the beneficial effects that: the device has the functions of heat dissipation and water drainage, can effectively relieve high temperature in the transformer substation and the accident situation of water flooding, can lift the insulating plate when the high voltage contacts the ground, is still in a horizontal state after the insulating plate is lifted, is convenient for maintenance personnel to tread, and can move the insulating plate only when the motor is started, so that the device is safe.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged view of the inner portion of the rotating ring of fig. 1.

Fig. 3 is an enlarged view of the inside of the sub-tank of fig. 1.

Fig. 4 is a schematic view of the structure a-a in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a floor device for preventing electric shock in a transformer substation, which comprises a box body 11, wherein a cavity 12 is arranged in the box body 11, the inner wall of the front side of the cavity 12 is rotatably connected with a main belt pulley 32, the outer side of the main belt pulley 32 is provided with a rotating ring 34 which is symmetrical about the center of the main belt pulley 32, a linking cavity 67 is arranged between the rotating ring 34 and the main belt pulley 32, the rear side of the main belt pulley 32 is rotatably connected with a fixed disc 35 which is fixed on the inner wall of the rear side of the cavity 12 and is rotatably connected with the rotating ring 34, the front side of the fixed disc 35 is provided with three sliding grooves 52 which are positioned in the linking cavity 67 and are distributed in a circumferential array manner about the main belt pulley 32, the inner wall of each sliding groove 52 is slidably connected with a sliding block 54, one side of each sliding block 54, which is close to the main belt pulley 32, one side of each sliding block 54, which, the connecting device is characterized in that three groups of fixing components which are distributed in a crossed manner with the sliding grooves 52 and distributed in a circumferential array manner on the main belt pulley 32 are arranged in the connecting cavity 67, one group of fixing components comprises two fixing blocks 50 which are fixed on the inner wall of one side of the main belt pulley 32 and far away from the connecting cavity 67, symmetrical auxiliary blocks 58 are fixed on the rear side of one side of the main belt pulley 32, auxiliary grooves 51 which are concentric with the main belt pulley 32 are arranged in the fixing blocks 50, auxiliary sliding blocks 49 are connected on the inner wall of the auxiliary grooves 51 in a sliding manner, connecting rods 48 which are fixed on the main belt pulley 32 are fixedly connected on the front sides of the auxiliary sliding blocks 49, connecting blocks 57 which are fixed on the main belt pulley 32 are arranged on one sides of symmetrical center lines of the connecting rods 48, fixing pins 56 are fixed on the lower sides of the connecting blocks 57, arc-shaped rods 47 which are concentric with the main belt pulley 32 and are, the lower side of the rotating ring 34 is engaged and connected with a cross rod 27, the cross rod 27 is slidably connected with two sliding blocks 28 which are positioned on the lower side of the main belt pulley 32 and are bilaterally symmetrical, the left side and the right side of the rotating block 17 are abutted against two sliding rods 26 which are bilaterally symmetrical relative to the main belt pulley 32, one side of the sliding rod 26, which is close to the main belt pulley 32, is slidably connected with an auxiliary sliding block 25 which is fixed on the inner wall of the rear side of the cavity 12, the main belt pulley 32 is engaged and connected with a belt 31 which extends downwards, the lower side of the belt 31 is engaged and connected with a main belt pulley 30, the rear side of the main belt pulley 30 is rotatably connected with a motor 29 which is fixed on the inner wall of the rear side of the cavity 12, 901 for jacking up an insulating plate is arranged in the cavity 12, 902 for.

Advantageously, the device 901 comprises two connecting rods 33 fixedly connected to the rotating ring 34 and symmetrical with respect to the center of the rotating ring 34, the connecting rods 33 are rotatably connected to a secondary rod 38 extending away from the center of symmetry of the rotating ring 34, the secondary rod 38 is rotatably connected to a secondary connecting rod 43 extending upward away from the rotating ring 34, a rotating shaft 42 rotatably connected to the inner wall of the rear side of the cavity 12 is fixed to the upper side of the secondary connecting rod 43, a V-shaped rod 41 located at the front side of the secondary connecting rod 43 is fixed to the rotating shaft 42, an insulating plate 40 slidably connected to the upper side of the box 11 is arranged on the upper side of the V-shaped rod 41, two fixing rods 39 are symmetrically fixed to the lower side of the insulating plate 40, a fixing rod 39 located away from the rotating ring 34 is rotatably connected to the right side of the V-shaped rod 41, and a fixing rod 39 located close to the rotating ring 34 is rotatably connected to a rotating rod 37 extending away from the rotating ring The utility model discloses a cavity 12 rear side inner wall, dwang 37 is kept away from swivel becket 34 one side rotate connect in cavity 12 rear side inner wall, swivel becket 34 rotates and makes it rotates to link pole 33, link pole 33 makes vice pole 38 removes, drives vice connecting rod 43 rotates, vice connecting rod 43 makes axis of rotation 42 rotates, makes simultaneously V-arrangement pole 41 rotates, through keeping away from swivel becket 34 one side dead lever 39 makes insulation board 40 jack-up is close to simultaneously swivel becket 34 one side dead lever 39 can drive dwang 37 rotates, dwang 37 has the supporting role, makes insulation board 40 still is in the horizontality after upwards jacking.

