KR100705284B1 - Pannel for case of receiving board/power distibuting board - Google Patents

Abstract

The present invention relates to a panel for water / distribution panel enclosure, and in particular, to construct a panel for forming a panel for water / distribution panel, having a predetermined thickness and disposed at the center for various sound waves generated inside and outside of the water / distribution panel. A composite plate material which absorbs and blocks the high frequency and bypasses the high frequency to the ground through a ground wire connected to the outer steel plate and the inner perforated steel plate and a ground rod embedded in the ground; A plurality of holes are drilled at regular intervals, and a fixing piece is fixed to the frame of the male / switchboard at the periphery, and the inner and outer surfaces or only the outer surface are coated with zinc powder and disposed on the inner surface of the composite plate. Perforated steel sheet; At the main edge portion, the fixing piece is fixed to the frame of the male / switchboard together with the fixing piece of the perforated steel sheet is formed bent, and both the inner and outer surfaces or only the outer surface is coated with zinc powder, and the outer surface of the composite plate It characterized in that formed into a steel sheet to be disposed.

Therefore, it is possible to greatly improve the heat insulation and sound absorption of the water / switchboard, and can prevent deterioration or damage of the electric equipment due to temperature change, prevent the occurrence of fire by arc, etc., and also can be generated inside and outside the enclosure. The high frequency can be sucked through carbon fiber and then can be bypassed to the ground through steel plate and ground rod to prevent damage of peripheral devices due to high frequency, especially when constructing composite plate installed for insulation and sound absorption. By using eco-friendly polyester nonwoven fabric, it is possible to prevent environmental pollution caused by the material constituting the composite plate itself as well as adversely affecting the physical health of workers.

Male / Switchboard, Panel, Perforated Steel, Outer Steel, Composite Plate, PE Nonwoven, Carbon Fiber

Description

Panel for water / distribution board enclosures {Pannel for case of receiving board / power distibuting board}

1 is a partially cut away perspective view of the panel of the present invention.

Figure 2 is a perspective view of a general male / switchgear enclosure in which the panel of the present invention is installed.

3 is a cross-sectional view of the main portion of the male / switchgear housing the panel of the present invention is installed.

Figure 4 is an exploded perspective view according to an embodiment of the composite plate applied to the panel of the present invention.

Figure 5 is an exploded perspective view according to another embodiment of the composite plate applied to the panel of the present invention.

Figure 6 (a) (b) is a side cross-sectional view of the composite plate for explaining the installation state for the carbon fiber of the composite plate applied to the panel of the present invention.

Figure 7 (a) (b) is an enlarged cross-sectional side view of the main portion of the panel for the housing constituting the conventional water / switchboard.

Explanation of symbols on the main parts of the drawings

40: composite sheet 41: rubber sheet

42: PE nonwoven fabric 43: carbon fiber

50: perforated steel plate 51, 61: fixing piece

52: hole for sound wave inlet 60: outer steel sheet

70: ground rod 71: ground wire

80 frame 90 fixture

The present invention relates to a panel for a water / distribution panel enclosure, and more particularly, a switch, a meter, a relay (relay), etc. are installed in a enclosure for operation or control of a power plant or substation, or operation of an electric motor. When manufacturing panels used to construct cabinets for switchgear and switchgear, which are supplied to various loads in the premises by lowering the special high pressure to low pressure, they have noise and insulation effect between the zinc powder coated outer steel plate and the inner perforated steel sheet. At the same time, it is formed by installing a composite plate formed of a polyester nonwoven fabric, which is an environmentally friendly material, and, if necessary, by attaching carbon fibers to the inside or outside of the composite plate when formed, to provide thermal insulation and sound absorption of water / distribution boards. It is possible to prevent deterioration or damage of electric equipment due to temperature change and to prevent the occurrence of fire by arc. It is also possible to absorb high frequency that can be generated inside and outside of the enclosure through the panel itself and to bypass the ground rod through the ground rod, and in particular by the environment of the materials that make up the composite plate installed for insulation and sound absorption. It is invented to prevent pollution and adverse effects on the physical health of workers.

In general, when forming a water / distribution panel to increase or decrease the voltage of electricity sent from the outside of the outside to be sent back to the outside to form a housing shape using a plate having a predetermined thickness.

