KR100711252B1 - Heating medium circulation type heating sheet - Google Patents

Abstract

The present invention relates to a heating medium circulating heating sheet for indirectly heating a heating body by circulating a heating medium that receives heat from a heat source, and in detail, a coating layer covering the upper and lower surfaces of the main body made of a flexible synthetic resin, respectively, is provided. Since the heat medium is formed along the flow path in the body, it is possible to prevent leakage of some gaseous heat medium vaporized by the heat of the heat source through the micropores of the synthetic resin tissue forming the body, thereby delaying the replenishment period of the heat medium. The present invention relates to a heating medium heating sheet capable of being made.

Vaporization, leakage, heating sheet, circulation, heating medium, liquid, flow path

Description

Heat medium circulation type heating sheet

1 is a plan view showing a heat medium circulation type heating sheet according to the prior art.

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

3 is a plan view showing a heat medium circulation type heating sheet according to the present invention.

4 is a cross-sectional view taken along the line B-B in FIG.

Figure 5 is an exploded perspective view showing a portion of the heat medium circulation type heating sheet according to the present invention.

<Explanation of symbols on main parts of the drawings>

41: upper coating sheet (coating layer) 42: lower coating sheet (coating layer)

50: main body 50a: top sheet

50b: lower sheet 51: inlet

52: exit 53: euro

54: accommodating part 55: concave part

56 groove 57a, 57b embossing

60: heat storage material 70: heat medium supply device

71: pump 72: recovery line

73: supply line 74: heater

The present invention relates to a heat medium circulation type heating sheet, and more particularly to a heat medium circulation type heating sheet to minimize the heat medium leakage.

In general, the heating mat is provided with a heating sheet that provides warmth to the user. The heating sheet, which is widely used, is equipped with a heating wire and is heated by electric heat generated by electrical resistance when current flows on the heating wire. There is an electric heating sheet for heating the. However, in the case of the electric heating sheet, the local heating was severe because of the direct heating method, the risk of electric shock accident was high due to the use of electricity, and there was a problem such that harmful electromagnetic waves were generated during the operation.

Therefore, in recent years, such a problem is not attracted attention is that the heat medium (usually water is used), which receives heat from the heat source, circulates through the inside to heat the heating element, and the heating medium circulating heat of the indirect heating method Sheet.

1 is a plan view of a heat medium circulation heating sheet according to the prior art, Figure 2 is a cross-sectional view taken along line AA of Figure 1, the applicant filed a utility model registration on February 24, 2005 Registered Utility Model No. 0384633.

Heat medium circulating heating sheet according to the prior art bar as shown in Figures 1 and 2 is made of a synthetic resin having a flexible sheet-like body 10, the heat medium is introduced into one side of the body 10 and outflow Inlet 11 and outlet 12 are formed, respectively, and the flow path so that the heat medium flowing into the inlet 11 is discharged to the outlet 12 after passing through the inside of the body 10 inside the body 10. (13) is formed in a constant pattern.

The heat medium circulating heating sheet according to the prior art configured as described above receives the heated heat medium from the heat medium supply device 30, and the heat medium introduced into the inlet 11 radiates heat in the process of flowing along the flow path 13. The main body 10 is heated and then flows out through the outlet 12. Of course, the heat medium supply device 30 circulates the heat medium in such a manner that the heat medium flowing out is recovered, reheated, and then resupplied.

Here, the heat medium supply device 30 discharges the pump 31 through the pump 31, a recovery line 32 for transporting the heat medium flowing out from the outlet 12 to the pump 31, and the inlet 11. It consists of the supply line 33 which conveys a heat medium to the flow path 13, and the heater 34 provided on this supply line 33. As shown in FIG.

However, such a conventional technique is an extremely fine hole (generally synthetic resin exists if it exists in the synthetic resin tissue constituting the main body 10, which is not visible to the naked eye, but is visible when viewed with an electron microscope by fragmentation). There are problems that the heat medium slowly leaks through a myriad of holes), and eventually, the heat medium is insufficient and the heat medium must be replenished in a short period of time.

