WO2011055890A1 - Heat- and light-radiating device for a thermotherapy apparatus - Google Patents

Abstract

The present invention relates to a heat- and light-radiating device for a moxibustion device used in a thermotherapy apparatus, in particular to a heat- and light-radiating device for a moxibustion device, in which a heat source is separated from a light source. A heat- and light-radiating device for a moxibustion device according to the present invention is a heat- and light-radiating device for a moxibustion device, which is mounted inside a main body part of a moxibustion device and exposed through a supporting hole of a cover part of the moxibustion device, wherein the heat- and light-radiating device comprises: a supporting tube provided in the main body part; an LED lamp mounted on a PCB provided within the supporting tube; a connection fixing part inserted in an upper periphery of the supporting tube; a heater part provided on an upper periphery of the connection fixing part so as to receive current supplied thereto from the PCB; and a thermal cap which is fixed and adhered, at a lower periphery thereof, to an upper portion of the heater part so as to receive heat conducted from the heater part. When the heat- and light-radiating device for a moxibustion device according to the present invention is used, an increase in the temperature inside the thermal cap is reduced in order to maximally extend the lifespan of the LED lamp, and to ultimately provide the benefit of maximally reducing maintenance and repair costs.

Description

Thermal Floodlight for Thermal Therapy

The present invention relates to a heat radiator for a warmth device used in a heat treatment device, by rapidly transferring a high temperature heat to the heat cap by the heat transfer method from the heater unit to improve the heat treatment effect on the user's body, heat source and The present invention relates to a heat radiator for a heat treatment device, which is manufactured by separately separating a light source.

The thermal therapy device uses electric energy to heat the heating element to a high temperature, and induces the octane heater to emit far infrared rays in the state of being heated to a high temperature, and at the same time touches or massages the body part of the user, This product provides a massage effect.

Today's thermotherapy has been developed from the conventional manual type to the automatic type, is being replaced from the portable type to the bed type, and is evolving again to the sitting type.

Regardless of its type, the thermal therapy device includes a heat source that generates high temperature heat, and transfers the high temperature heat generated from the heat source to a thermal cap made of ceramic material. In addition to providing the user with a thermal heating effect, the far-infrared ray is radiated by the jade used as the material.

The thermotherapy device is fixed to its own body, or by the thermal radiator moving in the left and right (or up and down) direction from the inside of the body to obtain a heat treatment effect on the user's waist and spine, lower body pelvis, thighs, calf, etc. To make it possible. In addition, the heat treatment device can be separated from the body, and can provide a thermal heating effect by using a warmer by the external ceramic that can be freely used by the user by hand, as a separate three ball, six ball, Alternatively, the nine-ball heater is used to heat the user's stomach, side, or arm.

As such, the heat treatment machine is a heat-transmitter or a warmer that provides a thermal heating effect to the user, and performs the most important function.

FIG. 5 is a perspective view schematically illustrating a heat treatment device for a thermal therapy apparatus, which is conventionally used, and FIG. 6 is a cross-sectional view taken along the line A-A of FIG. 5.

As can be seen in Figures 5 and 6, the heat treatment device for a conventional heat treatment device is coupled to the main body portion 10 and the main body portion 10 to support the respective parts therein, while performing a function as a lid Cover portion 20 for supporting and holding the parts present in the center portion, and a heat-transmitter 30 is provided inside the main body portion 10 and supported by the cover portion to provide the user with a thermal cuddle effect 30 ).

At this time, the heat-transmitter 30, the inside of the main body portion 10 and wraps around the heat lamp 40 and the heat lamp 40 for generating high temperature heat by the external electric energy. While the support 50 to protect the heat lamp and the heat cap 60 is placed on the upper portion of the support 50 and receives the high temperature heat from the heat lamp 40 to the user's body as an essential component And, the support 50 is made of more detailed components.

At this time, the thermal cap 60 receives the light emitted from the thermal lamp 40 and the heat of high temperature and performs the function of delivering them to the user's body, by this function, the user has a thermal heating effect Will be provided. In this regard, the conventional fixed heat device was regarded as a very important relationship between the thermal cap 60 and the thermal lamp 40, in order to achieve a better thermal heating effect, the thermal cap 60, It was used to process the jade, and the heat lamp 40 is used as helium bulb, infrared bulb, or a conventional bulb.

