WO2014200172A1 - Heating apparatus for thermotherapy device - Google Patents

Abstract

The present invention relates to a heating apparatus for a thermotherapy device, and, more particularly, the heating apparatus comprises: a retaining holder (10) having a containing portion (11); a heat conduction means (20) comprising a first heat conduction member (20A) mounted on the retaining holder (10) and a second heat conduction member (20B) coupled to the retaining holder (10), the heat conduction means (20) providing a roll member (50) with radiant heat; a power supply (30) comprising a first power terminal (31) connected to the first heat conduction member (20A) and a second power terminal (32) connected to the second heat conduction member (20B); and a heating member (40) contacting all or part of each heat conduction member. Therefore, the purpose of the present invention is to propose a heating apparatus for a thermotherapy device configured such that the heating member contacts the heat conduction means, and heat generated by the heating member is directly transferred to the roll member via the heat conduction means, thereby improving heat conduction efficiency and shortening the initial heating time.

Description

Heating device for thermotherapy

The present invention relates to a heat generating device for a heat treatment device, which is configured to be in contact with a heat generating member to heat conduction means, so that the heat generated by the heat generating member is transferred to the roll member through the heat conducting means, thereby increasing the heat conduction efficiency and shortening the initial heat generation time. will be.

As a conventional heating device for a heat treatment device, Korean Patent No. 10-0559923 filed by the present applicant (2006.03.06. Hereinafter referred to as 'prior art') discloses a “heating apparatus using a PTC thermistor”. .

The prior art is a heat transfer means of the heating member of the rotating member consisting of an octopus that emits far infrared rays when the heat is provided, is fixed to the support and positioned in the empty space of the rotating member; It is composed of PTC thermistor as an automatic control heating element which is attached or fixed to the heat transfer medium part and heats the heat transfer medium part directly by the power supplied from the outside, and the rotating member is configured to be indirectly heated through the heated heat transfer medium part. It is.

According to the prior art, not only has a temperature control function of its own, but also prevents breakage of the octopus by preventing rapid expansion and contraction due to the heat of the octopus through a PTC thermistor and a heat transfer medium that adjust the temperature of the octopus, which is a rotating member by indirect heat. It is said to be effective.

In the prior art, the PTC element is formed in a plate shape and configured to be in contact with power terminals of different poles on the upper and lower surfaces thereof, and is taped to an insulating member such as an insulating tape.

However, the PTC element of the related art has insulation performance, but is separated from the heat transfer medium portion and the PTC element by an insulation member, which is disadvantageous in terms of heat conduction, and thus, the initial heat generation time of the heating apparatus is delayed.

Therefore, in order to solve the problems of the prior art, there is an urgent need for the development of a heat treatment device for a heat treatment device capable of improving heat conduction efficiency and shortening the initial heat generation time.

The present invention has been made to solve the above problems,

The heat generating member is configured to be in contact with the heat conducting means, so that the heat generated by the heat generating member is transferred to the roll member through the heat conducting means to increase the heat conduction efficiency and to shorten the initial heat generation time.

Another object of the present invention is to maximize the thermal conductivity by forming a wing portion and an area enlargement portion such as an exposed portion so that the thermal conductive means can increase the thermal conductivity area in order to maximize the thermal conductivity efficiency.

Heat treatment device for a heat treatment device according to the present invention comprises a fixed holder (10) having a receiving portion (11); A heat conduction means for providing radiant heat to the roll member 50 including a first heat conducting member 20A mounted to the fixed holder 10 and a second heat conducting member 20B coupled to the fixed holder 10. 20; A power supply unit 30 including a first power terminal 31 connected to the first heat conductive member 20A and a second power terminal 32 connected to the second heat conductive member 20B; And a heat generating member 40 in contact with all or part of each of the heat conductive members.

The fixed holder 10 according to the present invention is arranged in front and rear of the heat generating member 40 to support the second heat conductive member 20B, the protrusion to form a space (S) on both sides of the heat generating member (40). It is characterized in that the support portion 14 is further provided.

The first power supply terminal 31 of the power supply unit 30 according to the present invention is characterized in that the plate is arranged in contact between the first thermoelectric member (20A) and the heat generating member (40).