Of course, the leakage of the heat medium here is not the liquid heat medium, but the heat medium vaporized by heating by the heater 34 of the heat medium supply device 30 is mostly, and this heat medium heat medium is together with the liquid heat medium. It flows into the inlet 11 and flows out along the flow path 13.

The present invention has been made to solve the problems of the prior art as described above, by covering the micropores in the tissue of the synthetic resin forming the body by covering the cover to significantly reduce the leakage of heat medium, further delay the heat medium replenishment cycle It is an object of the present invention to provide a heat medium circulation heating sheet.

According to the present invention for realizing the above technical problem, an inlet for receiving a heat medium from a heat medium supply device and an outlet for discharging the heat medium to the heat medium supply device are formed on one side of a main body made of a flexible synthetic resin, respectively. In the heat medium circulation type heat generating sheet in which the flow path is formed in a predetermined pattern in the interior of the main body so that the supplied heat medium passes through the inside of the main body and is discharged to the outlet. The coating layer for preventing leakage through the micropores in the tissue of the synthetic resin constituting the main body is characterized in that each formed on the upper and lower surfaces.

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

3 is a plan view showing a heat medium circulation heating sheet according to the present invention, Figure 4 is a cross-sectional view taken along the line B-B of Figure 3, Figure 5 is an exploded perspective view showing a portion of the heat medium circulation heating sheet according to the present invention.

As shown in FIGS. 3 to 5, the heat medium circulation type heating sheet according to the present invention is formed in a thin sheet form by soft and soft urethane-based synthetic resin, as shown in FIGS. The inlet 51 through which the heat medium is supplied and the outlet 52 through which the heat medium is supplied are respectively formed, and the heat medium supplied to the inlet 51 passes through the inside of the body 50 through the inside of the body 50, and then exits 52. The flow path 53 to be discharged to the () is formed in a predetermined pattern. In a portion where the flow path 53 is not formed inside the main body 50, a receiving portion 54 which is a closed space is formed, and the storage portion 54 receives heat from the heat medium flowing along the flow path and accumulates heat. Ash 60 is filled. Moreover, the coating layers 41 and 42 are formed in the upper surface and the lower surface of the main body 50, respectively.

Here, the flow path 53 is formed such that the cross-sectional area is constant so that the heat of the heat medium is uniformly distributed in the main body 50.

And the receiving part 54 is formed so that the space | interval G with the flow path 53 may be constant so that the heat storage material 60 may receive the heat of a thermal medium uniformly. In addition, the accommodating part 54 has an area occupying the body 50 relatively wider than that of the flow path 53, and the heat storage material 60 prevents the flow path 53 from being compressed when pressure is applied from the outside. In addition, the heat storage material 60 to provide a cushion function. At this time, the heat storage material 60 can be used as a liquid, that is, mineral oil, water, liquid herbal medicine, etc., in the case of the heat storage material 60 is used until the end of the product life once filled, the receiving portion 54 It is preferable to use a chemical treatment such as to remove the deterioration factors in advance so as not to deteriorate.

The main body 50 is composed of an upper sheet 50a and a lower sheet 50b fused to the lower surface of the upper sheet 50a and integrally attached to the upper sheet 50a. The concave portion 55 formed to have a constant and width is formed in a constant pattern, for example, a zigzag shape, and the depth is constant at a portion where the concave portion 55 is not formed (preferably the concave portion and the depth). Is formed the same groove portion 56 is formed. At this time, the concave portion 55 is formed so that both ends of the lower sheet 50b to communicate with the outside, the groove portion 56 is formed at regular intervals with the concave portion (55).