In the conventional thermal projector 30, the thermal lamp 40 is inevitably used, and a phenomenon in which the life of the filament used therein is frequently shortened due to the use of high temperature heat for a long time. The reason is that the conventional heat emitter generates light during operation, and the light is reflected on the heat cap 60, so that the user can check whether the heat emitter is in operation. In order to emit light, and in order to emit light, it is necessary to generate a high temperature heat, so as the user uses the heat treatment device for a long time and the heat treatment device frequently, the filament used in the heat lamp It was because the life was forced to be shortened.

In addition, since the conventional heat lamp 40 heats the heat cap 60 through radiant heat by dissipating high temperature heat, the high temperature heat reflected by the heat cap 60 inevitably results in an internal temperature of the heat cap 60. This increases the temperature caused by the radiant heat and the reflected heat, which is heated to a higher temperature, thereby shortening the life of the heat lamp 40 that is mounted in a narrow space of the heat cap 60. To provide the cause.

As such, when the heat lamp 40 used in the conventional heat emitter or heat device causes a failure, the entire heat treatment device cannot be used or partially used, so the heat lamp 40 itself needs to be replaced. To this end, a large number of after-sales service personnel had to be invested and also had the disadvantage of excessively incurring post-maintenance costs.

On the other hand, the light-transmitting hole 62 is formed on the upper surface of the heat cap 60 constituting the conventional heat-transmitter 30 so that the light of the heat lamp can be transmitted. However, since the thermal cap 60 uses natural jade, it is easily broken in the process of processing the light-transmitting hole 62, which causes a disadvantage in that a large amount of defective products are generated.

The present invention is devised to solve the problems of the conventional heat treatment device as described above, and does not transfer heat generated from the heater unit by a radiation method, while maintaining a low temperature inside the heat cap, and at the same time It is an object of the present invention to provide a heat-transmitter for a heater that can raise the temperature of the cap itself as quickly as necessary.

In addition, the present invention transfers the heat of the heater to the thermal cap quickly by the conduction method, and as a result the temperature of the thermal cap quickly rises, by installing a separate light source for a warmer for separating the heat source and the light source An object of the present invention is to provide a heat radiator.

In addition, an object of the present invention is to use a LED lamp as a separate light source, and to provide a heat radiator for a heater that can uniformly emit the light emitted from the LED lamp to the outside of the heat cap.

In addition, an object of the present invention is to provide a heat-transmitter for a heater that is resistant to external impact by using a durable and long-life LED lamp as a light source.

In addition, an object of the present invention is to provide a heat-transmitter for a heater that improves the assembly by simply fixing the LED lamp through the PCB.

According to an aspect of the present invention, there is provided a heat radiator for a hot air heater, which is provided inside the main body of the hot air heater and is mounted to be exposed through the support hole of the lid, the support tube provided in the main body; A connection fixing part positioned on an upper portion of the support tube and fixing another member positioned thereon; A heater unit disposed around an upper portion of the connection fixing unit and configured to generate heat when power is applied from the PCB; A heat cap fixed to an upper portion of the heater part and heated by conducting heat directly from the heater part; Characterized in that it comprises a.

In the present invention, the above-mentioned heat-transmitter only generates heat at a high temperature in the heater, and does not generate light due to high-temperature heat, whereas electric energy is supplied by installing a separate light source to generate heat. It is desirable to allow the user to visually confirm that the operation is performed.

In the present invention, the heater unit is composed of a heating coil that generates heat by a power source, and a heating body fixed in the heating coil and having a shape that matches the connection fixing part, wherein the heating coil is Silver is preferably fixed to the heating body as an adhesive. The heater unit may use a planar heating element that is generated by the power source.

In addition, in the present invention, the connection fixing portion, it is preferable that the support pipe fixing grooves are formed in the lower circumference and the ring-shaped connection fixing ring formed with the heater portion fixing grooves in the upper circumference.

In addition, in the present invention, the connection fixing ring is made of any one of silicon, urethane, synthetic rubber, or Teflon material having a low thermal conductivity and elasticity to block the heat of the heater portion is conducted to the PCB through the support tube. It is characterized by.

In addition, in the present invention, the support tube may be inserted into the lower plate of the main body and assembled or integrally formed on the lower plate of the main body.

