KR20070011854A - Heating mat with soil and method for manufacturing the heating mat - Google Patents

Abstract

A warming mat and a method of manufacturing the same are provided to increase a thermal efficiency by directly heating a warming layer by installing a heating wire in a soil filled in the warming layer. An upper plate(20) and a lower plate(30) are spaced apart from each other. A support frame is vertically installed along edges of the upper and lower plates, and one surface of the support frame is opened. A warming layer(60) is positioned in an inner space of the support frame, and plural heating wires(61) are disposed in the warming layer made of soil(62). A heat insulation layer(70) is positioned under the warming layer, and has a heat insulation member(72). The warming layer and the heat insulation layer are divided by a separating plate(50). A finishing plate is installed on an opening portion of the support frame. A laminated paper(90) is installed on the upper plate.

Description

Heat Mat and Soil and Method for Manufacturing the Heating Mat

1 is a schematic longitudinal sectional view showing a thermal mat according to the prior art;

2 is an exploded perspective view showing a thermal mat according to the present invention.

3 is a schematic longitudinal sectional view showing a thermal mat according to the present invention;

4 is a flowchart illustrating a method of manufacturing a thermal mat according to the present invention.

*** Explanation of symbols for main parts of drawing ***

10: heat mat, 20: top plate,

30: lower plate, 40: support frame,

50: separation plate, 60: heating layer,

61: heating line, 62: raw soil,

63: fixing table, 70: heat insulation layer,

72: insulation member, 80: finishing plate,

90: plate member.

The present invention relates to a thermal mat using raw soil and a method of manufacturing the same, and more particularly, to a thermal layer formed inside the thermal mat. By filling and manufacturing, there is no phenomenon that the raw soil is not cracked after drying, and thus does not require a drying and curing process, and relates to a thermal mat using raw soil which can greatly reduce manufacturing costs and a method of manufacturing the same.

In general, the thermal mat is manufactured in various forms in which a slab or earth plate containing jade or germanium is laminated on the upper part of the electrical panel assembly so as to emit a large amount of far infrared rays, which are beneficial to the human body.

The thermal mat according to the prior art, as shown in Figure 1, the cross-section is approximately 'C' shaped upper portion of the upper portion is open, the receiving portion 111 formed therein the receiving portion 112 therein; An electrical panel assembly (161) which is divided into left and right parts on the bottom surface of the receiving portion (112); It comprises a slab or soil plate 162 stacked on the upper surface of the electrical panel assembly 161.

In general, the ocher kneaded with water has a high viscosity, but when it is dried, cracking occurs, so that when the soil plate 162 is manufactured to prevent cracking during curing, the sand is mixed with sand to reduce the viscosity. In the ocher, a chemical crosslinking agent is prepared.

However, the ocher mat manufactured as described above has a problem in that the cost increases due to an increase in the number of processes for manufacturing the soil plate 162.

In addition, the area occupied by the filler material 111 of the entire upper surface of the heating mat 110 is reduced so that the heating area and the use area are reduced, and the electric panel assembly 161 and the soil plate 162 thereon are separated from each other. There is a problem that the heat conduction efficiency is lowered by being a structure.

In addition, since the conventional heating mat 110 configured as described above is manufactured by assembling and installing the electric panel assembly 161 and the soil plate 162 in the receiving portion 112 of the filler material 111, this process. In the transportation and installation of each part or semi-finished product is cumbersome and the number of parts increases the manufacturing cost increases.

The present invention has been made in order to solve the above problems, it is not prepared by adding water to the loess, kneading or mixing the crosslinking agent to knead hardening, vibrating the raw dough in the undyed state in the thermal layer formed inside the thermal mat By filling and manufacturing by compacting, there is no phenomenon that the raw soil is not cracked even after drying, and thus there is no need for drying and curing processes, thereby greatly reducing manufacturing costs.

Another object of the present invention is to provide a thermal mat having high thermal efficiency and low heat loss by directly heating the thermal layer by wiring the heating wires together inside the thermal layer, that is, the soil.

