KR200415335Y1 - Low Voltage Electrical Heater - Google Patents

Abstract

The present invention relates to an electric heater, in particular, by using a low-voltage transformer to heat the surface temperature of the heating element to more than 1,500 ℃ and improves the heating efficiency by uniformly dispersing and transmitting the heat generated in the front by using a blower and a reflector It relates to a low voltage electric heater that allows.

According to the present invention, a heat dissipation space in which a reflection mechanism is installed to have a heat generating element and a reflecting plate at the rear of the heat generating element, a low voltage transformer and a cable for supplying power to the heat generating element, and an inlet of the outside air In a conventional electric heater provided with an outlet of the internal air and installed in the inner space by installing a blower fan, the upper and lower portions are distributed in the upper and lower portions so as to communicate with each other between the heat dissipation space and the installation space. The reflection mechanism installed in the heat dissipation space is formed in the furnace, and provides a low voltage electric heater formed by dividing into a rear reflector installed in front of the heat generating element and a front reflector installed in the rear of the heat radiating element.

Low voltage, electricity, heater, low voltage transformer, cable, heating element

Description

Low Voltage Electrical Heater

1 is a longitudinal sectional view as a preferred example of the present invention,

2 is an enlarged cross-sectional view of the main portion of FIG.

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

1: main body, 2: heating element,

3: reflector, 4: heat dissipation space,

5: low voltage transformer, 6: cable,

7: inlet, 8: outlet,

9: blowing fan, 10: installation space,

20,30: distribution channel, 40: rear reflector,

50: front reflector, 52: unit reflector,

54: protrusion connection

The present invention relates to an electric heater, in particular, by using a low-voltage transformer to heat the surface temperature of the heating element to more than 1,500 ℃ and improves the heating efficiency by uniformly dispersing and transmitting the heat generated in the front by using a blower and a reflector It relates to a low voltage electric heater that allows.

In general, in the case of a low voltage electric heater, the surface temperature of the heating element is higher than 1,500 ° C., the thermal efficiency is excellent, and it is widely used recently because it does not pollute the internal and external environment during operation.

Thus, for example, Korean Patent Registration Publication No. 10-0523396, "Electric Stove", which is the inventor of the present invention, and Korean Utility Model No. 20-0368821, "Electric Stove", which are proposed, are known.

However, among these prior arts, Korean Patent Registration No. 10-0523396 has a structure in which the structure is open in all directions, so that the heat generated from the heating element can be spread in all directions during the operation of the electric stove. There is a disadvantage that cannot be applied to an electric heater having directivity in the direction.

In addition, in the case of Korean Utility Model Publication No. 20-0368821, it is a technology that can be widely applied as an electric stove having directivity in one direction, which can cool the heat generated from the internal low voltage transformer and the connecting cable during operation. While the countermeasures have been taken, the function to spread the heat generated from the heating elements is configured to be operated by a reflector located on the back, so that the diffusion or transmission of heat is relatively ineffective. The part of the reflector that is closest to the heating element is composed of flat surfaces, which makes it difficult to spread heat due to heat reflection, resulting in overheating, which in turn shortens the life of the device and decreases thermal efficiency. Disadvantages have arisen.

The present invention has been researched and developed in order to solve such a conventional problem.

An object of the present invention is to heat the low-voltage transformer and the connecting cable during operation in the electric heater of the type to transfer the heat to have a directivity in one direction, while the heat generated from the heating element while cooling it effectively during operation It is intended to improve the thermal efficiency by forcibly diffusing and forwarding a part to have a directivity forward.

Another object of the present invention is to improve the structure of the front reflector to be located in the rear of the heating element and to provide a rear reflector for heat radiation also in front of the heating element to further improve heat reflection and thermal radiation efficiency, In order to prevent the occurrence of overheating is to improve the service life of the device.

