CN113036635A - Anti-static mounting structure and mounting method of power distribution cabinet - Google Patents

Abstract

The utility model relates to a field of switch board technique, especially, relate to antistatic mounting structure and installation method of switch board, it is including setting up in subaerial mount table and the switch board cabinet body of shelving in the mount table top surface, the mount table top surface has seted up the round assembly groove in the department of the week edge of the switch board cabinet body, be provided with the water proof cover that the movable cover was established in switch board cabinet body week side and was suitable for the separation rainwater in the assembly groove, water proof cover activity inlays and establishes in the assembly groove, be provided with proximity switch on the switch board cabinet body, mount table one side still is provided with the water level measurement device that is close to/keeps away from with proximity switch, the last electric connection of proximity switch has the controller that sets up on the switch board cabinet body, be provided with the regulating part that pulls the water proof. This application has when rainfall is great, and the switch board can maintain normal use's effect.

Description

Anti-static mounting structure and mounting method of power distribution cabinet

Technical Field

The application relates to the technical field of power distribution cabinets, in particular to an anti-static mounting structure and a mounting method of a power distribution cabinet.

Background

The power distribution cabinet is an important component in the power distribution and transmission industry and is used for playing roles in power transmission and distribution and guaranteeing power utilization safety. The power distribution cabinet is a high-voltage or low-voltage power distribution device formed by assembling switch equipment, measuring instruments, protective electrical appliances and auxiliary equipment in a closed or semi-closed metal cabinet according to the electrical wiring requirement.

The current switch board if install in open air low-lying area, when meeting with the weather that rainfall is big such as rainstorm, probably because of rainwater drainage untimely, the rainwater is gathered around the switch board, leads to the switch board to soak in the rainwater, and in the rainwater immersed cabinet, the electrical components circuit short circuit appears in the cabinet, has great potential safety hazard.

Disclosure of Invention

In order to maintain normal use of the power distribution cabinet when rainfall is large, the application provides an anti-static mounting structure and a mounting method of the power distribution cabinet.

First aspect, this application provides a switch board prevent static mounting structure, adopts following technical scheme:

the anti-static mounting structure of the power distribution cabinet comprises a mounting platform arranged on the ground and a power distribution cabinet body placed on the top surface of the mounting platform, wherein a circle of assembly groove is formed in the periphery of the power distribution cabinet body on the top surface of the mounting platform, a water-proof cover which is movably covered on the periphery of the power distribution cabinet body and is suitable for blocking rainwater is arranged in the assembly groove, and the water-proof cover is movably embedded in the assembly groove;

be provided with proximity switch on the switch board cabinet body, mount table one side still be provided with proximity switch is close to/the water level measurement device who keeps away from, the last electric connection of proximity switch have set up in controller on the switch board cabinet body, be provided with in the week side of the switch board cabinet body and pull the regulating part that the water proof cover goes up and down, the regulating part with the controller electrical property links to each other.

Through adopting above-mentioned technical scheme, operating personnel installs the cabinet body of switch board on the mount table, water proof cover is installed to the assembly tank in, stretch when ponding, water level measuring device will detect the water level and move towards proximity switch, proximity switch perception object is close to back transmission signal to controller, start the regulating part function by the controller again, pull out and expand water proof cover from the assembly tank, make water proof cover live the parcel of the switch board cabinet body, in order to realize carrying out the separation to outside rivers, and then maintain the normal use of switch board.

Optionally, the water level measuring device includes a stand column fixedly arranged on the side wall of the mounting table, the stand column is arranged in a hollow mode, a through groove communicated with the outside is formed in one side, away from the mounting table, of the stand column, a floating ball is embedded in the stand column in a sliding mode, and a shifting lever in movable contact with the proximity switch is arranged at the top of the floating ball.

Through adopting above-mentioned technical scheme, the week side end of floater is along being less than the top surface of mount table, and after the rainwater accumulated the water level and risees, the rainwater got into the stand from leading to the groove, and the floater is along with the synchronous lifting of rainwater, and the driving lever that links to each other with the floater will be close to proximity switch gradually to realize the timely measurement of water level.

Optionally, the proximity switch is disposed at the top of the power distribution cabinet body, the shift lever is an L-shaped rod, and a corner of the shift lever abuts against the top end of the upright post.

By adopting the technical scheme, the electrical components additionally arranged on the cabinet body of the power distribution cabinet are assembled at the top or top of the cabinet body of the power distribution cabinet, so that the probability of soaking the proximity switch and the controller by rainwater is reduced; the L-shaped deflector rod can support the position of the floating ball in the upright post.