In addition, in the present invention, the PCB is preferably provided through the insertion hole formed on both sides of the support tube.

As described above, the heat-transmitter according to the present invention transmits the high temperature heat generated by the heater unit to the heat cap that is in contact with the heat cap directly by the conduction method without using another medium. It can quickly rise, and the advantage that allows you to use the heat treatment device as quickly as possible.

In addition, the heat-transmitter according to the present invention does not use a method of heat generation and light emission of a filament as in the prior art, and generates or utilizes high-temperature heat generated by a heating wire or utilizes a planar heating element, so that the filament is lost as in the prior art. There is an advantage in removing the poor phenomenon of the thermal floodlight and the thermal therapy device using the same.

In addition, the heat radiator according to the present invention, when using a separate LED light source, by separating the heat source and the light source from each other, to ensure that each function can be performed independently, and to exhibit the maximum efficiency, the heat treatment device There is also an advantage that can improve the thermal poultice effect.

In addition, the heat-transmitter according to the present invention, it is possible to reduce the temperature rise inside the heat cap, thereby extending the life of the LED lamp to the maximum, it is possible to reduce the cost of the future maintenance to the maximum It is also effective.

In addition, the heat-transmitter according to the present invention, by making it possible to uniformly emit the light emitted from the LED lamp to the outside of the heat cap, it can be provided with the effect of providing a warmer excellent in luminescence.

1 is a cross-sectional view showing a heat-transmitter of a first embodiment according to the present invention,

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

3 is an exploded perspective view of a heat radiator of a first embodiment according to the present invention;

4 is a cross-sectional view showing a heat-transmitter of a second embodiment according to the present invention,

Figure 5 is a schematic perspective view showing a heat device for a conventional heat treatment device,

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

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, and the technical spirit of the present invention is not limited thereto.

1 is a cross-sectional view showing a heat-transmitter 100 of the first embodiment according to the present invention,

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

3 is an exploded perspective view showing a heat transmitter 100 of the first embodiment according to the present invention.

The heat-transmitter 100 of the first embodiment according to the present invention, which is mounted on the heat device constituting the heat treatment device, is contained in the main body portion 102 of the heat device and is supported by the cover 110. Will be mounted exposed to the outside of the cover 110.

The heat-transmitter 100 according to the present invention includes a support tube 120 provided in the body portion 102, a connection fixing portion 130 fitted to an upper circumference of the support tube 120, and the body portion ( It is mounted inside the 102 and is heated by direct conduction of heat from the heat source and is provided with a heat cap 140 for performing a heat-foam function to the user, the upper periphery of the connection fixing part 130, the PCB The heater unit 150 as a heat source that generates heat when power is applied at 122 is included.

The heat-transmitter 100 according to the present invention includes a main body portion 102 corresponding to the bottom surface of the heater, and a support tube 120 coupled thereon.

In the present invention, the main body portion 102 and the support tube 120 may be formed integrally with each other, or may be detachably coupled to each other. When detachably coupled, the body portion 102 may include an insertion assembly 104. In this case, the insertion assembly 104 is formed in a circular shape through the inner and outer protrusion jaw formed on the lower plate of the main body portion 102, so that the support tube 120 can be fitted from the top to the lower assembly It is preferable.

The thermal floodlight 100 according to the present invention includes a connection fixing part 130.

In the present invention, the connection fixing part 130 is preferably composed of a ring-shaped connection fixing ring 132. The connection fixing ring 132 is fastened on the support tube 120 and is used as a medium for coupling the support tube 120 and a member to be positioned thereon. The connection fixing ring 132 preferably forms a support tube fixing groove 134 around the lower portion thereof, and a heater portion fixing groove 136 is formed around the upper portion thereof.

In the present invention, the connection fixing ring 132, in order to prevent the heat of the heat cap is conducted to the PCB 122 through the support pipe 120 and to obtain a buffering effect, It is preferable that the material is composed of any one of silicon, urethane, synthetic rubber, or Teflon having low thermal conductivity and elasticity.

In the present invention, the PCB 122 is preferably mounted through the insertion hole 126 formed on both sides of the support tube 120. In addition, one of the insertion holes 126 of the both insertion holes 126 is preferably formed so that the upper portion thereof is open in order to allow the LED lamp 124 to pass through. In this case, since the PCB 122 can be inserted from the side of the support tube 120, there is an advantage to improve the assemblability of the heat-transmitter.

