KR101883496B1 - Manufacturing method of functional panel for ground transformer - Google Patents

Abstract

The present invention relates to a manufacturing method for a functional panel of a ground transformer. According to the present invention, the manufacturing method for a functional panel of a ground transformer comprises: a polymer elasticity binding layer forming step (S10) of applying polymer elasticity paint onto one side or both sides of a metal panel forming a case for protecting a ground transformer and forming a polymer elasticity binding layer elastically binding the surface of the panel; and a hardening step (S20) of hardening the polymer elasticity binding layer formed on the surface of the panel. After the polymer elasticity paint is simply sprayed and applied to one side or both sides of the metal panel, the polymer elasticity binding layer having an excellent elasticity binding force by being hardened is formed. So, durability of the panel is reinforced. The manufacturing method for a functional panel of a ground transformer can safely protect people in a periphery of the ground transformer from an explosion by preventing or minimizing damage to a case from the explosion of the transformer. Also, the polymer elasticity binding layer is formed in a lattice shape of a strong structure in which multiple binding bands are accumulated and bound. So, the durability of the panel is reinforced by the polymer elasticity binding layer, and structural safety of the case can be obtained.

Description

Technical Field [0001] The present invention relates to a method of manufacturing a functional panel for ground transformers,

The present invention relates to a method of manufacturing a functional panel for a ground transformer, and more particularly, to a method of manufacturing a functional panel for a ground transformer, and more particularly, to a method of manufacturing a functional panel for a ground transformer by applying a polymeric elastic paint on one surface or both surfaces of a metal panel, It is possible to prevent or minimize the damage of the case from the explosion in the inside or outside of the substation facility so as to safely protect the persons around the ground transformer from the explosion and also to prevent the polymeric elastic binding layer from being damaged, The present invention relates to a method of manufacturing a functional panel for a ground transformer, which can secure structural stability of a case by strengthening the durability of the panel through the polymeric elastic bonding layer.

Generally, in order to supply electric power to the consumers, a ground transformer installed on the ground is widely used because the high voltage is reduced to 22.9 kV to supply electric power to a general customer.

Such ground transformers are provided with facilities such as transformers and switches, and the facilities are built into the case and are protected and managed.

Meanwhile, the above-mentioned case is usually manufactured by assembling a plurality of metal material panels. However, since the case thus manufactured has no separate function to protect the equipment and the periphery thereof, there is a problem that the safety around the ground transformer is somewhat low have.

For example, the case does not have the function of blocking the electromagnetic wave from the transformer, so that the people around the ground transformer may be exposed to electromagnetic waves and be harmful to the human body,

There is a problem that moisture or condensation is generated on the surface of the case because it does not have a function of adjusting the humidity of the inside of the case,

Even if the equipment explodes due to an electrical safety accident, there is a risk that a large explosion could result in an accident due to the explosion of the equipment because the case does not have an explosion-proof function capable of preventing the impact of the explosion.

Therefore, it is necessary to develop a functional panel that can safely protect the facilities of the ground transformer.

Disclosure of the Invention The present invention has been proposed in order to solve all of the problems as described above. The object of the present invention is to provide a method for forming a polymer elastic binding layer having excellent elastic binding force by spraying a polymeric elastic paint on one surface or both surfaces of a metal panel, Thereby enhancing the durability of the panel. Thus, it is possible to prevent or minimize damage to the case from the explosion of the substation facility, thereby safely protecting the persons around the ground transformer from the explosion. In addition, the polymeric elastic binding layer has a plurality of tie- And the durability of the panel through the polymeric elastic bonding layer can be further enhanced, thereby securing the structural safety of the case. The present invention also provides a method for manufacturing a functional panel for a ground transformer.

In addition, since the plate-shaped porous ceramic material is disposed on one side of the panel, the electromagnetic wave emitted from the transformer is prevented from being diverted to the surroundings, thereby preventing secondary social problems caused by electromagnetic waves, and at the same time, The present invention provides a method of manufacturing a functional panel for a ground transformer, which can prevent electric safety accidents due to moisture or condensation inside the case.

