KR100814084B1 - Adiabatic cover structure of pipe - Google Patents

Abstract

An adiabatic pipe cover structure is provided to prevent separation of an internal adiabatic layer from an external adiabatic layer by longitudinally forming corrugation at the inside of the internal adiabatic layer. An adiabatic pipe cover structure comprises an external adiabatic layer(20) wrapping the outside of an internal adiabatic layer(10) having a hollow. The hollow is formed on the inside of the internal adiabatic layer by forming an embossing. The internal adiabatic layer is thermal-contacted with polypropylene foam fabric and polyethylene foam fabric. The corrugation is formed longitudinally on the polypropylene foam fabric of the internal adiabatic layer. A skin layer(50) is thermally contacted with the polyethylene foam at the outside of the external adiabatic layer made of polyethylene foam. The embossing formed into the polypropylene foam fabric has the corrugation longitudinally.

Description

Insulation pipe cover structure

1 is a perspective view of a conventional insulating pipe cover structure

2 is an explanatory diagram of the existing insulation pipe cover structure production

3 is a perspective view of the heat insulation pipe cover structure of the present invention

4 is a cross-sectional view of the insulating pipe cover structure of the present invention.

Figure 5 is a cross-sectional view of the pipe fitted state of the heat insulation pipe cover structure of the present invention.

Figure 6 is a perspective view of a polypropylene foam fabric and polyethylene foam fabric constituting the inner insulation layer of the present invention

Figure 7 is a perspective view of the polypropylene foam fabric and polyethylene foam fabric constituting the inner insulation layer of the present invention bonded

8 is a perspective view of another embodiment of the present invention

9 is a perspective view of another embodiment of the present invention

10 is a diagram illustrating the use state of the present invention.

Figure 11 is a perspective view of a polypropylene foam fabric attached to the inner protective film of the present invention

Figure 12 is a perspective view of the embossed state to the polypropylene foam fabric attached to the inner protective film of the present invention

13 is a cross-sectional view of the insulating pipe structure manufactured using the fabric shown in FIG.

[Description of Symbols for Main Parts of Drawing]

10: inner insulation layer 11: polypropylene foam fabric

11a: pleat 12: polyethylene foam fabric

20: outer insulation layer 30: hollow

40: pipe 50: skin layer

60: outer protective film 70: inner protective film

The present invention relates to a heat insulation pipe cover structure to protect the cooling and heating pipes of buildings and air conditioning piping, and in detail, while increasing the roundness of the hollow in which the pipe is fitted, to prevent separation of the inner insulation layer and the outer insulation layer. To do that.

In addition, the present invention is to form an inner protective film on the innermost side to withstand the high temperature to the inside of the inner insulation layer to prevent moisture absorption, and to be attached so that the pipe is not exposed.

In order to protect the cooling and heating plumbing pipes such as buildings and air conditioners, an insulating pipe cover structure made of a material having excellent heat insulation, heat resistance, and flame retardancy is used, and such a heat insulation pipe cover structure is registered in advance by the present applicant. 20-0411561.

The pre-registered pipe cover structure 1 having the structure shown in FIG. 1 includes an inner hollow cylindrical inner heat insulating material layer 2 and an outer heat insulating material layer 3 thermally laminated to surround the outer circumferential surface of the inner heat insulating material layer 2. The inner insulation layer 2 is made of a polypropylene foam to have a hollow cylindrical shape while being heat-resistant and flame retardant to be installed on the outer circumferential surface of the copper tube, and the outer insulation layer 3 To wrap the outer circumferential surface to prevent heat loss of the inner insulation layer (2) is to be made of polyethylene foam with insulation and heat insulation and flame retardancy.

This pre-registration pipe cover structure (1) is because the polypropylene constituting the inner heat insulating material layer (2) is harder than polyethylene, and the inner hollow does not form a circle because it forms a round by rolling a flat body having a certain thickness. It would crease in the length direction or tear when inserting the pipe.

That is, since the inner insulation layer 2 is formed in a circular state as shown in FIG. 2, the upper and lower lengths are the same in the case of the planar body, but when it is circular, the part forming the inner diameter is folded and the outer diameter is formed. As the part was stretched to form a circle, wrinkles occurred in the inner hollow while the hollow could not be made to form a circle.