Beneficially, said 902 includes a sub-tank 21 fixed on the inner wall of the inclined side of said cavity 12, said sub-tank 21 is provided with a sub-cavity 60 therein, said sub-cavity 60 is fixed with an electric push rod 61 on the inner wall of the upper side thereof, said electric push rod 61 is provided on the lower side thereof with a fixed tank 63 fixed on the inner wall of the rear side of said sub-cavity 60 and symmetrical to the left and right, said fixed tank 63 is provided with a fixed cavity 64 therein, said fixed cavity 64 is connected with a pressing plate 62 fixedly connected to the lower side of said electric push rod 61 in a sliding manner, said fixed cavity 64 is connected with two baffles 66 extending to the left and right in a sliding manner and symmetrical to the left and right, said sub-tank 21 is provided with two through slots 59 connected to said cavity 12 and symmetrical to the left and right with respect to said electric push rod 61 in a sliding manner, said through, the electric push rod 61 is started, the pressure plate 62 slides downwards along the inner wall of the fixed cavity 64, and the baffle plate 66 slides towards two sides along the inner wall of the lower side of the fixed cavity 64 under the action of pressure, so that the through groove 59 is closed, and the interior of the transformer substation is prevented from being flooded by water.

Beneficially, the 903 comprises a rotating disc 15 engaged with the sliding rod 26 and connected to the side far away from the main belt pulley 32 and rotating with the inner wall of the rear side of the cavity 12, a rotating block 17 is fixed to the front side of the rotating disc 15, the rotating block 17 is rotatably connected to a rotating shaft 16 extending to the side near the main belt pulley 32, fan blades 14 are fixed to the side far away from the main belt pulley 32 of the rotating shaft 16, an auxiliary rotating shaft 20 rotatably connected to the upper side of the auxiliary box 21 is arranged on the lower side of the rotating shaft 16, the auxiliary rotating shaft 20 is connected to the rotating shaft 16 through a bevel gear pair, a main motor 24 fixed to the inner wall of the rear side of the cavity 12 is arranged on the lower side of the motor 29, a rotating wheel 23 is rotatably connected to the lower side of the main motor 24, the rotating wheel 23 is connected to the auxiliary rotating shaft 20 through an auxiliary belt 22, the main motor 24 rotates the rotating wheel 23, and the auxiliary, the auxiliary rotating shaft 20 enables the rotating shaft 16 to rotate through a bevel gear pair, and meanwhile, the fan blades 14 rotate, so that a heat dissipation effect is achieved.

Beneficially, a groundwater pipe 18 is fixed on the lower side of the box body 11, a water pipe cavity 19 connected to the through groove 59 is arranged in the groundwater pipe 18, four water outlets 44 penetrating upwards and distributed in a rectangular array are arranged on the inner wall of the upper side of the cavity 12, a drain pipe 45 located in the cavity 12 is fixed on the lower side of the water outlets 44, an exhaust cavity 46 penetrating up and down is arranged in the drain pipe 45, an inclined plane block 13 is fixed on the inner wall of one side of the exhaust cavity 46 close to the main belt pulley 32, a fixing column 36 located on the outer side of the fixed disc 35 is fixed on the inner wall of the rear side of the cavity 12, the fixing column 36 prevents the connecting rod 33 from rotating excessively, the inclined plane block 13 prevents dust and water from affecting the fan blades 14, and the groundwater pipe 18 has the functions of exhausting and draining.

The use steps herein are described in detail below with reference to fig. 1-4:

initially, the motor 29 and the main motor 24 are in a closed state, the through groove 59 penetrates the water receiving chamber 19 and the cavity 12 to connect, the insulating plate 40 closes the upper side of the cavity 12, and the spring 53 is in a compressed state.

