KR200457965Y1 - protection device for water immersion - Google Patents

Abstract

The present invention relates to an immersion protection device that can protect the electrical switch box from immersion, the immersion prevention cover is opened on the lower surface of the electrical switch box installed on a predetermined installation surface to control the power supplied to the electrical equipment Is installed to be fixedly coupled to the electrical switch box in a covered state, the space between the electrical switch box and the immersion prevention cover is formed so that the air pressure is maintained, the immersion prevention cover by the filling water during immersion When the lower part is locked, the inside of the immersion prevention cover is sealed with air, and the internal pressure acts, thereby preventing the water from filling up into the inner space of the immersion prevention cover, thereby preventing the ingress of the electric switch box. .

Description

Protection device for water immersion

The present invention relates to an immersion protection device, and more particularly, to an immersion protection device installed on a predetermined installation surface to protect the electric switch box to control the power of the electrical equipment from immersion.

The corresponding objects of the electric switch box to be applied in the present invention include, for example, electric equipment including electric rotary machines, manual or mechanical electric switches, magnetic contacts, circuit breakers, various controller kits, control computer cubicles, and local control. Immersion vulnerable objects and electrical installations, including centers, switch gears, electrical installation conductor connections and boxes, including transformers and electric rotary motors; Also included.

In general, the electrical equipment is configured with a conventional electrical switch box, the electrical power is supplied to or cut through the electrical switch box, the electrical connection or connection to the electrical cable is not possible to be grounded or short-circuited when flooded. This inevitably occurs and the continuous operation and operation of the electrical equipment becomes impossible. Even if it is waterproofed by applying resin to the power line connection or installed with a waterproof switch, it is difficult to visually identify that the insulation of the connection deteriorates or damages over time. It was almost impossible or not easy.

These electrical switch boxes are usually installed fixed on the walls or pillars of a building. Larger ones, such as control computer cubicles, transformers, local control centers or switchgear, are cement (or concrete) foundations. Is installed freely).

The electrical switch box installed as described above had a disadvantage of being lethally exposed to flooding. In other words, if the building is flooded, the electric switch box fixedly installed on the wall or the base can be inundated by rusting water, and the grounding or short circuit is inevitable because electricity is energized through the water. The continued operation and operation of electrical equipment is not possible and there is a risk of electric shock.

In addition, there are some waterproof switches that are completely enclosed among electrical installations, but there is a limit to the method of testing whether the switch is flooded during operation. In other words, the flooding can only be determined after an accident such as a flood or tsunami during operation, or during the shutdown test by overhaul. Such inundation points are numerous in power generation plants of one unit, and the recovery time is greatly increased even in one inundation, and in case of emergency such as tsunamis, it is necessary to take measures to protect inundation weak points. In addition, it will take too much time to complete a recovery action. If the cause of the accident is found and the recovery time is prolonged, the nuclear power plant will be delayed in supplying the cooling water to the reactor, which will cause fatal environmental damage such as tsunami damage to Tokyo Electric Power Fukushima nuclear power plant. It is the biggest object of the present invention to reduce or eliminate the recovery time of flooded electrical equipment.

In case of flooding of such an electric switch box, in addition to the electric-related accidents as described above, the recovery of the electric switch box requires not only a lot of time and manpower, but also a second economic loss caused by the power failure during the recovery period. This can also be seen by the derivation of the industrial damage caused by nuclear power plant damage and limited transmission.

Therefore, the present application has been devised to solve the problems of the prior art as described above, even if the water is filled during the immersion by configuring the immersion prevention cover in the electrical switch box, even if the bottom of the immersion prevention cover is open water and air Due to the difference in specific gravity of the air chamber (Air chamber) is formed inside the cover so that the electrical equipment including the electrical switch box is not submerged in water, it is possible to prevent the infiltration of the electrical equipment including the electrical switch box in advance. The purpose is to provide a flood protection device.

In the above-described object, in the electrical switch box installed on a predetermined tooth surface to control the power of the electrical equipment, the electrical switch box can be fixedly coupled to the electrical switch box in a state in which only the lower surface is covered with the immersion prevention cover. It is installed so that, and the space between the electrical switch box and the immersion prevention cover is achieved by the immersion protection device, characterized in that a space is formed to maintain the action.

The immersion prevention cover of the present invention is installed to allow the vertical movement to enable the operation of the switch operator and the maintenance of the maintenance worker, and the mechanical locking device so that the immersion prevention cover does not float upward by the buoyancy of the air chamber ( It has a mechanical latch and can be combined with an electric motor or a mechanical device to assist the up and down movement of the immersion cover.