Still another object of the present invention is to provide a heating layer and a heat insulation layer provided with raw soil and heating lines inside the thermal mat to manufacture integrally, thereby reducing the cost of purchasing each conventional component or semi-finished product, and consequently This is to reduce the cost of the finished product.

Another object of the present invention is to reduce the cost of parts by not using expensive materials that occupy a large area, and by forming a narrow width of the frame member on the outer surface of the heating mat to increase the utility of the product, It is possible to increase the use area of the products provided to increase the heating area of the thermal mat.

According to the thermal mat using the raw soil according to the present invention devised to achieve the object as described above and a manufacturing method thereof, the present invention relates to a thermal mat using the raw soil and its manufacturing method, the top plate spaced at a predetermined interval And a bottom plate; A support frame vertically installed along edges of the upper and lower plates and having one surface opened; A heating layer positioned in the inner space of the support frame and having a plurality of heating wires arranged at predetermined intervals, wherein the raw soil of the non-dough state is compacted by vibrating compaction; A heat insulation layer positioned below the heat insulation layer and having a heat insulation member embedded therein; A separating plate installed to partition the warming layer and the heat insulating layer; A closing plate installed in the opening of the support frame; Characterized in that formed integrally, including a jangpan member installed on the upper surface of the top plate.

And, it is characterized in that the fixing stand is further installed along the edge of the heating layer.

In addition, the heat insulating member is characterized in that any one of a urethane or styrofoam vacuum-treated.

In addition, a) arranging the upper plate and the lower plate at a predetermined interval, and installing a support frame with one surface opened along its edge; b) partitioning the inner space of the support frame into a warming layer and a heat insulating layer using a separator plate; c) arranging a plurality of heating wires at predetermined intervals in the heating layer between the upper plate and the separating plate, and vibrating with a vibrator while inputting raw soil; d) embedding a heat insulating member in the heat insulating layer between the separating plate and the lower plate; e) installing a closing plate in the opening of the support frame, and pressing the upper plate with a press to smoothly select a belly portion generated during vibration compaction; f) characterized in that it comprises the step of finishing by installing a jangpan member on the upper surface of the top plate.

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

Figure 2 is an exploded perspective view showing a thermal mat according to the present invention, Figure 3 is a schematic longitudinal cross-sectional view showing a thermal mat according to the present invention, Figure 4 is a flow chart showing a method of manufacturing a thermal mat according to the present invention.

The thermal mat 10 using raw soil according to the present invention, as shown in Figs. 2 and 3, the upper plate 20, the lower plate 30, the support frame 40, the thermal layer 60, the heat insulating layer ( 70), the separator 50, the closing plate 80 and the plate member 90 is integrally formed.

The upper plate 20 and the lower plate 30 are spaced apart at predetermined intervals up and down, and the support frame 40 having one side opened along the edges of the upper plate 20 and the lower plate 30 is vertically installed. do.

In addition, the separating plate 50 partitioning the heating layer 60 and the heat insulating layer 70 is installed horizontally in the inner space formed by the support frame 40.

The heating layer 60 is positioned above the separation plate 50, and a plurality of heating lines 61 are disposed at predetermined intervals, and the remaining space is compacted by vibrating compacted raw soil. .

In addition, the holder 63 may be further provided along the edge of the heating layer 60 to support the separation plate 50 and the upper plate 20.

The heat insulation layer 70 is positioned below the separation plate 50 to contain a heat insulation member 72. Here, the heat insulating member 72 may be formed of any one of vacuum foamed urethane or styrofoam. The heat insulation member 72 formed as mentioned above is not limited to this, It can also be comprised from other various types of heat insulation materials.

Then, the closing plate 80 is installed on one open surface of the support frame 40 to seal.

In addition, the jangpan member 90 is installed on the upper surface of the upper plate (20).

Hereinafter, a method of manufacturing a thermal mat using raw soil according to the present invention will be described with reference to FIG. 4.

First, the upper plate 20 and the lower plate 30 are arranged at regular intervals, and a support frame 40 having one surface opened along its edge is installed.

