KR20020067954A - lagging insulation for piping utilizing styrofoam - Google Patents

Abstract

According to the present invention, a thermal insulation material for pipes using styrofoam is molded into a half pipe shape so that the inner grooves are in close contact with the outer circumference of the pipe 10, and the pair of styrofoams 110 is formed. Attached to the outer periphery, but the aluminum sheet 121 and the vinyl chloride sheet 123 is attached with an adhesive, but between the aluminum sheet 121 and the softened vinyl 123, weaving glass fiber yarn or polyester yarn 122 inside Insert the non-combustible material 120 and the non-combustible material 120 attached to the pair of styrofoam 110 to the lower side to form the upper and lower coupling pieces 131 coated with the adhesive 133 and extend one side. Since it is composed of the adhesive portion 130 formed by the left and right coupling pieces 132, it is possible to easily and conveniently combine the pipe pipe styrofoam of the half-pipe shape through the adhesive portion to improve the workability and workability and strength Not only does it reduce the brittleness and improve the warpage, but also it prevents the styrofoam from easily dissolving in the early stage of fire, which delays the generation of toxic gases, and the non-combustible material reflects the heat source to maximize thermal insulation. It works.

Description

Lagging insulation for piping utilizing styrofoam}

The present invention relates to a thermal insulation material for pipes using styrofoam, and in detail, it is possible to easily and conveniently carry out the thermal insulation and insulation work of the pipe and to improve the fire resistance and thermal insulation insulation properties and to improve the strength and bending properties to bend freely to some extent. It relates to a thermal insulation for piping using styrofoam to improve workability.

In general, pipe piping refers to laying pipes, such as ducts, pipes, and tubes, which are used in gas, liquid, powder, and solid materials in water.

Metal materials (cast iron pipe, steel pipe, stainless steel pipe, copper pipe, brass pipe, lead pipe), inorganic material pipe (reinforced concrete pipe, asbestos cement pipe, ceramic pipe), various synthetic resin pipes (hard vinyl chloride pipe, polyethylene pipe) Etc. are used.

Depending on the application, water supply, hot water supply, fire extinguishing, drainage, ventilation, air conditioning and heating, air conditioning, refrigeration, ventilation, dust collection, compressed air, compressed air, city gas, electric power Dedicated ducts) and chemical industries.

The choice of the material of the pipe, the diameter of the pipe and the thickness of the pipe wall depends on the specificity of their respective fields, the chemical properties of the transport fluid, the flow rate, the flow rate and the pressure.

In this case, the pipe is wrapped around the outer periphery of the pipe to insulate or insulate it to minimize the loss of energy due to heat exchange or to prevent the cold air from being transferred during the winter to prevent the pipe from freezing.

Styrofoam (foamed polystyrene) of the thermal insulation is widely used as the thermal insulation and insulation of the pipe due to its ease of use, excellent thermal insulation / insulation effect and low price.

However, such styrofoam is very weak to heat, so it is not only vulnerable to fire, but also easily melts in the early stages of fire to generate toxic gases, causing serious human injury by toxic gases.

In addition, the styrofoam has a weak strength, such as good handleability but not easily brittle and hardly warp.

Furthermore, the styrofoam for piping has a problem in that workability is in spite of being inexpensive because the styrofoam processed in a half-pipe shape is wound on the pipe several times and installed in the pipe in close contact with the pipe.

Therefore, the main object of the present invention is to be able to easily and conveniently combine the pipe pipe styrofoam of the half-pipe shape through the adhesive portion to improve the workability and workability.

Another object of the present invention is to improve the strength of the styrofoam for pipes of the half-pipe shape to suppress brittleness and improve the warpage.

Another object of the present invention is to attach a non-combustible material to the outer periphery of the styrofoam for pipes of the half-pipe shape to suppress the easy melting of the styrofoam early in the event of a fire to delay the generation of toxic gases.

Another object of the present invention is to maximize the thermal insulation by reflecting the heat source of the non-flammable material attached to the outer circumference of the styrofoam for piping of the half-pipe shape.

