KR200457492Y1 - Heat reacting type Heat-resisting sheet - Google Patents

Abstract

The present invention relates to an adhesive heat-resistant heat resistant sheet. In order to prevent the leakage of gas, it is wound around the joint part of the exhaust communication, and is a silicon-based sheet member having a certain thickness having self-adhesion. And, the adhesive sheet is fixed to the adhered position through the interfacial chemical reaction by the heat transferred from the exhaust gas; A film member attached to an inner side of the adhesive sheet and peeled from the heat resistant sheet in use; It includes a finishing sheet laminated to the outer surface of the adhesive sheet to protect the heat resistant sheet.

The adhesive adhesive heat-responsive heat-resistant sheet of the present invention made as described above is easy and quick to install, and it does not get on the hands, so the work environment is clean, especially heat-resistant durability and physical through interfacial chemical reaction by heat applied from the outside. The properties and sealability are increased, which has the advantages of high reliability and long life.

Adhesive, Self-Adhesive, Heat-Resistant Sheet, Thermal Reaction, Cross-linked Structure

Description

Adhesive Reaction Heat Resistant Sheet {Heat reacting type Heat-resisting sheet}

The present invention relates to an adhesive adhesive heat-resistant heat resistant sheet.

Communication connected to various boilers or briquettes serves to discharge various harmful gases generated during combustion to the outside. The communication is piped so that the extension end is exposed to the outdoors by appropriately connecting the communication member of various shapes, for example, made of tin.

On the other hand, in installing the communication, it is very important to close the gap of the connecting portion where each communication member is connected so that the gas does not leak. To this end, a blue tape may be attached to the connection part, a plaster bandage may be applied, or a heat resistant sealant may be applied. The blue tape is rarely used because it is very easily aged and easily dropped by the heat of the exhaust gas.

1 and 2 is a perspective view partially showing a conventional general domestic boiler.

Referring to Figure 1, it can be seen that the lower end of the communication 15 is connected to the exhaust port (11a) provided in the upper portion of the boiler (11). The communication section 15 has its extended end exposed to the outside through the wall surface 13 to discharge the combustion gas generated in the boiler 11 to the outside.

In addition, the gypsum bandage 19 is wound around the connecting portion 15. The gypsum bandage 19 is wrapped around each connecting portion of the communication 15 to seal the exhaust gas from leaking through the gap of the connecting portion. Reference numeral 17 is an air supply pipe for supplying outdoor air to the boiler 11.

However, the above-mentioned gypsum bandage 19 has a problem that it easily breaks up by repeatedly expanding and contracting finely according to the temperature change of the communication. If the gypsum bandage 19 is cracked and cracks 21 are generated, the exhaust gas may leak through the cracks 21.

In addition, the gypsum bandage method has a disadvantage in that the construction is cumbersome and inconvenient because the gypsum bandage should be soaked in water for kneading. In addition to the above problem, there is also a problem that the plaster bandage 19 becomes very dirty and contaminated by condensate generated in the communication.

Instead of the gypsum bandage 19 described above, the sealant 23 shown in FIG. 2 may be applied.

Referring to Figure 2, it can be seen that the sealant 23 (sealant) is applied to each connecting portion of the communication (15). The sealant 23 is a building material having heat resistance and a predetermined viscosity and filling joints or joints between various members, and is applied to a connection part of communication to prevent leakage of exhaust gas.

By the way, the sealant 23 has a problem that the workability is not good like the plaster bandage. In particular, the distance z between the communication 15 and the wall surface 13 is very narrow, and it is very difficult to accurately apply the sealant 23 to the surface facing the wall surface 13 of the communication 15.

In most household boilers, the distance between the communication 15 and the wall is less than 10 cm, so the work space is very narrow and the side facing the wall is hard to see, making it difficult to apply the sealant 23 to the desired thickness and width. will be.

Accordingly, as shown in FIG. 3, the gap 24 which is not closed by the sealant may be exposed to the outside. This problem occurs frequently at the connection part of the communication, that is, the point where the tightening band 15a, the bolt 15b, the nut 15c and the like shown in FIG.

Referring to FIG. 3, it can be seen that the lower end of the communication 15 is fitted into the exhaust port 11a of the boiler 11, and the tightening band 15 is filled in the lower end of the communication 15. The nut 15c is fixed to the tightening band 15. As the bolt 15b is screwed to the nut 15c, the tightening band 15 gradually tightens the communication 15 to communicate with the exhaust port 11a. Fix it.

