KR101051423B1 - Switchgear with compressed air corrosion protection - Google Patents

Abstract

The present invention, which is easy to maintain and inspect and is highly reliable, employs a switchgear with high reliability. The present invention relates to a switchgear system in which a system for preventing a gas is applied, and in particular, to achieve a corrosive gas discharge structure, a door and a half-sealed structure for performing a compressed air corrosion protection function, and to implement various instruments, control switches, and protection relays required for distribution. Inside the enclosure of closed structure, compressed air of low outside corrosive gas concentration is compressed and dried by air compressor to supply through the small-diameter pipeline and discharge residual gas inside Keeps the inside of the cabinet in an optimal state where no corrosive gas remains. It is a slim type that suppresses corrosion and reduces the thickness of the auxiliary insulating protrusions while reducing the thickness thereof.It is equipped with a thin-walled insulating bushing with a variable current capacity capable of replacing conductors penetrating according to the current capacity or application. It is possible to provide an efficient equipment with a heat radiation cooler of a sealed structure to heat the heat generated from the outside without the flow of air.

Description

Switchgear with compressed air corrosion protection {Incoming and distribution panel}

The present invention relates to a switchgear, and more particularly, to a switchgear system for achieving a corrosive gas discharge structure, a door and a half-sealed structure for performing a compressed air corrosion protection function.

In general, corrosion of equipment caused by corrosive gases in switchboards and electrical control equipments used in places where corrosive gases are generated, such as sewage treatment plants and manure treatment plants, has serious disadvantages such as malfunction of electrical equipment and shortening of lifespan. will be.

Conventionally, existing products for solving such a problem have been used, such as by connecting the gas filter for removing the corrosive gas or the supply and exhaust duct of the building air conditioning equipment.

However, these facilities are not compatible with the installation conditions of the site and are not easy to maintain, and thus, they are insufficient as a fundamental countermeasure.

In particular, it is extremely difficult to apply to switchgears and electrical control equipment installed in a narrow space.

The most notable problem is that electrical installations are installed close to the place where corrosive gas is generated due to the strong voltage, but initial construction cost reduction and ease of maintenance. As a result, the effect is drastically reduced.

There is a need to promptly provide a technology that can be installed and operated regardless of the installation location of the switchgear and control panel and is capable of easy maintenance and economical performance.

The present invention has been made to solve the above problems, the present invention can be installed and operated irrespective of the installation place and the environmental conditions of the switchgear and the control panel to maintain the easy and economical and to maximize the performance of the following The same technical problem can be solved.

First, the corrosive gas inside the enclosure in which the electrical appliance is housed is quickly discharged and replaced with fresh air.

Second, it is possible to easily supply fresh air to the inside of the enclosure without the complicated and difficult installation of on-site installation such as air supply duct or air filtration device.

Third, it is possible to apply on site regardless of the installation status of the surrounding building structure and booth duct cable tray.

Fourth, it is possible to apply to the existing switchgear and control panel by maintaining the external structure of the general type switchgear and control panel to the maximum.

Fifth, to achieve a structure that suppresses the noise generated when the compressed air is injected into the inside of the box as much as possible.

Sixth, to reduce the consumption of compressed air as much as possible.

Seventh, all devices are factory assembled and ready to be installed on site.

Eighth, the closed structure for blocking the outside air is easy and economical to manufacture.

Ninth, the structure of the facility is simple and reliable.

Finally, it is easy to maintain and economical with all the control operations of the air supply and exhaust being automatic.

In order to achieve the above object, the present invention is a representative technical means for solving the problem, the corrosion of the equipment by the corrosive gas of the electrical control equipment installed in the place where a lot of corrosive gas, such as sewage, manure, water treatment plant A water / distribution panel and control panel with a positive pressure maintaining system that prevents oil pressure. The fresh air outside the low concentration of corrosive gas is compressed and dried by an air compressor inside the enclosure of the closed structure and supplied to the vessel through a small diameter pipeline. The present invention provides a system that suppresses corrosion of internal equipment by discharging residual gas of the gas and maintaining the inside of the housing in which the equipment is stored in an optimal state in which no corrosive gas remains.

According to the switchgear of the present invention, it is possible to supply the fresh air in the distant outside without using cumbersome supply / exhaust ducts to the inside of the cabinet, so that the structure of the switchgear system can be made without interference with a separate structure or other facilities inside the narrow electrical room. It is possible, and it does not need any accessory equipment such as air supply and exhaust duct and gas purification filter, so there is an advantage that it can be manufactured and installed while maintaining the original enclosure structure.

