KR20200005843A - Cooling system of light irradiator for elevating deep body temperature - Google Patents

Abstract

The present invention relates to a cooling system of a light irradiator for elevating core temperature, wherein the light irradiator is configured that light does not directly reach a user and reaches the user through a fluid receiving part containing a fluid, a light source cooling part is formed at a light source lamp, and fluid in the fluid receiving part and the light source cooling part can be efficiently managed.

Description

Cooling system of light irradiator for elevating deep body temperature}

The present invention can increase the body temperature of the human body by irradiating the user with light including photo-infrared light (visible light + near-infrared ray), so that the lamp heating unit of the deep body temperature increase light irradiator to maintain the user's health can maintain a constant temperature It relates to a cooling system of a light irradiator.

Recently, various skin diseases are increasing due to environmental factors such as instant eating habits and environmental hormones, including existing genetic factors. In particular, these skin diseases can lead to skin cancer or severe dermatitis, not just a disease, so healing must be made.

In this regard, those skilled in the art have attempted to develop methods for increasing core body temperature without raising thermal stress by raising people's body temperature, and the most common methods in the market include a means for people to stay in saunas, hot springs, warm baths, half body baths, and charcoal kilns. .

However, these existing means did not lead to an effective core temperature rise, but were inefficient because they lead to a core temperature rise only after a long stay in an ondol room.

Therefore, the techniques that solved this in a more scientific way were Coley's Toxin, paraffin therapy, heat therapy, electromagnetic wave therapy, and extracorporeal heating, and recently, the body temperature was increased by directly irradiating people with visible infrared rays (visible light + near infrared ray). Is developed and distributed in the market.

As such a device for increasing the body temperature of the human body by irradiating light to the user, Korean Patent Publication No. 10-1441811 ("thermal treatment device", hereinafter referred to as prior art 1), Korean Patent Publication No. 10-2012- 0072564 ("Near Infrared Heat Therapy", hereinafter referred to as New Technology 2) and Korean Utility Model Publication No. 20-2007-0000730 ("Sauna booth mainly made of cypress wood", hereinafter referred to as prior art 3) And the like are disclosed.

In this case, the prior art 1 relates to a device in which a plurality of halogen lamps are disposed in a lamp tube in which inlets and outlets are formed at both sides. It has a hard disadvantage.

Next, the prior art 2 relates to a device in which near-infrared lamps are respectively installed on the upper and lower sides of a bed in which the user lies down. In the prior art 2, since the light of the lamp is controlled, the effect of adjusting the amount of lamp light is effective. There is a disadvantage in that it is difficult to exhibit a certain effect due to deterioration and heat in the atmosphere.

Lastly, in the case of the prior art 3, it relates to an office work or a device consisting of a hexahedron material from a cypress, and has a disadvantage in that the user feels fatigue when used for a long time because it is directly irradiated with near infrared rays of 65 degrees or more.

Korean Registered Patent Publication No. 10-1441811 ("Thermal Therapy") 2014.09.17. Korean Laid-Open Patent Publication No. 10-2012-0072564 ("Near infrared heat therapy device") 2012.07.04. Korean Utility Model Publication No. 20-2007-0000730 ("SAUNA'S BOOTH MAIN MATERIAL") 2007.06.25.

The present invention has been made to solve the conventional problems as described above, the object of the present invention, for increasing the core body temperature is formed to maintain a constant temperature light irradiator made to reach the user through the fluid through the fluid It is to provide a cooling system of the light irradiator.

In order to realize the object of the present invention as described above, the cooling system of the core irradiator for increasing the body temperature of the present invention includes a light irradiator body (100); A fluid accommodating part 110 formed on an upper portion of the light irradiator body 100; A light source lamp 120 formed below the light irradiator body 100 to irradiate light to the fluid receiving unit 110; And a light source cooling unit 130 formed in the light irradiator main body 100 and formed at the side of the light source lamp 120 to cool the light source lamp 120.

At this time, the present invention includes a first inlet pipe (L1) for introducing a fluid into the fluid receiving portion (110); A first discharge pipe (L2) for discharging the fluid in the fluid receiving portion 110; A second inlet pipe (L3) for introducing a fluid into the light source cooling unit (130); And a second discharge pipe L4 for discharging the fluid in the light source cooling unit 130.

