KR20010079481A - Heating seat having a structure of capillary net - Google Patents

Abstract

PURPOSE: A heating sheet of a capillary net structure is provided to prevent an electric short circuit due to water penetration, and supply a power by using a bypass capillary wire even though a part of a coil is short circuited. CONSTITUTION: A heating sheet of a capillary net structure is interposed between an upper layer and a lower layer. A heating wire(60) radiates heat by a power supplied by being electrically connected to a connector. The heating wire(60) is structured of a capillary net like a beehive, whereby a power supply is enabled in a bypass manner even though a part of the heating wire is short circuited. Even when the heating sheet structured of capillary net is rolled to be carried or stored, the heating wire(60) is not short circuited and is easily bent since the heating wire(60) is formed of fine wires. When the heating sheet is used for an electric mat, a sofa, a jade mat, a stone bed or the likes which is touched with a human body, a user can rarely feel thickness of the heating wire(60) since the heating wire(60) is formed of the fine wires, so that convenience in use is improved.

Description

HEATING SEAT HAVING A STRUCTURE OF CAPILLARY NET}

The present invention relates to a heating plate sheet of the capillary network structure, and more specifically, in the application of a sheet of various materials, such as facility discharge, greenhouse, electric sheet, sofa, jade mat, stone bed, etc. It relates to a heating plate sheet of the capillary structure for transferring heat to the heat transfer target through the surface protective material while protecting through.

As is well known, in order to create an optimal environment for crop cultivation, vinyl houses or facility growers should maintain water supply, drainage, proper temperature, and adequate amount of light.

In particular, during the winter season, the temperature around the vinyl house or facility cultivator is low, so maintaining the proper temperature is most important. In general, a vinyl house or a facility grower is a mountain area or a field directly exposed to strong winds where the location may drop to a minimum temperature. Therefore, whether or not a certain temperature can be maintained greatly affects plant growth. do.

To this end, a vinyl house or a facility grower wants to raise the indoor temperature of the vinyl house by using various heating appliances such as a stove. For heating appliances such as a stove, the ground temperature is increased even though the indoor temperature is raised. There is a problem that it cannot rise to the depth level.

In particular, when a heating device such as a stove is placed on the ground, the warmth is moved toward the ceiling of the vinyl house, and the cold air is moved to the ground in the vinyl house. Therefore, it is almost impossible to transmit the warmth to a predetermined depth below the ground. There is a problem, even if the warmth is transmitted, the warmth is less than the warmth necessary for plant growth, so more efficient heating is required.

Therefore, in recent years, a technology for burying a heat generating sheet in which a heating coil is embedded at a lower portion below a predetermined depth from the ground, and supplying power to the heat generating sheet, maintains the temperature of the earth above a certain temperature.

However, in the case of heating using the heating sheet described above, the coil is buried in the ground by bending the straight coil into an 'S' shape like an electric sheet, and when a part of the wire is disconnected, the power supply is cut off after the disconnection part. There is a problem that does not generate heat.

In addition, since the thickness of the coil is thick in the case of the heating sheet, it is not easily wound when the heating sheet is wound and moved to the store to be buried on the ground, thereby causing a high risk of disconnection. The same is true for electric field plates used as auxiliary bedding. Even in the case of an electric sheet, there is a problem in that it is not easily wound during summer storage, and thus there is a high risk of disconnection.

In addition, in the case of the heat generating sheet, a connector is formed at a predetermined portion of the heat generating sheet in order to supply power to the heat generating sheet. When moisture penetrates into the connector, there is a problem of a high possibility of power short circuit. In particular, when used in a plastic house there is a problem that a certain amount of moisture is present even if the plant is not supplied with moisture due to the moisture generated by the temperature difference between the outside / outside air, thereby causing a high risk of electrical safety accidents.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described prior art, and provides a heat generating plate sheet having a capillary structure to prevent an electrical short circuit caused by the penetration of moisture by taking a sealing structure in which a connector formed on the heat generating plate sheet is integrally injected. There is a purpose.

In addition, another object of the present invention is to provide a heat generating plate sheet of the capillary network structure so that the power supply can be turned on by using a bypass capillary wire even if some disconnection of the coil is generated by forming the heating coil inside the capillary structure There is a purpose.

1 is a perspective view showing the external appearance of the heating plate sheet of the capillary structure according to an embodiment of the present invention,

Figure 2 is a side view showing the side of the heating plate sheet of the capillary structure according to an embodiment of the present invention,

Figure 3 is a plan perspective view showing a plane of the heating plate sheet of the capillary network structure according to an embodiment of the present invention,

Figure 4 is a side view showing the side of the heating plate sheet of the capillary network structure according to another embodiment of the present invention,

5 is a plan view illustrating a plane of a heat generating plate sheet of a capillary network structure according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10,10 ': heat plate sheet, 20: connector,

30: upper surface layer, 40: lower surface layer,

50: external wire, 60: heating wire,

60 ': metal powder layer.