The second thermal conductive member 20B according to the present invention is further provided with a wing portion 20a formed to surround the outer portion of the fixed holder 10 to increase the thermal conductive area with the roll member 50. It is done.

The first thermally conductive member 20A according to the present invention is exposed to the outside through the receiving portion 11 of the fixed holder 10 to further expose the exposed portion 20d to increase the thermal conductivity area with the roll member 50. It is characterized by being provided.

The first thermally conductive member 20A according to the present invention is inserted into the fixed holder 10 to be integrally formed.

The receiving unit 11 and the first thermally conductive member 20A of the fixed holder 10 are further provided with fixing means 70.

The fixing means 70 according to the invention is characterized in that consisting of the mounting portion of the male and female coupling type.

The fixing holder 10 and the second heat conductive member 20A according to the present invention are further characterized in that the coupling means is further provided.

The coupling means according to the present invention is formed in the first coupling hole 12 and the second heat conductive member 20B formed on both sides of the fixed holder 10, corresponding to the first coupling hole 12 And a coupling member (B) inserted into and fixed to the second coupling hole (20b) and the first and second coupling holes (12) (20b).

The heating member 40 according to the present invention is characterized in that the PTC (PTC) thermistor.

Heat treatment device for heat treatment according to the present invention can increase the thermal massage function through high thermal conductivity efficiency can enhance the trust between the producer and the user,

In addition, it is designed to ensure safety in the nature of the work performing the massage function through direct contact with the body can eliminate the risks of use to obtain the effect of increasing the reliability of the device.

1 is a perspective view showing a heating device for a heat treatment device according to the present invention,

2 is a front view and a cross-sectional view showing a heating device for a heat treatment device according to the present invention;

3 and 4 are perspective views showing other embodiments of the heating device for a thermotherapy according to the present invention.

Hereinafter, with reference to the accompanying drawings, the heating device for a thermal therapy apparatus according to the present invention will be described in more detail.

1 and 2, the heating device for a heat treatment device according to the present invention

It comprises a fixed holder 10, the heat conduction means 20, the power supply 30, the heat generating member 40 and the roll member 50.

The heating device according to the present invention is installed in various types of thermal therapy devices, such as a bed type or a chair type, is provided in a structure configured to be movable and is in contact with a part of a user's body to perform a massage function by supplying heat. to be.

The movable structure provided in the heat treatment device is a mounting frame (1) provided to be fixed or pivotable, and the mounting frame (1) is provided with a fixed or detachable support bracket (3) for installation of a heating device,

Each of the support brackets is configured as a pair so that a plurality of heat generating devices can be mounted.

The fixed support bracket 2 is for the second embodiment of the heating device to be described below, the removable support bracket 3 is for the first and third embodiments of the heating device to be described in various modifications of the heating device. Correspondingly, structural stability can be ensured.

Hereinafter, with reference to the accompanying drawings, the first to third embodiments of the heating device according to the present invention will be described in more detail,

Elements of the same name in each embodiment have the same function and effect, and the foregoing description will be omitted to clarify the technical gist of the present invention.

1 and 2 is a first embodiment of the heating device according to the present invention,

First, a fixed holder 10 having a first accommodating part 11 is provided, and the heat conducting means 20 includes first and second heat conducting members 20A and 20B.

The first thermal conductive member 20A may be integrally mounted to the first receiving portion 11 of the fixed holder 10 through insert injection, or may be mounted in an interference fit manner.

As shown in the enlarged view of FIG. 2, the fixing holder 10 and the first thermally conductive member 20A are provided with fixing means 70 to prevent separation from each other.

The fixing means 70 is composed of a mounting portion of the male and female coupling type as shown in the enlarged view of Figure 2, the mounting portion is formed when the mounting groove 71 is formed on the outer surface of the first thermal conductive member (20A) the first receiving portion On the wall surface of (11) is provided a mounting projection 73 in the form of a groove,

On the contrary, although not shown in the accompanying drawings, when the mounting protrusion is formed on the first heat conductive member, the first receiving portion is provided with a mounting groove.