In addition, the pre-registered pipe cover structure (1) is a phenomenon that the inner insulation layer (2) made of polypropylene and the outer insulation layer (3) made of polyethylene do not maintain their bonded state, but are separated.

And the existing pipe cover structure (1) has a product consisting of a multi-layer structure of the inner insulation layer (2) and the outer insulation layer (3), but there is no product that can be used at high heat resistance of 160 ℃ or more, and also the innermost nonwoven fabric In the case of products made of fibers, such as non-woven fabric is in direct contact with the metal pipes to absorb moisture, the water absorption, such as corrosion of the metal pipes occurs, while the mold and the like to breed the problem appears inside, The adhesion to the pipe will also be reduced.

The present invention is a heat insulating pipe cover structure consisting of an inner insulation layer and an outer insulation layer, by forming a corrugation in the longitudinal direction to the inside of the inner insulation layer to make the inner hollow circle, while the inner insulation layer and the outer insulation layer It is to make sure that the adhesion of the bond is made.

The present invention is to heat-bond the polypropylene foam fabric and polyethylene foam fabric to form an inner insulation layer, but the polypropylene foam fabric to form a wrinkle in the longitudinal direction to form a hollow, the inner insulation layer is made of polyethylene foam It is made by thermal bonding with the outer insulation layer made.

On the other hand, the present invention is to cover the outer layer of the outer insulation layer with a polyethylene foam to the outer layer of the outer layer to emboss the outer protective film, the inner protective film inside the polypropylene foam fabric of the inner insulation layer The inner protective film and the polypropylene foam fabric are bonded to each other to form wrinkles in the longitudinal direction, or to have various patterns embossed.

The heat insulation pipe cover structure of the present invention is formed with a hollow having an inner circle so as to surround a pipe for flowing a high temperature fluid, and has an inner heat insulating material layer made of flame retardant, heat resistant and heat insulating material, and has an outer peripheral surface of the inner heat insulating material layer. In the outer insulation layer made of a flame retardant and heat-insulating material, the inner insulation layer is made by bonding a polypropylene foam fabric and a polyethylene foam fabric to form a wrinkle in the longitudinal direction inside the polypropylene foam fabric to improve the roundness of the hollow. It is characterized by improving.

Here, the polypropylene foam fabric is bonded to the polyethylene foam fabric to one side, and the other side is to form an inner hollow to be fitted with the pipe, thus forming a wrinkle in the longitudinal direction on the side forming the inner hollow.

The pleat is an embodiment that the bone is formed in the longitudinal direction, but it is irrelevant even if the bone is formed in the horizontal direction with such pleats, and in particular, it is irrelevant even if the embossing having a variety of patterns on the polypropylene foam fabric, Embossing having various shapes and patterns should be formed inside the polypropylene foam fabric to improve roundness, but it is preferable to allow wrinkles to be formed in the longitudinal direction.

Such a heat insulation pipe cover structure may form an outer skin layer of polyethylene foam on the outside of the outer insulation layer, and also heat-bond the outer protective film to the outer side of the outer skin layer, and the outer protective film includes stripes, hearts, rhombuses, hearts. It is desirable to allow the embossing of the shape to be formed.

And the present invention is to form a hollow in the inner heat insulating material layer to the surface of the polypropylene foam fabric withstanding the temperature of 130 ~ 160 ℃ to bond the inner protective film withstand more than 160 ℃ but resistant to moisture and high heat resistant inner protective film and poly After the propylene foam fabric is embossed together, the inner protective film is adhered to the polypropylene foam fabric adhered to the surface to the polyethylene foam fabric of the outer insulation layer to improve the roundness of the hollow while preventing the absorption of moisture inside. Prevent mold growth and increase adhesion to pipes.

In the present invention, the innermost protective film that is resistant to moisture and can withstand high temperatures of 160 ° C. or higher is embossed on the surface to solve the problem of water absorption and microbial propagation, and to easily adhere to the pipe while covering the pipe. Gaps can be opened to prevent pipes from being exposed or energy losses.