In order to achieve the above object, according to a preferred embodiment of the present invention, the connector is formed in a predetermined portion of the edge and connected to an external power line to supply power to the internal heating line; A heating wire electrically connected to the connector and having a capillary network structure so as to be heated by input of power and to allow power to be bypassed in case of some disconnection; It is adhered to the upper / lower portion of the heating wire, it is made of a soft PVC is provided with a heating plate sheet of the capillary structure, characterized in that composed of a surface layer to prevent the penetration of moisture and protect the heating wire.

Preferably, the connector is provided with a capillary structure heating plate sheet, characterized in that when formed on the edge portion of the surface layer has a sealing structure that is integrally injected with the surface layer.

More preferably, the heating wire is provided with a heating plate sheet of the capillary network structure, characterized in that it can be composed of a fine metal powder layer instead of the heating wire of the capillary network structure.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

1 is a perspective view showing the external appearance of the heat generating plate sheet of the capillary structure according to an embodiment of the present invention.

Referring to this, in the heat generating plate sheet 10 of the capillary structure according to the present invention, the surface layers 30 and 40 made of a soft PVC material are formed on the upper and lower portions thereof in a melt compression method.

In addition, a predetermined portion of the surface layers 30 and 40 is provided with a connector 20 for connecting power to an external wire 50 (see FIG. 2) and an internal wire, and the connector 20 is formed on the surface layer 30. , 40) has a sealing structure that is integrally injected to prevent the penetration of moisture from the outside.

Figure 2 is a side view showing the side of the heating plate sheet of the capillary structure according to an embodiment of the present invention, Figure 3 is a plan view showing a plane of the heating plate sheet of the capillary structure according to an embodiment of the present invention. .

Referring to this, the heating plate sheet 10 of the capillary structure is formed between the upper and lower surface layers 30 and 40, the heating wire 60 is generated by the power supplied by the electrical connection with the connector 20. It is provided, the heating line 60 is made of a honeycomb-shaped capillary network structure is configured to be able to bypass the power supply even if the heating line 60 is partly disconnected.

On the other hand, the heating wire 60 is made of a fine wire, even if the sheet 10 is rolled in a cylindrical shape in order to move or store the heating plate sheet 10 of the capillary structure, the heating wire 60 is not disconnected.

In particular, when the heat generating plate sheet 10 of the capillary structure is used for electric plates, sofas, jade mats, stone beds, etc. for the human body, the heating wire 60 is made of fine wires, and thus the top surface of the sheet 10 is formed. Since the thickness of the heating wire 60 is not felt by the user when the user is lying down, it is not inconvenient, and is easily folded during storage.

In addition, since the heating wire 60 is formed in a capillary network structure having a predetermined width, the heating wire 60 may have an even heating effect even in a much wider area than the conventional heating sheet even with the same amount of wire.

Figure 4 is a side view showing the side of the heating plate sheet of the capillary structure according to another embodiment of the present invention, Figure 5 is a plan view showing a plane of the heating plate sheet of the capillary structure according to another embodiment of the present invention. .

Referring to this, according to another embodiment of the present invention, the heat generating plate sheet 10 of the capillary structure is a metal powder layer (60 ') of the inner heating line 60 made of fine metal powder instead of the fine wire of the capillary structure The fine metal powder layer 60 'is not easily disconnected when folded as in the first embodiment, and the same effect that the thickness of the heating wire is not felt even when used in the human body with an electric blanket or the like. have.

In the same manner, the metal powder layer 60 'is also supplied with power through the fine metal powder, and thus heat is generated so that power is diverted through the metal powder layer 60' that is not disconnected at some disconnections.

On the other hand, the heat generating plate sheet of the capillary network structure according to the embodiment of the present invention is not limited to the above embodiment, but various modifications can be made without departing from the technical gist thereof.

As described above, the heating plate sheet of the capillary network structure according to the present invention is composed of a heating plate sheet in the form of a fine capillary network structure or metal powder is not easily disconnected when moving for storage or installation, and even if partly disconnected, the power supply is bypassed. There is an effect that this is possible. In addition, since it is not a single coil but a network structure or a powder structure, it has an even heat generation effect in a relatively large area, and the connector is integrally injected with the upper and lower surface layers, thereby preventing the penetration of moisture from the outside.

Claims (3)

A connector formed at the edge predetermined portion and connected to an external power line to supply power to the internal heating line; A heating wire electrically connected to the connector and having a capillary network structure so as to be heated by input of power and to allow power to be bypassed in case of some disconnection; Bonded to the upper / lower portion of the heating wire, made of soft PVC to prevent the penetration of moisture, the heating plate sheet of the capillary structure, characterized in that composed of a surface layer to protect the heating wire. The capillary heating plate sheet according to claim 1, wherein the connector has a sealing structure which is integrally injected with the surface layer when the connector is formed at an edge portion of the surface layer. The method of claim 1, wherein the heating wire is a heat generating plate sheet of the capillary network structure, characterized in that it can be composed of a fine metal powder layer instead of the heating wire of the capillary network structure.