KR20100080656A - Convection and radiant heater - Google Patents

Abstract

PURPOSE: A radiation heater for convection heat is provided to maximize heat transmission by enabling a convection heat transfer with radiative heat transfer by including a heat exchange unit which heat exchanges with air. CONSTITUTION: A radiation heater for convection heat comprises a heat exchange unit and a blowing member. The heat exchange unit is externally inserted into a heat rod(20). The heat exchange unit is formed of multiple heat exchanging plates(41) at constant intervals along the longitudinal direction of the heat rod. Multiple light openings are formed between multiple heat exchanging plates. The blowing member is formed on one end of the heat exchange unit and blows air to the heat exchanger.

Description

Convection and radiant heaters

The present invention relates to a radiant heat heater capable of convective heating, and more particularly, convective heating is possible through heat exchange with air in a heat exchanger as well as radiant heating by radiant heating wires, which can significantly improve thermal efficiency. It relates to a radiant heat heater.

In general, electric heater is a device that heats by using heat generated by electric current, and it has the advantages of easy installation, low maintenance cost, and low risk of fire, compared to heating device using fossil fuel as a heat source. Various types have been developed and widely used according to the requirements of the type of heating medium, treatment capacity, and the like.

Among various electric heaters, radiant heat heaters that radiate radiant heat rays and transmit heat by going directly to the heating element directly without intermediate media in the form of wavelengths are widely used. Such radiant heat heaters are far-infrared heaters and halogen heaters, depending on the heating method. , Near-infrared heaters, and the like.

The conventional radiant heat heater is composed of a heating unit installed to radiate radiant heat rays such as near-infrared and far-infrared rays, and a reflecting plate reflecting radiant heat radiated from the rear of the heating unit to the front side irrespective of the difference in heating method. By being transmitted only in one direction, due to the excellent straightness (infrared ray) of the infrared ray has the advantage of excellent thermal efficiency and extremely short preheating time delivered with the heating effect is far from the distance.

However, since the conventional radiant heat heater adopts only a radiation method using a reflecting plate as a heat transfer means, it is limited to a very small part in a relatively small place and can be heated, and it is difficult to heat the room uniformly as well as without heating the air. Since radiant heat is transmitted in the form of wavelength, there is a problem in that the heating effect is rapidly reduced when the power is cut off instead of the rapid heating.

Recognizing the problems with the conventional radiant heat heater, a forced convection device of an infrared heater is disclosed in Korean Utility Model Registration No. 20-0349600. The forced convection device is provided on the air flow path and the air flow path formed on the rear surface of the reflector. It is composed of a multi-blown blower for forcibly blowing air, and the air volume generated by the multi-blown blower passes through the air flow passage and is sprayed in the same direction as the infrared through the exhaust port to provide the air volume to the infrared to force the convection to generate the convective heat transfer. It has a feature to promote.

However, since the forced convection device is simply forced air blowing from the rear surface of the reflector, it is not transmitting convection heat through heat exchange with the heater, so that the entire room cannot be uniformly heated, and a separate air flow path is provided on the rear surface of the reflector. There is a problem that the volume is too large because of the structure and installation of the multi-blown blower.

In addition, by providing the amount of air to the infrared radiation radiated in the form of wavelength does not promote the radiation heat transfer of the infrared ray, there will be a problem that there is no significant effect in improving the thermal efficiency.

The present invention has been made in order to solve the above-mentioned conventional problems, an object of the present invention is to provide a heat exchange unit which is directly conducting heat to the heater rod radiating radiant heat and heat exchange with the air to the existing radiant heating wire It is to provide a radiant heat heater capable of convective heating that can maximize heat efficiency by enabling heat transfer by convection together with radiant heat transfer.

As a problem solving means of the present invention for achieving the above object,

A radiant heat heater having a heater rod having a predetermined length radiating radiant heat rays and an arc reflector provided in the rear of the heater rod to reflect forward the radiant heat rays forward, wherein the radiant heat heater is extrapolated to the heater rod and installed to be extrapolated to the heater rod. A plurality of heat exchange plates are provided at regular intervals along the longitudinal direction, and between each heat exchange plate, a heat exchange part having a plurality of light emitting openings through which the radiant heat line passes, and a heat exchange part provided at one end of the heat exchange part. Disclosed is a radiant heat heater capable of convective heating, which includes blowing means for forcibly blowing air to a side.

Here, the radiant heat heater according to the present invention is installed in front of the heat exchanger, and the circular reflector plate symmetrical to the reflecting plate to reflect the radiant heating wire of the heater rod directly passed through the light transmission opening to the reflecting plate. It may further include.

In addition, the auxiliary reflector may be formed with a plurality of light transmission holes through which the transmitted radiant heat passes.

In addition, each of the heat exchange plate is preferably made perpendicular to the longitudinal direction of the heater rod.