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

3 is a perspective view of a heat insulating pipe cover structure according to a preferred embodiment of the present invention, FIG. 4 is a cross-sectional view thereof, FIG. 5 is a cross-sectional view of a pipe fitted in a heat insulating pipe cover structure of the present invention, and FIG. Polypropylene foam fabric and polyethylene foam fabric perspective view constituting the inner insulation layer, Figure 7 is a perspective view of the polypropylene foam fabric and polyethylene foam fabric constituting the inner insulation layer of the present invention.

Referring to the drawings, the heat insulation pipe cover structure 100 of the present invention has an inner heat insulating material layer 10 of the inner hollow cylindrical shape and the outer heat insulating material layer 20 is laminated to surround the outer peripheral surface of the inner heat insulating material layer (10). In including, the inner insulation layer 10 is produced using a fabric bonded to a polyethylene foam fabric 12 and a polypropylene foam fabric 11, the polypropylene foam fabric 11 is embossed in a variety of patterns Will form.

Here, the embossing formed on the polypropylene foam fabric 11 may vary in its pattern or shape, but in order to improve the roundness of the hollow 30, it is preferable to form the pleats 11a in the longitudinal direction.

That is, the inner heat insulating material layer 10 of the present invention is a polypropylene foam fabric 11 and the polypropylene foam fabric 11 after the pleats 11a formed with a pleat 11a formed along the longitudinal direction to one side, the polypropylene foam fabric 11 is hollow 30 to be formed, and the outer insulation layer 20 made of polyethylene foam to the outside of the inner insulation layer 10 to be bonded and wrapped.

The pleats 11a formed on the polypropylene foam fabric 11 constituting the inner insulation layer 10 may be formed in various shapes and shapes, but only after the valleys of the pleats 11a are formed in the longitudinal direction, 30) is optimal for forming a circle.

As such, when the polypropylene foam fabric 11 is provided with embossed projections, but the wrinkles 11a are formed in the longitudinal direction, when the hollows 30 are formed, the wrinkles 11a are folded and the hollows 30 are formed. By forming the epicenter, the polypropylene foam fabric 11 is hard to prevent the oval form without forming the epicenter when the hollow 30 is formed.

In other words, when the hollow 30 is formed by rolling a solid fabric, the circularity is not properly formed, but when the wrinkle 11a is formed as in the present invention, the circularity is formed while forming the hollow 30, which is a wrinkle ( 11a) because it is well bent by the bone, when forming the pleats 11a inward as in the present invention, even if the polypropylene is hard, it can be made to form a circle when forming the hollow 30.

As such, when the hollow 30 of the inner insulation layer 10 forms a round shape, there is no portion caught by the pipe 40 when the pipe 40 is inserted into the pipe 40, so that the pipe 40 can be easily inserted.

The inner insulation layer 10 of the present invention is made of a polypropylene foam fabric 11 and a polyethylene foam fabric 12 because the inner insulation layer made of polypropylene foam, such as the pre-registered pipe cover structure (1) ( 2) and the outer insulation layer (3) made of polyethylene foam when the heat-sealing is not firmly adhered because it is often separated.

That is, in the present invention, the polypropylene foam fabric 11 and the polyethylene foam fabric 12 are given a lot of heat in advance so that the polyethylene foam fabric 12 faces outward by laminating as one body. By bonding the outer insulation layer 20 made of polyethylene foam to the outside of the polyethylene is not firmly adhered to each other.

On the other hand Figure 11 of the present invention is a perspective view of the polypropylene foam fabric attached to the inner protective film of the present invention, Figure 12 is a perspective view of the embossed state to the polypropylene foam fabric attached to the inner protective film of the present invention, Figure 13 12 is a cross-sectional view of the heat insulation pipe structure manufactured using the fabric shown in FIG. 12 to prevent the penetration of moisture into the inside by adhering the inner protective film 70 to the inside of the polypropylene foam fabric 71 and to improve adhesion. It is.

The inner surface of the polypropylene foam fabric 71 is bonded to the inner protective film 70 made of a tarpaulin material film, aluminum and multi-layer metal plating film, thin PET nonwoven, etc., the inner protective film 70 is a polypropylene foam fabric After the surface is embossed while adhering to the 71, the pipe cover structure 100 is manufactured. The inner protective film 70 can withstand temperatures of 160 ° C. or higher and does not absorb moisture, thereby preventing the existing nonwoven fabric. The mold is prevented from propagating due to moisture absorption, as in the case of installing the polypropylene foam fabric 71 to withstand high heat of 160 ℃ or more in consideration of the limit that can only endure the temperature of 130 ~ 160 ℃.