In order to achieve the above objects, the present invention provides a heat dissipation space in which a reflecting mechanism is installed to have a heat generating element and a reflecting plate at the rear of the heat generating element, and a low voltage transformer and a cable for supplying power to the heat generating element. In addition, the inlet of the outside air and the outlet of the internal air is provided, and in the general electric heater which is divided into the installation space consisting of a blower fan installed on the inside, so that the communication between the heat dissipation space and the installation space is possible. Low-voltage is formed by respectively forming a distribution path in the upper and lower, and the reflection mechanism is installed in the heat dissipation space divided into a rear reflector installed in the front of the heat generating element and a front reflector installed in the rear of the heat radiating element. Provide an electric heater.

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

That is, according to a preferred embodiment of the present invention, the heat dissipation space (4) in which the reflection mechanism (3) is installed so that the inside of the main body (1) and the heat generating element (2) and the rear of the heat generating element (2) and A low voltage transformer 5 and a cable 6 for supplying power to the heat generating element 2 are provided, and an inlet port 7 of the outside air and an outlet port 8 of the internal air are provided, and a blower fan 9 is provided inside. In the electric heater is divided into the installation space 10 is configured by installing the, the heat dissipation space (4) and the installation space 10 so as to communicate with each other between the upper and lower flow paths ( 20 and 30, and the reflecting mechanism 3 installed in the heat dissipation space 4 is disposed at the rear reflector 40 and the rear of the heat generating element 2 installed in front of the heat generating element 2. It is made by installing each of the front reflector 50 to be installed.

At this time, the upper flow path 30 of the distribution paths (20, 30) may be selectively provided, if the upper flow path (30) is provided is generated in the low voltage transformer (5) and the cable (6) Part of the heat introduced through the inlet 7 and the heat discharged through the outlet 8 through the installation space 10 together with the air introduced through the inlet 7 by heat blowing fan (9) The heat supplied to the position adjacent to the outlet 8 as the installation space 10 via the upper flow path 30 together with the heat generated from the heat generating element 2 via the flow passage 20 is mutually It is discharged to the outside via the discharge port 8 in the mixed state can be made to enable the indoor feeding of hot air.

In addition, when the upper flow path 30 is not provided, the air flows through the inlet 7 by the blower fan 9 while cooling the heat generated from the low voltage transformer 5 and the cable 6. The air is discharged through the outlet 8 through the installation space 10, and a part of the air introduced through the inlet 7 passes forward along with the heat generated from the heat generating element 2 through the distribution path 20. The supply may be made to allow indoor feeding by varying the flow of hot air.

Next, the rear reflector 40 is formed in an arc-shaped cross-section to prevent heat from being generated from the heat generating element 2 while blocking heat from being generated from the heat generating element 2 while causing heat reflection to occur at the rear. Do it.

In addition, the front reflector 50 is a round shape in which a plurality of arc unit cross-section unit reflectors 52 are continuously connected to each other, and protrusion units 54 are formed between the unit reflectors 52 and 52, respectively. Both the heat generated from the heat generating element 2 located in the front and the heat reflected by the rear reflector 40 concentrates only on a specific part of the front reflector 50, so that the heat reflector 50 is not formed. While the heat reflecting is made evenly throughout the unit reflector 52 and the protruding connecting portion 54, the heat reflecting is performed evenly in the front direction except for the heating element 2 and the rear reflector 40. It is made possible to prevent heating.

As above, the present invention to be made is made as follows.

Once the operation is started, the heating element 2 performs the heating operation by the power supplied from the low voltage transformer 5 via the cable 6, and thus the heat generated from the heating element 2 is reflected The heating operation performed by the mechanism 3 and the heating operation performed by the blower fan 9 are simultaneously performed, among which the heating operation by the reflecting mechanism 3 reaches the rear reflector 40 primarily. However, it is reflected back by the rear reflector 40 to reach the front reflector 50 which is located at the rear of the heating element 2, and reaches the front reflector 50 directly from the heating element (2) The heat reflection is made forward with the heat, the heat is transmitted to the front of the main body 1 and the heating operation is performed.