In addition, each of the heat exchange plates may be formed radially a plurality of vent holes through which the air is blown, or a plurality of vent holes opened at a predetermined length from the outer circumferential surface of the center.

Convection heating radiant heat heater according to the present invention,

It has the advantages of radiant heating, which can directly transfer heat to the heating object by radiant heating through radiant heating wires, and can transmit heat from the heating rod through convection. There is an effect that can be maximized.

In particular, the heat exchanger is directly installed on the outer circumferential surface of the heater rod, and a plurality of heat exchanger plates contacting the air and a large surface area is provided, so the heat exchange efficiency is excellent. Does not work.

In addition, the radiation efficiency is increased by the auxiliary reflector plate and there is also an effect that can protect the eyesight of the user by blocking the light emitted from the heater rod.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the technical features of the present invention may be unnecessarily obscured as a matter already known to those skilled in the art, such as a known function or a known configuration, in detail The description will be omitted.

1 is a front view showing a schematic appearance configuration of a radiant heat heater (hereinafter, referred to as a "radiation heat heater") capable of convection heating according to an embodiment of the present invention, Figure 2 is a plan sectional view of Figure 1, Figure 3 4 is a perspective view illustrating a heat exchanger according to an embodiment of the present invention, FIG. 4 is a perspective view illustrating a heat exchanger installed in a heater rod, and FIG. 5 is a cross-sectional view taken along the line “AA” of FIG. 4.

As shown in the drawings, the radiant heat heater 1 according to an embodiment of the present invention is the main body 10 is open front, the heater rod 20 is installed in the main body 10 and , A reflecting plate 30 provided at the rear of the heater rod 20, a heat exchanger 40 extrapolated to the heater rod 20, and blowing means installed at a lower end side of the heat exchanger 40 ( 50 and an auxiliary reflector 60 provided in front of the heat exchanger 40.

The main body 10 has a safety net 11 is coupled to the open front, a cradle 12 is installed in the lower portion so that the main body 10 can be erected, a plurality of intake holes (so that the outside air can be sucked in the lower end) 13) is preferably formed.

The heater rod 20 is installed vertically inside the main body 10 having a predetermined length. The heater rod 20 is a heating element that radiates radiant heat rays by generating heat by applying to a power source, and in the present invention, the heater rod 20 radiates radiant heat rays such as a far infrared heater, a near infrared heater, a halogen heater, and a nano carbon heater. Various well-known heaters for radiating may be used, and since the construction and heating action of such a heater are already well known in the art, a detailed description thereof will be omitted.

The reflector plate 30 is installed inside the rear main body 10 of the heater rod 20, is spaced apart from the heater rod 20 by a predetermined distance, and has a size that can substantially wrap the heater rod 20. It is made of an arc shape and functions to reflect all of the front side without scattering the radiant heating wire transmitted from the heater rod 20.

The heat exchanger 40 is extrapolated to the heater rod 20, and receives heat directly from the heater rod 20 without disturbing the progress of the radiant heating wire radiated from the heater rod 40. By heat dissipation, heat exchange with air is achieved.

To this end, the heat exchange part 40 is provided with a plurality of heat exchange plate 41 at a predetermined interval along the longitudinal direction of the heater rod 20 and the heater rod 20 between each heat exchange plate 41. It is preferable that a plurality of light emitting openings 42 are formed so that radiant heat rays emitted from the light can pass therethrough.

The plurality of heat exchange plates 41 is preferably installed to be perpendicular to the longitudinal direction of the heater rod 20, respectively, the opening opening 42 is so that the radiant heat rays of the heater rod 20 can pass through and radiate. Preferably, a plurality of dogs are formed along the outer circumference of the heater rod 20.

In addition, it is preferable that a plurality of vent holes 41a are radially formed in each heat exchange plate 41 so that heat exchange can be performed while air forcedly blown by the air blowing means 50 to be described later.

As shown in FIG. 6, instead of the vent hole 41a, a plurality of vent holes 41b opened in a constant length from the outer circumferential surface of the heat exchange plate 41 toward the center may be radially formed.

The blowing means 50 may be composed of a blower fan and a driving motor as an element that allows the heat transfer by convection by forcibly blowing out the outside air to the heat exchange unit 40, the lower end of the heat exchange unit 40 It is preferable to be installed in the side.

The auxiliary reflector 60 is installed in front of the heat exchanger 40 and passes through the floodlight opening 42 to radiate heat radiated forward from the heater rod 20 to the reflector 30 at the rear. It functions to reflect the car.

To this end, the auxiliary reflecting plate 60 has an arc shape symmetrical with the reflecting plate 30 and its diameter is preferably to correspond to the diameter of the heat transfer plate 41.

It is preferable that a plurality of floodlights 61 are formed in the auxiliary reflecting plate 60 so that radiant heat rays radiated forward from the heater rod 20 are partially reflected and go straight forward.