The thermal floodlight 100 according to the present invention includes a thermal cap 140. The thermal cap 140 has a generally circular shape upward and has an empty shape therein. The heat cap 140 includes a heat source therein, and receives a high-temperature heat from the heat source to provide a thermal bath effect to the user. The thermal cap 140 is typically manufactured by processing jade, which belongs to a conventional technique.

The thermal floodlight 100 according to the present invention includes a heater unit 150 for supplying high temperature heat to the thermal cap 140.

In the present invention, the heater unit 150 performs only a heat generating function, and unlike the conventional, does not perform a light emitting function. The heater unit 150 includes a heating coil 152 that generates heat by electric energy when power is applied through a wire from the PCB 122. The heating coil 152 is preferably composed of any one of a heating wire, a magnetic heating wire, a nichrome wire, a PTC, or a conductive heating wire that is commonly used. At this time, the PTC is a barium titanate-based ceramics refers to a semiconductor device that the electrical resistance rapidly increases when the temperature rises.

In addition, the heater unit 150 includes a heating body 154 for fixing the heating coil 152. The heating body 154 has a shape corresponding to the connection fixing portion 130. Therefore, when the connection fixing part 130 has a circular cross section, the shape of the heating body 154 also has a circular cross section. If the connection fixing portion 130 has a polygonal cross section, the heating body 154 will form a polygonal shape whose cross section corresponds to the shape of the connection fixing portion.

In the present invention, the heater unit 150 generates heat from the heating coil 152 by electric energy when power is applied through a wire in the PCB 122, the generated heat is the heating body of the It is directly transmitted to the lower circumference of the heat cap 140 through 154, and gradually spread to the whole of the heat cap 140. On the other hand, the heating coil 152 is preferably fixed to the heating body 154 as an adhesive.

In the present invention, the heater unit 150 may use a planar heating element as another embodiment. The planar heating element is composed of a sheet-like support that uses carbon fiber or the like as a heating element and supports the carbon fiber or the like. When the planar heating element is applied with power, the carbon fiber generates a resistance and generates heat, and is used as a heating element by using the heat. The construction and action of the planar heating element correspond to conventional techniques, and thus detailed description thereof will be omitted.

In the present invention, the heater unit 150 performs only a heat generating function as a heating element, there is no need to perform a function as a light source for generating light. This is because the heat generating function and the light emitting function are separated from each other, unlike the prior art, because it has a great advantage in three aspects as follows.

First, the present invention has the advantage of energy efficiency. In the conventional method, the temperature of the heater unit 150 must be raised to an extremely high temperature, and the heater unit 150 emits light of a specific wavelength in a state where the high temperature is generated, thus consuming a large amount of electric energy. . However, the present invention does not require a high temperature state so that the heater unit 150 emits light, and thus, there is an advantage of energy saving. (Ie energy efficiency)

Second, the present invention can significantly improve the durability of the heater unit. In the conventional method, since the heater unit 150 has to be heated to a high temperature, deterioration of the filament is caused by high temperature heat, and thus the life of the heater unit 150 is inevitably shortened. However, the present invention does not need to be heated to a high temperature and does not use a filament that is weak in high temperature heat, so that the life of the heater 15 is increased semi-permanently. (I.e. durability side of the part)

Third, the present invention has the advantage that it is possible to reliably procure parts. In the conventional method, a filament type bulb heater having both a heat generating function and a light emitting function is used. The bulb heater corresponds to a component that is disappearing from the market as an energy consuming product. Therefore, the above-described bulb type heaters are becoming more and more difficult to purchase parts. On the contrary, the present invention has a great advantage in terms of stable component procurement since it uses a heating wire heater that can be easily purchased anywhere. (Ie, stable procurement aspects of the part material)

Since the heat-transmitter 100 according to the present invention does not generate light from the heater unit 150, it is preferable to mount a separate light source. As the light source, it is preferable to use the LED lamp 124 mounted and operated on the PCB 122 installed inside the support tube 120.

Referring to the operational relationship of the heat-transmitter 100 of the first embodiment according to the present invention configured as described above are as follows.