The immersion prevention cover is perforated with a heat discharge hole for discharging the heat inside, the heat discharge hole is a hot discharge induction pipe or hot discharge induction hose installed inside the immersion prevention cover is connected to the hot discharge hole, while the immersion prevention cover An air supply pipe for replenishing air in the interior may be connected to the bottom of the immersion prevention cover.

In addition, a mechanical holding device (mounting state retaining latch) may be installed to maintain the state (upset state) of the immersion prevention cover is lifted up as necessary, the electric switch when the immersion prevention cover is vertical movement A guide frame and a flange portion having a guide hole through which the guide frame penetrates may be configured together with the up and down driving frame outside the immersion prevention cover so as to allow stable up and down movement without touching or colliding with the box.

Even if the guide frame of the immersion protection cover is bent or the mounting means are loosened, a roller wheel may be attached to the inside of the immersion prevention cover so that the components of the immersion protection cover do not come into contact with the electrical switch box or collide with each other.

The guide frame and the guide hole may combine or replace a gear, a tooth frame, a chain, a manual and an electric drive, and the upper and lower drive frames may be used. It may be formed in a structure integrated with the guide frame (Guide frame) to change the position of the frame to balance the immersion prevention cover.

According to the immersion protection device of the present invention, since the immersion prevention cover is fixed to the state covered by covering the electrical switch box from the top to the bottom, when the lower part of the immersion prevention cover is locked by the filling water during the immersion, the inside of the immersion prevention cover is air The internal pressure acts as it is sealed, which prevents water from filling up into the inner space of the immersion protection cover, so the inner surface of the immersion protection cover does not rise above the air vent level no matter how high the outer surface is. It is possible to prevent the flooding of the box.

1 is a block diagram showing an electric switch box according to the present invention.
2 is a view showing a immersion prevention cover installed in the electric switch box according to the present invention.
Figure 3 is a view showing the immersion prevention state of the electric switch box is installed immersion protection cover according to the present invention.
Figure 4 is an exploded view of the components provided during the immersion test of the electrical switch box according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a configuration diagram showing that the weight of the electrical switch box according to the present invention is not a large installed on the wall or pillar to a proper distance from the ground.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a configuration diagram showing that the weight of the electrical switch box according to the present invention is not a large installed on the wall or pillar to a proper distance from the ground.

The electrical switch box 10 is a rectangular box shape having a switching structure formed on the front side as shown in FIG. 1, and on the lower surface thereof, a power cable and a power cable pipe 12 for supplying power (hereinafter referred to as “power cable pipe”). Is connected, and the lower surface spaced apart from the power cable pipe 12 is provided with an installation hole 11 in the form of a long hole to be mounted on the mounting means 60 to be described later.

In this embodiment, the power cable piping 12 and the mounting hole 11 is illustrated as an example of the lower surface of the electrical switch box 10, but if necessary, the other side of the electrical switch box 10 It may be.

On the other hand, the power cable pipe 12 installed in the electrical switch box 10 can easily insert the electrical switch box 10 in the submersion test tank 40 located at the bottom of the electrical switch box 10 in the immersion test. It is preferable that the one side is installed in a raised state to the upper side. The water immersion test tank 40 is preferably in the form of horizontal movement and vertical position adjustment to be available in a number of positions, and in the form of easy water supply and drainage.

In addition, the latch 30 of the normal hook shape is rotatably installed in the electrical switch box 10 so that the latch 30 is coupled to the flange portion of the immersion prevention cover 20 when the immersion prevention cover 20 is to be described later. By being caught by 21, the electric switch box 10 and the immersion prevention cover 20 are integrally fixed to each other. The latch 30 is preferably installed all over the four sides of the electrical switch box 10, in some cases may be installed only on both sides located in the same line.

In addition, the latch 30 may be configured in the immersion prevention cover 20 to be described later unlike the above-described embodiment.

2 is a view showing a immersion prevention cover installed in the electric switch box according to the present invention.

As shown in FIG. 2, the immersion prevention cover 20 is formed to have an open bottom surface thereof and is covered with the top of the electrical switch box 10 downwardly, and the latch 30 installed in the electrical switch box 10. It is fixed to the electrical switch box (10) by. This immersion prevention cover 20 is usually installed in a state coupled to the electrical switch box (10).