As shown in Fig. 2, the enclosure-type male / distribution panel manufactured by using the panel as described above usually includes various instrument display windows 1, 1 ', vents 2, and opening / closing doors 3 for facility inspection. Transformers, enclosure breakers, and lightning arresters are installed inside to prevent various safety accidents and breakdown of equipment.

The enclosure for the water / distribution panel prevents the human body from being exposed to the high voltage current flowing in the water / distribution panel to prevent safety accidents, and the device sound, the intake / exhaust sound and the vibration sound of the engine generated from various devices including the internal transformer. It blocks the noise of the lamp, and prevents the corrosion of the equipment inside the water / distribution panel due to acidified snow / boiling by blocking snow or boiling, and prevents the decrease of efficiency and the deterioration of insulating oil due to the rise of transformer temperature by blocking the direct sunlight. It is installed to prevent accidents due to invasion of birds.

However, most panels constituting the conventional water / switch panel have a powder or powder on the inner and outer surfaces of the steel sheet 5 after shearing and bending the general steel sheet 5, as shown in FIG. Since the paint film 6 is formed of a fluid, when an arc occurs, the flame is ignited in the paint, causing a fire, which causes damage to the internal facilities of the enclosure constituting the water / distribution board. Since the paint is peeled off over time, the panel rusts and shortens the life of the panel, which is inconvenient to undergo repainting within a certain period of time.

In addition, when the above panel is used, direct sunlight is blocked, but heat of direct sunlight is transmitted through the iron plate into the water / distribution panel, so that the temperature inside the water / distribution panel is increased, thereby degrading the efficiency of the transformer, shortening the life, and altering the insulating oil. This occurred.

Moreover, since the panel is made of only a painted steel sheet, there is a problem that noise inside the water / distribution panel is not blocked and counted out.

Therefore, in recent years, as a method for improving the above problems, a "panel for constituting a water / switch panel" has been developed and presented as a Korean Patent Publication No. 10-2004-0001302, which is shown in FIG. As described above, the plated steel sheet 20 is attached to the inner circumference of the heat insulating material 10 in which the glass fibers are compressed, and the painted steel sheet 30 is attached to the outer circumference.

Therefore, such a panel does not have a configuration in which a paint film is formed on the inner and outer surfaces of the steel sheet by powder or fluid after shearing and bending a general steel sheet as described above, and is plated on the inner and outer circumference of the heat insulating material compressing the glass fiber, respectively. Since the panel blocks the heat transmitted from the direct sunlight to some extent because the steel plate and the painted steel plate are attached to each other, the internal temperature of the water / distribution board does not increase significantly, and the deterioration of operation of various equipments and the deterioration of the insulating oil can be prevented. When the arc is generated inside the water / distribution panel, the flame does not stick to the plated steel sheet, which prevents the fire and suppresses the fire even in the event of a fire. It has the effect of blocking to some extent the various noises generated.

By the way, glass fiber has excellent fire resistance and insulation, but it is known that if the wheat fiber of glass fiber is contained in the air, it can cause allergies to the human body and it can cause fatal diseases to the human body because it is not penetrated and emulsified. In spite of the fact that the use of the glass fiber is excluded, the panel for the enclosure constituting the water / distribution panel of the prior art Patent Publication No. 10-2004-0001302 uses the above glass fiber as a heat insulating material. Of course, the situation is adversely affecting the physical health of the worker manufacturing the panel.

In addition, the glass fiber is difficult to reuse and incineration, and must be used as a protective equipment when handling and transporting, adversely affects the human body as described above during long-term handling, and takes a long time to absorb moisture, Insulation is deteriorated, the shape is deformed, semi-incombustible as a mineral, weathering occurs when exposed to air for a long time, there is a problem that causes air pollution as described above by flying into the atmosphere during weathering.

