WO2015147444A1

WO2015147444A1 - Radiator having humidification function

Info

Publication number: WO2015147444A1
Application number: PCT/KR2015/001230
Authority: WO
Inventors: 김동근
Original assignee: 김동근
Priority date: 2014-03-24
Filing date: 2015-02-06
Publication date: 2015-10-01
Also published as: KR101446643B1

Abstract

A radiator having a humidification function, according to the present invention, has a synthetic structure in which steam generated at the time of boiling of water in a heating container by an induction heating method of an induction heating unit is injected indoors to adjust indoor humidity, and boiled hot water increases the indoor temperature by radiating heat while passing through a hot water pipe. Therefore, the radiator can not only minimize the volume and the weight thereof, but also quickly heat a large area in a short time.

Description

Radiator with humidification

The present invention relates to a radiator having a humidification function, and more particularly, to a radiator having a humidification function to heat the hot water to eject the humidifying radiator to the top and the heat dissipation action to the lower peripheral side.

In general, as a radiator used to increase the indoor temperature of a home or office, a radiator is used that can dissipate heat up to 100 ° C. or less by heating water by injecting water.

This is because the actual heat dissipation temperature is only 50 ℃ ~ 60 ℃ is insufficient in terms of thermal efficiency and there was a problem that must be installed in a number of indoors to improve this.

In addition, there is a problem that the volume and weight is very increased and the installation is not easy by requiring a heater and configuration necessary for circulation.

To solve this problem, a radiator using an electric heater is proposed by injecting a non-flammable liquid (refrigerant) having a high boiling point into a heat pipe. However, since a humidification operation using a non-combustible liquid is impossible, a rapid relative humidity due to temperature rise In the case of deterioration may be a cause of deterioration in people with dry skin or atopic disease, there was a problem that a separate humidifier must be installed.

However, in general, the humidifier is vulnerable to bacterial growth by using an ultrasonic method, and has been mainly used to compensate for this, but may cause fatal effects on the human body.

The object of the present invention is to solve this problem in view of the existing problems, and to heat the hot water to spout the humidifying radish to the upper side and the heat dissipation action to the lower circumferential side while minimizing the volume and weight at the same time short time It can heat a large area quickly, while maintaining a proper relative humidity according to the room temperature, suppresses bacterial growth, provides a comfortable living environment, and provides a radiator with a humidification function that can prevent various diseases caused by indoor air drying. It is.

Radiator having a humidification function according to an embodiment of the present invention for solving the technical problem, the support body is formed with a plurality of through holes at regular intervals around, the heat source generating means supported on the inner upper portion of the support body; A heating vessel that is supported by the upper opening end of the support body and is in close contact with the upper surface of the heat source generating means to receive a heat source generated from the heat source generating means to heat the water stored therein and simultaneously eject water vapor to the outside; The hot water pipe of the same material is installed to be wound in a coil shape on the inner lower portion of the support body to heat-exchange the indoor air, and the two sides of the heating container are connected to the inlet and outlet lines of the hot water pipe to the hot water in the heating container. It is characterized by consisting of hot water circulation means for forced circulation to the hot water pipe.

In another embodiment, the heat source generating means of the present invention, a case having an upper opening so as to be supported at a predetermined height inside the support body, a power supply installed on one side of the case, and the upper opening of the case It is installed to be in close contact with the bottom of the heating vessel is configured to include an induction heating unit for heating the heating vessel while dissipating high heat by receiving power from the power supply unit, and an operation unit installed on one side of the front of the support body to control the power supply unit. It features.

In another embodiment, the heating vessel of the present invention, the body container is supported by the upper opening of the support body so that the upper portion is opened to store water and heated at the same time, the bottom is in close contact with the induction heating portion of the heat source generating means; It is installed to open and close the upper opening of the body container, characterized in that consisting of a lid formed with a spout port on one side of the upper surface to eject water vapor when the water is boiled by the high temperature.

In another embodiment, the hot water pipe of the present invention is fixed so that its lower side is vertically erected vertically on the inner bottom of the support body in a state in which the inlet and outlet are wound in a coil spring shape so as to face upward. It is characterized by.

In another embodiment, the hot water circulation means of the present invention, the pump is fixed to one side of the support body is operated by the power supply of the power supply, and installed at a predetermined height on one side of the heating vessel to the inside of the heating vessel. An inlet valve for introducing circulating hot water or supplemental water (tap water), an outlet valve installed adjacent to a floor with respect to one side of the side of the heating vessel, and an outlet valve for discharging the internal warm water of the heating vessel to the outside, the inlet valve and the hot water pipe A first connection hose for connecting the inlet of the, characterized in that consisting of a second connection hose for connecting the outlet of the outlet valve and the hot water pipe through the pump.

The radiator having the humidification function of the present invention, the steam generated when boiled in the heating vessel by the induction heating method of the induction heating unit is ejected to the room to control the humidity of the room, the boiled hot water is passed through a hot water pipe Because of the heat dissipation, the composite structure increases the room temperature, thereby minimizing the volume and weight, and has the effect of rapidly heating a large area in a short time.