In addition, the present invention further comprises a cooling water tank 200 is supplied with the fluid discharged from the fluid receiving unit 110 and the light source cooling unit 130, the cooling water tank 200, the partition 210, Both sides may be divided into a high temperature water tank 220 and a low temperature water tank 230.

In another aspect, the present invention further comprises a heat exchanger 400 is supplied to the fluid discharged from the fluid receiving unit 110 and the light source cooling unit 130, the fluid receiving unit 110 and the light source cooling unit ( The fluid discharged from the 130 is selectively supplied to the cooling water tank 200 and the heat exchanger 400, and the cooling water tank 200 is directly supplied from the fluid accommodating part 110 and the light source cooling part 130. When introduced into the high temperature water tank 220 and supplied through the heat exchanger 400, the high temperature water tank 220 may be introduced into the low temperature water tank 230.

The present invention is such that the light irradiated from the light irradiation lamp does not reach the user directly, but passes through the transmissive plate in which the fluid is accommodated, thereby further reducing the fatigue felt by the user and providing higher performance light. By investigating this, there is an advantage that can increase the efficiency of the device.

In addition, the present invention is made of a lamp emitting portion of the light irradiator further comprises a cooling unit, it may be provided so that the device can be used more efficiently by modifying the heat exchange system of the heated fluid according to the indoor and outdoor environment. Accordingly, the present invention has the advantage that the light reaching the user or the surrounding air quality is kept constant, so that the effect of increasing the core body temperature and improving health is more efficient.

1 is a block diagram of a cooling system of a core irradiator for increasing the body temperature according to an embodiment of the present invention.
Figure 2 is a flow chart of the cooling system of the core irradiator for increasing the body temperature in accordance with an embodiment of the present invention.
Figure 3 is a flow chart utilizing the cooling water tank of the cooling system of the core irradiator for increasing body temperature in accordance with an embodiment of the present invention.
Figure 4 is a flow chart utilizing the heat exchanger of the cooling system of the core irradiator for increasing the body temperature in accordance with an embodiment of the present invention.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be variations.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings. The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.

1 to 4 are related to the cooling system of the core body temperature increasing light irradiator according to an embodiment of the present invention, Figure 1 is shown for each configuration, Figures 2 to 4 show the flow chart between the configuration have. Hereinafter, the present invention will be described with reference to FIGS. 1 to 4.

Deep body temperature increase light irradiator of the present invention may include a light irradiator body 100, the cooling water tank 200, the pump 300 and the heat exchanger (400).

The light irradiator main body 100 may have a light source lamp 120 formed therein, and the space may be partitioned up and down. An upper portion of the light irradiator body 100 may include a fluid receiving portion 110 in which fluid is accommodated therein and an optical filter 112 above or below the fluid receiving portion 110. At least one light source lamp 120 may be built in the lower part of the light irradiator main body 100 to irradiate light toward the upper side, the fluid accommodating part 110, and the optical filter 112. Light irradiated from 120 may reach the user through the fluid accommodating part 110 and the light filter 112 to obtain a core temperature increase effect of the user.

In addition, a light source cooling unit 130 is formed on at least one side of both sides of the light source lamp 120 at the lower part of the light irradiator body 100, and the fluid is circulated on the light source cooling unit 130 so that the light source lamp is circulated. It may be provided to keep the temperature of 120 constant.

In addition, the present invention may be made so that the light irradiator body 100 is connected to the cooling water tank 200 and the heat exchanger 400 in a pipe, the fluid in the fluid receiving unit 110 and the light source cooling unit 130 is pipe The discharge may be performed along the cooling water tank 200 or the heat exchanger 400 again.

At this time, the present invention may be formed to provide a power to flow the fluid is provided with the pump 300, although not shown, such as the configuration of a check valve or a solenoid valve is formed on the pipeline to control the flow of fluid or flow Control and the like can be made, and through the configuration of the manifold or the like can be made so that the fluid on the pipe exchange with each other.

In the case of the cooling water tank 200, the high temperature water tank 220 and the low temperature water tank 230 may be partitioned around the partition 210, and the lower end of the partition 210 may be the high temperature water tank 220 and the low temperature. A hydrothermal circulation port 240 through which the high temperature fluid and the low temperature fluid in the water tank 230 may be circulated with each other may be formed.