In addition, by disposing a dustproof panel on one side of a panel placed on the ground, it absorbs fluctuations such as external impacts and earthquakes, thereby preventing collapse of the case due to strong shaking and further enhancing structural safety of the case. And a method for manufacturing a functional panel.

According to another aspect of the present invention, there is provided a method of fabricating a functional panel for a ground transformer, comprising: applying a polymeric elastic paint to one or both surfaces of a metal panel constituting a case for protecting a ground transformer, A step (S10) of forming a polymeric elastic bonding layer (10) for forming a polymeric elastic bonding layer; and a curing step (S20) for curing the polymeric elastic bonding layer formed on the surface of the panel,
The polymeric elastic binding layer forming step (S10) is a step of forming a first vertical binding band by vertically applying a polymeric elastic paint and applying a polymeric elastic paint long in a horizontal direction so as to cross the center of the first vertical binding band Applying a polymeric elastic paint so as to be in contact with the primary vertical binding band on both outer sides of the primary vertical binding band and vertically so as to be in close contact with the primary vertical binding band, Wherein the first and second vertical binding straps are formed by applying a polymeric elastic paint to the upper and lower sides of the primary horizontal binding straps so that they are in close contact with the primary horizontal binding straps, A second horizontal binding band is formed,
The vertical binding band and the horizontal binding band are sequentially formed successively and the polymeric elastic binding layer is formed in a lattice pattern due to a plurality of the vertical and horizontal binding straps so that a plurality of the vertical and horizontal binding straps are stacked and firmly connected to each other So that the polymeric elastic bonding layer can firmly bind the surface of the panel.

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Further, the method may further include a porous ceramic arranging step (S30) of arranging a plate-shaped porous ceramic material on one side of the panel on which the polymeric elastic binding layer is formed.

The method may further include arranging a dustproof panel having elasticity on one surface of a panel disposed on the ground, wherein the dustproof panel is disposed at a predetermined interval on the lower surface of the dustproof panel, A plurality of horizontal deflection grooves are formed.

In addition, a plurality of vertical deformation grooves are formed at a predetermined interval in a direction orthogonal to the horizontal deformation grooves on the lower surface of the dustproof panel, and the vertical deformation grooves are formed to communicate with the horizontal deformation grooves.

As described above, according to the method for manufacturing a functional panel for a ground transformer according to the present invention, a polymeric elastic paint is easily sprayed on one side or both sides of a metal panel and then cured to form a polymeric elastic binding layer having excellent elastic binding force, It is possible to prevent or minimize the damage of the case from the explosion in the inside or outside of the substation facility so as to safely protect the persons around the ground transformer from the explosion and also to prevent the polymeric elastic binding layer from being damaged, And the durability of the panel through the polymeric elastic bonding layer can be further strengthened, so that the structural safety of the case can be secured.

In addition, since the plate-shaped porous ceramic material is disposed on one side of the panel, the electromagnetic wave emitted from the transformer is prevented from being diverted to the surroundings, thereby preventing secondary social problems caused by electromagnetic waves, and at the same time, It is possible to prevent electric safety accidents due to moisture or condensation inside the case.

In addition, by disposing the dust-proof panel on one surface of the panel disposed on the ground, it is possible to prevent collapse of the case due to strong shaking by absorbing external shocks such as an impact or an earthquake, thereby further enhancing the structural safety of the case .

1 is a block diagram of a method of manufacturing a functional panel for a ground transformer according to an embodiment of the present invention.
2 is a view for explaining a method of manufacturing a functional panel for a ground transformer shown in Fig. 1
3 is a view showing a case made of a panel of the method for manufacturing a functional panel for ground transformer shown in Fig. 1

A method of manufacturing a functional panel for a ground transformer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 is a block diagram of a method of fabricating a functional panel for a ground transformer according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of a method of fabricating a functional panel for a ground transformer according to an embodiment of the present invention. Fig. 3 is a view showing a case made of a panel of the method for manufacturing a functional panel for ground transformer shown in Fig. 1, respectively.