1 is a perspective view showing a radiator having a humidifying function according to the present invention,

Figure 2 is a longitudinal cross-sectional view showing a heat sink with a humidifying function according to the present invention.

Description of the main symbols in the drawings

10: support body 10a: through hole

20: heat source generating means 21: case

22: power supply unit 23: induction heating unit

24: operation unit 30: heating vessel

32: body container 34: lid

34a: spout 40: hot water pipe

42,44: inlet and outlet 50: hot water circulation means

51 pump 52 inlet valve

53: outlet valve 54: first connection hose

55: second connection hose 56: connector

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 and 2.

Radiator having a humidifying function of the present invention, the support body 10 is formed with a plurality of through holes (10a) at regular intervals around the heat source generating means 20 supported on the inner upper portion of the support body (10) And, while being supported by the upper opening end of the support body 10 is in close contact with the upper surface of the heat source generating means 20 receives the heat source generated from the heat source generating means 20 to heat the water stored therein and at the same time steam A heating vessel 30 for spouting the outside, a hot water pipe 40 installed to be wound in a coil shape on the inner lower portion of the support body 10 to heat-exchange the indoor air, and one side of the heating vessel 30. It is composed of a hot water circulation means 50 for connecting two places and the inlet and outlet lines of the hot water pipe 40 to circulate the hot water in the heating vessel 30 to the hot water pipe 40 by force.

That is, the support body 10 is a cylindrical shape made of a material having an upper opening and a low thermal conductivity, and the remaining circumference except for the circumference area where the heat source generating means 20 and the heating vessel 30 are supported with respect to the circumference area. A plurality of through-holes 10a through which heat is released at regular intervals in the left and right and up and down directions are formed in the area.

The heat source generating means 20 includes a case 21 having an upper portion opened so as to be supported at an inner upper predetermined height of the support body 10, and a power supply 22 installed at an inner side of the case 21. Induction heating unit is installed to be in close contact with the bottom of the heating vessel 30 in the upper opening of the case 21 is supplied with power from the power supply 22 to heat the heating vessel 30 while dissipating high heat ( 23 and an operation unit 24 provided on one side of the front side of the support body 10 to control the power supply unit 22.

The heating container 30 is supported by the upper opening of the support body 10 so that the upper part is opened to store water and heated, and the bottom thereof is in close contact with the induction heating part 23 of the heat source generating means 20. The body container 32 and the lid 34 is provided to open and close the upper opening of the body container 32, the spout opening 34a is formed on one side of the upper surface to eject water vapor to the outside when the water is boiled by the high temperature. Consists of.

The hot water pipe 40 has a fixed member 46 fixed to the inner bottom of the support body 10 while the inlet and

outlet ports

42 and 44 are wound in a coil spring shape to face upward. Fit to the outer periphery of the top) is fixed to stand vertically, the inlet and

outlet

42, 44 is bent horizontally is configured to be connected to the hot water circulation means 50, respectively.

The hot water circulation means 50 is fixed to one side of the support body 10 is operated by the power supply of the power supply unit 22 and the pump 51, the predetermined height of one side of the side of the heating vessel (30) It is installed in the inlet valve 52 for introducing circulating hot water or supplemental water (tap water) into the interior of the heating vessel 30, and is installed adjacent to the bottom with respect to one side of the heating vessel 30, the heating vessel 30 Outlet valve 53 for outflow of the internal warm water of the outside), the first connection hose 54 for connecting the inlet valve 52 and the inlet port 42 of the hot water pipe 40, and the outlet valve 53 ) And a second connection hose 55 connecting the outlet 44 of the hot water pipe 40 via the pump 51.

At this time, the ends of the first and

second connection hoses

54, 55 and the inlets and

outlets

42 and 44 of the hot water pipe 40 are respectively connected by the connector 56 to facilitate assembly and disassembly. It is connected.

In the drawings, reference numeral 60 denotes a heat insulating reflective member that is fixed to surround the outer bottom of the body 21 of the heat source generating means 20 to simultaneously block and reflect heat emitted from the hot water pipe 40. Next, the operation and effects on the radiator having the humidifying function of the present invention configured as described above will be described.

In order to operate the radiator having the humidification function of the present invention, if the water (tap water) is first stored in the heating container 30 at a predetermined level, the unit is turned on through the operation unit 24. The water stored in the heating vessel 30 is heated by the induction operation principle between the induction heating unit 23 and the heating vessel 30 by receiving power through the supply unit 22.

In other words, when a current flows through the induction coil of the induction heating unit 23, a magnetic field is formed around the reactor, and a eddy current is generated by reacting the heating container 30 having the magnetic force, due to the resistance of the heating container 30, which is a heating element. The heat is generated to boil the water stored in the heating vessel (30).

At this time, by the internal pressure generated when the water in the heating vessel 30 boils at a high temperature, the water vapor is injected into the room through the spout 34a formed on one side of the lid 34 to adjust the indoor humidity, and appropriate When the humidity is reached, it is controlled by an operation unit 24 which is automatically linked to a humidity sensor (not shown).