When the device works, the device is installed on the ground of a transformer substation and can serve as a floor tile, when high-voltage grounding is detected, the motor 29 is triggered to start, the motor 29 can enable the main belt pulley 30 to rotate, the main belt pulley 30 enables the main belt pulley 32 to rotate through the belt 31, the main belt pulley 32 can drive the connecting block 57 and the fixing pin 56 to rotate together, when the fixing pin 56 rotates into the auxiliary chute 55 and slides along the inner wall of the auxiliary chute 55, the sliding block 54 can slide to the side far away from the main belt pulley 32 along the inner wall of the chute 52, the spring 53 is compressed, the connecting rod 48 can drive the auxiliary sliding block 49 to slide along the inner wall of the auxiliary chute 51, and when the arc-shaped rod 47 enters the inner wall of the auxiliary chute 55 to slide, the spring 53 can be always in a compressed state, the sliding block 54 cannot block the auxiliary block 58, and the main belt pulley 32 can rotate to enable the rotating ring, the rotating ring 34 rotates the connecting rod 33, at this time, the secondary rod 38 will drive the secondary connecting rod 43 to rotate, the secondary connecting rod 43 will rotate the rotating shaft 42, and at the same time, the V-shaped rod 41 will rotate, the V-shaped rod 41 will lift up the insulating plate 40 through the fixing rod 39 far from one side of the primary belt pulley 32, at this time, the insulating plate 40 will drive the fixing rod 39 near one side of the primary belt pulley 32, so that the rotating rod 37 will rotate, at this time, the rotating rod 37 will have the function of supporting the insulating plate 40, and the insulating plate 40 will be in the horizontal state, so that it is convenient for people to step on, when the primary belt pulley 32 rotates clockwise, the cross rod 27 will move leftwards along the sliding block 28 through meshing, the sliding rod 26 will move upwards along the secondary sliding block 25 under the effect of the slope, so that the rotating disc 15 rotates, at this time, at this time, no heat dissipation effect exists, mechanical maintenance is convenient for workers, then the motor 29 is turned off, the main belt pulley 32 cannot rotate at this time, only the supporting effect of the rotating rod 37 is insufficient, at this time, if external force needs to enable the rotating ring 34 to rotate, the auxiliary block 58 can be blocked by the front side of the sliding block 54 at this time, the rotating ring 34 can be prevented from rotating, only the main belt pulley 32 is driven by the motor 29 to enable the rotating ring 34 to rotate, the temperature of the transformer substation needs to be reduced under the high-temperature condition, the main motor 24 is started, the rotating wheel 23 enables the rotating wheel 23 to rotate, the auxiliary rotating shaft 20 enables the rotating shaft 16 to drive the fan blades 14 to rotate through the bevel gear pair, the rotating shaft 16 can blow cool air in the underground water pipe 18 into the cavity 12 and then blow the air into the transformer substation through the exhaust cavity 46, high temperature can be relieved, when the water level in the water pipe cavity 19 rises, the inductor 65 is in, the electric push rod 61 is actuated to make the pressure plate 62 slide downwards along the inner wall of the fixed cavity 64, and the baffle plate 66 slides towards two sides along the inner wall of the lower side of the fixed cavity 64 under the action of pressure, so that the through groove 59 is closed, and water is prevented from entering the cavity 12 and being damaged.

At the end, the motor 29 is reversed so that the insulating plate 40 closes the upper side of the cavity 12 again, turning off the motor 29, the main motor 24.

