CN213278790U - Safe type protection against electric shock switch board - Google Patents

Abstract

The utility model belongs to the technical field of power distribution cabinets, in particular to a safety type electric shock prevention power distribution cabinet, which comprises an electric shock prevention power distribution cabinet main body, an electric shock prevention mechanism, a mounting mechanism and a control panel, wherein the middle part of the electric shock prevention power distribution cabinet main body is connected with the electric shock prevention mechanism in an embedding manner, the middle part of the electric shock prevention mechanism is connected with the mounting mechanism in an embedding manner, the top of one side in front of the electric shock prevention mechanism is connected with the control panel in an embedding manner, the surface of the electric shock prevention mechanism is connected with a corrosion-resistant protective shell in an embedding manner, the electric shock prevention mechanism consists of a corrosion-resistant protective shell, an insulating interlayer, a current detector, a radiator, a motor, a rotating fan blade and an insulating dustproof net, the electric shock prevention mechanism is helpful to prevent moist air from entering the interior, thereby improving the stability of the device and having wide development prospect in the future.

Description

Safe type protection against electric shock switch board

Technical Field

The utility model relates to a switch board technical field specifically is a safe type protection against electric shock switch board.

Background

The power distribution cabinet, the lighting power distribution cabinet and the metering cabinet are final-stage equipment of a power distribution system, the power distribution cabinet is a general name of a motor control center, the power distribution cabinet is used in occasions with dispersed loads and less loops, the motor control center is used in occasions with concentrated loads and more loops, the power distribution cabinet distributes electric energy of a certain circuit of previous-stage power distribution equipment to nearby loads, and the equipment of the stage provides protection, monitoring and control for the loads.

At present, the distribution equipment wire is complicated in most current switch boards, and it is relatively poor to lead to the internal clean and tidy degree of cabinet, and switch board dehumidification effect is not good, and moist air gets into the inside of switch board, easily causes the influence to the inside component of switch board, leads to distribution equipment electric leakage phenomenon easily to appear for operating personnel easily electrocutes, seriously endangers operating personnel's personal safety, and the protection against electric shock effect is poor moreover, and installation fixed mode is comparatively loaded down with trivial details, the function singleness.

Therefore, how to design a safe type protection against electric shock switch board becomes the problem that will solve at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a safe type protection against electric shock switch board to the fixed mode of installation that proposes among the above-mentioned background of the solution is comparatively loaded down with trivial details, dehumidification effect is not good, the poor problem of protection against electric shock effect.

In order to achieve the above object, the utility model provides a following technical scheme: a safety electric shock prevention power distribution cabinet comprises an electric shock prevention power distribution cabinet main body, an electric shock prevention mechanism, an installation mechanism and a control panel, wherein the electric shock prevention mechanism is connected to the middle part of the electric shock prevention power distribution cabinet main body in an embedded mode, the installation mechanism is connected to the middle part of the electric shock prevention mechanism in an embedded mode, the control panel is connected to the top of one side of the front part of the electric shock prevention mechanism in an embedded mode, a corrosion-resistant protective shell is connected to the surface of the electric shock prevention mechanism in an embedded mode, an insulating interlayer is connected to the inner side of the corrosion-resistant protective shell in an embedded mode, a control box is connected to the middle part of the top of the inner part of the electric shock prevention mechanism in an embedded mode, a current detector is connected to one side of the top, one end of the radiator is connected with an insulating dustproof net in a penetrating way, the middle part of the top of the mounting mechanism is movably connected with a power distribution cabinet, the middle part of the mounting mechanism is embedded and connected with a connecting block, the other side of the top of the connecting block is embedded and connected with a telescopic rod, one end of the telescopic rod is embedded and connected with a fixed plate, the middle part of the top of the connecting block is embedded and connected with a connecting plate, the bottom end of the connecting block is embedded and connected with a shock absorber, the bottom end of the shock absorber is embedded and connected with an insulating plate, the bottom end of the insulating plate is embedded and connected with a hydraulic telescopic column, the other side of the electric shock prevention mechanism is movably connected with a sealing door, the top of the front of the sealing door is connected with an observation window in a penetrating way, the bottom end of the electric shock prevention mechanism is embedded and connected with a fixed base, one side of the bottom end of the fixed base is connected with a supporting column in an embedded mode, and the other side of the bottom end of the fixed base is connected with a movable wheel in an embedded mode.

Preferably, the bottom end of the control box is connected with a static eliminator in an embedded mode.