This is compressed and dried by an air compressor and supplied to the inside of the box through a small-diameter pipeline, and the residual gas inside is discharged to maintain the inside of the container in an optimal state free of corrosive gas. Will be able to suppress.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 1 is a block diagram showing an external air compressed supply system, Figure 2 is a block diagram showing an air supply control system for reducing the consumption of compressed air in Figure 1, 3 is a structural view showing a safer and easier to install air supply device, Figure 4 is a view showing a door sealing structure of the external corrosive gas inflow prevention, Figure 5 is a structural view showing a thin prefabricated insulating bushing, Figure 6 is a corrosion resistance 7 is a structural diagram showing a heat dissipation cooling device, and FIG. 8 is an aluminum heat sink air supply fan cooling fan and a temperature controller configured to radiate heat generated inside an enclosed enclosure to the outside without air flow. It is a longitudinal cross-sectional structural diagram showing the integrated heat dissipation cooler of a closed structure.

Technical configuration according to an embodiment of the present invention illustrated in the drawings is as follows.

As can be seen in Figure 1, the electrical room is installed in the air storage tank compressed air compressed by the air compressor with a low concentration of the corrosive gas of the outside is stored in the air storage tank and the air dryer and the pressure regulator, the switchboard and the control panel is installed To the machine room through a small diameter pipeline.

Achieve corrosive gas discharge structure, door and half-sealed structure to perform compressed air corrosion protection function, and install various instruments, control switch, protection relay, etc. necessary for distribution and distribution. The present invention employed in the water distribution panel is a water distribution panel system applying a system for preventing corrosion of the equipment by the corrosive gas of the electrical control equipment installed in a place where a lot of corrosive gas is generated, such as sewage, manure, water treatment plant, the outside. A compressed air storage tank for compressing and storing air discharged by an air compressor for compressing air into a sealed structure of remote air having a low concentration of corrosive gas, and storing the air from the compressed air storage tank at a low temperature and Air dryer which converts to low humidity, and a constant discharge pressure from the air dryer, a controller A noise radiator for filtering the moisture contained in the air gas discharged from the air compressor through the solenoid valve operated by the air filter while reducing the noise of the supply air discharged into the enclosure, one side of the enclosure Has a structure in which a gas exhauster for gas discharge is formed.

This is compressed and dried by an air compressor and supplied to the inside of the box through a small-diameter pipeline, and the residual gas inside is discharged to maintain the inside of the container in an optimal state free of corrosive gas. It is to suppress.

In addition, the fresh air in the outer distant place where the corrosive gas is generated is compressed by an air compressor and stored in an air storage tank, and the compressed air compressed by the air dryer and the pressure regulator is dried through a long distance small diameter pipeline and The system is applied to the inside of the control panel to prevent corrosion of the equipment.

In addition, the present invention is an air supply control device composed of a collective type electronic valve, a timer, an auxiliary relay and a door open / close switch, a flexible insulating tube, and a silencer, during door opening and closing at a predetermined time period for a predetermined time period. By radiating compressed air to the lower end of the enclosure, the compressed air consumption is reduced, the installation is simple, and is configured to include a safe integrated automatic air supply control unit.

In addition, in order to discharge the air to the outside of the enclosure, the solenoid-driven rotary damper so that the air is radiated and cooled, an integrated gas exhauster combining a filter for preventing backflow and noise suppression of external air by convection and an exhaust fan. It is configured to include.

In addition, a simple air tube manufactured to prevent the inflow of the external corrosive gas in the device enclosure is attached to the outer door door frame, it is configured to be elastically compressed during the closing of the door to achieve a sealing function of the enclosure.

In addition, in order to discharge the air to the outside of the enclosure, so that the heat radiating and cooling, the hexahedral case to dissipate heat generated inside the sealed appliance enclosure to the outside without the flow of air, and the case is terminated by half A partition for partitioning the cooling fan, and a cooling fan positioned at upper and lower ends intersecting the partitions to allow the external cold air and the internal hot air to flow alternately between the partitions so as to flow for heat exchange; It is configured to include an integrated heat dissipation cooler of a closed structure composed of a temperature controller for generating a control signal source for controlling the drive timing of the fan.