The invention has the beneficial effects that: the device has the functions of heat dissipation and water drainage, can effectively relieve high temperature in the transformer substation and the accident situation of water flooding, can lift the insulating plate when the high voltage contacts the ground, is still in a horizontal state after the insulating plate is lifted, is convenient for maintenance personnel to tread, and can move the insulating plate only when the motor is started, so that the device is safe.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a floor device who prevents electric shock in transformer substation, the power distribution box comprises a box body, be equipped with the cavity in the box, cavity front side inner wall rotates and is connected with main belt pulley, the main belt pulley outside be equipped with about the swivel becket of main belt pulley centrosymmetry, the swivel becket with be equipped with between the main belt pulley and link up chamber, its characterized in that: the rear side of the main belt pulley is rotatably connected with a fixed disc which is fixed on the inner wall of the rear side of the cavity and is rotatably connected with the rotating ring, the front side of the fixed disc is provided with three sliding grooves which are positioned in the linking cavity and distributed in a circumferential array manner relative to the main belt pulley, the inner walls of the sliding grooves are slidably connected with sliding blocks, one side of the sliding block close to the main belt pulley is provided with symmetrical auxiliary sliding grooves, the sliding block is far away from one side of the main belt pulley and is provided with a spring between the inner wall of the sliding groove, the linking cavity is internally provided with three groups of fixed components which are distributed in a crossed manner with the sliding grooves and distributed in a circumferential array manner relative to the main belt pulley, one group of fixed components comprises two fixed blocks which are fixed on the inner wall of the linking cavity far away from one side of the main belt pulley, the rear side of the, the inner wall of the auxiliary groove is connected with an auxiliary sliding block in a sliding manner, the front side of the auxiliary sliding block is fixedly connected with a connecting rod fixed on the main belt pulley, one side of the connecting rod, which is far away from two symmetrical central lines of the connecting rod, is provided with a connecting block fixed on the main belt pulley, the lower side of the connecting block is fixed with a fixed pin, an arc-shaped rod which is concentric with the main belt pulley and is positioned at the rear side of the connecting rod is fixed between the two fixed pins, the lower side of the rotating ring is connected with a cross rod in a meshing manner, the cross rod is connected with two sliding blocks which are positioned at the lower side of the main belt pulley and are bilaterally symmetrical, the left side and the right side of the rotating block are butted with two sliding rods which are bilaterally symmetrical relative to the main belt pulley, one, the belt is characterized in that a main belt wheel is meshed with the lower side of the belt, the rear side of the main belt wheel is rotatably connected with a motor fixed on the inner wall of the rear side of the cavity, the cavity is internally provided with an insulating plate for jacking, the lower side of the cavity is provided with a water draining device for draining water and preventing water overflow, and the two sides of the motor are provided with a heat dissipating and blowing device for dissipating heat.

2. The floor device for preventing electric shock in a substation according to claim 1, wherein: the connecting rod is fixedly connected with the rotating ring and is in central symmetry with the rotating ring, one side of the connecting rod, which is far away from the symmetric center of the rotating ring, is rotatably connected with an auxiliary rod which extends to be far away from one side of the rotating ring, one side of the auxiliary rod, which is far away from the rotating ring, is rotatably connected with an auxiliary connecting rod which extends upwards, the upper side of the auxiliary connecting rod is fixedly provided with a rotating shaft which is rotatably connected with the inner wall of the rear side of the cavity, the rotating shaft is fixedly provided with a V-shaped rod which is positioned at the front side of the auxiliary connecting rod, the upper side of the V-shaped rod is provided with an insulating plate which is slidably connected with the upper side of the box body, the lower side of the insulating plate is fixedly provided with two symmetrical fixing rods, the fixing rod which is far away from one, the dwang is kept away from swivel becket one side rotate connect in cavity rear side inner wall.

3. The floor device for preventing electric shock in a substation according to claim 2, wherein: including being fixed in the subbox of cavity slope side inner wall, be equipped with vice chamber in the subbox, vice chamber upside inner wall is fixed with electric putter, the electric putter downside is equipped with and is fixed in vice chamber rear side inner wall and bilateral symmetry's fixed box, be equipped with fixed chamber in the fixed box, fixed intracavity inner wall sliding connection have fixed connection in the clamp plate of electric putter downside, fixed chamber downside inner wall sliding connection has two baffles that extend and bilateral symmetry to the left and right sides, be equipped with through connection in the subbox the cavity just about two logical grooves of electric putter bilateral symmetry, it is close to lead to the groove electric putter one side inner wall is fixed with and is located the inductor of baffle downside.

4. A shock-proof floor device in a substation according to claim 3, characterized in that: keep away from including the meshing connect in the slide bar main belt pulley one side and rotate connect in the rolling disc of cavity rear side inner wall, the rolling disc front side is fixed with the turning block, the turning block rotates to be connected to be close to the pivot that main belt pulley one side extended, the pivot is kept away from main belt pulley one side is fixed with the flabellum, the pivot downside be equipped with rotate connect in the counter shaft of auxiliary tank upside, counter shaft with connect through the awl tooth pair between the pivot, the motor downside is equipped with and is fixed with the main motor of cavity rear side inner wall, main motor downside rotates and is connected with the runner, the runner with connect through the auxiliary belt between the counter shaft.

5. The floor device for preventing electric shock in a substation of claim 4, wherein: the improved water supply box is characterized in that an underground water pipe is fixed to the lower side of the box body, a water pipe cavity communicated with the through groove is formed in the underground water pipe, four water outlets which penetrate through the upper side of the cavity upwards and are distributed in a rectangular array are formed in the inner wall of the upper side of the cavity, a water discharge pipe located in the cavity is fixed to the lower side of each water discharge outlet, an air discharge cavity communicated up and down is formed in the water discharge pipe, an inclined plane block is fixed to the inner wall of one side, close to the main belt pulley, of the air discharge.

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