The immersion prevention cover 20 installed as described above is preferably formed with an air chamber, that is, a space S spaced apart from each other so that an internal pressure can be applied between the electrical switch box 10 and the space S. 3 is preferably formed uniformly over the entire inner surface of the immersion prevention cover 20, as shown in FIG. In addition, even if the guide frame 22 of the immersion prevention cover 20 to be described later bent or the mounting means 60 is released inside the immersion prevention cover 20 is a component of the immersion prevention cover 20 is an electrical switch box ( 10) It is preferable that the roller wheels 26 are attached to the inside of the water immersion prevention cover 20 so as not to come into contact with each other or collide with each other.

In addition, the outer surface of the immersion prevention cover 20, the outwardly projecting flange portion 21 is formed along the outer circumferential portion, the vertical guide frame 22 (shown in Figure 4) on both sides of the flange portion 21 It is installed to protrude. The guide frame 22 has a primary purpose to prevent horizontal shaking during the vertical movement of the immersion protection cover 20, and also for the purpose of easily coupling the protective cage 50 to the immersion prevention cover 20. It is preferably installed longer than the immersion prevention cover 20, that is, the vertical movement distance of the immersion prevention cover 20 is sufficiently secured.

In addition, the lower end of the outer surface of the immersion prevention cover 20 may be perforated with a hot air discharge hole 23 for discharging the internal heat generated by the heat generated by the electrical equipment to the outside for a long time, for smooth discharge of heat An air supply pipe 24 for replenishing the outside air by injecting it into the immersion prevention cover 20 may be installed under the flange portion 21 of the immersion prevention cover 20. The air supply pipe 24 is coupled to a compressed air facility such as a compressor and a compressed air tank to continuously replenish air to the internal space S of the immersion prevention cover 20. At this time, the heat inside the immersion prevention cover 20 is collected in the upper layer due to the difference in specific gravity, so that the heat discharge induction pipe 25 is inductively connected to the hot air discharge hole 23 in the upper layer so that the inside of the immersion prevention cover 20 is discharged. It is necessary to discharge from the upper part first. Since the position of the hot air discharge hole 23 is relatively higher than that of the air supply pipe 24, even if the water level outside the immersion prevention cover 20 increases, a slight hydraulic pressure difference (usually when the air supply amount through the air supply pipe 24 becomes excessive) Into the hot air discharge hole (23) by the pressure difference) is first escaped.

On the other hand, the immersion prevention cover 20 accommodated in the electrical switch box 10 therein can be completely covered with an open end of the lower surface of the electrical switch box 10 as well as the upper one side of the power cable pipe 12 connected thereto. Due to the installation, the hot air discharge hole 23 formed in the immersion prevention cover 20 is installed in a lower position than the electrical switch box 10 accommodated in the internal space (S) of the immersion prevention cover 20. It is. This is to prevent the water level of the water filling the inside of the immersion prevention cover 20 to reach the electric switch box 10 during the immersion, a detailed description thereof will be described below.

The immersion prevention cover 20 configured as described above may be provided with a mechanical holding device such that the immersion prevention cover 20 can be maintained in a raised state (adhering state) as necessary.

Figure 3 is a view showing the immersion prevention state of the electric switch box is installed immersion protection cover according to the present invention.

First, the immersion prevention cover 20 is covered with a predetermined wall surface, that is, the wall surface of the building to be described later through the mounting means 60 to be covered with the immersion prevention cover 20 from top to bottom, and then installed in the electrical switch box 10 As the flange portion 21 of the immersion prevention cover 20 is locked and restrained by the latch 30, the electrical switch box 10 and the immersion prevention cover 20 are integrally fixed to each other.

Of course, at this time, the hot air discharge hole 23 of the immersion prevention cover 20 is installed at a position lower than the electric switch box 10, as described above. In such a state, as shown in FIG. 3, when the water by immersion covers the hot air discharge hole 23 of the immersion prevention cover 20, the immersion prevention cover 20 is sealed, thereby preventing the immersion cover 20. Into the inside of the) there is air that does not escape to the hot air discharge hole 23, the internal pressure of the atmospheric pressure acts on the inside of the immersion prevention cover 20 by such an air layer, the water level of immersion is gradually higher Even if the water is no longer filled with the internal space (S) of the immersion prevention cover 20, it will not exceed a certain level (the position between the lower surface of the electric switch box 10 and the heat exhaust hole 23).

Of course, at this time, the immersion prevention cover 20 is fixed as the electric switch box 10 and the latch 30, so that the immersion prevention cover 20 does not rise to the surface even if the buoyancy of water acts.