Therefore, a space corresponding to the depth of the recess 55 and the recess 56 is naturally formed between the recess 55 and the upper sheet 50a and between the recess 56 and the upper sheet 50a. The space between the portion 55 and the upper sheet 50a becomes the flow path 53 described above, and the space between the groove portion 56 and the upper sheet 50a becomes the receiving portion 54 described above, and the concave portion ( Both ends of 55 are respectively the inlet 51 and the outlet 52 described above. Of course, the coating layers 41 and 42 are formed on the upper surface of the upper sheet 50a and the lower surface of the lower sheet 50b, respectively, which form the upper and lower surfaces of the main body 50.

As described above, the concave portion 55 and the groove portion 56 forming the flow path 53 and the receiving portion 54 respectively press the lower sheet 50b from the upper side to the lower side, and the embossed portion protrudes downward from the lower sheet 50b. The grooves are formed on the upper surface of the lower sheet 50b by forming the 57a and 57b.

The coating layers 41 and 42 prevent leakage of the heat medium through the micropores in the synthetic resin tissue forming the main body 50 in the course of flowing along the flow path 53, respectively. The upper surface) and the lower surface (lower surface of the lower sheet) cover the entire size, and the thickness is made of a thinner sheet than the upper and lower sheets 50a and 50b.

Here, the upper coating sheet 41 constituting the coating layer covered on the upper surface of the main body 50 and the lower coating sheet 42 constituting the coating layer covering the lower surface of the main body 50 are formed of the upper sheet 50a. It is attached to the upper surface and the lower surface of the lower sheet (50b) in close contact with each other, in order to prevent the degradation of the elasticity of the main body 50 is made of soft and soft synthetic resins, like the upper and lower sheets (50a) (50b), As the kind of synthetic resin, one having the same urethane type as the upper and lower sheets 50a and 50b is preferable in consideration of the influence of heat and adhesiveness.

On the other hand, the upper and lower coated sheets 41 and 42 may be attached as long as the upper and lower coated sheets 41 can be firmly attached to the upper and lower sheets 50a and 50b. . However, the main body 50 is to be heated to a high temperature should not be a phenomenon that the adhesive strength is weakened by the effect of this heat.

In addition, although the upper and lower coated sheets 41 and 42 are attached to the upper and lower sheets 50a and 50b, respectively, in FIG. 4, the number of attachments can be increased.

 Reference numeral 70 not described above indicates a recovery line 72 for transporting the heat medium flowing out of the pump 71 and the outlet 52 to the pump 71, and the heat medium discharged from the pump 71. Consists of a supply line 73 transported to the flow path 53 through, a heater 74 installed on the supply line 73 to supply the heated heat medium to the inlet 51 and through the flow path 53 to exit It is a heat medium supply device for circulating the heat medium in such a way that the heat medium discharged to the 52 is recovered, reheated, and then re-supplied to the inlet 51.

In addition, reference numerals N1 and N2 are inserted into the inlet 51 and the outlet 52, respectively, the nipples are joined to be kept airtight by a high frequency heating method, the shape of the inlet 51 and the outlet 52 to form It maintains and facilitates the coupling of the recovery line 71 and the outlet 52 and the supply line 73 and the inlet 51 of the heat medium supply device (70).

Looking briefly at the manufacturing process of the heat medium circulation type heating sheet according to the present invention configured as described above are as follows.

First, the upper coating sheet 41 and the lower coating sheet 42 are attached to the upper surface of the upper sheet 50a and the lower surface of the lower sheet 50b, respectively. At this time, the coating layers 41 and 42 are formed on the upper surface of the upper sheet 50a and the lower surface of the lower sheet 50b, respectively. The micropores in the synthetic resin tissue forming the upper and lower sheets 50a and 50b are coated layers ( It is blocked by 41) (42), and the heat medium becomes very difficult to permeate.

Next, the lower sheet 50b is disposed so that the embossed portions 57a, 57b and the protrusions 58 face downward. Then, the concave portion 55 and the groove portion 56 face upwards.

