KR200237026Y1 - Heating mat - Google Patents

Abstract

The present invention is not harmful to the human body, can improve the efficiency by increasing the generation efficiency of far infrared rays, good contact feeling to the human body, the manufacturing process of placing and attaching a far infrared ray generator is simple, the heat to increase productivity To provide a mat.

The thermal mat of the present invention includes a biosheet 10 on the top surface of the mat body 1, and the biosheet 10 includes a plurality of far infrared ray generators 13 in the form of small particles on the bottom sheet 11. Arranged in a group, and covered with a mesh sheet 12 having a mesh smaller than the size of the far infrared ray generator 13, and the bottom sheet 11 and the mesh sheet 12 between each of the far infrared ray generator groups 14. It is configured by blocking the distance between each far infrared ray generator group 14.

Description

Warm mat {HEATING MAT}

The present invention relates to a thermal mat having a far infrared ray generator.

In general, a thermal mat having a far infrared ray generator is known as a health mat having an effect such as antibacterial and deodorizing treatment for treating diseases such as improving thermonuclear circulation by far infrared rays generated from the far infrared ray generator.

Currently, as a far infrared ray generator, bioballs (ceramic balls), jade stones, ganban stones or germanium are formed into a certain sized lump and attached to a thermal mat.

For example, there is a configuration in which a lump-shaped far infrared ray generator having a certain size is attached to the inner sheet surface inside the surface sheet of the heating mat at regular intervals up and down, left and right, and attached with an adhesive. However, such an attachment structure is to place a far infrared ray generator one by one and attach with an adhesive, which is cumbersome for the manufacturing process, and because the bond is used as an adhesive, there is a disadvantage that is harmful to the human body by the smell and harmful components by the bond.

In addition, there is a structure in which the far-infrared generator is vinyl-coated and then heat-sealed to the inner sheet without using an adhesive as another attachment structure. However, this structure is not harmful to the human body as compared to the adhesive method, but since the far-infrared generator is vinyl-coated, the generation of far-infrared rays is suppressed to reach the user, thereby reducing the efficacy.

In addition, since the above two methods are fixed by adhesive or heat fusion so that the far infrared ray generator does not flow in the inner sheet, when contacting the user's body, it may cause pain, and the manufacturing process of arranging and attaching the far infrared ray generator This hassle has a problem of lowering productivity.

The present invention is to solve the conventional problems as described above, the purpose of which is not harmful to the human body, can improve the efficiency by increasing the generation efficiency of far infrared rays, good contact feeling to the human body, the far infrared generator The manufacturing process of disposing and attaching is simple to provide a thermal mat that can increase productivity.

1 is a perspective view showing a thermal mat of the present invention.

2 is an enlarged view of a portion A of FIG. 1;

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is a perspective view for explaining the manufacturing process of the thermal mat of the present invention.

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

1: Mat body 10: Bio sheet

11: floor sheet 12: mesh sheet

13: Far infrared ray generator 14: Far infrared ray generator group

15: inlet a, b: seam

The present invention for achieving the above object, in the thermal mat having a far infrared ray generator, the biosheet is provided on the upper surface of the mat body, the biosheet is a plurality of small infrared form of far infrared ray generator on the bottom sheet It is arranged to form a group, covered with a mesh sheet having a mesh smaller than the size of the far-infrared generator on it, and the surface sheet and the mesh sheet between each of the far-infrared ray generator group is sealed to block between each far-infrared ray generator group. It is characterized by the thermal mat.

At this time, it is preferable that the far infrared ray generator groups arranged on the biosheet be arranged in the form of a checkerboard.

Hereinafter, a preferred embodiment of the thermal mat according to the present invention will be described in detail according to the accompanying drawings. 1 to 3 show the configuration of the thermal mat according to the present invention, the bio sheet 10 is provided on the upper surface of the mat body (1). The biosheet 10 is composed of a bottom sheet 11 and a mesh sheet 12 made of a fabric, and a plurality of granular far infrared ray generators 13 are disposed on the bottom sheet 11, and the mesh is placed thereon. It is the structure covered with the sheet | seat 12.