As shown in the drawing, the method 100 for fabricating a functional panel for a ground transformer according to an embodiment of the present invention includes a polymeric elastic binding layer forming step (S10) and a curing step (S20).

As shown in FIGS. 1 and 2, the polymeric elastic bonding layer forming step S10 may be performed by applying a polymeric elastic paint to one side or both sides of a metal panel 1 constituting a case C for protecting a ground transformer The polymeric elastic coating material applied to the surface of the panel 1 is sprayed in such a manner as to spray the surface of the panel 1 to form the surface of the panel 1, So that the polymeric elastic paint can be applied quickly and precisely.

Here, the process of forming the polymeric elastic bonding layer 10 through the polymeric elastic bonding layer forming step S10 on the surface of the panel 1 will be described.

First, as shown in FIG. 2A, the polymeric elastic paint is sprayed and applied perpendicularly to the center of the surface of the panel 1 to form a primary vertical binding band 11, The primary elastic binding tape 11 is applied so as to cross the center of the primary vertical binding band 11 to form a primary horizontal binding band 12,

Then, as shown in FIG. 2B, the polymeric elastic paint is sprayed vertically on both outer sides of the primary vertical binding band 11 so as to be in close contact with the primary vertical binding band 11, A secondary vertical binding band 13 crossing the vehicle horizontal binding band 12 is formed,

A polymeric elastic paint is sprayed horizontally on the upper and lower sides of the primary horizontal binding band 12 so as to be in close contact with the primary horizontal binding band 12, 11, 13) are formed.

2C, when the vertical bonding band and the horizontal bonding band are successively formed and filled in the surface space of the panel 1, a plurality of the vertical and horizontal binding bands are naturally stacked together, The polymeric elastic bonding layer 10 is formed.

Accordingly, the polymeric elastic bonding layer 10 can firmly bind the surface of the panel 1 due to the structure in which a plurality of the vertical and horizontal binding bands are laminated and firmly connected to each other. Therefore, as shown in FIG. 3, The case C assembled with the panel 1 of the case 1 has an excellent elastic binding force of the polymeric elastic binding layer 10 and a shock caused by vibration, The impact due to the explosion of the substation can be absorbed and the structural safety of the case (C) can be enhanced.

Here, as the polymeric elastic paint, it is preferable to use a paint containing polyurethane or polyurea having excellent elasticity, but it is needless to say that it is not limited to these raw materials.

As shown in FIG. 1, the curing step S20 is a step of curing the polymeric elastic bonding layer 10 formed on the surface of the panel 1.

Here, the curing step (S20) is performed at room temperature, and is cured in a suitable time considering the material of the polymeric elastic paint or the thickness of the polymeric elastic bonding layer (10).

Meanwhile, as shown in FIGS. 1 and 2d, a porous ceramic arrangement step S30 of arranging a plate-shaped porous ceramic material 20 on one surface of the panel 1 formed with the polymeric elastic bonding layer 10; .

As shown in FIG. 3, when the case C is manufactured using the panel 10 formed with the porous ceramic material 20, the case C is formed due to the characteristics of the ceramic material such as moisture, (Transformer, high-voltage electric wire, etc.) inside the case (C) to prevent the electric shock of the transformer caused by the moisture or condensation that may occur in the case It can be expected that the damage caused by electromagnetic waves can be minimized.

In addition, the panel 1 having the polymeric elastic bonding layer 10 and the porous ceramic material 20 formed on the hot summer day can prevent the penetration of the external heat source, thereby lowering the internal temperature of the case (C) Therefore, it is possible to stably prevent safety accidents such as damage and breakage due to overheating of the internal power supply in the case.