In addition, the water boiled at a high temperature in the heating vessel 30 flows out to the outlet valve 53 installed at one side of the heating vessel 30 and at the same time the inlet of the hot water pipe 40 connected through the second connection hose 55. The hot water pipe 40 is heated by flowing along the same hot water pipe 40 that is supplied to the coil 42 and wound in a coil spring shape.

At this time, the hot water pipe 40 is heated by hot water flowing along the inside of the hot water to emit heat in all directions, the discharged heat is a plurality of through holes (10a) formed around the support body (10) Through heat exchange is made in contact with the air in the room to heat the room temperature warmly.

That is, the hot water in the heating vessel 30 is the outlet valve 53-> the second connection hose 55-> the hot water pipe 40-> the first connection hose 54-> the pump 51-> the first The circulation action is repeated in the order of the connection hose 54-> inlet valve 52-> heating vessel 30-> outlet valve 53.

At this time, the pump 51 connected to the first connection hose 54 is operated by receiving power from the power supply unit 22 to pump hot water flowing along the hot water pipe 40 to recover the inside of the heating vessel 30. At the same time to increase the flow rate pressure so that hot water boiled in the inside of the heating vessel 30 is introduced into the hot water pipe 40, and when the temperature reaches the appropriate temperature, the operation unit 24 is linked to the temperature sensor (not shown) Controlled by

Thus, the steam generated when boiled in the heating vessel 30 by the induction heating method of the induction heating unit 23 is ejected to the room to control the humidity of the room, the heated hot water pipe 40 Because of the complex structure to increase the room temperature by heat dissipation through it can not only minimize the volume and weight, but also can quickly heat a large area in a short time.

In addition, when the inlet and

outlet valves

52 and 53 are adopted as a structure for controlling water to flow in two directions, the hot water is circulated in one direction by connecting to the hot water pipe 40 as described above. It can be controlled and connected to a heated product such as a hot bed or a hot mat (not shown) in the other direction so that hot water can be circulated.The two directions are closed when the other is opened or the other is closed. All of them can be opened or closed, so the scope of application can be extended for indoor heating and hot water supply of hot products.

On the other hand, the present invention is not limited only to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, the technical idea to which such modifications and variations are also applied to the claims Must see

Claims

Support body 10 formed with a plurality of through holes 10a at regular intervals around the,

A heat source generating means 20 supported on the inner upper portion of the support body 10;

Supported by the upper opening end of the support body 10 is in close contact with the upper surface of the heat source generating means 20 receives the heat source generated from the heat source generating means 20 to heat the water stored therein and at the same time the water vapor A heating vessel (30) for ejecting into the

A hot water pipe 40 of the same material which is installed to be wound in a coil shape on the inner lower portion of the support body 10 to heat-exchange the indoor air;

By connecting two places on one side of the heating vessel 30 and the inlet and outlet lines of the hot water pipe 40 to the hot water circulation means 50 for forcibly circulating the hot water in the heating vessel 30 to the hot water pipe (40). Radiator with a humidification function, characterized in that configured.
The method according to claim 1,

The heat source generating means 20,

A case 21 having an upper portion opened so as to be supported at an inner upper predetermined height of the support body 10;

A power supply unit 22 installed at an inner side of the case 21;

Induction heating unit 23 is installed in the upper opening of the case 21 to be in close contact with the bottom of the heating vessel 30 is supplied with power from the power supply 22 to heat the heating vessel 30 while dissipating high heat. )Wow,

A radiator having a humidification function, characterized in that it is installed on one side of the front of the support body (10) consisting of an operation unit (24) for controlling the power supply (22).
The method according to claim 1 or 2,

The heating vessel 30,

A body container 32 whose upper part is supported by the upper opening of the support body 10 so as to store and heat water, and whose bottom is in close contact with the induction heating part 23 of the heat source generating means 20;

Humidification function characterized in that it is installed to open and close the upper opening of the body container 32, the lid 34 is formed with a spout 34a on one side of the upper surface to eject the steam to the outside when the water is boiled by high temperature Radiator with light.
The method according to claim 1,

The hot water pipe 40 has a fixed member 46 on the inner bottom of the support body 10 while the inlet and outlet ports 42 and 44 are wound in a coil spring shape to face upward. A radiator with a humidification function, characterized in that fixed to stand vertically as a medium.
The method according to claim 1 or 2,

The hot water circulation means 50,

A pump 51 fixed to one side of the support body 10 and operated by power supply of the power supply unit 22;

An inlet valve 52 installed at one side of the heating container 30 at a predetermined height and introducing circulation hot water or supplemental water (tap water) into the heating container 30;

An outlet valve 53 installed adjacent to a bottom of one side of the heating vessel 30 to allow the internal hot water of the heating vessel 30 to flow outward;

A first connection hose 54 connecting the inlet valve 52 and the inlet 42 of the hot water pipe 40;

Radiator having a humidification function, characterized in that consisting of a second connecting hose (55) for connecting the outlet valve (53) and the outlet (44) of the hot water pipe (40) via the pump (51).