Preferably, a desiccant placing box is embedded and connected to one side of the bottom inside the electric shock preventing mechanism.

Preferably, the heater is embedded and connected to the top of the inside of the radiator.

Preferably, the electric shock prevention mechanism is formed by combining a corrosion-resistant protective shell on the surface of the electric shock prevention mechanism, an insulating interlayer on the inner side of the corrosion-resistant protective shell, a control box in the middle of the top inside the electric shock prevention mechanism, a current detector on one side of the top inside the electric shock prevention mechanism, a radiator on one end of the electric shock prevention mechanism, a motor on the other side inside the radiator, rotating fan blades on one end of the motor and an insulating dustproof net on one end of the radiator.

Preferably, installation mechanism is formed by the switch board of installation mechanism top middle part, the connecting block of installation mechanism middle part, the telescopic link of connecting block top opposite side, the fixed plate of telescopic link one end, the connecting plate of connecting block top middle part, the bumper shock absorber of connecting block bottom, the insulation board of bumper shock absorber bottom and the flexible post of hydraulic pressure of insulation board bottom jointly make up.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this kind of safe type protection against electric shock switch board, protection against electric shock mechanism comprise corrosion-resistant protective housing, insulating intermediate layer, control box, current detector, radiator, motor, rotating fan blade and insulating dust screen to reach the effect of the inside electric leakage of preventing device, protection against electric shock mechanism helps preventing that moist air from getting into the inside of switch board body and causing the electric leakage, and the inside electric leakage of separation device leaks, thereby has improved the practicality of device.

2. This kind of safe type protection against electric shock switch board, installation mechanism comprise switch board, connecting block, telescopic link, fixed plate, connecting plate, bumper shock absorber, insulation board and hydraulic telescoping post to reach and install fixed effect to the switch board, installation mechanism helps making things convenient for operating personnel to install fixedly to the switch board, thereby has improved the stability of device.

Drawings

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

FIG. 2 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the sectional structure of the electric shock protection mechanism of the present invention;

fig. 4 is a schematic sectional structure view of the mounting mechanism of the present invention.

The labels in the figure are: 1. protection against electric shock switch board main part, 2, protection against electric shock mechanism, 201, corrosion-resistant protective housing, 202, insulating intermediate layer, 203, the control box, 204, the static eliminator, 205, the current detector, 206, the radiator, 207, the heater, 208, the motor, 209, rotatory flabellum, 2010, insulating dust screen, 2011, the box is placed to the drier, 3, installation mechanism, 301, the switch board, 302, the connecting block, 303, the telescopic link, 304, the fixed plate, 305, the connecting plate, 306, the bumper shock absorber, 307, the insulation board, 308, the flexible post of hydraulic pressure, 4, control panel, 5, sealing door, 6, the observation window, 7, unable adjustment base, 8, the support column, 9, remove the wheel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a safety type electric shock prevention power distribution cabinet comprises an electric shock prevention power distribution cabinet main body 1, an electric shock prevention mechanism 2, an installation mechanism 3 and a control panel 4, wherein the electric shock prevention mechanism 2 is connected to the middle part of the electric shock prevention power distribution cabinet main body 1 in an embedded manner, the installation mechanism 3 is connected to the middle part of the electric shock prevention mechanism 2 in an embedded manner, the control panel 4 is connected to the top of the front side of the electric shock prevention mechanism 2 in an embedded manner, a corrosion-resistant protective shell 201 is connected to the surface of the electric shock prevention mechanism 2 in an embedded manner, an insulating interlayer 202 is connected to the inner side of the corrosion-resistant protective shell 201 in an embedded manner, a control box 203 is connected to the middle part of the inner top of the electric shock prevention mechanism 2 in an embedded manner, a current detector 205 is connected to one side of the inner top of, radiator 206's one end through connection has insulating dust screen 2010, installation mechanism 3's top middle part swing joint has switch board 301, installation mechanism 3's middle part embedding is connected with connecting block 302, the top opposite side embedding of connecting block 302 is connected with telescopic link 303, the one end embedding of telescopic link 303 is connected with fixed plate 304, the top middle part embedding of connecting block 302 is connected with connecting plate 305, the bottom embedding of connecting block 302 is connected with bumper shock absorber 306, the bottom embedding of bumper shock absorber 306 is connected with insulation board 307, the bottom embedding of insulation board 307 is connected with hydraulic stretching post 308, the opposite side swing joint of protection against electric shock mechanism 2 has sealing door 5, the preceding top through connection of sealing door 5 has observation window 6, the bottom embedding of protection against electric shock mechanism 2 is connected with unable adjustment base 7, the bottom one side embedding of unable adjustment base 7 is connected with support column 8, the.