And the heat conduction means 20 is connected to a power supply unit 30 for supplying power to the heat generating member 40,

In this case, the power supply unit 30 includes a first power terminal 31 composed of a plate-shaped electrode plate mounted on an upper surface of the first heat conductive member 20A, and an end of the second heat conductive member 20B, that is, a figure. A second power supply terminal (not shown) is connected to the right end surface (not shown in the attached arrangement direction) on the basis of the illustration of 1.

However, in the case of the first power terminal 31, the cable 39 may be directly connected to the first heat conductive member 20A without being introduced in the form of an electrode plate, but the first heat conductive member ( 20A) is preferably introduced into the electrode plate as described above because direct connection of the cable 39 is difficult when the fixed holder 10 is integrally manufactured through insert injection.

The first power terminal 31 of the power supply unit 30 is connected to a cable 39, and the receiving holder 15 is formed in the fixed holder 10 to accommodate the cable 39. 39) is seated.

In addition, the heat generating member 40 is arranged between the first and second heat conductive members 20A and 20B of the heat conductive means 20.

In this case, the heat generating member 40 is formed in a plate shape, the upper surface of which is in surface contact with the inner surface of the second heat conductive member 20B, and the lower surface of the heat generating member 40 is on the upper surface of the first heat conductive member 20A. In surface contact with the first power supply terminal 31 provided.

Accordingly, when power is applied to the power supply unit 30, the heat generating member 40 generates heat and transfers the heat to the heat conducting means 20, and the heat conducting means 20 uses heat conduction to the roll member 50. Heat is supplied,

In this case, the heat conduction means 20 is in direct contact with the heat generating member 40, so that the heat conduction efficiency is increased and the initial heat generation time can be shortened.

In addition, the fixing holder 10 and the second thermal conductive member 20B is provided with a coupling means to form a combination of the fixed holder 10 and the second thermal conductive member 20B.

The coupling means includes a first coupling hole 12 formed at both sides of the fixed holder 10 and a second coupling hole formed in the second heat conductive member 20B and corresponding to the first coupling hole 12. Ball 20b,

And a coupling member B inserted into and fastened to the first and second coupling holes 12 and 20b.

In this case, when the coupling member B is a rivet, the first and second coupling holes 12 and 20b are inserted into the rivet to be fixed by compression.

When the coupling member B is a coupling bolt, a screw thread is formed inside the second coupling hole 20b to insert the coupling bolt B inserted through the first coupling hole 12 into the second coupling hole ( 20b) is coupled to the fixed holder 10 and the second thermal conductive member 20B.

In addition, the through hole 51 is formed in the roll member 50 in contact with the user's body,

The combination consisting of the fixed holder 10, the heat transfer means 20 and the power supply unit 30 and the heat generating member 40 is inserted into the through hole 51 of the roll member 50, the roll member (through a heat transfer) Heat is supplied to 50 to perform the massage operation by the heat.

In addition, in the roll member 50 in which the combination of the fixed holder 10, the heat transfer means 20, the power supply unit 30, and the heat generating member 40 according to the present invention, the contact portion 53 protrudes from both sides. Is provided, and each of the contact portion 53 is provided with a recessed portion 55 of the concave form.

The contact portion 53 of the roll member 50 allows the pressure to be concentrated when in contact with the body, thereby increasing the massage effect.

Furthermore, the second heat conducting member 20B of the heat conducting means 20 is provided with a wing portion 20a which extends downward to surround the outer portion of the fixed holder 10 to further increase the heat conduction efficiency by expanding the heat conduction area. It is desirable to be able to increase.

In addition, a lower portion of the first accommodating part 11 is opened to form an exposed part 20d such that a lower surface of the first heat conducting member embedded in the first accommodating part 11 protrudes to the outside to form the wing part 20a. In addition, it is desirable to maximize the thermal conductivity by increasing the thermal conductivity area.

In addition, an inner part of the second heat conductive member 20B has an accommodating part 20c in which the heat generating member 40 is accommodated.

The fixed holder 10 is provided with a protruding support 14 for protruding upward and backward of the heat generating member 40 to support the second heat conductive member 20B.