The plurality of far-infrared generators 13 is made of a material that generates far-infrared rays, such as bio-ball (ceramic ball), jade, ganban stone, germanium, etc., and manufactured in the form of small grains, the mesh sheet 12 is the far-infrared ray The generator 13 is formed of a mesh of a smaller size than at least the far-infrared generator so as not to escape.

The plurality of far infrared ray generators 13 are arranged on the bottom sheet 11 using a plurality of far infrared ray generator groups 14, and in this embodiment, arranged in a checkerboard shape over the entire biosheet 10. Although illustrated as one, it is not limited to this, and may be partially disposed at an appropriate site, and may be arranged in various other forms.

The far infrared ray generator groups 14 disposed on the biosheet 10 are blocked so as not to flow with each other. That is, between the far infrared ray generator group 14 and the adjacent far infrared ray generator group 14 is sewn to block the bottom sheet 11 and the mesh sheet 12 from each other.

4 shows a process of manufacturing the far-infrared ray generator group 14 in the form of a checkerboard. The mesh sheet 12 is superimposed on the bottom sheet 11, and the horizontal direction or the vertical direction is spaced at regular intervals. After sewing, the other three sides except the inlet 15 of the four sides are sewn and fixed. In this embodiment, it is described that the longitudinal direction is sewn.

Thereafter, a certain amount of far infrared ray generator group 14 into one group is put through the inlet opening 15, and is sewn in the transverse direction so that each far infrared ray generating group 14 is made of the longitudinal seam (a) and the transverse direction agent. All directions are to be blocked by the bar (b).

In this manner, the following far-infrared ray generator group 14 is put through the inlet port 15, and after the sewing in the horizontal direction is repeated, the inlet port 15 is sealed in the horizontal direction, as shown in FIG. Far infrared ray generator group 14 is arranged in the form of a checkerboard, the four sides of the longitudinal seam (a) and the horizontal seam (b) is blocked in four directions, respectively, the bio sheet 10 produced as described above the mat body ( The heating mat is manufactured by sewing and fixing the upper surface of 1).

The thermal mat having such a configuration is arranged on the biosheet 10 using the far infrared ray generators 13 in the form of a plurality of particles as one group, and the far infrared ray generator groups 14 are blocked by sewing. 13) is placed on the bio sheet 10 and attached to work is very simple.

In addition, since the far infrared rays generated from the far infrared ray generator 13 come out through the mesh of the mesh sheet 12, the far infrared rays can directly affect the user, thereby treating diseases such as improving thermal fluid circulation, antibacterial, The efficacy of far infrared rays such as deodorization is improved.

In addition, although each of the far infrared ray generator group 14 is mutually blocked by the longitudinal seam line (a) and the horizontal seam line (b), but is composed of a plurality of granular far infrared ray generators 13, It becomes fluid. As a result, the far-infrared generator 13 flows in response to the human body contacted when the user contacts the user, thereby providing a comfortable feeling of contact by cushioning the user.

As described above, according to the thermal mat according to the present invention, by arranging a plurality of granular far-infrared ray generators as one group and blocking them from flowing to each other through sewing, productivity is increased.

In addition, since no bond is used to attach the far-infrared generator, there is no harm to the human body, and since the far-infrared rays of the far-infrared generator come out through the mesh of the mesh sheet, the effect of the far-infrared rays is exhibited without being reduced. The generator group can be moved in itself in response to the contact portion of the human body, thereby providing a comfortable contact feeling to the user.

Claims (2)

In the thermal mat provided with a far infrared ray generator, The bio sheet 10 is provided on the upper surface of the mat body 1, and the bio sheet 10 is disposed on the bottom sheet 11 by arranging a plurality of far infrared ray generators 13 in the form of small particles. Covered with a mesh sheet 12 having a mesh smaller than the size of the far infrared ray generator 13 above, the bottom sheet 11 and the mesh sheet 12 between each of the far infrared ray generator groups 14 are sewn to each far infrared ray generator group ( 14) The thermal mat, characterized in that the configuration by blocking between. The thermal mat according to claim 1, wherein the far infrared ray generator groups (14) of the biosheet (10) are arranged in a checkerboard shape.