Optionally, the adjusting part includes sheaves rotatably installed on two sides of the power distribution cabinet body, traction ropes are wound around the circumferential sides of the sheaves, one end of each traction rope is fixed to the inner wall of the sheave, the other end of each traction rope is hooked to the top of the water-proof cover, and a driving part for driving the two sheaves to rotate synchronously is arranged on the outer side of the power distribution cabinet body.

Through adopting above-mentioned technical scheme, driving piece drive sheave rotates, and the haulage rope progressively twines on the week side of sheave to the pulling water proof cover rises and the cladding is in the week side of the switch board cabinet body.

Optionally, the driving part includes gears coaxially and fixedly arranged on the end face of the sheave, racks are engaged with the peripheral sides of the two gears, the racks are vertically arranged, a connecting rod is fixedly arranged between the two racks, and a hydraulic rod fixed with the connecting rod is vertically arranged at the top of the cabinet body of the power distribution cabinet.

By adopting the technical scheme, the hydraulic rod pushes the connecting rod to lift so as to synchronously drive the two racks to lift, the rack fixed with the connecting rod drives the gear to rotate so as to realize the rotation of the grooved wheel, and then the synchronous rotation of the two gears can be realized by utilizing one hydraulic rod, so that the consistency is high.

Optionally, the water-stop cover includes a wind instrument cylinder and a shackle, one end of the wind instrument cylinder is fixedly arranged on the bottom wall of the assembling groove, the pair of shackles is arranged on the other end of the wind instrument cylinder, and the two hauling ropes are correspondingly arranged on the peripheral sides of the shackles.

By adopting the technical scheme, the organ cylinder can be lengthened to adapt to different accumulated rainwater depths, and can be compressed to ensure that the whole organ cylinder can be placed in the assembly groove without influencing the normal opening and closing of the cabinet body of the power distribution cabinet; the addition of the hook ring can facilitate the connection of the hauling rope and the organ cylinder.

Optionally, the installation bench top portion is installed and is absorbed water and fill up, absorb water and fill up the activity butt of inner wall and be in all sides of switch board cabinet body are last.

Through adopting above-mentioned technical scheme, the pad that absorbs water can adsorb the anti a small amount of rainwater that oozes of mount table surface, and further reduction rainwater soaks the condition of switch board and appears.

Optionally, a rain shed is installed at the top of the mounting table, and the power distribution cabinet body is arranged in the rain shed.

Through adopting above-mentioned technical scheme, the canopy can separate the fender to the rainwater when the rainfall to protection proximity switch and controller maintain normal operating.

In a second aspect, the application provides a method for installing an anti-static installation structure of a power distribution cabinet, which adopts the following technical scheme:

optionally, the method comprises the following steps:

s1, building a mounting table: on the ground, erecting criss-cross reinforcement cages by using reinforcements, laying a grounding net in the reinforcement cages, installing templates on the peripheral sides of the reinforcement cages, reserving mounting hole sites of grounding wires before pouring, and then pouring to form a mounting platform;

s2, installing a water-proof cover: arranging an assembly groove on the surface of the mounting table according to the model of the cabinet body of the power distribution cabinet, mounting the waterproof cover in the assembly groove by using waterproof sealant, and smearing waterproof paint on the surface of the mounting table;

s3, installing a power distribution cabinet: correspondingly placing the power distribution cabinet on the surface of the mounting table, placing the power distribution cabinet in a gap enclosed by the assembly groove, and tying one end of a traction rope on the peripheral side of the shackle;

s4, installing a water level measuring device: inserting the floating ball into the upright column from top to bottom, vertically installing the upright column on the ground through a bolt, and ensuring that the upright column is positioned below the proximity switch;

and S5, installing a rain shelter.

By adopting the technical scheme, the grounding wire of the cabinet body of the power distribution cabinet is correspondingly inserted into the mounting hole reserved in the mounting table to be connected with the grounding grid, so that the generation of static electricity of the power distribution cabinet is reduced; the surface of the mounting table is subjected to waterproof treatment by using waterproof paint and waterproof sealant so as to protect the cabinet body of the power distribution cabinet from being influenced by rainwater and maintain normal operation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the water level measuring device measures the water level, when the water level is higher than the top surface of the mounting table, the water level measuring device can touch the proximity switch and send a signal to the controller through the proximity switch, the controller starts the hydraulic rod to push the connecting rod to drive the rack driving gear to rotate, meanwhile, the traction rope is wound on the peripheral side of the grooved wheel to pull the waterproof cover to lift, and therefore the rainwater is blocked;

2. the approach switch and the controller controlled by the electrical elements are respectively arranged at the top end of the cabinet body of the power distribution cabinet, so that the possibility that the electrical elements are immersed by rainwater is reduced.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic perspective view of the rain fly removed;

FIG. 3 is a schematic diagram of the exploded structure of FIG. 2;

fig. 4 is an enlarged view at a in fig. 3.

