KR200257599Y1 - Radiator - Google Patents

Abstract

The present invention relates to an improvement of a radiator for heating, and in particular, to facilitate rapid heating during operation of the radiator, and to make it easy to manufacture and install with a simple configuration, small size and light weight.

In order to achieve the above object of the present invention, the inner space of the main body 40 of the radiator 10 is spaced at 42, and the solvent 42 is filled in the space 42 to reach a boiling point even at low temperatures. Evaporation, condensation, and the heater 21 is installed at the bottom of the space portion 42 of the radiator 10 so that the solvent 43 is heated, the operation switch equipped with a timer and a temperature setter on the radiator 10 side ( 22) was installed.

Description

Radiator for heating {Radiator}

The present invention relates to an improvement of a radiator for a radiator, and in particular, a heating operation of the radiator is made in a short time, and at the same time, a simple configuration, small size, light weight, and easy to manufacture and install.

Commonly used convection radiators include:

That is, the steam radiator heats the radiator while the inside of the radiator circulates, and the radiator is heated by heat dissipation of the heated radiator, or the heating medium is filled with a heat medium (oil, etc.) inside the radiator. It is to be heated by the means, the heat dissipation when the heating temperature of the heat medium is higher than the ambient temperature, that is, the room temperature is configured to be heated indoors.

However, the radiator of the above configuration has the following problems.

In other words, as a supplementary facility for the operation of the radiator, not only a facility such as a boiler and a hot water tank is required, but also the steam radiator or hot water circulates to heat the radiator, or the heating medium is heated by the heating means, and the heated heating medium is heated again. The heat radiator heated to heat dissipation, the disadvantages that it takes a lot of time before the heating is made, and the heat efficiency is low, the volume of the radiator is large, and also a lot of expense in the facility.

The present invention is intended to facilitate the production and installation of a simple configuration, small size and light weight while at the same time to make a rapid heating when operating the radiator in order to correct the above-mentioned disadvantages.

In order to achieve the above object, the present invention comprises a vacuum unit in the main body constituting the radiator, and the solvent is heated by a heater installed at the lower end by filling a suitable amount of the solvent in the vacuum unit, even at a low temperature. Evaporation and condensation of the solvent filled in the radiator reaches the boiling point so that the radiator is heated and radiated. At the same time, the internal pressure rises, so that the boiling point gradually rises so that the radiant heat can be effectively heated. It is made up.

1: Perspective view of the present invention radiator

2 is a cross-sectional view of the present invention radiator

3 is a side cross-sectional view of the lower end of the present invention radiator

4 is a perspective view of another embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

(10)-heat radiator (20)-lower body

(21)-Heater (22)-Activation Switch

(23)-Timer (24)-Temperature

(25)-base (30)-upper body

(40)-Main Body (41)-Isolation

(42)-Space (43)-Solvent

(44)-heat sink (50)-temperature sensor

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic perspective view of the radiator 10 to be provided in the present invention, Figure 2 is a cross-sectional configuration, by connecting a plurality of the main body 40 between the lower cylinder 20 and the upper cylinder 30 The isolation part 41 is configured between the main body 40, and the space part 42 is formed in the main body 40, and each of the space parts 42 has a lower cylinder 20 and an upper cylinder ( 30) to be connected to each other.

The heater 21 is installed in the lower cylinder 20 so as to be electrically connected to an operation switch 22 installed at one side of the radiator 10, and the operation switch 22 has a timer having ON and OFF functions ( 23) and a temperature setter 24 are provided.

The space portion 42 formed in the main body 40 of the radiator 10 is composed of a vacuum, and at the same time the solvent 43 is filled in the space portion 42 which maintains the vacuum state. The heater 21 generates heat so that the solvent 43 filled in the radiator 10 is heated.

At this time, the solvent 43 filled in the radiator 10 is ideally filled with water, ethanol, methanol, freon, etc., which are easily vaporized and condensed, and the amount of filling is not particularly limited, but is preferably about 1/3. .