In particular, the protruding support portion 14 is to form a space (S) on both sides of the heat generating member 40,

The separation space (S) is formed on both sides of the heat generating member 40 to make the fixed holder and the heat generating member non-contact, and at the same time formed on the fixed holder 10 adjacent to both sides of the heat generating member 40 The second heat conductive member 20B and the fixed holder 10 are in contact with each other.

Therefore, the space S formed by the protruding support 14 prevents contact between the heat generating member 40, the fixed holder 10, and the second heat conductive member 20B.

Such a structure finally prevents contact between the first and second thermally conductive members, thereby securing insulation performance, thereby making it possible to more secure electrical safety.

In addition, although not shown in the accompanying drawings, it is possible to fill the insulating material on the separation space to completely block the contact between the thermally conductive members so that the insulation performance is more complete.

In addition, the combination of the fixed holder 10, the heat conduction means 20, the power supply unit 30 and the heat generating member 40 is mounted to the mounting frame (1) by the removable support bracket (3),

As mentioned above, the fixing holder 10 is formed with one end of the detachable support bracket 3, and the other end is separated from the detachable support bracket 3 and fixedly coupled thereto.

And the mounting frame 1 is formed with a connection hole (8A) (thread is formed on the inner side) is formed in the corresponding position where the removable support bracket 3 is coupled, the removable support bracket (3) protruding to both sides Corresponding connecting hole 8B corresponding to the connecting hole 8A is formed in the part and is fastened and fixed by the coupling bolt.

In this case, the mounting frame is not shown in Figures 1 and 2 attached,

As shown in FIG. 4 in which the detachable support bracket 3 is introduced, the detachable support bracket 3 is fixed to the mounting frame 1 having the connection hole 8A by the coupling bolts through the respective connection holes 8A. do.

The detachable support bracket 3 is provided with a coupling portion in the form of a groove,

The other end of the fixing holder 10 is inserted into the coupling portion protruding outward in the state in which the second heat conductive member 20B is coupled,

In this case, the protruding portion of the fixing holder 10 and the inner side of the engaging portion of the detachable support bracket have a flat or polygonal shape so as to correspond to each other to prevent the fixing holder 10 from rotating when the roll member 50 is rotated. The third anti-rotation unit 17 and the fourth anti-rotation unit 6c (see Fig. 2) are formed, respectively.

In addition, a fastening hole 16 is formed at the other end surface of the fixed holder 10, and a corresponding fastening hole 3a corresponding to the fastening hole 16 is formed at the detachable support bracket 3 to fasten the bolt B. By fastening and fixing by), the assembly is fixedly installed on the detachable support bracket 3.

3 shows a second embodiment of the heating device according to the present invention.

The heat conduction means 20 is configured in such a way that both ends are mounted to the fixed support bracket (2) of the mounting frame (1),

The heat generating members 40 are arranged to be in surface contact between the heat conductive members 20A and 20B.

The third power terminal 33, which is a power supply unit 30, is configured to supply power to the heat generating member 40 at one end of each of the heat conductive members 20A and 20B, that is, at the left end based on the illustration of FIG. 3. ) And the fourth power supply terminal 34 are connected.

The third and fourth power terminals 33 and 34 are coupled with a connector 38 for connecting an external power source to supply power to the heat generating member 40 through the respective heat conductive members 20A and 20B. Will be

The heat generating member 40 supplied with the power supplies heat to each of the heat conducting members 20A and 20B which are in surface contact with each other through heat generation.

In this case, a plate-shaped separating member 60 is provided between each of the thermal conductive members 20A and 20B to separate and arrange the respective thermal conductive members 20A and 20B, and the separating member 60 is a power supply unit 30. It is preferable to ensure insulation using an insulating material so as to prevent each of the thermally conductive members 20A and 20B to be connected to each other.

The separation member 60 is provided with a second accommodating portion 61 having a hole in the center thereof to accommodate the heat generating member 40.

The upper and lower surfaces of the heat generating member 40 are exposed through the second accommodating portion 61 to be in surface contact with the first and second heat conducting members 20A and 20B disposed on the upper and lower parts thereof, so that the heat generating member 40 Exothermic heat is conducted to the first and second heat conductive members 20A and 20B.