The plate-like porous ceramic material 20 as described above is widely manufactured by a method such as plastic working, and a detailed description thereof will be omitted.

1 and 2E, a vibration damping panel arrangement step S40 of arranging a vibration damping panel 30 having elasticity on one side of the panel 1 disposed on the ground,

The vibration damping panel 30, which is in close contact with the ground, has a plurality of horizontal deformation grooves 31 formed at a predetermined interval on the lower surface thereof.

Therefore, as shown in FIG. 3, the panel 1 with the protection panel 30 is disposed at a lower portion which is in contact with the ground during the manufacture of the case C, so that when a natural disaster such as an earthquake occurs, (Shrinkage and expansion) due to the horizontal deformation grooves 31 together with the elasticity (cushion) of the protection panel 30 itself, the vibration of the case C and the substation To prevent the collapse of the earthquake, and to prevent the large accident caused by the earthquake stably.

As shown in FIG. 2E, a plurality of vertical deformation grooves 32 are formed on the lower surface of the dustproof panel 30 at regular intervals in a direction perpendicular to the horizontal deformation grooves 31, (32) is formed to communicate with the horizontal deformation groove (32).

That is, as shown in FIG. 3, the horizontal deformation groove 31 and the vertical deformation groove 32 are formed in the lower portion of the dustproof panel 30, so that the horizontal and vertical deformation grooves 31 and 32 The shock absorbing panel 30 can be smoothly deformed (contracted and expanded) in the front, rear, left, and right directions through the through-holes 31a and 31a to effectively absorb the shock caused by the shaking, thereby effectively preventing collapse of the case C and the substation due to the earthquake .

The method 100 for fabricating a functional panel for a ground transformer according to the present invention comprises the steps of spraying a polymeric elastic paint on one surface or both surfaces of a metal panel 1 and then curing the polymeric paint, Since the durability of the panel 1 is enhanced by forming the elastic binding layer 10, it is possible to prevent or minimize damage to the case from the explosion of the substation equipment, thereby safely protecting the persons around the ground transformer from the explosion, The elastic binding layer 10 may be formed in a lattice form having a rigid structure in which a plurality of binding bands are laminated together so that the durability of the panel 1 through the polymeric binding layer 10 can be further enhanced, The structural safety can be secured.

In addition, by disposing the plate-shaped porous ceramic material 20 on one surface of the panel 1, the electromagnetic wave emitted from the transformer is prevented from being diverted to the surroundings, and at the same time, It is possible to prevent electric safety accidents due to moisture and condensation in advance.

Further, by disposing the dustproof panel 30 on one surface of the panel 1 disposed on the ground, it is possible to absorb shocks such as an external shock or an earthquake to prevent collapse of the case C due to strong shaking, C) can be strengthened.

The method 100 for fabricating a functional panel for ground transformer according to an embodiment of the present invention having the above-described structure is manufactured and used as follows.

First, as shown in FIGS. 2A to 2C, in order to manufacture a panel 1 of a case C for protecting a substation including a transformer, a polymer elastic paint is sequentially sprayed on one surface of a panel 1 And cured for a predetermined time to form a rigid polymeric elastic bonding layer 10 having a lattice pattern structure.

In this case, it is needless to say that the polymeric elastic paint is easily adhered and fixed by removing foreign matters on one side of the panel 1 to which the polymeric elastic paint is to be applied.

Here, the polymeric elastic bonding layer 10 may be formed on one side of the panel 1, but the polymeric elastic bonding layer 10 may be formed on both sides of the panel 1. (S10), (S20)

Then, as shown in FIG. 2 (d), a plate-shaped porous ceramic material 20 is arranged and bonded to one surface of the panel 1 having the polymeric elastic bonding layer 10 formed thereon.