The present invention has been devised to solve such a conventional problem, and has a noise and heat insulation effect when manufacturing the enclosure for water / switchgear to supply the various high load in the ward by lowering the extra high pressure introduced from the outside to low pressure At the same time, a zinc powder-coated outer steel sheet and an inner perforated steel sheet are respectively installed between the composite nonwoven fabric and the composite sheet formed of rubber sheet, which are environmentally friendly materials. By attaching carbon fiber inside or outside, it greatly improves the insulation and sound absorption of water / distribution board, and can prevent deterioration or damage of electric equipment due to temperature change, and prevent the occurrence of fire by arc, etc. Inhalation of high frequency that can occur inside and outside of the building through carbon fiber and then bypassed through the panel and ground rod to the ground. It is possible to prevent the damage of peripheral devices due to high frequency, and in particular, the material itself, which constitutes the composite plate installed for insulation and sound absorption, is environmentally friendly. It is an object of the present invention to provide a panel for a male / outdoor enclosure that can prevent adverse effects from occurring.

In order to achieve the above object, the panel of the present invention is configured to form a panel for forming a water / switchboard, and has a predetermined thickness and is disposed at the center to absorb various sound waves generated inside and outside the water / switch panel. And a rectangular plate-shaped composite plate material which absorbs high frequency as well as bypasses high frequency to the ground through a ground wire connected to the outer steel plate and the inner perforated steel plate and a ground rod embedded in the ground. A plurality of holes are drilled at regular intervals, and a fixing piece is fixed to the frame of the male / switchboard at the periphery, and the inner and outer surfaces or only the outer surface are coated with zinc powder and disposed on the inner surface of the composite plate. Perforated steel sheet; In the main edge portion, the fixing piece is fixed to the frame of the male / switchboard together with the fixing piece of the perforated steel plate is formed bent, and both the inner and outer surfaces or only the outer surface is zinc powder coated and the outer surface of the composite plate material It characterized in that formed into a steel sheet disposed in the.

At this time, the composite plate is a rubber plate for absorbing and blocking sound waves; A non-woven fabric (polyester; abbreviated as "PE") that is adhered to one or both surfaces of the rubber sheet to absorb and block sound waves; It is attached to the outer surface of the PE nonwoven fabric or between the rubber sheet material and the inner surface of the PE nonwoven fabric and absorbs the high frequency generated from the inside or the outside of the water / distribution board and is embedded in the ground through the ground wire connected to the outer steel sheet and the perforated steel sheet inside. Characterized in that consisting of; carbon fiber to be bypassed with the ground rod.

In addition, the rubber sheet is characterized in that made of styrene-butadiene rubber, acrylonitrile-butadiene rubber, natural rubber, synthetic isoprene rubber, neoprene rubber, ethylene-vinylacetate copolymer rubber or mixtures thereof.

In addition, the PE nonwoven fabric has a form in which 30-90% by weight of the high melting point PE fiber and 10-70% by weight of the low melting point PE fiber having a melting point of 20 ° C or more lower than the high melting point PE fiber are randomly mixed.

At this time, the high melting point PE fiber is ethylene glycol, 1,3-propanediol or 1,4-butanediol and dimethyl terephthalate (DMT), terephthalic acid (TPA), dimethyl-2,6-naphthalenedicarboxylate (NDC) Or a polymerization product of 2,6-naphthalenedi carboxylic acid (NDA).

The low melting point PE fiber is characterized in that the polymerization product of ethylene glycol, 1,3-propanediol or 1,4-butanediol and aliphatic dicarboxylic acid having 4-10 carbon atoms.

In addition, the perforated steel sheet and the steel sheet disposed on the inner and outer surfaces with the composite plate interposed therebetween are integrally coupled to each other through a fixing piece, the fixing pieces are mutually connected by a fixture such as spot welding, riveting or screw, etc. Removably fixed to the frame of the hand / switchboard through a screw or the like in an integrated state.

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

1 is a perspective view showing a part of the cut panel of the present invention, Figure 2 is a perspective view of a general male / switchgear housing in which the panel of the invention is installed, Figure 3 is a cross-sectional view of the main portion of the male / switchgear housing in which the panel of the invention is installed. 4 is an exploded perspective view according to an embodiment of the composite plate applied to the panel of the present invention, Figure 5 is an exploded perspective view according to another embodiment of the composite plate applied to the panel of the present invention, Figure 6 (A) (b) shows a side cross-sectional view of the composite plates for explaining the installation state of the composite sheet to the carbon fiber applied to the panel of the present invention.