In addition, each of the heat conducting members 20A and 20B is inserted into the through hole 51 of the roll member 50 so that heat is supplied to the roll member 50 by heat transfer through the heat conducting members, thereby causing massage by heat. Becomes possible.

At this time, the roll member 50 is provided to be rotatable using the combination of each of the heat conducting members 20A, 20B and the separating member 60 as a rotating shaft, and when the heating device moves during the massage operation, the roll member 50 comes into contact with the body. Since the roll member 50 is rotated it is possible to perform a smooth massage.

Furthermore, each of the heat conductive members 20A and 20B has an arc shape in cross-sectional shape in order to increase the heat conduction area with the roll member 50, and the heat transfer means 21 is provided to protrude. In the state inserted into the through hole 51 of the roll member 50, the heat transfer part 21 is preferably arranged close to the entire inner surface of the roll member 50 so as to increase the thermal conductivity efficiency.

In the second embodiment of the heating device according to FIG. 3, unlike the heating device of FIGS. 1 and 2, the heating device is mounted on the fixed support bracket 2, and a coupling structure between the heating device and the fixed support bracket will be described below. .

First, the fixed support bracket 2 is provided with an arc-shaped settled portion 2a,

Both ends of each of the thermally conductive members 20A and 20B, that is, each of the heat transfer parts 21 are provided with protrusions 22 having a stepped shape on both sides, and the protrusions 22 extend outwards 23. ) Is provided.

And each of the heat conductive members 20A, 20B and the separating member 60 is provided with male or female portions on both sides of the second receiving portion 61 on the upper and lower surfaces of the separating member 60 to improve the mutual binding force. do.

Correspondingly, a lower surface of the first thermal conductive member 20A and an upper surface of the second thermal conductive member 20B are provided with a female or male fitting portion corresponding to each fitting portion of the separation member 60. At the time of coupling between 20A) and 20B and the separating member 60, the respective fitting portions are coupled in a force-fitting manner to increase the binding force.

In this case, as shown in FIG. 3, the male member 62 having a protrusion shape may be formed at the separation member 60, and the female female part 24 having a groove shape may be formed at each heat conductive member.

Although not shown in the accompanying drawings, the female part is formed in the separating member, and the male part may be formed in each thermal conductive member.

As described above, the combined body to which the separation member 60 and each of the thermal conductive members 20A and 20B are inserted is inserted into the through hole 51 of the roll member 50 so that both ends thereof are exposed to the outside.

In this state, the ring body 4 is fitted to both ends of the roll member.

The ring body 4 is provided with an annular insertion portion 4a fitted in the through hole of the roll member 50,

The ring body 4 is provided with an annular support portion 4b that is in contact with the periphery of the through hole 51 of the roll member 50, that is, the outer surface of both ends of the roll member 50, with the insertion portion 4a fitted therein. Coupling between the roll member 50 and the ring body 4 is made.

At this time, the connecting portion 23 of each of the heat conductive members 20A and 20B is protruded outwardly of the ring body 4 and exposed.

And the support 5 which is seated on the settled portion 2a of the fixed support bracket 2 is provided,

The supporter 5 is provided with a coupling part 6 so that the coupling part 23 of each of the heat conductive members is inserted into the coupling part.

In addition, the support 5 is mounted on the fixed support bracket 2 in a state in which the connecting portion 23 and the support 5 of each of the heat conductive members 20A and 20B are coupled to each other.

At this time, a seating portion 2b protruding to both sides of the seating portion 2a of the fixed support bracket 2 is formed, and a fixing hole 7A (a screw thread is formed on the inner surface) on the top surface of the seating portion 2b. Is formed.

Corresponding fixing holes 7B corresponding to the fixing holes 7A are formed at both sides of the support 5, and corresponding mounting portions 5a protruding to be mounted on the mounting portions 2b are provided.

Accordingly, when the fastening bolt is fastened to the fixing hole 7A through the corresponding fixing hole 7B of the support 5, the support 5 is fixed to the fixed support bracket 2.