In any case, as the bolt 15b and the nut 15c which clamp the tightening band 15 protrude from the outer circumferential surface of the communication 15, the sealant 23 is not applied to the portion immediately below the nut 15, so that the gap 24 is provided. ) May be exposed to the outside. It goes without saying that the exhaust gas leaks into the gap 24 not sealed by the sealant 23.

In addition, the sealant 23 has a problem that may gradually cure over time and finally escape from the communication. When the sealant 23 is separated from the communication, it is necessary to remove the part and reconstruct the construction cost.

The present invention has been made to solve the above problems, the construction is easy and quick, as well as clean the working environment because it does not get on the hands, in particular, heat-resistant durability and physical properties and sealability through the interfacial chemical reaction by heat applied from the outside It is an object of the present invention to provide an adhesive heat-responsive heat resistant heat resistant sheet having high reliability and long life.

In order to achieve the above object, the adhesive adhesive heat-responsive heat-resistant sheet of the present invention is wound around the joint portion of the exhaust communication in order to prevent the leakage of gas, and has a certain thickness of silicon series having self-adhesion property. As the sheet member itself, in a state in which the joint portion of the communication is wrapped and adhered, the exhaust gas receives heat from the exhaust gas when passing through the communication, and changes into a crosslinked body through an interfacial chemical reaction by the transferred heat. An adhesive sheet, the adhesive sheet being fixed at the position; A film member attached to an inner side of the adhesive sheet and peeled from the heat resistant sheet in use; It is laminated to the outer surface of the adhesive sheet includes a finishing sheet to protect the adhesive sheet from the external stimulus to prevent damage of the adhesive sheet, the adhesive sheet has a thickness of 0.1mm to 5.0mm, communication When heated by the heat of the exhaust gas transferred through the three-dimensional cross-linked body is characterized in that the silicone-based polymer resin is changed to the molecular structure.
In addition, the finish sheet is characterized in that it has a thickness of 10 ㎛ to 500 ㎛ as any one of an aluminum sheet or a glass fiber sheet or a synthetic resin film.

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The adhesive adhesive heat-responsive heat-resistant sheet of the present invention made as described above is easy and quick to install, and it does not get on the hands, so the work environment is clean, especially heat-resistant durability and physical through interfacial chemical reaction by heat applied from the outside. The properties and sealability are increased, which has the advantages of high reliability and long life.

Hereinafter, one embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a view showing the structure of the adhesive adhesive heat-resisting heat-resistant sheet 31 according to an embodiment of the present invention.

Basically, the adhesive adhesive heat-responsive heat resistant sheet 31 of the present embodiment is an adhesive sheet having a property of increasing durability, physical properties, and sealing properties by changing internal molecular structure into a crosslinked body having a three-dimensional network structure by heat applied from the outside. Since it is provided with (35), it can exhibit a perfect performance for the sealing use of the exhaust communication heated by high temperature by exhaust gas, for example. Crosslinked products having a network structure are known to have excellent heat resistance and good physical properties.

In addition, the adhesive adhesive heat-resisting heat-resistant sheet 31 of the present embodiment is kept in a state of being adhered to the object when heat is not applied, and changes to the above-mentioned crosslinked body when heat is supplied from the outside in the state of adhesion. It has a characteristic of being strongly adhered to an object.

As shown, the adhesive adhesive heat-resistant heat-resistant sheet 31 according to the present embodiment, the adhesive adhesive sheet 35 having a predetermined thickness, and the inner surface of the adhesive adhesive sheet 35, that is to be bonded to the exhaust communication It consists of a film member 33 attached to the adhesive adhesive surface 35a and peeled off during use, and a finishing sheet 37 adhesively fixed to the opposite surface of the adhesive adhesive surface 35a.

The adhesive adhesive sheet 35 has a thickness of 0.1 mm to 5.0 mm, and is made of a silicone-based polymer resin that is changed into a molecular structure of a three-dimensional crosslinked body by heat of exhaust gas delivered through communication. The thickness of the adhesive sheet may vary depending on need, and in some cases, two or more layers may be laminated at the same time.

The adhesive adhesive sheet 35 has self adhesiveness and can be easily wound in communication. For example, if you let go of your hands with the flue wrapped, it will remain unwound again. In addition, as described above, the internal molecular structure is changed to a crosslinked body having a three-dimensional network structure by the heat of the exhaust gas applied through the communication, thereby increasing durability, physical properties, and sealing properties.