Then, the upper sheet 50a is placed on the upper surface of the lower sheet 50b, and the upper sheet 50a and the lower sheet 50b are heated to a temperature of 180 ° C., thereby heating the portion where the upper sheet 50a and the lower sheet 50b abut each other. The lower sheet 50b is fused. At this time, the flow path 53 and the receiving part 54 are formed between the recessed part 55 and the upper sheet 50a, and between the groove part 56 and the upper sheet 50a, respectively. For reference, the heating temperature is 180 ° C. because the urethane-based synthetic resin is melted and integrated when heated to 180 ° C.

Next, nipples N1 and N2 are respectively inserted into the inlet 51 and the outlet 52, and then bonded by the high frequency heating method. Then the manufacturing is completed.

Meanwhile, the heat storage material 60 may be filled in the groove portion 56 when the upper sheet 50a and the lower sheet 50b are fused, or after the upper sheet 50a and the lower sheet 50b are attached to the groove portion 56. The hole may be filled in the embossed portion 57b to form the hole by filling the groove 56 and then filling the hole by fusion.

In the present invention constructed and functioning as described above, since a coating layer covering the excitation is formed on the upper surface (upper surface of the upper sheet) and the lower surface (lower surface of the lower sheet) of the main body, the heating medium flows along the flow path in the main body. It can be prevented from leaking through the micropores in the synthetic resin tissue to form, there is an advantage that can delay the heat medium replenishment cycle.

In addition, since the coating layer is composed of a sheet made of flexible synthetic resin, the coating layer can be formed by a simple operation (attaching to the body), and there is an advantage in that the coating layer is excellent in adhesion to the main body.

Claims (5)

An inlet 51 for receiving a heat medium from the heat medium supply device 70 and an outlet 52 for discharging the heat medium to the heat medium supply device 70 are formed on one side of the main body 50 made of flexible synthetic resin, respectively. The heating medium circulation type heating sheet in which the flow path 53 is formed in a predetermined pattern so that the heat medium supplied to the inlet 51 passes through the inside of the main body 50 and then discharges to the outlet 52. To The main body 50 has coating layers 41 and 42 on the upper and lower surfaces of the heat medium to prevent leakage through the micropores in the tissue of the synthetic resin constituting the main body 50 in the process of flowing along the flow path 53. Heating medium circulation sheet, characterized in that each formed. The method of claim 1, The coating layers 41 and 42 are made of flexible synthetic resin, and the sheet is attached to at least one sheet on the upper and lower surfaces of the main body 50 so that the upper and lower surfaces of the main body 50 are covered. Heating medium circulation sheet. The method according to claim 1 or 2, The body 50 is a heat medium circulating heating sheet, characterized in that the receiving portion 54 is formed in a closed space in the portion where the flow path 53 is not formed therein is filled with the heat storage material (60). The method of claim 3, The main body 50 is composed of an upper sheet 50a and a lower sheet 50b fused to the lower surface of the upper sheet 50a and integrally attached thereto. Each sheet constituting the coating layers 41 and 42 is attached to an upper surface of the upper sheet 50a and a lower surface of the lower sheet 50b, respectively. The lower sheet 50b has a recess 55 formed at a predetermined pattern at both ends thereof on one side of the lower sheet 50b, and has a groove 56 at a portion where the recess 55 is not formed. ) Is formed, The inlet 51 and the outlet 52 are both ends of the recess 55, respectively. The flow path 53 and the receiving portion 54 are heat medium circulation, characterized in that the space between the recessed portion 55 and the upper sheet 50a and the space between the groove portion 56 and the upper sheet 50a, respectively. Heating sheet. The method of claim 4, wherein The concave portion 55 and the groove portion 56 press the lower sheet 50b from the upper side to the lower side to form embossed portions 57a and 57b protruding downward on the lower sheet 50b. Heat medium circulation type heating sheet, characterized in that each of the grooves formed on the upper surface of (50b).

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