In this case, each of the protrusions 22 or the connecting portion 23 of each of the heat conductive members, or both of them is provided with a first rotation preventing portion 25 of the planar or polygonal shape,

A second anti-rotation part 6a corresponding to the first anti-rotation part 25 is provided on the inner side of the coupling part 6 of the support 5.

At this time, each of the anti-rotation portion (25) (6a) is interviewed with each other in a state in which the coupling member and the support (5) of the respective heat conductive members (20A, 20B) is combined, when the roll member 50 rotates, It is possible to implement a stable support structure by preventing the rotation.

4 is a third embodiment of the heating device according to the present invention,

In addition, when the power supply unit 30 is fixed to the detachable support bracket 3 so that the heat conduction means 20 is coupled to the detachable support bracket 3, the power terminal is connected to the heat conduction means 20, through the heat conduction means 20. Power is supplied to the heat generating member 40.

First, the heat conduction means 20 is composed of first and second heat conduction members 20A and 20B arranged up and down,

The first and second separation members 60A and 60B are formed integrally with the first and second heat conductive members to surround the first and second heat conductive members, respectively, to prevent the first and second heat conductive members from being electrically contacted. Thus, insulation performance is realized.

In addition, the first and second separation members 60A and 60B have a third accommodating portion 63 formed therein so as to correspond to each other so that the heat generating member 40 is accommodated so that the first heat conducting member 20A The lower surface and the upper surface of the second heat conductive member 20B are interviewed.

Therefore, the power supplied from the power supply unit 30 is applied to the heat generating member 40 through the first and second heat conductive members 20A and 20B, so that the heat generating member 40 generates heat.

The combined body to which the respective heat conductive members 20A and 20B are coupled is inserted into the through hole 51 of the roll member 50 so that the roll member 50 is provided with the first and second heat conductive members 20A and 20B. Heat is generated through heat transfer by).

In addition, the combination of each of the thermal conductive members 20A, 20B is coupled to the detachable support bracket 3,

In this case, the coupling part 6 is provided in the detachable support bracket 3 arranged at one side of the detachable support bracket 3, that is, the left side of the support bracket 3.

The first fixing part 9A and the second fixing part 9B are provided around the coupling part 6 so that the fifth power supply terminal 35 and the sixth power supply terminal 36, which are the power supply unit 30, are inserted. It is fixed.

That is, the first fixing portion 9A is formed in the shape of a groove arranged in the lower portion of the coupling portion 6, and the fifth power terminal 35 bent is inserted therein.

At this time, the lower end of the fifth power supply terminal 35 is exposed to the lower portion of the removable support bracket (3),

An upper end of the fifth power terminal 35 protrudes upward to have elasticity, and a connection piece 37 exposed inwardly of the coupling part 6 is provided.

In addition, the second fixing part 9B is formed in a groove shape extending downward along the periphery of the coupling part 6, and the upper end bent part 36a of the sixth power terminal 36 bent in multiple stages is formed. Arranged at the upper part in the coupling part 6,

The lower end of the sixth power terminal 36 is exposed to the lower portion of the detachable support bracket 3.

In this case, the upper end bent portion 36a of the sixth power terminal 36 is provided with a connection piece 37 protruding downward and exposed inwardly of the coupling portion 6.

Therefore, when the combined body of each of the thermally conductive members 20A and 20B is combined with the engaging portion 6 of the detachable support bracket 3, the respective connecting pieces 37 are connected to the connecting portions 23 provided at both ends of the respective thermally conductive members. By this contact, power is supplied to the heat generating member 40 by each of the heat conductive members 20A and 20B.

In the third embodiment illustrated in FIG. 4, each of the heat conductive members includes a protruding portion 22 and a connecting portion 23, and includes a ring body 4 introduced in the second embodiment of FIG. 3.

In addition, a detachable support bracket 3 of the first embodiment of FIGS. 1 and 2 was introduced as a support bracket for fixing the assembly.

At this time, the coupling part 6 and the connection part 23 of each heat conductive member are configured in the same way as the first and second implementations of the anti-rotation part.

Therefore, detailed description thereof will be omitted to avoid duplicated.