1 is a perspective view showing a thermal insulation for piping using styrofoam according to the present invention.

Figure 2 is a perspective view showing the use state of the thermal insulation insulation installation for pipes using styrofoam according to the present invention.

Figure 3 is a perspective view for explaining the non-combustible material of the thermal insulation for piping using styrofoam according to the present invention.

Explanation of symbols of main part of drawing

10: piping 100: thermal insulation

110: styrofoam 120: non-combustible material

121: aluminum sheet 122: glass fiber yarn or polyester yarn

123: vinyl chloride sheet 130: adhesive portion

131: upper and lower coupling pieces 132: left and right coupling pieces

133: adhesive 134: release paper

In order to achieve this purpose, the thermal insulation material for pipes using styrofoam is a pair of styrofoam formed into a half pipe shape, a non-combustible material attached to the outer periphery of the pair of styrofoam, and an adhesive is applied to the non-combustible material. Consisting of the adhesive portion formed of the upper and lower coupling pieces and the left and right coupling pieces is a basic feature of the technical configuration.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

1 is a perspective view showing a thermal insulation insulation for pipes using a styrofoam according to the present invention, Figure 2 is a perspective view showing a state of installation of thermal insulation insulation for pipes using a styrofoam according to the present invention, Figure 3 is a styrofoam according to the present invention It is a perspective view shown to explain the non-combustible material of the thermal insulation insulation for piping using.

As shown in Figures 1 to 3, the thermal insulation for piping using the styrofoam of the present invention is attached to a pair of styrofoam 110 formed in a half pipe shape, and the outer periphery of the pair of styrofoam 110 It consists of a non-combustible material 120 and the adhesive portion 130 formed of the upper and lower coupling pieces 131 and the left and right coupling pieces 132 to which the adhesive 133 is applied to the non-combustible material 120.

The styrofoam 110 is formed in a half pipe shape, but the inner diameter is formed to match the outer circumference of the pipe.

The non-combustible material 120 is attached to the aluminum sheet 121 and the vinyl chloride sheet 123 by an adhesive, but between the aluminum sheet 121 and the softened vinyl 123, glass fiber yarn or polyester yarn 122 It is preferable to weave and join together together.

The non-combustible material 120 may be formed of only the aluminum sheet 121 and attached to the outer circumference of the styrofoam 110 having a half pipe shape.

Furthermore, the non-combustible material 120 may be attached to the outer periphery of the styrofoam 110 of the half-pipe shape by attaching only the vinyl chloride sheet 123 to the aluminum sheet 121.

The adhesive part 130 forms the upper and lower coupling pieces 131 on the lower portion of the non-combustible material 120 and forms the left and right coupling pieces on one side, and applies the adhesive 133 to the inner surfaces of the upper and lower and left and right coupling pieces 131 and 132. It is formed by attaching the release paper 134 on the surface.

That is, the horizontal length of the non-combustible material 120 is longer than the outer circumferential length of the pair of styrofoam 110 in a half-pipe shape to form the left and right coupling pieces 132 on one side, and the vertical length of the non-combustible material 120 is styrofoam. Longer than the length of the (110) to form a vertical coupling piece 131 in the lower portion.

Referring to the operation of the present invention as follows.

First, the aluminum sheet 121 and the vinyl chloride sheet 123 are attached to each other, and the nonwoven material 120 is manufactured by inserting a woven glass fiber yarn or polyester yarn 122 therebetween. The horizontal length is longer than the outer circumferential length of the pair of styrofoam 110 in the shape of a half pipe so that the left and right coupling pieces 132 are formed on one side, and the longitudinal length of the non-combustible material 120 is greater than the length of the styrofoam 110. The length is cut to form the upper and lower coupling pieces 131 in the lower portion.

The cut non-combustible material 120 is attached to the outer periphery of the pair of styrofoam 110 in the shape of a half pipe, but the upper and lower coupling pieces 131 and the left and right coupling pieces 132 are attached to the lower side and one side to form the upper and lower coupling pieces. The adhesive 133 is applied to the inner surfaces of the 131 and the left and right coupling pieces 132 and the release paper 134 is attached to complete the heat insulating insulation material 100 for the pipe.