Here, the porous ceramic material 20 is fixed to the panel through an adhesive, but it is not necessary to use the porous ceramic material 20 in a limited manner. (S30)

Then, as shown in FIG. 2E, a dustproof panel 30 having elasticity is arranged and connected to one surface of a panel 1 disposed on the ground to produce a panel 1 having excellent functions (impact absorbing property, moisture resistance, etc.) do. (S40)

3, the case C, which is formed by assembling the panel 1 manufactured as described above, has a structure in which the polymeric elastic bonding layer 10, the porous ceramic material 20, and the vibration- Each function can be expected to absorb the strong impact such as the explosion of the substation and the earthquake, which not only induces stable use of the substation facility but also prevents the condensation phenomenon and the electromagnetic wave interception itself, Can be used.

In order to further enhance the function of the panel 1 manufactured as described above, the porous ceramic material 20 and the dustproof panel 30, which are attached to the panel 1, are coated with a polymeric elastic paint on their surfaces, The function of the polymeric elastic bonding layer 10 may be separately added.

The use of the panel 1 manufactured by the method of manufacturing a functional panel for a ground transformer 100 according to the present invention is applied to the case C in which the substation is installed, Of course, it can be applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

C. Case
1. Panel
10. Polymer elastic binding layer 11. Primary vertical binding band
12. Primary horizontal binding band 13. Secondary vertical binding band
14. Secondary horizontal binding strap 20. Porous ceramic material
30. Dustproof panel 31. Horizontal deformation groove
32. Vertical deformation groove
S10. Step of forming polymeric elastic binding layer
S20. Curing step
S30. Porous ceramic placement step
S40. Step of disposing dustproof panel
100. Manufacturing method of functional panel for ground transformer

Claims (5)

A polymeric elastic bonding layer (10) for forming a polymeric elastic bonding layer (10) for elastically binding the surface of a panel by applying a polymeric elastic paint on one surface or both surfaces of a metal panel (1) constituting a case (C) Forming step S10; And
And a curing step (S20) of curing the polymeric elastic bonding layer (10) formed on the surface of the metal panel (1)
The polymeric elastic binding layer forming step S10 is a step of forming a first vertical binding band 11 by vertically applying a polymeric elastic paint and applying a polymeric elastic paint long in a horizontal direction, ) Of the primary vertical binding band 11 so as to be perpendicular to the primary vertical binding band 11 so as to be in contact with the primary vertical binding band 11 on both outer sides of the primary vertical binding band 11, A second vertical binding band (13) crossing the primary horizontal binding band (12) is formed on the upper and lower sides of the primary horizontal binding band (12) The secondary horizontal binding band 14 crossing the primary and secondary vertical binding bands 11 and 13 is formed by horizontally applying a polymeric elastic paint so as to be in close contact with the car horizontal binding band 12,
Since the polymeric elastic binding layer 10 is formed in a lattice pattern by a plurality of the vertical and horizontal binding bands successively by successively forming the vertical binding band and the horizontal binding band, a large number of the vertical and horizontal binding bands are stacked on each other And the polymeric elastic bonding layer (10) can firmly bind the surface of the panel due to the rigidly connected structure.
delete The method according to claim 1,
And a porous ceramic arranging step (S30) of arranging a plate-shaped porous ceramic material (20) on one side of the panel (1) on which the polymeric elastic binding layer (10) is formed. ≪ / RTI >
The method of claim 3,
(S40) of arranging a vibration-damping panel (30) having elasticity on one surface of a panel (1) arranged on the ground,
Wherein a plurality of horizontal deformation grooves (31) are formed on the lower surface of the vibration damping panel (30) which are in close contact with the ground.
5. The method of claim 4,
A plurality of vertical deformation grooves 32 are formed on the lower surface of the dustproof panel 30 at regular intervals in a direction perpendicular to the horizontal deformation grooves 31. The vertical deformation grooves 32 are formed in the horizontal deformation grooves 32, 31). ≪ RTI ID = 0.0 > 31. < / RTI >

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