Reference numerals: 1. an installation table; 2. a power distribution cabinet body; 3. assembling a groove; 4. a water-insulating cover; 41. a piano barrel; 42. a shackle; 5. a proximity switch; 6. a water level measuring device; 61. a column; 62. a floating ball; 63. a deflector rod; 64. a through groove; 7. a controller; 8. an adjustment member; 81. a grooved wheel; 82. a hauling rope; 83. a drive member; 801. a gear; 802. a rack; 8021. a slide bar; 8022. a chute; 803. a connecting rod; 804. a hydraulic lever; 9. a water absorbent pad; 10. a rain shelter.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses antistatic mounting structure of switch board.

Referring to fig. 1 and 2, the anti-static mounting structure of the power distribution cabinet comprises a mounting table 1 and a power distribution cabinet body 2, wherein a circle of assembly groove 3 is correspondingly formed in the top surface of the mounting table 1 according to the size of the power distribution cabinet body 2 to be mounted, the power distribution cabinet body 2 is placed on the top surface of the mounting table 1 and is located in a gap enclosed by the assembly groove 3, a movable cover is fixedly connected to the bottom wall of the assembly groove 3 and is arranged on the periphery side of the power distribution cabinet body 2 and is suitable for blocking rainwater, a rain shelter 10 is fixedly mounted at the top of the mounting table 1, the power distribution cabinet body 2 is arranged in the rain shelter 10, and the rain shelter 10 can shield the power distribution cabinet when rain;

the water absorption pad 9 is further installed at the top of the mounting table 1, the inner wall of the water absorption pad 9 is movably abutted to the periphery of the power distribution cabinet body 2, a small amount of rainwater which reversely permeates the surface of the mounting table 1 can be adsorbed to the inside of the mounting table, and therefore the rainwater is prevented from immersing into the power distribution cabinet.

Referring to fig. 1 and 2, the water-stop cover 4 comprises a bellows tube 41, one end of the bellows tube 41 is fixedly arranged on the bottom wall of the assembling groove 3, the other end of the bellows tube is fixedly provided with a pair of symmetrically arranged shackles 42, and when the bellows tube 41 is in an initial state, the bellows tube 41 is compressed and contracted and is integrally positioned in the assembling groove 3;

the vertical proximity switch 5 of installing through the support in the top of the switch board cabinet body 2, and proximity switch 5's contact point orientation is in the top surface of the switch board cabinet body 2, one side of mount table 1 is provided with the water level measuring device 6 that is close to or keeps away from with proximity switch 5, gather the water level back that rises when the rainwater, water level detecting device will be close to proximity switch 5's contact, electric connection has the controller 7 of arranging switch board cabinet body 2 top surface in equally on the proximity switch 5, still be provided with on the week side of the switch board cabinet body 2 and link to each other with shackle 42 and pull regulating part 8 that the water proof cover 4 goes up.

Referring to fig. 2 and 3, the adjusting part 8 is also electrically connected with the controller 7, the proximity switch 5 transmits a signal to the controller 7, and the controller 7 synchronously drives the adjusting part 8 to pull out the organ cylinder 41 from the assembly groove 3, so that the organ cylinder 41 wraps the cabinet body 2 of the power distribution cabinet to block rainwater; and the electrical components additionally arranged on the cabinet body 2 of the power distribution cabinet are arranged at the top of the cabinet body 2 of the power distribution cabinet, so that the possibility that the proximity switch 5 and the controller 7 are soaked by rainwater can be reduced.

Referring to fig. 2 and 3, the water level measuring device 6 includes a column 61 fixed on the sidewall of the mounting platform 1, two ends of the column 61 are both open and hollow, a through slot 64 communicating with the outside is opened on one side of the column 61 away from the mounting platform 1, a floating ball 62 is slidably embedded in the column 61, a lever 63 movably abutting against the proximity switch 5 is fixed on the top of the floating ball 62, the lever 63 is an L-shaped rod, a corner of the lever 63 abuts against the top end of the column 61, the initial position of the floating ball 62 in the column 61 can be limited, when the rainwater accumulated water level rises, rainwater enters the column 61 from the through slot 64, the floating ball 62 can rise synchronously along with the rising of the rainwater level, the lever 63 integrally connected with the floating ball 62 is gradually close to the proximity switch 5, so as to start the regulator 8 to stretch the piano barrel 41.