In addition, the enclosure is an insulating block that is fastened by a fastening member through a fastening member with a size that surrounds the opening formed in the side wall of the enclosure so as to suppress the flow of air between the mutually installed enclosures to be connected to each other and to connect the main circuit. Through holes formed through the inside of the insulating block, the support block to be matched to the through hole, the outer edge of the support block, and through the circumference of the through hole in a plurality of half-shaped semi-cylindrical shape respectively through And a bolt connection member which is formed and a bolt nut member which is fastened and connected to the bolt connection port, and have a thin thickness while reducing the height of the auxiliary insulating protrusion, the slim type has a variable current capacity that can be exchanged through the current capacity or the conductor. It is the structure containing a prefabricated thin insulation bushing.

2 is a block diagram showing an air supply control system for reducing the consumption of compressed air in FIG.

As can be seen in Figure 2, the interior of the switchgear and control panel inside the door opening and closing time by the integrated automatic air supply control device consisting of a collective type electronic valve, a timer, an auxiliary relay and a limit switch that is operated when the door is opened or closed. Each time, the compressed air is radiated to the lower end of the enclosure only for a predetermined time period to reduce the consumption of compressed air and operate in conjunction with the exhaust system.

3 is a structural diagram showing a safer and easier to install air supply device.

It is easy to install from the automatic air supply control device and the inside of the enclosure, and to supply the compressed air by using a flexible insulation tube to eliminate the risk of contact with the energizing part of the inside of the enclosure, the compressed air radiator at the bottom of the enclosure is installed and compressed Suppresses noise during air radiation.

4 is a view showing a door sealing structure of the external corrosive gas inflow prevention.

In order to prevent external corrosive gas from entering the inside of the equipment enclosure, the airtight structure using air tube is applied to the door of the enclosure to improve the sealing performance with a simple structure.

5 is a structural view showing a thin prefabricated insulating bushing.

In order to block the air flow between the connected enclosures, a prefabricated thin insulating bushing is installed at the connection of the connected enclosures to reduce the consumption of compressed air and to prevent the spread of accidents during internal electrical accidents.

6 is a structural diagram showing a corrosive gas discharge device in the vessel.

It is composed of a solenoid type damper filter exhaust fan to reduce the noise generated when the compressed air on the air supply side is discharged while preventing the backflow of external corrosive gas while discharging the corrosive gas introduced into the inside to the outside. It works in conjunction with the air supply control device.

7 is a structural diagram showing a heat radiation cooling apparatus.

FIG. 8 is an integrated heat dissipation cooling device composed of an aluminum heat sink air supply fan cooling fan and a temperature controller in order to radiate heat generated inside an enclosed enclosure to the outside without air flow, and is installed only when necessary on the rear or top of the enclosure. do.

The present invention seals the enclosure of the switchgear and the control panel installed in a place with a lot of corrosive gas so that there is no air flow, and compressed the fresh air far away from the place where the corrosive gas is generated with an air compressor to store in the air storage tank Air dryers and pressure regulators supply compressed air that has been reduced in pressure to electrical or mechanical rooms equipped with switchboards and control panels, without the use of ventilation ducts, using small diameter pipe lines.

In addition, inside the enclosure of the switchgear and the control panel, the compressed air is saved, and the integrated air supply control device having a noise function radiates compressed air to the lower end of the enclosure periodically during a predetermined time at the time of opening and closing the door. .

Also, it is easy to install up to the automatic air supply control device and the inside of the enclosure.In order to eliminate the risk of contact with the energizing part inside the compressed air, compressed air is supplied by using a flexible insulating tube and silencer is installed on the radiated part of the compressed air. Suppresses noise during radiation.

In addition, the corrosive gas introduced into the inside of the box is quickly discharged to the outside of the box using the pressure of the compressed air supplied from the outside and the integrated gas discharge device.

In addition, the integrated gas exhaust device consists of a solenoid damper that blocks corrosive gas from the outside, an exhaust fan, and a filter that prevents the detention of external air by convection and a noise function. do.

In addition, heat generated inside the sealed enclosure is radiated to the outside of the enclosure by using an integrated heat dissipation cooling apparatus of a sealed structure capable of radiating heat inside the enclosure to the outside without flow of air.

Here, the integrated heat dissipation cooling device is automatically controlled by the temperature controller.

In order to block the inflow of corrosive gas, airtight airtight structure is applied to the door and prefabricated thin insulation bushing is installed at the connection of the connected enclosure to block the air flow between the connected enclosures. To reduce the spread of accidents during internal electrical accidents.

On the other hand, the switchgear according to the present invention, all the high-voltage equipment is put in a metal box grounded, it is a matter of course to minimize the damage, such as a fire due to electric shock accident and device failure.