Therefore, the electrical switch box 10 accommodated at a predetermined height inside the immersion prevention cover 20 is not submerged in water, thereby preventing the immersion of the electrical switch box 10, and due to electric shock accidents or repair work. Secondary economic losses can be prevented in advance.

On the other hand, the immersion prevention cover 20 is displayed so that the upper limit line of the inner water surface 71 so that the inner surface 71 can be checked so as not to rise above the position of the hot air discharge hole. To this end, the immersion prevention cover 20 is to form an airtight holding structure in all directions except for the inner surface 71, that is, the air chamber is formed, formed of glass or transparent plastic material that can see the inside, or It is preferable to form the airtight holding structure necessary for forming the air chamber by the combination of the transparent vinyl and the bellows frame. Here, reference numeral "70" shows the outer surface.

On the other hand, the immersion prevention cover 20 may be formed of an opaque rigid metal material.

Figure 4 is a separate view of the configuration for the assembly or function understanding of the immersion prevention cover and its accessories according to the present invention, a view for helping to understand the relationship function with the electric switch box by taking an example of the electric switch box.

As shown in FIG. 4, in addition to the electrical switch box 10 and the immersion prevention cover 20 for the immersion test and the immersion prevention, a separate immersion test tank 40 and a protective cage 50 are further included. Floating, such as wood debris floating by the occurrence of rapids during flooding can damage or damage the immersion prevention cover 20. Here, the protective cage 50 is a cage of a rectangular frame shape made of a rigid material such as steel to protect the submersion prevention cover 20 from impact so as to prevent such a situation. If the immersion prevention cover 20 is sufficiently strong and there is a guarantee that the rapids or floats do not float, the attachment of the protective cage 50 may be omitted. When the protective cage 50 is formed, it is not shown in the drawings, but it is necessary to manufacture a similar flange portion in the protective cage 50 to be fastened in the flange portion 21 of the immersion prevention cover 20, and the flange portions of the mutual contact It is necessary to form a sufficient number of fastening holes to be fastened. Thus, when the up and down movement of the immersion prevention cover 20, the protective cage 50 also performs an integrated up and down movement, and surfaces other than the lower opening of the immersion prevention cover 20 are integrally attached to the protective cage 50 without damaging the airtightness. You can do it. If the flange area of the mutual connection is not sufficient, the support cage of the similar shape to the protective cage 50 to enable mutual fastening or attachment to the support wing 27 formed on the outer surface of the immersion prevention cover 20 The wing 27 and the fastening holes may be extended together. At this time, the shape of the protective cage 50 may be formed in a more complex curve or protrusion rather than a neat rectangular shape in order not to interfere with the close coupling or insertion assembly with the immersion prevention cover 20.

The protective cage 50 is perforated with a guide hole 51 into which the guide frame 22 of the immersion prevention cover 20 can be inserted into one side thereof, and the protective cage 50 is formed by the guide hole 51. ) Can be easily combined to cover the outside of the immersion prevention cover 20.

In addition, the upper and lower driving frames 52 are installed at the upper portion of the immersion prevention cover 20 or the protective cage 50, including a conventional mechanical latch (an latch for maintaining the state of attachment) and a limit switch. The vertical movement of the vertical drive frame 52 is performed by the driving motor 75 or the manual handle, and is operated by the rotation of the rotation shaft 73 of the driving motor 75.

In the event of failure of the drive motor 75, it is configured to be operated manually. The configuration for the manual operation will be described later.

When the vertical drive frame 52 is lowered by the operation of the drive motor 75, the immersion prevention cover 20 or the protective cage 50 is maintained in a lowered state. When it is desired to keep the lowered immersion prevention cover 20 in an up state, the upper and lower drive frames 52 may be pulled up again. The vertical drive frame 52 may also be replaced with a gear, a tooth frame, a chain, a manual and an electric drive. Such a vertical drive frame 52, a cog wheel, a tooth frame, a chain, a manual and an electric drive device are commonly found in the industrial field. Lifting operation of the vertical drive frame 52 can be made by electric and manual. For example, in the case of the electric motor, as shown in FIG. 4, the driving shaft 73 and the pinion gear 71 are integrally rotated by the operation of the driving motor 75 and are formed at one side of the vertical drive frame 52. On the other hand, the vertical drive frame 52 is moved up and down by the rack gear portion 54 in which the pinion gear 71 is engaged. At this time, the first gear 81 is installed on the drive shaft 73 so as to be integrally rotated like the drive shaft 73. In addition, in the case of the manual type, the driving means for operating when the driving motor 75 is malfunctioned, when the handle 86 is turned, the second gear 85 connected thereto is rotated, and the second gear 85 and the chain 83 are rotated. Rotating drive shaft 73 and the pinion gear 71 while the first gear 81 connected to the rotation is interlocked, and is driven up and down by the rack gear portion 54 engaged with the pinion gear 71 is rotated in this way The frame 52 is lifted up and down.