Referring to this the fluid flow of the present invention will be described. The present invention includes a first inlet pipe (L1) for introducing a fluid into the fluid receiving unit 110, a first discharge pipe (L2) for discharging the fluid in the fluid receiving unit 110, the light source cooling unit 130 It may include a second inlet pipe (L3) for introducing a fluid and a second discharge pipe (L4) for discharging the fluid in the light source cooling unit 130.

At this time, the first inlet pipe (L1) and the second inlet pipe (L3) is connected to the cooling water tank 200, the low-temperature fluid discharged from the cooling water tank 200 is the fluid receiving portion 110 and the light source cooling unit It may be made to be supplied to 130.

The first discharge pipe L2 and the second discharge pipe L4 may be directly supplied to the cooling water tank 200, or may be configured to be supplied to the cooling water tank 200 through the heat exchanger 400, and directly to the cooling water tank 200. In the case of supplying fluid), the fluid may be supplied to the high temperature water tank 220, and when passing through the heat exchanger 400, the fluid may be supplied to the low temperature water tank 230.

In this case, the present invention may further include a temperature measuring sensor inside the light irradiator main body 100, wherein the temperature measuring sensor measures the temperature of the lower part of the light source lamp 120 in real time to generate heat above a set temperature. Can be made to operate the cooling system of the present invention. In this case, the interaction may be achieved through the configuration of the temperature sensor, the control unit (MCU) and the valve, and if the user sets the temperature between 35 degrees and 45 degrees Celsius, when the temperature of 45 degrees or more is measured. The valve may be operated so that the fluid in the fluid accommodating part 110 and the light source cooling part 130 flows along the pipe to reach the cooling water tank 200 or the heat exchanger 400. In the case of the heat exchanger 400 may be provided to be connected to the building air conditioning system or to be connected to the indoor heating system, the cooling water tank 200 may be provided to cool the fluid itself. Accordingly, the cooling water tank 200 may be provided to decrease the fluid temperature inside by receiving power with the function of refrigeration. Accordingly, the present invention can be combined with existing systems according to the influence of the season, such as the winter season or the user's needs, there is an advantage that can use energy more efficiently.

The technical spirit should not be interpreted as being limited to the above embodiments of the present invention. Various modifications may be made at the level of those skilled in the art without departing from the spirit of the invention as claimed in the claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

100: light irradiator body
110: fluid receiving part
111: inlet
112: optical filter
120: light source lamp
130: light source cooling unit
200: cooling water tank
210: bulkhead
220: high temperature water tank
230: low temperature water tank
240: hydrothermal circulation port
300: pump
400: heat exchanger

Claims (4)

A light irradiator body 100;
A fluid accommodating part 110 formed on an upper portion of the light irradiator body 100; And
A light source lamp 120 formed below the light irradiator body 100 to irradiate light to the fluid receiving unit 110; And
A light source cooling unit 130 formed inside the light irradiator main body 100 and formed at a side of the light source lamp 120 to cool the light source lamp 120;
Cooling system of the core body temperature increasing light irradiator comprising a.
The method of claim 1,
A first inlet pipe (L1) for introducing a fluid into the fluid receiving part (110);
A first discharge pipe (L2) for discharging the fluid in the fluid receiving portion 110;
A second inlet pipe (L3) for introducing a fluid into the light source cooling unit (130); And
A second discharge pipe (L4) for discharging the fluid in the light source cooling unit (130);
Cooling system of the deep body temperature increase light emitter further comprises.
The method of claim 2,
A cooling water tank 200 to which fluid discharged from the fluid accommodating part 110 and the light source cooling part 130 is supplied;
It is made to include more
The cooling water tank 200,
Cooling system for deep body temperature increase light irradiator, characterized in that the partition is partitioned into a hot water tank 220 and a cold water tank 230, the center around the partition (210).
The method of claim 3,
A heat exchanger 400 to which fluid discharged from the fluid accommodating part 110 and the light source cooling part 130 is supplied;
It is made to include more
The fluid discharged from the fluid receiving unit 110 and the light source cooling unit 130 is selectively supplied to the cooling water tank 200 and the heat exchanger 400,
The cooling water tank 200,
When directly supplied from the fluid receiving unit 110 and the light source cooling unit 130 is introduced into the high temperature water tank 220,
Cooling system of the core body temperature rising light irradiator, characterized in that when supplied via the heat exchanger 400 is introduced into the low temperature water tank (230).

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