Although the present invention has been described in more detail with reference to Examples, the present invention is not necessarily limited to these Examples, and various modifications can be made without departing from the spirit of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited thereto. The protection scope of the present invention should be interpreted by the claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is a structural diagram showing an external air compression supply system,

Figure 2 is a block diagram showing an air supply control system for reducing the consumption of compressed air in Figure 1,

3 is a structural diagram showing a safer and easier to install air supply device,

4 is a view showing an external corrosive gas inflow preventing door sealing structure,

5 is a structural diagram showing a thin prefabricated insulating bushing,

6 is a structural diagram showing a corrosive gas discharger inside,

7 is a structural diagram showing a heat dissipation cooler, and

8 is a longitudinal cross-sectional view showing an integrated heat dissipation cooler composed of an aluminum partition (heat sink), an air supply fan, a cooling fan, and a temperature controller to radiate heat generated inside an enclosed enclosure to the outside without air flow; .

Claims (7)

In the water and distribution panel system which applies the system which prevents the corrosion of the facility by the corrosive gas of the electric control equipment installed in the place where the corrosive gas is generated much like the sewage, the manure and the water treatment plant, Compressed air storage tank for compressing and storing the air discharged by the air compressor for compressing the outside air to the fresh air of a long distance with low concentration of corrosive gas inside the enclosure of the closed structure; An air dryer for converting air from the compressed air storage tank into low temperature and low humidity; Filtering the moisture contained in the air gas discharged from the air compressor through the solenoid valve operated by the controller at a constant discharge pressure from the air dryer to reduce the noise of the supply air discharged into the enclosure Equipped with a silencer, One side of the enclosure is formed with a gas exhaust for gas discharge, The enclosure is an insulating block that is fastened and secured through a fastening member with a size that surrounds an opening formed in the side wall of the enclosure to suppress the flow of air between the enclosures which are connected to each other and is connected to the main circuit. A through-hole formed in the insulating block so as to be usable, a support block matched to the through-hole, an outer edge of the support block, and a plurality of half-shaped semi-cylindrical shapes along the periphery of the through-hole. By adopting bolt connection port and bolt nut member which is fastened to the bolt connection port, it is slim type with thin thickness and reduced height of auxiliary insulation protrusion. Performing the compressed air anti-corrosion function characterized in that it comprises an insulating bushing Switchgear system The method of claim 1, Compressed air is compressed with an air compressor and stored in an air storage tank far away from the place where the corrosive gas is generated. The compressed air compressed by the air dryer and the pressure regulator is compressed through a long-distance small diameter pipeline. Water and switchgear system for performing compressed air type corrosion protection function for sewage, manure and water treatment plant applying system to prevent corrosion of equipment by supplying inside the enclosure. The method of claim 1, An air supply control system consisting of a collective electronic valve, a timer, an auxiliary relay, and a limit switch that operates when the door is opened and closed, a flexible insulating tube, and a silencer. Compressed air is provided at the bottom of the enclosure only for a predetermined time periodically when the door is opened and closed. By radiating, to reduce the consumption of compressed air, easy installation and additionally, the water distribution panel system for performing the compressed air corrosion protection function further comprises an integrated automatic air supply control unit. The method of claim 1, In order to discharge the air to the outside of the enclosure, the solenoid-driven rotary damper so that the air is radiated and cooled, an integrated gas discharger that combines an anti-backflow and noise suppression function of the outside air by convection, and an exhaust fan. Water and switchgear system for performing the compressed air corrosion protection function, characterized in that it comprises a. The method of claim 1, Compressed air tube is manufactured to prevent the external corrosive gas inflow of the enclosure is attached to the door door frame outer surface, when the door is closed, it is elastically compressed to achieve the sealing function of the compressed air characterized in that the configured to prevent the enclosure Switchgear system for the performance of functions. The method of claim 1, In order to discharge the air to the outside of the enclosure, so that the heat radiating and cooling, the hexagonal case and the heat dissipation to the outside without the flow of air to the outside of the sealed equipment enclosure, the case is terminated and partitioned half And a cooling fan which is located at the upper and lower ends intersecting each other with the partition interposed therebetween, allowing the external cold air and the internal hot air to flow alternately with each other with the partition therebetween so as to exchange heat. And a switchboard system for performing the compressed air corrosion prevention function, further comprising an integrated heat dissipation cooler composed of a thermostat configured to generate a control signal source controlling a driving time. delete

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