Here, reference numeral "53" shows a bracket for connecting the immersion prevention cover 20 or the protective cage 50 and the vertical drive frame 52. The bracket may be formed of an integral fixed type to the immersion prevention cover 20 or an angle variable type so that the inclination of the vertical drive frame 52 can be changed. In addition, the vertical drive frame 52 has a purpose of strength reinforcement of the immersion prevention cover 20 and a method of forming a gear wheel, a tooth frame, a chain, a manual and an electric drive device, and the like. If necessary, it may be integrally molded with the outer wall instead of the upper part of the immersion prevention cover 20.

On the other hand, the protective cage 50 coupled as described above is also integrally fixed to the electrical switch box 10 together with the up and down drive frame 52 by the latch 30 installed on the lower side of the electrical switch box 10 in the attached state. Can be.

In addition, when the water immersion test tank 40 is raised in a state filled with water therein, the electric switch box 10 is immersion test tank with the immersion prevention cover 20 and the protective cage 50 coupled thereto ( 40) It is locked inside. At this time, the power cable pipe 12 connected to the electrical switch box 10 is installed in one state is lifted upward in the S-shape as shown in Figure 1 for the immersion test during the immersion test of the electrical switch box 10 Interference with the water tank 40 can be prevented.

In addition, as shown in FIG. 4, the mounting means 60 includes a fixed plate 61 fixed to a predetermined wall surface, that is, a wall surface of a building, etc., and a hook 62 rotatably coupled to the front of the fixed plate 61. And a spring 63 (also referred to as a 'torsion spring') provided at the coupling portion of the hook 62 and the fixed plate 61 to provide an elastic force that rotates the hook 62 to the upper side of the fixed plate 61. . Here, the hook 62 is formed in a size (width) corresponding to the installation hole 11 formed in the lower electric switch box 10, the electrical switch box 10 when the hook 62 and the installation hole 11 is coupled The purpose is to be able to prevent the horizontal flow of).

Accordingly, when the electric switch box 10 is mounted, the hook 62 rotated to the upper side of the fixing plate 61 is rotated in reverse, and then the hook 62 is installed in the installation hole 11 of the electric switch box 10. Insert by joining. Then, since the restoring force of the hook 62 is rotated to the upper side of the fixing plate 61 by the elastic force of the spring 63 acting on the hook 62, the hook 62 of the electrical switch box 10 The state stuck to the installation hole 11 in close contact with the lower surface can be more firmly maintained. When it is necessary to keep the immersion prevention cover 20 in an upper state, the hook 62 is operated by the electromagnetic power device in accordance with the up and down movement of the immersion prevention cover 20 to avoid the trouble of operation. You can. In this case, when the power outage is not attached to the inundation state of the immersion prevention cover 20 does not want to be in an up state, it should be made so that a state that can be changed by itself or automatically.

On the other hand, during the immersion test of the electrical switch box 10 is fixed to the hook 62 of the mounting means 60, when the hook 62 is squeezed toward the wall in the state covered with the immersion prevention cover 20 Separation from the electrical switch box 10 is secured space to raise the immersion test water tank (40). When the protective cage 50 is inserted into the guide hole 51 and the guide frame 22 by inserting the protective cage 50 from the top of the immersion prevention cover 20, the protective cage 50 is immersion prevention cover 20 ) Is installed while covering the outer surface of the cover, and the protective cage 50 is fixed as the latch 30 of the electrical switch box 10 to secure the protective cage 50 and the immersion prevention cover 20 by the electrical switch box ( 10) to be fixed integrally. If it is determined that the protective cage 50 is not necessary due to various safety conditions, the additional components formed on the protective cage 50 side including the upper and lower driving frames 52 and the guide holes 51 are formed. Integrate to the immersion prevention cover 20. In the case of electric equipment installed on the seat with a large weight such as control computer cubicle, local control center, transformers, switchgear, etc., the latch 30 is connected to the seat so that it can be combined with the seat. do. The latch 30 may also be replaced or combined with a gear, a tooth frame, a chain, a manual and electric drive, and the like.