Preferably, the bottom end of the control box 203 is connected with a static eliminator 204 in an embedded manner, when the device is in operation, static electricity can be generated inside the device, certain trouble can be brought to an operator when the operator uses the device, the static eliminator 204 at the bottom end of the control box 203 can eliminate the static electricity inside the device, the static eliminator 204 operates to enable air to form airflow with positive and negative charges, the charges inside the device are neutralized, static electricity on the surface of an object inside the device is neutralized, the purpose of eliminating the static electricity is achieved, the static eliminator 204 is beneficial to facilitating the operator to eliminate the static electricity inside the device, and therefore the safety of the device is improved.

Preferably, the embedding of the inside bottom one side of protection against electric shock mechanism 2 is connected with the drier and places box 2011, install the back when operating personnel switch board 301, the drier of the inside bottom one side of protection against electric shock mechanism 2 is placed box 2011 and can be absorbed the moisture in the inside article surrounding air of device, thereby reduce the content of the inside vapor of device, guarantee the inside aridity of device, dehumidification effect is good, the effectual moist air that prevents gets into inside protection against electric shock mechanism 2, cause the electric leakage, and help promoting the life of the 2 internal elements of protection against electric shock mechanism, the drier is placed box 2011 and is helped the moisture in the inside article surrounding air of absorbing device, thereby the multifunctionality of device has been improved.

Preferably, the heater 207 is connected to the top of the inside of the radiator 206 in an embedded manner, when the operator controls the radiator 306 to start operating and the humidity inside the device is too high, the operator controls the heater 207 at the top of the inside of the radiator 206 to start operating through the control panel 4, so as to heat the air entering the inside of the electric shock protection mechanism 2, remove the moisture in the air inside the device, thereby keep the air inside the device dry, thereby prevent the moist air from corroding the elements inside the power distribution cabinet 301, the heater 207 helps to heat the air entering the inside of the electric shock protection mechanism 2, and the moisture resistance of the device is improved.

Preferably, the electric shock protection mechanism 2 is formed by combining a corrosion-resistant protective housing 201 on the surface of the electric shock protection mechanism 2, an insulating interlayer 202 on the inner side of the corrosion-resistant protective housing 201, a control box 203 at the middle part of the top inside the electric shock protection mechanism 2, a current detector 205 at one side of the top inside the electric shock protection mechanism 2, a heat sink 206 at one end of the electric shock protection mechanism 2, a motor 208 at the other side inside the heat sink 206, a rotating fan blade 209 at one end of the motor 208 and an insulating dust screen 2010 at one end of the heat sink 206, after the mounting mechanism 3 is well fixed on the power distribution cabinet 301, an operator controls the control box 203 at the middle part of the top inside the electric shock protection mechanism 2 to start to operate through the control panel 4, so that the control box 203 controls the current detector 205 at one side of the top inside the electric shock protection, thereby sending information to the control box 203, the control box 203 controls the alarm to alarm, and further reminds an operator to check, the control box 203 can control the radiator 206 at one end of the electric shock prevention mechanism 2 to operate, so that the motor 208 at the other side inside the radiator 206 starts to operate, and further drives the rotating fan blade 209 at one end of the motor 208 to rotate, and the air inside and outside the device is exchanged, thereby achieving the heat dissipation effect, when the air is humid, the operator controls the heater 207 to operate, heats the air entering the inside of the device, thereby removing the humidity in the air, further keeping the air dry, and preventing the electric leakage condition inside the device, when the insulating interlayer 202 inside the corrosion-resistant protective shell 201 helps to prevent the electric leakage inside the device, the electric leakage is carried out to the corrosion-resistant protective shell 201, thereby preventing the operator from electric shock, the electric shock prevention mechanism 2 helps to prevent the moist air from entering the inside of the power, the inside electric leakage of separation device leaks to the practicality of device has been improved.