Here, the adhesive 133 applied to the upper and lower coupling members 131 and 132 is preferably applied together when the adhesive is applied to the inner surface of the non-combustible material for attaching the styrofoam 110 to minimize the work maneuver.

The thermal insulation insulating material 100 for the pipe of the present invention first by expanding the non-attached portion of the pair of styrofoam 110 attached to the non-combustible material 120 to the pipe 10 to be insulated or insulated pipe 10 While the outer peripheral edge of the styrofoam 110 to wrap the inner paper of the releasing paper 134 to remove the upper and lower coupling pieces 131 attached to the upper end of the already insulated pipe insulation insulation 100 is connected and left and right coupling at the same time. While overlapping the piece 132 is attached to overlap the construction of the thermal insulation work of the pipe (10).

Therefore, the non-combustible material 110 is attached to the outer periphery of the styrofoam for piping 110 to improve the fire resistance and heat insulation.

In particular, since the thermal insulation insulating material 100 for pipe of the present invention is easily connected and attached, not only the construction is easy, but also the tensile strength is improved by the attachment of the non-combustible material 120, so that the pipe 10 can be bent and used properly. And minimizes breakage.

Furthermore, the aluminum sheet 121 attached to the non-combustible sheet 120 reflects most of the radiant heat without storing heat, thereby combining the heat insulating property of the styrofoam with the heat source reflecting property of aluminum, thereby obtaining the best thermal insulation effect.

In addition, when installed in the pipe 10 in the room, the fire-initiating material 120 blocks the heat at the beginning of the fire, so that the styrofoam block 110 is easily melted, thereby suppressing the generation of toxic gases due to the phenomena of the styrofoam. It is possible to evacuate early and minimize human injury.

Therefore, the heat insulating material 100 of the present invention is not only inexpensive, but also improves heat insulation and heat insulating property, and can secure the disadvantages of the styrofoam 110 by suppressing the generation of toxic gases at the beginning of a fire.

As described above, the thermal insulation material for pipes using the styrofoam of the present invention is a pair of styrofoam 110 is formed in a half pipe shape so that the inner groove is in close contact with the outer periphery of the pipe 10, and the pair Attached to the outer circumference of the styrofoam 110, but the aluminum sheet 121 and the vinyl chloride sheet 123 is attached with an adhesive, but between the aluminum sheet 121 and the softened vinyl 123, glass fiber yarn or polyester yarn 122 ) The upper and lower coupling pieces 131 to which the non-combustible material 120 inserted into the woven fabric and the non-combustible material 120 attached to the pair of styrofoams 110 are extended downward to apply the adhesive 133. And the one side extending to form an adhesive portion 130 formed by the left and right coupling pieces 132, so that the half pipe-shaped pipe styrofoam can be easily and conveniently coupled to the piping through the adhesive portion. By improving the performance and improving the strength, it is possible not only to reduce the brittleness and to improve the warpage, but also to suppress the easy dissolution of the styrofoam at the early stage of the fire so that the generation of toxic gas can be delayed and the non-combustible material reflects the heat source. It is effective in maximizing thermal insulation.

Claims (1)

A pair of styrofoam 110 is molded in a half pipe shape so that the inner groove is in close contact with the outer periphery of the pipe 10, Attached to the outer periphery of the pair of styrofoam 110, but attaching the aluminum sheet 121 and the vinyl chloride sheet 123 with an adhesive, but between the aluminum sheet 121 and the softened vinyl 123, glass fiber yarn or poly A non-combustible material 120 which is woven into the ester yarn 122 and inserted therein; The non-combustible material 120 attached to the pair of styrofoam 110 is extended downward to form the upper and lower coupling pieces 131 to which the adhesive 133 is applied, and one side is extended to the left and right coupling pieces 132. Thermal insulation for piping using styrofoam, characterized in that consisting of the adhesive portion 130.