Referring to fig. 3 and 4, the adjusting part 8 includes sheaves 81 rotatably mounted on both sides of the power distribution cabinet body 2, traction ropes 82 are wound around the circumferential sides of the sheaves 81, one end of each traction rope 82 is fixed to the inner wall of the sheave 81, the other end of each traction rope 82 is fastened to the circumferential side of the shackle 42, and a driving part 83 for driving the two sheaves 81 to rotate synchronously is disposed on the outer side of the power distribution cabinet body 2; the driving member 83 includes gears 801 coaxially fixed on end faces of the grooved pulley 81, racks 802 are respectively engaged on peripheral sides of the two gears 801, the racks 802 are vertically arranged, one side of each rack 802 is fixedly connected with a slide bar 8021, the cross section of each slide bar 8021 is in a shape of a T, a sliding groove 8022 for sliding and embedding the slide bar 8021 is vertically arranged on a side wall of the cabinet body 2 of the power distribution cabinet, a connecting rod 803 is fixedly arranged between the two racks 802, and a hydraulic rod 804 fixed with the connecting rod 803 is vertically arranged on the top of the cabinet body 2 of the power distribution cabinet.

The connecting rod 803 can be driven to lift and slide by driving the hydraulic rod 804 to stretch and retract, the two racks 802 fixed with the connecting rod 803 synchronously slide along the sliding groove 8022, the gear 801 rotates under the meshing of the racks 802 and the gear 801, and the grooved wheel 81 fixed coaxially with the gear 801 synchronously rotates to realize the paying off or winding of the traction rope 82, and the structure is simple and the pulling consistency is high.

The implementation principle of the antistatic mounting structure of the power distribution cabinet is as follows:

when the water level is higher than the floating ball 62, the floating ball 62 is driven to rise by the buoyancy of rainwater, the floating ball 62 drives the shift lever 63 to move towards the proximity switch 5 together, the proximity switch 5 sends a signal to the controller 7, the controller 7 starts the hydraulic rod 804 to push the connecting rod 803 to drive the rack 802 to drive the gear 801 to rotate, so that the grooved pulley 81 is synchronously driven to roll the traction rope 82, the organ cylinder 41 is stretched, and the organ cylinder 41 is used for blocking rainwater; when an operator needs to open the cabinet body 2 of the power distribution cabinet, the operator only needs to manually adjust the controller 7 to drive the gear 801 to rotate reversely, and then presses the wind instrument barrel 41 downwards to be embedded into the assembling groove 3 again.

The embodiment of the application also discloses an installation method of the anti-static installation structure of the power distribution cabinet.

Referring to fig. 1, the mounting method of the antistatic mounting structure of the power distribution cabinet includes S1, building a mounting table 1: on the ground, a criss-cross reinforcement cage is erected by utilizing reinforcement, a grounding net is laid in the reinforcement cage, templates are installed on the periphery of the reinforcement cage, mounting hole positions of grounding wires are reserved before pouring, and then pouring is carried out to form a mounting platform 1;

s2, mounting the waterproof cover 4: arranging an assembly groove 3 on the surface of the mounting table 1 according to the model of the cabinet body 2 of the power distribution cabinet, mounting a water-proof cover 4 in the assembly groove 3 by using waterproof sealant, and smearing waterproof paint on the surface of the mounting table 1;

s3, installing a power distribution cabinet: correspondingly placing the power distribution cabinet on the surface of the mounting table 1, placing the power distribution cabinet in a gap enclosed by the assembling groove 3, and tying one end of a traction rope 82 to the peripheral side of the shackle 42;

s4, installing the water level measuring device 6: the floating ball 62 is inserted into the upright post 61 from top to bottom, the upright post 61 is vertically arranged on the ground through a bolt, and the upright post 61 is ensured to be positioned below the proximity switch 5;

and S5, installing the rain shelter 10.