Preferably, the mounting mechanism 3 is formed by combining a power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3, a connecting block 302 at the middle part of the mounting mechanism 3, an expansion rod 303 at the other side of the top of the connecting block 302, a fixing plate 304 at one end of the expansion rod 303, a connecting plate 305 at the middle part of the top of the connecting block 302, a shock absorber 306 at the bottom end of the connecting block 302, an insulating plate 307 at the bottom end of the shock absorber 306 and a hydraulic expansion column 308 at the bottom end of the insulating plate 307, when an operator needs to use the device, the operator places the power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3 on the connecting plate 305 at the middle part of the top of the connecting block 302, so that the operator controls the expansion rod 303 at the other side of the top of the connecting block 302 to, thereby can change switch board 301's height, and then make things convenient for operating personnel to install, produced rocking when the bumper shock absorber 306 of connecting block 302 bottom helps slowing down the device installation to prevent that the device from causing the damage because of rocking, the insulation board 307 of bumper shock absorber 306 bottom helps preventing that switch board 301 electric leakage from bringing danger for operating personnel, installation mechanism 3 helps making things convenient for operating personnel to install switch board 301 fixedly, thereby the stability of device has been improved.

The working principle is as follows: firstly, the mounting mechanism 3 is formed by combining a power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3, a connecting block 302 at the middle part of the mounting mechanism 3, an expansion rod 303 at the other side of the top of the connecting block 302, a fixing plate 304 at one end of the expansion rod 303, a connecting plate 305 at the middle part of the top of the connecting block 302, a shock absorber 306 at the bottom end of the connecting block 302, an insulating plate 307 at the bottom end of the shock absorber 306 and a hydraulic expansion column 308 at the bottom end of the insulating plate 307, when an operator needs to use the device, the operator places the power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3 on the connecting plate 305 at the middle part of the top of the connecting block 302, so that the operator controls the expansion rod 303 at the other side of the top of the connecting block 302, thereby can change switch board 301's height, and then make things convenient for operating personnel to install, produced rocking when the bumper shock absorber 306 of connecting block 302 bottom helps slowing down the device installation to prevent that the device from causing the damage because of rocking, the insulation board 307 of bumper shock absorber 306 bottom helps preventing that switch board 301 electric leakage from bringing danger for operating personnel, installation mechanism 3 helps making things convenient for operating personnel to install switch board 301 fixedly, thereby the stability of device has been improved.

Then, the mounting mechanism 3 is formed by combining a power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3, a connecting block 302 at the middle part of the mounting mechanism 3, an expansion rod 303 at the other side of the top of the connecting block 302, a fixing plate 304 at one end of the expansion rod 303, a connecting plate 305 at the middle part of the top of the connecting block 302, a shock absorber 306 at the bottom end of the connecting block 302, an insulating plate 307 at the bottom end of the shock absorber 306 and a hydraulic expansion column 308 at the bottom end of the insulating plate 307, when an operator needs to use the device, the operator places the power distribution cabinet 301 at the middle part of the top of the mounting mechanism 3 on the connecting plate 305 at the middle part of the top of the connecting block 302, so that the operator controls the expansion rod 303 at the other side of the top of the connecting block 302, thereby can change switch board 301's height, and then make things convenient for operating personnel to install, produced rocking when the bumper shock absorber 306 of connecting block 302 bottom helps slowing down the device installation to prevent that the device from causing the damage because of rocking, the insulation board 307 of bumper shock absorber 306 bottom helps preventing that switch board 301 electric leakage from bringing danger for operating personnel, installation mechanism 3 helps making things convenient for operating personnel to install switch board 301 fixedly, thereby the stability of device has been improved.

Next, the bottom end of the control box 203 is connected with a static electricity eliminator 204 in an embedded manner, when the device is in operation, static electricity can be generated inside the device, certain trouble can be brought to an operator when the device is used, the static electricity eliminator 204 at the bottom end of the control box 203 can eliminate the static electricity inside the device, the static electricity eliminator 204 operates to form an air flow of positive and negative charges in the air, the charges inside the device are neutralized, the static electricity on the surface of an object inside the device is neutralized, the purpose of eliminating the static electricity is achieved, the static electricity eliminator 204 is beneficial to facilitating the operator to eliminate the static electricity inside the device, and therefore the safety of the device is improved.

Next, the inside bottom one side embedding of protection against electric shock mechanism 2 is connected with the drier and places box 2011, install the back when operating personnel switch board 301, the drier of protection against electric shock mechanism 2 inside bottom one side is placed box 2011 and can be absorbed the moisture in the inside article surrounding air of device, thereby reduce the content of the inside vapor of device, guarantee the inside aridity of device, dehumidification is effectual, the effectual moist air that prevents gets into inside protection against electric shock mechanism 2, cause the electric leakage, and help promoting the life of protection against electric shock mechanism 2 internal elements, the drier is placed box 2011 and is helped the moisture in the inside article surrounding air of absorbing device, thereby the multifunctionality of device has been improved.