According to the present invention, in the configuration of the panel detachably installed in the frame of the male body / switchboard,

A ground wire 71 connected to the outer steel sheet 60 and the inner perforated steel sheet 50 by absorbing and blocking high frequency waves as well as absorbing and blocking various sound waves generated inside and outside the water / distribution panel having a predetermined thickness in the center. A rectangular plate-shaped composite plate 40 which bypasses the high frequency to the ground through the underground buried ground rod 70;

A plurality of sound wave inlet holes 52 are drilled at regular intervals, and a fixed piece 51 is fixed to the frame 80 of the male / switchboard at the periphery and bent, and both the inner and outer surfaces or only the outer surface are zinc powder. A perforated steel sheet 50 having a painted structure and disposed on an inner side surface of the composite plate 40;

At the main edge, the fixing piece 61 is fixed to the frame 80 of the male / distribution panel together with the fixing piece 51 of the perforated steel plate 50 through a fixing device 90 such as a screw, and is bent and formed on the inner and outer surfaces thereof. All or only the outer surface has a zinc powder-coated configuration and a steel sheet 60 disposed on the outer surface of the composite plate 40;

At this time, the composite plate 40 and the rubber plate 41 for absorbing and blocking sound waves;

PE nonwoven fabric 42 is bonded to one or both sides of the rubber sheet 41 to absorb and block sound waves;

The outer steel sheet is attached to any position between the outer surface of the PE nonwoven fabric 42 or the inner surface of the rubber sheet 41 and the PE nonwoven fabric 42 to absorb the high frequency generated inside or outside the switchboard. It characterized by consisting of; carbon fiber 43 to be bypassed to the ground through the ground wire 71 connected to the 60 and the inner perforated steel sheet 50 and the ground rod 70 buried underground.

In addition, the rubber plate 41 is characterized in that made of styrene-butadiene rubber, acrylonitrile-butadiene rubber, natural rubber, synthetic isoprene rubber, neoprene rubber, ethylene-vinylacetate copolymer rubber or a mixture thereof.

In addition, the PE nonwoven fabric 42 has a form in which 30-90 wt% of the high melting point PE fiber and 10-70 wt% of the low melting point PE fiber having a melting point of 20 ° C. or more lower than the high melting point PE fiber are randomly mixed. It is done.

At this time, the high melting point PE fiber is ethylene glycol, 1,3-propanediol or 1,4-butanediol and dimethyl terephthalate (DMT), terephthalic acid (TPA), dimethyl-2,6-naphthalenedicarboxylate (NDC) Or a polymerization product of 2,6-naphthalenedi carboxylic acid (NDA).

The low melting point PE fiber is characterized in that the polymerization product of ethylene glycol, 1,3-propanediol or 1,4-butanediol and aliphatic dicarboxylic acid having 4-10 carbon atoms.

In addition, the perforated steel sheet 50 and the steel sheet 60 disposed on the inner and outer surfaces with the composite plate 40 interposed therebetween are integrally coupled to each other through fixing pieces 51 and 61 formed therein. The fixing pieces 51 and 61 are detachably fixed to the frame 80 of the male / switchboard through the fixture 90 while being integrally coupled to each other by a fixture such as spot welding or riveting or a screw. It is characterized by.

Referring to the effect of the panel of the present invention configured as described above are as follows.

First, the panel for male / distribution panel enclosure of the present invention includes a composite plate material 40 having a large rectangular plate body shape, and a perforated steel plate 50 and the composite plate material 40 installed inside the composite plate material 40. What constituted with the steel plate 60 provided in the outer side is made into the main technical component.

At this time, the composite plate 40 is formed by attaching a rubber plate 41, PE nonwoven fabric 42 and the carbon fiber 43 to a predetermined thickness (about 10-15mm or less), the perforated steel sheet 50 and A ground wire connected between the outer steel sheet 60 and the inner perforated steel sheet 50 by absorbing and blocking high frequency waves while absorbing and blocking various sound waves generated inside and outside of the water / distribution panel. 71) and the underground buried ground rod 70 serves to bypass the ground.

In addition, the perforated steel sheet 50 is installed in close contact with the inner surface of the composite plate 40 is formed by bending using an iron plate having a predetermined thickness, various noises generated inside the water / switchboard on the entire surface That is, the sound wave inlet holes 52 for perforating the sound wave to be absorbed by the composite plate 40 side are punched at a predetermined size and interval, and the fixing piece fixed to the frame 80 of the male / switchboard at the peripheral edge 51 is bent to form an overall "cross-section" of approximately "c" shape, and both the inner and outer surfaces or only the outer surface has a configuration of zinc powder coating.