Next, the heating operation is made by the blower fan 9, first, when the upper flow path 30 is provided, the blower fan 9 heats the heat generated from the low-voltage transformer 5 and the cable (6) While cooling by the air flows through the inlet (7) with the air introduced through the inlet (7) and the heat discharged through the outlet (8) through the installation space (10) is a part of the distribution path (20) Heat generated from the heating element (2) through the, and through the upper flow path 30 through the upper passage 30 in the state that the heat supplied to the position adjacent to the outlet 8 and the outlet 8 is mixed with each other It is discharged to the outside via (8) and the heating operation by the indoor feeding of hot air is made.

Second, when the upper flow path 30 is not provided, the air flowing through the inlet 7 by the blower fan 9 while cooling the heat generated from the low voltage transformer 5 and the cable 6 and Together with the installation space (10) is discharged via the discharge port (8) to perform a heating operation, a portion of the air introduced through the inlet (7) is generated from the heat generating element (2) via the flow path (20) It may be supplied to the front without passing through the outlet 8 with the heat to be supplied to the room by varying the flow of hot air, so that the heating operation is made.

Furthermore, the heat generated from the heat generating element 2 by the rear reflector 40 of the arc-shaped cross section prevents glare by blocking the dazzling light generated from the heat generating element 2 while causing heat reflection to be performed at the rear. In addition, both the heat generated from the heat generating element 2 located in the front and the heat reflected by the rear reflector 40 are concentrated on only a specific portion of the front reflector 50, and thus the heat reflector 50 is not formed. Heat reflection is uniformly performed in the front direction except for the heat generating element 2 and the rear reflector 40 while the unit reflector 52 and the protruding connecting portion 54 are formed as a whole. Heating is possible while preventing.

As described above, according to the present invention, in the electric heater of the type of heat transfer to have directivity in one direction, the low voltage transformer 5 and the connection cable 6 are effectively cooled during operation to prevent the phenomenon of overheating, and to generate heat. The heat generated from the element 2 can also be forcibly diffused and transferred to the front to have a directivity to further improve thermal efficiency, and the structure of the front reflector 50 positioned at the rear of the heat generating element 2. In order to improve the heat reflection and thermal radiation efficiency by providing a rear reflector 40 for heat radiation also in front of the heat generating element (2), so that the overheat phenomenon does not occur in the front reflector (50) It has an excellent effect of improving the service life of the device.

Claims (4)

Supplying power to the heat generating element (4) and the heat generating element (2) in which the reflecting mechanism (3) is installed to have a heat generating element (2) and a reflecting plate at the rear of the heat generating element (2) inside the main body (1). A low voltage transformer (5) and a cable (6) for the installation space (10) consisting of an inlet (7) of the outside air and an outlet (8) of the internal air and a blower fan (9) inside the In the ordinary electric heater to be divided, Distribution channels 20 and 30 are respectively formed on upper and lower sides of the heat dissipation space 4 and the installation space 10 so as to communicate with each other. The reflection mechanism 3 installed in the heat dissipation space 4 includes a rear reflector 40 installed in front of the heat generating element 2 and a front reflector 50 installed in the rear of the heat generating element 2. Low-voltage electric heater, characterized in that each is installed separately. The method of claim 1, Low voltage electric heater, characterized in that the upper flow path 30 of the distribution paths (20, 30) is selectively provided. The method of claim 1, The rear reflector 40 is formed in the shape of an arc-shaped cross section to prevent heat glare by blocking the dazzling light generated from the heat generating element 2 while the heat generated from the heat generating element 2 is once the heat reflection to the rear. Low voltage electric heater, characterized in that made possible. The method of claim 1, The front reflector 50 is a round shape in which a plurality of arc unit cross-section unit reflectors 52 are continuously connected to each other, and protruding connecting portions 54 are formed between the unit reflectors 52 and 52, respectively. Low voltage electric heater.

Images