Next, the separating plate 50 partitioning the heating layer 60 and the heat insulating layer 70 in the inner space of the support frame 40 is installed horizontally.

Subsequently, a plurality of heating wires 61 are arranged at predetermined intervals in the heating layer 60 between the upper plate 20 and the separating plate 50, and the vibrator (Fig. (Not shown) is compacted by vibrating compacted raw soil 62.

Then, the heat insulating member 72 is embedded in the heat insulating layer 70 between the separator 50 and the lower plate 30.

In addition, by installing and closing the closing plate 80 in the opening of the support frame 40 to form the heating mat 10 integrally.

As the heating mat 10 integrally formed as described above, as the top plate 20 is pushed outward by the compaction of the raw soil 62 introduced into the heating layer 60, the heating mat is generated, and thus, the heating mat 10 After the 10 is laid down, the upper plate 20 is pressed by a press (not shown) to smoothly pressurize the belly portion generated during the vibration compaction.

In addition, the jangpan member 90 is installed on the upper surface of the upper plate 20 to finish the process.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to such specific embodiments, and those skilled in the art may appropriately change within the scope described in the claims of the present invention. This will be possible.

As described above, according to the thermal mat using the raw soil according to the present invention and a method for manufacturing the same, the thermal layer formed inside the thermal mat is manufactured by filling the raw soil in the dough state by vibrating compacting, There is no cracking phenomenon after drying, and thus there is no need for drying and curing processes, thereby greatly reducing the manufacturing cost.

In addition, by installing heating wires together in the warming layer, that is, inside the raw soil, the heating layer can be directly heated, thereby increasing energy efficiency due to high thermal efficiency and low heat loss.

In addition, by constructing a thermal layer and a heat insulation layer provided with raw soil and heating lines inside the thermal mat to manufacture integrally, it is possible to reduce the cost of purchasing each conventional component or semi-finished product, and consequently to reduce the cost of the finished product can do.

In addition, it is possible to reduce the cost of parts by not using expensive materials that occupy a large area, and increase the usability of the product by forming a narrow width of the frame member on the outer surface of the heating mat, thereby increasing the use area of the products provided therein. It is possible to widen the heating area of the thermal mat can be increased.

Claims (4)

An upper plate 20 and a lower plate 30 spaced at predetermined intervals; A support frame 40 vertically installed along edges of the upper plate 20 and the lower plate 30 and having one surface opened; Located in the inner space of the support frame 40, a plurality of heating wires 61 are arranged at regular intervals, the heating layer 60 is filled with consolidation by vibrating compact soil (62) )and; A heat insulation layer 70 positioned below the heat insulation layer 60 and in which a heat insulation member 72 is embedded; A separation plate 50 which is installed by partitioning the heating layer 60 and the heat insulation layer 70; A closing plate 80 installed in the opening of the support frame 40; A long plate member 90 installed on an upper surface of the upper plate 20; Thermal mat using raw soil, characterized in that formed integrally, including. The method of claim 1, A thermal mat using ocher, characterized in that the fixing base 63 is further provided along the edge of the heating layer (60). The method of claim 1, The heat insulating member 72 is a thermal mat using raw soil, characterized in that any one of vacuum foamed urethane or styrofoam. a) disposing the upper plate 20 and the lower plate 30 at regular intervals, and installing a support frame 40 having one surface opened along its edge; b) partitioning the inner space of the support frame 40 into a heating layer 60 and a heat insulating layer 70 by using the separating plate 50; c) arranging a plurality of heating wires 61 at predetermined intervals in the warming layer 60 between the upper plate 20 and the separating plate 50, and vibrating with a vibrator while introducing raw soil; d) embedding the heat insulation member 72 in the heat insulation layer 70 between the separation plate 50 and the bottom plate 30; e) installing a closing plate 80 in the opening of the support frame 40, and pressing the upper plate 20 by pressing to smoothly select a belly portion generated during vibration compaction; f) finishing the installation of the jangpan member 90 on the upper surface of the upper plate (20); Method of manufacturing a thermal mat using raw soil, characterized in that it comprises a

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