In addition, the outer steel sheet 60, which is provided on the outer surface of the composite plate material 40 is formed by bending using an iron plate having a predetermined thickness, similar to the perforated steel sheet 50, the perforated steel sheet 50 at the peripheral edge The fixing piece 61 is fixed to the frame 80 of the male / switchboard together with the fixing piece 51 of the fixing piece 51 is formed by bending the fixture 90 such as a screw, so that the overall cross-section has a "c" shape. Both the inner and outer surfaces or only the outer surface have zinc powder coating.

In addition, the perforated steel sheet 50 and the outer steel sheet 60 is integrally coupled to each other through a fixing piece 51, 61 formed bent at each peripheral portion, that is, to a fixture such as spot welding, riveting or screw By integrally coupling with each other to form a panel to maintain the shape sandwiched between the composite plate material 40 and the perforated steel sheet 50 and the outer steel sheet 60, as well as such a panel itself is the perforated steel sheet 50 2 and 2 are fixed to the frame 80 of the male / switchboard by using fixing fixtures 51, 61, and screws 90, which are bent at the periphery of the outer steel sheet 60, respectively. It can form the same enclosure.

At this time, the reason for coating the zinc powder on the inner, outer surface or outer surface of the perforated steel sheet 50 and the outer steel sheet 60 is to prevent the oxidation of the steel sheet itself and at the same time to have a beautiful appearance in the arc This is to prevent the fire from spreading even in the event of a fire as well as preventing the fire from burning on the surface of the perforated steel sheet 50 or the outer steel sheet 60 even when a discharge is generated.

On the other hand, the composite plate 40 is largely bonded to one rubber sheet 41 and one or two PE nonwoven fabric 42 and one or two carbon fibers 43 in three layers as shown in Figure 4, or As shown in FIG. 5, the main technical components are those formed by adhering to five layers and having a thickness of approximately 10-15 mm.

At this time, the rubber plate 41 is made of any one of styrene-butadiene rubber, acrylonitrile-butadiene rubber, natural rubber, synthetic isoprene rubber, neoprene rubber, ethylene-vinylacetate copolymer rubber, or a mixture thereof, It absorbs and blocks sound waves.

In addition, the PE nonwoven fabric 42, which is bonded to one surface (see FIG. 4) or both surfaces (see FIG. 5) of the rubber sheet 41 by low temperature fusion, absorbs and blocks sound waves, has a high melting point PE fiber 30-90 weight. % And 10-70% by weight of the low melting point PE fiber having a melting point of 20 ° C. or more lower than that of the high melting point PE fiber are mixed and molded at random.

At this time, the high melting point PE fiber is ethylene glycol, 1,3-propanediol or 1,4-butanediol and dimethyl terephthalate (DMT), terephthalic acid (TPA), dimethyl-2,6-naphthalenedicarboxylate (NDC) Or formed using a polymerization product of 2,6-naphthalenedi carboxylic acid (NDA), wherein the low melting PE fiber is ethylene glycol, 1,3-propanediol, or 1,4-butanediol and 4-10 carbon atoms It is formed using the polymerization product of aliphatic dicarboxylic acid.

In addition, the carbon fiber 43 is the outer surface (see Fig. 6 (a)) of the above-described PE nonwoven fabric 42 or between the rubber sheet material 41 and the inner surface of the PE nonwoven fabric 42 (( b) a ground wire 71 attached to any one position using an adhesive and absorbing high frequency generated inside or outside the water / distribution board to be connected to the outer steel sheet 60 and the inner perforated steel sheet 50. The ground rod 70 is buried to the ground through the ground.

At this time, the carbon fiber 43 is a high-strength fiber using a crystal structure of carbon atoms is a reinforcing fiber that is most used in the production of composite materials, such carbon fiber PAN system and Pitch system depending on the material (precursor) before the manufacture Although divided into carbon fibers, PAN-based carbon fibers were used in the present invention.