In this state, the water immersion test tank 40 is raised from the bottom of the electric switch box 10 to the electric switch box 10 in which the protective cage 50 and the immersion prevention cover 20 are combined with the water immersion test tank 40. Even if it is immersed in the interior, as in the above-described description of Figure 3, the internal space between the immersion prevention cover 20 and the electrical switch box 10 (internal space of the immersion prevention cover 20) is the pressure due to the remaining air Because of this function, even if the water is immersed in the water immersion test tank 40 by the internal pressure until the immersion prevention cover 20 is completely locked, the water does not flow into the internal space S of the immersion prevention cover 20 anymore. Due to this, the electrical switch box 10 inside the immersion prevention cover 20 is not submerged in water to prevent immersion.

When confirming the immersion protection performance of the immersion protection cover 20, the lower part at the time of installation of the electrical switch box 10 to raise the water-immersion test tank 40 containing water from the bottom of the electrical switch box 10 upwards It is necessary to bend and install the power cable piping 12 in S shape.

In the case of electrical equipment installed on the base of a large scale such as control computer cubicles, local control centers, transformers, switchgears, etc., the power cable piping 12 cannot be bent in an S-shape. So we have another way of immersion testing. For example, inert colored gas is injected into the ingress prevention cover 20 in a sealed manner to determine whether there is a leak, or if the cable penetration of the base of the seat is kept airtight, a water wall is formed around the seat and filled with water. Even if only a slight water level (水位) can be confirmed whether the inundation into the interior of the infiltration state of the immersion prevention cover 20. Here, the immersion prevention cover 20 and the water wall around the pedestal may be manufactured and installed in bellows style.

In addition, an auxiliary beach or attachment such as a thermometer, emergency oxygen communication, emergency lighting, roller wheel, submersion detection sensor, limit switch, etc. is attached to the inside thereof without damaging the air chamber forming function of the immersion prevention cover 20. Support wings (Fin or Stud) 27 on the inside and the outside of the immersion prevention cover 20 can be attached or formed so as to protrude. This is for the purpose that the facility operator or facility maintenance worker can temporarily put the head inside the inundation cover which has a lot of space in case the evacuation from sudden flood or tsunami and breathe by emergency oxygen communication. Can be used together. In other words, it can also be used as a life-saving chamber for first-aid.

10: switch box 11: mounting hole
12: power cable piping 20: immersion protection cover
21: flange 22: guide frame
23: hot air exhaust hole 24: air supply pipe
25: hot air discharge guide pipe 26: roller wheel
27: wing 30: latch
40: water bath 50: protection cage
51 guide hole 52 latching gravity pipe
53: bracket 54: rack gear
60: mounting means 61: fixed plate
62: hook 63: spring
71: pinion gear 73: drive shaft
75: drive motor 81: first gear
83: chain 85: second gear
86: handle S: inner space of the immersion prevention cover

Claims (7)

In the electrical switch box to control the power of the electrical equipment installed on the predetermined mounting surface,
Only the lower surface of the electric switch box is installed to be fixed to the electric switch box in a state in which the immersion prevention cover is covered,
A space is formed between the electrical switch box and the immersion prevention cover to maintain the air pressure.
The flange is provided with a guide frame and a flange having a guide hole penetrating the guide frame so that the upper and lower movement without touching or colliding with the electrical switch box during the vertical movement of the immersion prevention cover outside the immersion prevention cover Immersion protection device characterized in that. The method according to claim 1,
The immersion protection device is a immersion protection device, characterized in that the hot air discharge induction pipe or hot air discharge induction hose for discharging the heat inside is connected to the hot air discharge hole. The method according to claim 1,
Immersion protection device, characterized in that connected to the air supply pipe to replenish the air inside the immersion prevention cover under the flange portion of the immersion protection cover. The method according to claim 1,
An upper and lower driving frames for moving the submersion prevention cover up and down on the upper part of the submersion cover, a drive motor for implementing a vertical movement of the upper and lower drive frames, and a driving shaft which is rotated when the driving motor is operated. Immersion protection device characterized in that the pinion gear is rotated in engagement with the vertical drive frame. delete The method according to claim 1,
Immersion protection device characterized in that the roller wheel is attached to the inside of the immersion prevention cover. The method according to claim 1,
Immersion protection device, characterized in that the water level rising limit line is formed in the immersion prevention cover to check whether the inner surface of the immersion prevention cover rises above the position of the hot air discharge hole.

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