In addition, since it is silicone-based, it has excellent heat resistance and elasticity, and provides particularly excellent airtightness by interfacial chemical reaction with the outer circumferential surface of communication.

On the other hand, the finish sheet 37 is a sheet-like member made of any one of an aluminum sheet, a glass fiber sheet or a synthetic resin film. The thickness of the finishing sheet 37 is about 10㎛ to 500㎛. In addition, the color of the finishing sheet 37 may be variously changed as necessary. For example, by matching the color of the finish sheet 37 with the color of the communication sheet or other adhesive object to which the heat-resistant sheet 31 is applied can increase the aesthetics to the finish sheet 37.

The finishing sheet 37 serves to cover and protect the adhesive sheet (35). That is, the adhesive sheet 35 is prevented from being exposed to the outside to prevent the adhesive sheet 35 from being damaged from rain or sunlight or other external magnetic poles.

In addition, the film member 33 is to be peeled off during use. As the film member 33, a transparent vinyl sheet may be applied.

5 and 6 are perspective views illustrating an application example of the adhesive adhesive heat-resistant heat resistant sheet shown in FIG.

As shown in FIG. 5, the heat-reactive heat-resistant sheet 31 of the present embodiment may be cut to a predetermined width, and then wound around the bobbin 39 to produce a tape. By manufacturing in the form of a tape in this way, it is very easy to wind the heat-resistant sheet 31 on the pipe or the communication and the workability is improved.

Referring to FIG. 6, it can be seen that the heat-reactive heat-resistant sheet 31 may be manufactured and used in the form of a patch. It is obvious that the width of the patch will vary as needed. Furthermore, the heat resistant sheet 31 may be cut and used to correspond to the shape of the corresponding surface to be bonded.

FIG. 7 is a view illustrating a state in which a joint of a communication is wrapped using the heat-reactive heat-resistant sheet shown in FIG. 5.

As shown in the drawing, the heat-reactive heat-resistant sheet 31 of this embodiment is wound around the joint portion between the exhaust port 11a and the communication 15 and the joint portion between the communication 15. The heat-resistant sheet 31 is a heat-resistant sheet in the form of a tape shown in Figure 5, it is completely adhered to the corresponding site through the above-described interfacial chemical reaction in the state of covering the connecting portion of the communication to block the leakage of the exhaust gas.

The present invention has been described in detail through specific embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. .

1 and 2 is a perspective view partially showing a conventional general domestic boiler.

3 is a view illustrating a problem of the boiler illustrated in FIG. 2.

Figure 4 is a view showing the structure of the adhesive heat-resistant heat-resistant sheet according to an embodiment of the present invention.

5 and 6 are perspective views illustrating an application example of the adhesive adhesive heat-resistant heat resistant sheet shown in FIG.

FIG. 7 is a view illustrating a state in which a joint of a communication is wrapped using the heat-reactive heat-resistant sheet shown in FIG. 5.

<Explanation of symbols for the main parts of the drawings>

11: Boiler 11a: Exhaust vent

13: Wall 15: communication

15a: Tightening band 15b: Bolt

15c: Nut 17: Air supply pipe

19: plaster bandage 21: crack

23: sealant 24: gap

31: heat-resisting heat resistant sheet 33: film member

35: adhesive adhesive sheet 35a: adhesive adhesive surface

37: Finish sheet 39: Bobbin

Claims (3)

In order to prevent the leakage of gas, it is wound around the joint of the exhaust flue, A silicon-based sheet member having a certain thickness that has a self-adhesive property, which is wrapped around the joint portion of the communication and is adhered to it, and receives heat from the exhaust gas when the exhaust gas passes through the communication. An adhesive sheet which is transformed into a crosslinked body through an interfacial chemical reaction by heat and adhered to and adhered to the adhered position; A film member attached to an inner side of the adhesive sheet and peeled from the heat resistant sheet in use; It is laminated to the outer surface of the adhesive sheet includes a finishing sheet to protect the adhesive sheet from the external stimulus to prevent damage of the adhesive sheet, The adhesive sheet has a thickness of 0.1mm to 5.0mm, adhesive heat characterized in that made of a silicone-based polymer resin is changed to the molecular structure of the three-dimensional crosslinked body when heated by the heat of the exhaust gas delivered through the communication Responsive Heat Resistant Sheet. delete The method of claim 1, The finishing sheet, Adhesively-coated heat-resistant heat-resistant sheet, characterized in that having a thickness of 10㎛ to 500㎛ as any one of an aluminum sheet or a glass fiber sheet or a synthetic resin film.

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