On the other hand, the carbon fiber 43 is more preferably attached to the outer surface of the PE nonwoven fabric 42 than the attachment between the rubber plate 41 and the inner surface of the PE nonwoven fabric 42, the reason is When the carbon fiber 43 is attached between the rubber plate 41 and the inner surface of the PE nonwoven fabric 42, only the periphery is in contact with the fixing piece 61 of the outer steel sheet 60, whereas the carbon fiber ( 43 is attached to the outer surface of the PE nonwoven fabric 42, so that the entire outer surface of the carbon fiber 43 is in direct contact with the inner surface of the outer steel sheet 60 or perforated steel sheet 50, High frequency generated inside and outside the switchboard and absorbed by the carbon fiber 43 is through the outer steel sheet 60 or the perforated steel sheet 50 having a state connected to the ground rod 70 through the ground line 71 as shown in FIG. Is delivered immediately to the ground through the ground wire 71 and the ground rod 70 Because it can switch Ife.

Hereinafter, the manufacturing method of the composite plate material 40 having the configuration in which the carbon fiber 43 is attached to the outer surface of the PE nonwoven fabric 42 will be described.

First, 30-90% by weight of the high melting point PE fiber and 10-70% by weight of the low melting point PE fiber having a melting point of 20 ° C. or more lower than the high melting point PE fiber are randomly mixed on at least one side or both sides of the rubber sheet 41. The fiber aggregates are disposed, wherein the PE resin pellets made of the same chemical composition as the low melting PE fibers are uniformly disposed between the rubber sheet material 41 and the fiber aggregates in advance.

In general, the manufacturing method is characterized in that the low melting point PE pellets are used, instead of using an adhesive in which organic polymers are dissolved in a toxic organic solvent when bonding two different plates.

Bonding the rubber sheet 41 and the PE nonwoven fabric 42 produced by heating and compressing the fiber aggregate in this manner can eliminate the health threat problem and the environmental pollution problem of workers resulting from evaporation of toxic organic solvent. .

Thereafter, the resultant is heated to a temperature lower than the melting point of the high melting point PE fiber and higher than the melting point of the low melting point PE fiber, wherein the heating temperature depends on the melting points of the selected high melting point PE fiber and the low melting point PE fiber. Typically, heating with hot air at 90-200 ° C. allows the low-melting PE fibers to be partially or fully melted but the high-melting PE fibers soften to some extent to aid in bonding but not to melt.

Subsequently, when the resultant is compressed, the fiber assembly is compressed to a high density PE nonwoven fabric 42 and adhered to the rubber sheet 41. Such a compression process is carried out on a cold compression roller cooled to 5-10 ° C. It is made by passing, and the reason for cooling in the above temperature range is because the problem that the wrinkles in the composite plate 40 does not occur.

At this time, the PE nonwoven fabric 42 is not only adhered to the rubber sheet 41 by the melt of the low melting point PE pellet formed by melting in the previous heating step, but also the low melting point fiber in the PE nonwoven fabric is also partially or completely melted to make the high melting point fiber. Since it is combined with the structure of the PE nonwoven fabric 42 is densely overall to increase the mechanical strength of the PE nonwoven fabric and to exert the effect of absorbing and blocking sound waves.

Once the heating and pressing process is completed, the PE nonwoven composite plate 40 used in the present invention is applied once the adhesive is applied to the outer surface of the PE nonwoven fabric 42 and the carbon fiber 43 is attached again after cooling. Is completed.

As a result of testing and comparing the physical properties of the PE nonwoven fabric 42 used in the composite plate material 40 manufactured through such a process and the glass fiber has been widely used in the past as follows.

Manufacturing method material Sound Absorption Rate (NRC) Thermal conductivity Density (㎏ / ㎥) Heat resistance temperature (℃)  PE nonwoven fabric Manufactured by thermocompression bonding 100% polyester (self melt bonding) Polyester organic  0.75-0.80  0.030-0.039  10-400  260  Fiberglass Manufactured by molding glass fiber (using adhesive) Sio ₂ Mineral  0.75-0-80  0.028-0.043  32-75  350