The implementation principle of the installation method of the anti-static installation structure of the power distribution cabinet in the embodiment of the application is as follows: the grounding wire of the power distribution cabinet body 2 is correspondingly inserted into the mounting hole reserved in the mounting table 1 and connected with the grounding grid, so that the generation of static electricity of the power distribution cabinet is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The anti-static mounting structure of the power distribution cabinet comprises a mounting table (1) arranged on the ground and a power distribution cabinet body (2) arranged on the top surface of the mounting table (1), and is characterized in that: a circle of assembly grooves (3) are formed in the top surface of the mounting table (1) at the periphery of the power distribution cabinet body (2), water-proof covers (4) which are movably covered on the periphery of the power distribution cabinet body (2) and suitable for blocking rainwater are arranged in the assembly grooves (3), and the water-proof covers (4) are movably embedded in the assembly grooves (3);

be provided with proximity switch (5) on the switch board cabinet body (2), mount table (1) one side still be provided with proximity switch (5) are close to/water level measuring device (6) of keeping away from, the electric connection has on proximity switch (5) set up in controller (7) on the switch board cabinet body (2), be provided with in week side of the switch board cabinet body (2) and pull regulating part (8) that water proof cover (4) go up and down, regulating part (8) with controller (7) electric property links to each other.

2. The antistatic mounting structure of claim 1, characterized in that: the water level measuring device (6) comprises a vertical column (61) fixedly arranged on the side wall of the mounting platform (1), the vertical column (61) is arranged in a hollow mode, a through groove (64) communicated with the outside is formed in one side, away from the mounting platform (1), of the vertical column (61), a floating ball (62) is embedded in the vertical column (61) in a sliding mode, and a shifting lever (63) movably abutted against the proximity switch (5) is arranged at the top of the floating ball (62).

3. The antistatic mounting structure of claim 2, characterized in that: the proximity switch (5) is arranged at the top of the power distribution cabinet body (2), the shifting lever (63) is an L-shaped rod, and the corner of the shifting lever (63) abuts against the top end of the upright post (61).

4. The antistatic mounting structure of claim 3, characterized in that: the adjusting part (8) is installed including rotating in sheave (81) of switch board cabinet body (2) both sides, all around being equipped with haulage rope (82) of sheave (81) week side, haulage rope (82) one end with sheave (81) inner wall is fixed, and the other end hook is located water proof cover (4) top, switch board cabinet body (2) outside is provided with two the synchronous pivoted driving piece (83) of sheave (81).

5. The antistatic mounting structure of claim 4, characterized in that: the driving piece (83) comprises gears (801) which are coaxially and fixedly arranged on the end faces of the grooved wheels (81), racks (802) are meshed on the peripheral sides of the gears (801), the racks (802) are vertically arranged, a connecting rod (803) is fixedly arranged between the racks (802), and a hydraulic rod (804) fixed with the connecting rod (803) is vertically arranged at the top of the power distribution cabinet body (2).

6. The antistatic mounting structure of claim 4, characterized in that: the water insulation cover (4) comprises a wind instrument cylinder (41) and a hook ring (42), one end of the wind instrument cylinder (41) is fixedly arranged on the bottom wall of the assembling groove (3), the pair of hook rings (42) is arranged at the other end of the wind instrument cylinder (41), and the two traction ropes (82) are correspondingly arranged on the peripheral side of the hook rings (42).

7. The antistatic mounting structure of claim 1, characterized in that: the utility model discloses a power distribution cabinet, including mount table (1), installation platform (1) top is installed and is absorbed water pad (9), absorb water pad (9) inner wall activity butt is in on the side of week of power distribution cabinet body (2).

8. The antistatic mounting structure of claim 1, characterized in that: rain shed (10) are installed at the top of installation platform (1), and power distribution cabinet body (2) is arranged in rain shed (10).

9. The mounting method of the antistatic mounting structure of the power distribution cabinet according to any one of claims 1 to 8, characterized in that: the method comprises the following steps:

s1, building an installation platform (1): on the ground, a criss-cross reinforcement cage is erected by utilizing reinforcement, a grounding net is laid in the reinforcement cage, templates are installed on the periphery of the reinforcement cage, mounting hole positions of grounding wires are reserved before pouring, and then pouring is carried out to form a mounting table (1);

s2, installing a water-proof cover (4): arranging an assembly groove (3) on the surface of the mounting table (1) according to the model of the power distribution cabinet body (2), mounting a water-proof cover (4) in the assembly groove (3) by using waterproof sealant, and smearing waterproof paint on the surface of the mounting table (1);

s3, installing a power distribution cabinet: correspondingly placing the power distribution cabinet on the surface of the mounting table (1), placing the power distribution cabinet in a gap enclosed by the assembling groove (3), and tying one end of a traction rope (82) to the peripheral side of the shackle (42);

s4, installing a water level measuring device (6): the floating ball (62) is inserted into the upright post (61) from top to bottom, the upright post (61) is vertically arranged on the ground through a bolt, and the upright post (61) is ensured to be positioned below the proximity switch (5);

and S5, installing the rain shelter (10).

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