That is, the existing high heat-resistant inorganic nonwoven fabric is located inside the product can solve the problem of enduring high heat, but the problem that the microorganisms are breeding by absorbing moisture, the present invention does not absorb moisture, the interior can withstand high heat By using the protective film 70 to solve the problem of moisture and high temperature.

The inner protective film 70 is heat-bonded to the surface of the polyethylene foam fabric 71 adhered to the polyethylene foam fabric 12 to form embossing of various patterns and shapes on the surface, due to the embossing hollow ( 30) to improve the roundness and to increase the adhesion to the pipe fitted inside the pipe cover 100 is opened to expose the internal pipe is a problem of energy waste and fluid flow through the outside of the pipe is also solved. do.

Embossing is formed on the inner protective film 70 to improve roundness, but it is suitable to form the wrinkles 70a in the longitudinal direction.

Meanwhile, FIG. 8 of the present invention is a perspective view of another embodiment, and may be used by thermally bonding the skin layer 50 made of polyethylene foam to the outside of the outer insulation layer 20, and the skin layer 50 as shown in another embodiment of FIG. The outer protective film 60 can be thermally bonded to the outside.

Here, the outer protective film 60 is made of polyethylene film, polypropylene film, aluminum and PET mixed film, glass fiber and plastic mixed film, tarpaulin material film, aluminum film, the outer protective film 60 has a variety of shapes and It is preferable to form a patterned embossing, and also to have a variety of colors to use the color selected by the type of pipe.

The film 60 is surface scratch resistance, surface contamination. It should have the function of moisture blocking and beauty.

On the other hand, the present invention can be divided to cover the pipe to the pipe, as shown in Figure 10 may be used by attaching the insulation pipe cover structure (100, 100a) to each other.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Various modifications and variations can be made within the equivalent scope of the utility model registration claims to be described.

The present invention, in the heat insulation pipe cover structure consisting of the inner insulation layer and the outer insulation layer, the inner insulation layer is produced by adhering the polypropylene foam fabric and polyethylene foam fabric, but the wrinkles along the longitudinal direction inside the polypropylene foam fabric By forming the inner hollow can form a circle, while the adhesion between the inner insulation layer and the outer insulation layer is securely separated from each other.

Claims (8)

In the cover structure that the outer insulation layer is wrapped to the outside of the inner heat insulating material layer formed hollow, Insulating pipe cover structure, characterized in that the hollow is made by forming an embossing inside the inner insulation layer. The heat insulation pipe cover structure according to claim 1, wherein the inner insulation layer is formed by thermally bonding a polypropylene foam fabric and a polyethylene foam fabric. The heat insulation pipe cover structure according to claim 2, wherein the polypropylene foam fabric of the inner insulation layer is formed to have wrinkles in the longitudinal direction. In the cover structure that the outer insulation layer is wrapped to the outside of the inner heat insulating material layer formed hollow, The inner insulation layer is made by adhering a polypropylene foam fabric and a polyethylene foam fabric, but the embossing is formed on the polypropylene foam fabric, and the outer layer of the outer insulation material made of polyethylene foam wrapped around the inner insulation layer is made of polyethylene foam on the outside. Insulation pipe cover structure, characterized in that made by thermal bonding. The heat insulation pipe cover structure according to claim 4, wherein the embossing formed inside of the polypropylene foam fabric has corrugations in the longitudinal direction. The method of claim 4, wherein Heat-insulating pipe cover structure, characterized in that the outer protective film heat-bonded to the outside of the skin layer. The insulating pipe cover structure according to claim 2 or 4, wherein the inner protective film is bonded to the inside of the polypropylene foam fabric forming the hollow, but the embossing is formed on the polypropylene foam fabric and the inner protective film. . 8. The heat insulation pipe cover structure according to claim 7, wherein the inner protective film is blocked from moisture penetration and has high heat resistance.

Images