Finally, the inside top embedding of radiator 206 is connected with heater 207, when operating personnel control radiator 306 and begin to operate, and when the inside humidity of device is too big, operating personnel control the inside top of radiator 206 through control panel 4 and begin to operate, and then heat the inside air that gets into protection against electric shock mechanism 2, get rid of the moisture in the inside air of device, thereby keep the drying of the inside air of device, thereby prevent that moist air from causing the corruption to the inside component of switch board 301, heater 207 helps heating the inside air that gets into protection against electric shock mechanism 2, thereby the dampproofing ability of device has been improved, this is exactly this kind of safe type protection against electric shock switch board's theory of operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a safe type protection against electric shock switch board, includes protection against electric shock switch board main part (1), protection against electric shock mechanism (2), installation mechanism (3) and control panel (4), its characterized in that: the middle part of the electric shock prevention power distribution cabinet main body (1) is connected with an electric shock prevention mechanism (2) in an embedded mode, the middle part of the electric shock prevention mechanism (2) is connected with an installation mechanism (3) in an embedded mode, the top of the front side of the electric shock prevention mechanism (2) is connected with a control panel (4) in an embedded mode, the surface of the electric shock prevention mechanism (2) is connected with a corrosion-resistant protective shell (201) in an embedded mode, the inner side of the corrosion-resistant protective shell (201) is connected with an insulating interlayer (202) in an embedded mode, the middle part of the inner top of the electric shock prevention mechanism (2) is connected with a control box (203) in an embedded mode, one side of the inner top of the electric shock prevention mechanism (2) is connected with a current detector (205) in an embedded mode, the one end embedding of motor (208) is connected with rotating fan blade (209), the one end through connection of radiator (206) has insulating dust screen (2010), the top middle part swing joint of installation mechanism (3) has switch board (301), the middle part embedding of installation mechanism (3) is connected with connecting block (302), the top opposite side embedding of connecting block (302) is connected with telescopic link (303), the one end embedding of telescopic link (303) is connected with fixed plate (304), the top middle part embedding of connecting block (302) is connected with connecting plate (305), the bottom embedding of connecting block (302) is connected with bumper shock absorber (306), the bottom embedding of bumper shock absorber (306) is connected with insulation board (307), the bottom embedding of insulation board (307) is connected with hydraulic telescoping column (308).

2. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: the utility model discloses a safety electric shock device, including protection against electric shock mechanism (2), the opposite side swing joint of protection against electric shock mechanism (2) has sealing door (5), the preceding top through connection of sealing door (5) has observation window (6), the bottom embedding of protection against electric shock mechanism (2) is connected with unable adjustment base (7), the bottom one side embedding of unable adjustment base (7) is connected with support column (8), the bottom opposite side embedding of unable adjustment base (7) is connected with removes wheel (9).

3. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: the bottom end of the control box (203) is embedded and connected with a static eliminator (204).

4. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: and a drying agent placing box (2011) is embedded and connected at one side of the bottom inside the electric shock preventing mechanism (2).

5. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: the heater (207) is embedded and connected to the top of the inner part of the radiator (206).

6. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: the electric shock prevention mechanism (2) is formed by combining a corrosion-resistant protective shell (201) on the surface of the electric shock prevention mechanism (2), an insulating interlayer (202) on the inner side of the corrosion-resistant protective shell (201), a control box (203) in the middle of the top inside the electric shock prevention mechanism (2), a current detector (205) on one side of the top inside the electric shock prevention mechanism (2), a radiator (206) at one end of the electric shock prevention mechanism (2), a motor (208) on the other side inside the radiator (206), a rotating fan blade (209) at one end of the motor (208) and an insulating dustproof net (2010) at one end of the radiator (206).

7. The safety type electric shock prevention power distribution cabinet of claim 1, characterized in that: installation mechanism (3) are by switch board (301) of installation mechanism (3) top middle part, connecting block (302) of installation mechanism (3) middle part, telescopic link (303) of connecting block (302) top opposite side, fixed plate (304) of telescopic link (303) one end, connecting plate (305) of connecting block (302) top middle part, bumper shock absorber (306) of connecting block (302) bottom, insulation board (307) and the flexible post (308) of hydraulic pressure in insulation board (307) bottom of bumper shock absorber (306) bottom make up jointly and form.

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