On both sides of the lower cylinder 20 located at the bottom of the radiator 10, pedestals 25 are installed to allow the radiator 10 to be stably fixed on the floor.

In addition, in order to improve the heat dissipation efficiency in configuring the heat dissipator 10 of the present invention, as shown in FIG. 4, a plurality of heat dissipation plates 44 may be protruded on the main body 40 at equal intervals to increase the heat dissipation effect.

In addition, the temperature sensor (50) is attached to the main body 40 side of the radiator 10, the temperature setting sensor 24 of the operation switch 22 configured to mount the temperature sensor 50 to the radiator 10 side By being connected with the temperature of the radiator 10 is to be able to arbitrarily set according to the user's needs.

In constructing the radiator 10 of the present invention, a blower (not shown) may be installed on the radiator 10 side to force the blown air to a necessary position in the room.

The heating using the radiator 10 of the present invention configured as described above is made as follows.

That is, when the power supply to the radiator 10 is turned on, the heater 21 installed in the lower cylinder 20 is heated to generate heat, and the solvent (filled in the space 42 in the main body 40 by the heater 21 that generates heat) 43) is heated.

At this time, the space portion 42 of the main body 40 is in a vacuum state, and the solvent 43 filled in the vacuum state reaches a boiling point even at low temperature, so that the solvent 43 is quickly boiled, and the solvent is boiling, and part of the vaporization is carried out. do.

As the solvent 43 is vaporized, the internal space of the space 42 is gradually increased by the vaporized vapor pressure, and thus the boiling point is gradually increased by the increase of the internal pressure.

The vaporized vapor is condensed with each other in the upper portion of the space 42 of the main body 40 and flows down the inner surface of the main body 40 to merge with the solvent 43, which is the phenomenon of the solvent by heating As the vaporization condensation is repeated, the radiator 10 is heated, and the heated radiator 10 radiates heat to the outside to heat the room.

Since the operation described above is performed within a short time after the operation of the operation switch 22 of the radiator 10, the rapid heating is achieved, and in particular, since the inside of the radiator 10 maintains a vacuum state, heat transfer is very fast and efficient. Will be made.

In configuring the radiator 10, if the plurality of heat sinks 44 protrude from the front surface of the main body 40 as shown in FIG. 4, the contact area with external air by the heat sink 44, that is, the heat radiation area is that much. As it is promoted, not only faster and more efficient heating is achieved, but also a blower may be provided on the side of the radiator 10 to allow the heated air to be blown if necessary.

In addition, the temperature sensor 50 is installed on the main body 40 side of the radiator 10 so as to be connected to the temperature setter 24 of the operation switch 22 and the solvent 43 is generated by the heating of the heater 20. The heating temperature of the room can be adjusted by adjusting the temperature of heating the vaporization and the main body 40 while boiling.

If the time is set using the timer 23 configured in the operation switch 22, the radiator 10 is only turned off after the desired time, so that the heating time setting can be conveniently adjusted.

Therefore, in the present invention, in the construction of the radiator, the space inside the radiator is configured in a vacuum state, and the solvent is used after filling the space in the space so that the solvent reaches a boiling point, vaporization, and condensation even at low temperatures so that the radiator By exothermic heating it is possible to achieve rapid heating and at the same time the configuration is simple, small size, light weight, easy to install and manufacture, as well as the cost of manufacturing is inexpensive.

Claims (3)

In the construction of the radiator for heating, the space portion 42 formed in the main body 40 of the radiator 10 is set in a vacuum state, the solvent 43 is filled in the space portion 42 in the vacuum state, and the solvent ( 43) the heating radiator, characterized in that the heating is made by being heated by the heater 21 installed on the bottom of the radiator (10). The temperature sensor 50 is attached to the main body 40 side of the radiator 10, and the temperature sensor 50 is electrically connected to the temperature controller 24 of the operation switch 22. And a timer (23) installed on the operation switch (22). The radiator for heating according to claim 1, wherein a plurality of heat sinks (44) are formed on the outer surface of the main body (40) of the radiator (10) at equal intervals.