As shown in Figures 1 to 3, in the case of using the heat heater equipped with the warming light emitter 100 of the first embodiment according to the present invention, first, power to the PCB 122 through a switch (not shown) operation When the power is applied, power is applied to the heater unit 150, and the heating coil 152 is heated. The heat generated from the heating coil 152 is immediately transferred to the lower end of the heating cap 140 in contact with it, and is gradually transferred to the whole of the heating cap 140. This is not a radiation method as in the prior art, and is directly transferred from the heating coil 152, so that the temperature of the heat cap 140 is quickly increased as much.

In addition, when the LED lamp 124 is separately installed, when the power is applied, the LED lamp 124 is turned on, and then light is generated from the LED lamp 124. In this case, the LED lamp 124 may be selectively used, and light sources of different colors may be configured according to the wavelength of light emitted from the LED lamp 124, and appropriate colors may be formed according to the heat heater or the heat radiator. The light source can be used in combination.

Therefore, in the present invention, when power is applied to the heater unit 150 as described above, only the temperature of the heat cap 140 is increased due to the conduction heat, thereby reducing the temperature rise inside the heat cap 140 to some extent, and thus It is possible to extend the life of the LED lamp 124 to the maximum.

4 is a cross-sectional view showing the heat-transmitter 100 of the second embodiment according to the present invention.

The heat transmitter 100 of the second embodiment according to the present invention, except for the configuration of the support tube 120, the other configuration is assumed to include all of the configuration of the first embodiment described above.

Thus, the support tube 120 constituting the heat-transmitter 100 of the second embodiment according to the present invention is characterized in that it is provided integrally on the lower plate of the main body portion (102).

Therefore, by injecting the support tube 120 together while injecting the body portion 102, it has the advantage of reducing the manufacturing cost of the heat-transmitter.

Although the above-described heat transmitter for a warmth device according to the present invention has been described in detail, this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto, and the scope thereof is determined by the appended claims. Become limited. In addition, any one of ordinary skill in the art can make various modifications and imitations according to the description in the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

The present invention is an improvement of the heat-transmitter used in the heat treatment device, and can quickly transfer the high-temperature heat generated from the heater to the heat cap by the direct conduction method, and greatly increase the service life of the heat-transmitter. Can be.

Claims (6)

1. In the heat radiator of the heat treatment device of the heat treatment device which is contained in the inside of the main body portion 102 of the heat device and is supported by the cover part 110 to be exposed through the cover part 110,

   A support tube 120 provided at the main body 102;

   A connection fixing part 130 positioned at an upper portion of the support tube 120 and fixing another member positioned thereon;

   A heat cap (140) mounted inside the main body (102) and heated by conducting heat directly from a heat source, and performing a hot steaming function to a user;

   A heater unit 150 provided at an upper circumference of the connection fixing unit 130 and generating heat when power is applied from the PCB 122; A thermal floodlight for a warmer of the thermal therapy device, characterized in that it comprises a.
2. The method of claim 1,

   The heater unit 150,

   A heating coil 152 generated by a power supply;

   A heating body 154 fixed to the heating coil 152 and having a shape corresponding to the connection fixing part 130; It consists of

   The heating coil 152 is characterized in that it is fixed to the heating body 154 as an adhesive, a heat radiator for heat appliances of the heat treatment device.
3. The method of claim 2,

   The heater unit 150 is characterized in that using a planar heating element, the heat radiator for the warmth of the heat treatment machine.
4. The method of claim 2,

   The heater unit 150 performs a function of generating only high temperature heat by the supplied electric energy,

   LED lamp 124 is installed separately in the thermal cap 140, and performs a function to generate light by the supplied electrical energy,

   Thereby, the heat radiator for heat appliances of the heat treatment device, characterized in that the heat source and the light source are separated from each other.
5. The method of claim 2,

   The heating coil 152 of the heater unit 150 is characterized in that any one selected from the group consisting of nichrome wire, conductive heating wire, non-magnetic heating wire, and PTC which are generated by electrical energy, the warmth of the heat treatment device Thermal Floodlights.
6. The method according to any one of claims 2 to 5,

   Heat generated from the heater unit 150 is first transmitted to the bottom contact surface of the heat cap 140 adjacent to it, and gradually spread to the entire heat cap 140, the heat treatment device Heating floodlight

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