On the other hand, for the absorption and blocking of sound waves as described above, using a composite plate 40 composed of a rubber sheet 41, a PE nonwoven fabric 42 and a carbon fiber 43 without using glass fibers as in the prior art is recycled And easy incineration, no particle generation, no damage to the product during transportation and handling, no need to use protective equipment, easy to work with, PE non-woven fabric itself is environmentally friendly, harmless to human body, excellent in strength and cohesion, The drainage time is short and there is no change, so the sound-absorption effect is maintained continuously even after a long period of time, and it does not give self-extinguishing and flame as an organic substance. There is an advantage that no pollution occurs.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the panel for water / distribution panel enclosure of the present invention, the panel itself used when manufacturing the enclosure for water / distribution panel which lowers the extra high pressure introduced from the outside to low pressure and supplies it to various loads in the premises And a zinc powder-coated outer steel sheet and an inner perforated steel sheet, respectively, having a high thermal insulation effect and a composite non-woven fabric and a composite sheet formed of a rubber sheet, which are environmentally friendly materials, respectively. By forming carbon fiber on the inside or outside when forming, it can greatly improve the heat insulation and sound absorption of water / distribution board, and can prevent the deterioration or damage of electric equipment due to temperature change, and prevent the occurrence of fire by arc Steel sheet and ground after inhaling high frequency that can be generated inside and outside the enclosure through carbon fiber. It can be bypassed to the ground through to prevent the damage of peripheral devices due to high frequency, and in particular, when constructing a composite plate installed for insulation and sound absorption, the material that composes the composite plate by using eco-friendly polyester nonwoven fabric It is a very useful invention that can prevent the environmental pollution caused by itself as well as adversely affecting the physical health of the worker.

Claims (7)

In constructing the panel forming the housing for the water / switchboard, It is placed in the center and absorbs and blocks various sound waves generated inside and outside of the water / distribution board, as well as absorbs high frequency, and bypasses the high frequency to the ground through the ground wire connected to the outer steel plate and the perforated steel plate and the ground rod embedded in the ground. Giving composite plate; Several sound wave inlet holes are drilled at regular intervals, and a fixing piece fixed to the frame of the water / distribution panel is bent at the periphery, and the inner and outer surfaces or only the outer surface are coated with zinc powder. Perforated steel sheet disposed on the side; At the main edge portion, the fixing piece is fixed to the frame of the male / switchboard together with the fixing piece of the perforated steel sheet is formed bent, and both the inner and outer surfaces or only the outer surface is coated with zinc powder, and the outer surface of the composite plate The steel / panel panel for housing / distribution panel characterized in that formed from. The method according to claim 1, The composite plate is a rubber plate for absorbing and blocking sound waves; PE nonwoven fabric bonded to one or both sides of the rubber sheet material to absorb and block sound waves; It is attached to the outer surface of the PE nonwoven fabric or between the rubber sheet material and the inner surface of the PE nonwoven fabric and absorbs the high frequency generated from the inside or the outside of the water / distribution board and is embedded in the ground through the ground wire connected to the outer steel sheet and the perforated steel sheet inside. The panel for male / switchgear enclosure, characterized in that consisting of; The method according to claim 2, The rubber sheet material is for styrene-butadiene rubber, acrylonitrile-butadiene rubber, natural rubber, synthetic isoprene rubber, neoprene rubber, ethylene-vinylacetate copolymer rubber, or any one or a mixture thereof. panel. The method according to claim 2, The PE nonwoven fabric has a water / distribution panel having a form in which 30-90% by weight of the high melting point PE fiber and 10-70% by weight of the low melting point PE fiber having a melting point of 20 ° C. or more lower than the high melting point PE fiber are randomly mixed. Enclosure panel. The method according to claim 4, The high melting point PE fiber is ethylene glycol, 1,3-propanediol or 1,4-butanediol and dimethyl terephthalate (DMT), terephthalic acid (TPA), dimethyl-2,6-naphthalenedicarboxylate (NDC) or 2 And a 6-naphthalenedi carboxylic acid (NDA) polymerization product. The method according to claim 4, The low melting point PE fiber is ethylene glycol, 1,3-propanediol, or 1,4-butanediol and the polymerization product of the C4-10 aliphatic dicarboxylic acid, characterized in that the panel for water / distribution panel enclosure. The method according to claim 1, Perforated steel sheets and steel sheets disposed on the inner and outer surfaces with the composite plate interposed therebetween are integrally coupled to each other through fixing pieces, and the fixing pieces are integrally connected to each other by a fixture such as spot welding, riveting, or screws. Panel for male / switchgear housing, characterized in that fixed to be installed detachably to the frame of the male / switchgear through the fixture in the combined state.

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