On the other hand in the heating device for a heat treatment device according to the invention the heating member 40 is

PTC thermistors are preferably introduced,

It is more stable than conventional heating elements such as chromium wires because the PTC thermistor acts as a switch that does not flow due to an increase in electrical resistance as the current flows for a very short time while electricity is supplied by the power supply unit 30 material. Is excellent,

Therefore, when introduced into the heat treatment device for a thermal therapy apparatus according to the present invention performing a massage function through direct contact with the body it is advantageous to ensure safety.

However, when the conventional heating element is to be used as the heat generating member 40, it is preferable to employ a safety means that can reduce the risk factor accordingly to ensure the safety of the heating device.

As described above, the fixed and detachable support brackets 3 include a combination formed by combining the heat generating member 40, the insulating member 60, the heat conducting means 20A, and the roll member 50 directly with the mounting frame 1. When connecting, and after connecting the assembly to the support bracket, it is possible to selectively use according to the installation order, such as when the support bracket is fixed to the mounting frame (1),

Therefore, the shape of the support bracket introduced in each embodiment in the present specification can be selectively used in consideration of workability or installation structure characteristics.

In the above description with reference to the accompanying drawings, the heat treatment device for improving the heat conduction efficiency of the present invention has been described with reference to a specific shape and direction, the present invention is capable of various modifications and changes by those skilled in the art, such modifications and changes Should be construed as being included in the scope of the invention.

Claims (10)

1. A fixed holder 10 having a receiving portion 11;

   A first heat conductive member 20A mounted to the fixed holder 10 and a second heat conductive member 20B coupled to the fixed holder 10,

   Heat conducting means 20 for providing radiant heat to the roll member 50;

   A first power terminal 31 connected to the first thermal conductive member 20A,

   A power supply unit 30 including a second power terminal 32 connected to the second heat conductive member 20B; And

   A heat generating member 40 in contact with all or part of each of the heat conductive members;

   Heating device for a thermal therapy device, characterized in that consisting of.
2. The method of claim 1,

   Protruding support 14 arranged in front and rear of the heat generating member 40 to the fixed holder 10 to support the second heat conductive member 20B and to form a space S on both sides of the heat generating member 40. Heating device for a thermal therapy device characterized in that it is further provided.
3. The method of claim 1,

   The first power terminal 31 of the power supply unit 30 is made of a plate-like heating device, characterized in that arranged in contact between the first heat conducting member (20A) and the heat generating member (40).
4. The method of claim 1,

   Thermal treatment, characterized in that the second heat conducting member (20B) is further provided with a wing portion (20a) formed to surround the outer portion of the fixed holder 10 to increase the heat conduction area with the roll member (50) Heating device for aircraft.
5. The method of claim 1,

   The first heat conductive member 20A is further exposed to the outside through the receiving portion 11 of the fixed holder 10 is further provided with an exposed portion 20d for increasing the heat conduction area with the roll member 50 Heating device for thermal therapy characterized in that.
6. The method according to any one of claims 1 to 5,

   The first thermally conductive member 20A is inserted into the fixed holder 10 to be integrally formed.

   Receiving portion (11) and the first heat conducting member (20A) of the fixing holder 10 is a heating device for heat therapy apparatus, characterized in that the fixing means 70 is further provided.
7. The method of claim 6,

   The fixing means 70 is a heating device for a heat treatment device, characterized in that consisting of the mounting portion 71 of the male and female coupling type.
8. The method according to any one of claims 1 to 5,

   The fixing holder (10) and the second heat conducting member (20A) is a heating device, characterized in that the coupling means is further provided.
9. The method of claim 8, wherein the coupling means

   First coupling holes 12 formed on both sides of the fixed holder 10,

   A second coupling hole 20b formed in the second thermal conductive member 20B and corresponding to the first coupling hole 12;

   Heating device for a thermal therapy device, characterized in that it comprises a coupling member (B) that is inserted and fixed to the first and second coupling holes (12, 20b).
10. The method according to any one of claims 1 to 5,

    The heating member 40 is a heating device for a heat treatment device, characterized in that the PTC (PTC) thermistor.

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