 The auxiliary reflector 60 is located in front of the heat exchanger 40 in addition to the function of reflecting the radiant heating wire to the reflector 30 as described above to cover the heat exchanger 40 and the heater rod 20 in the user's field of view. As a result, the overall aesthetics and the user's eyesight are not only improved, but the air blown by the blowing means 50 forms the front flow path when passing through the heat exchanger 40. have.

Meanwhile, in the above-described embodiment, the radiant heat heater 1 has been described in which the heater rod 20 is installed vertically, but the heater rod 20 may be installed horizontally in the main body 10. When the heater rod 20 is installed horizontally, it may be preferable that the suction hole 13 and the blowing means 50 are installed on one side of the main body 10 rather than on the lower side.

In addition, in the above embodiment, the main body 10 is provided with an operation panel unit (not shown) provided with various switches for operation and control, and in particular, heat generation and blowing means of the heater rod 20. It would be desirable to have a separate switch to perform the operation of 50 separately.

The operation of the radiant heat heater 1 according to the exemplary embodiment of the present invention having the above-described configuration will be described briefly as follows.

First, when power is applied to the heater rod 20 by operating a switch, the heater rod 20 emits radiant heat by generating heat.

The radiant heating wire radiated from the heater rod 20 passes radially through the light transmission opening 42, and the radiant heating wire traveling toward the reflector 30 is reflected by the reflector 30 as shown in FIG. 7. Radiant heat rays which are reflected forward and proceed toward the sub-reflective plate 60 are first reflected by the sub-reflective plate 60, and then are secondarily reflected forward by the reflector 30. Passing through the light-transmitting hole 61 of the auxiliary reflector 60 will proceed to the front immediately.

Accordingly, the secondary radiation radiation h2 and the transmitted radiation heat h3 are additionally applied to the existing radiation heat h1 reflected by the reflector 30, thereby increasing the transfer efficiency of the radiation heat. Can be.

Simultaneously with or after such radiant heating, the switch is operated to blow air into the heat exchanger 40 by operating the blowing means 50. The blown air is heat-exchanged while passing through the respective heat-exchange plates 41 and is heated, and the convection of the heated air makes it possible to uniformly heat the room.

In this case, the heated air may be discharged through an upper part of the front surface of the open body 10 in which the safety net 11 is installed, or separately by forming a plurality of exhaust ports 14 at the upper end of the body 10. .

As described above, the radiant heat heater 1 according to the present invention increases the thermal efficiency of the radiant heating itself, thereby improving the advantages of radiant heating, and convection heating through the heating of air. .

As described above, the radiant heat heater capable of convective heating according to the present invention has been described, but the technical scope of the present invention is not limited to the above-described embodiments and drawings, and is modified by those skilled in the art. Or equivalent configuration will be changed without departing from the scope of the technical spirit of the present invention.

1 is a front view showing a schematic appearance configuration of a radiant heat heater according to an embodiment of the present invention;

2 is a cross-sectional plan view showing the internal configuration of FIG.

3 is a perspective view showing a heat exchanger according to an embodiment of the present invention;

4 is a perspective view showing a state in which a heat exchange unit is installed in a heater rod;

5 is a cross-sectional view taken along the line “A-A” of FIG. 4;

6 is a plan view showing a heat exchange plate according to an embodiment of the present invention,

Figure 7 is an exemplary cross-sectional view illustrating the radiant heat transfer of the radiant heat heater according to the present invention.

＊ Explanation of symbols on major part of drawing ＊

10: main body

20: heater rod

30: reflector

40: heat exchanger

41: heat exchanger plate

42: floodlight opening

50: blowing means

60: auxiliary reflector

Claims (6)

In the radiant heat heater having a heater rod of a predetermined length for radiating a radiant heating wire, and a circular reflector reflecting forward the radiant heating wire provided in the rear of the heater rod, A heat exchanger that is extrapolated to the heater rods and is provided with a plurality of heat exchange plates at predetermined intervals along the longitudinal direction of the heater rods and a plurality of light emitting openings through which the radiant heating wire passes between each heat exchange plate; And Convection heating is possible radiant heat heater comprising a; blowing means for forcibly blowing air to the heat exchanger is provided on one side of the heat exchanger. The method of claim 1, And an arc-shaped auxiliary reflecting plate which is installed in front of the heat exchanger and is symmetrical with the reflecting plate so as to reflect the radiant heating wire of the heater rod directly passed through the light emitting opening to the reflecting plate. This radiant heat heater is available. 3. The method of claim 2, Convection heating is possible radiant heat heater, characterized in that the auxiliary reflecting plate is formed with a plurality of transmission holes through which the transmitted radiant heat passes. The method according to claim 1 or 2, Each heat exchange plate is a radiant heat heater capable of convection heating, characterized in that perpendicular to the longitudinal direction of the heater rod. The method according to claim 1 or 2, Each heat exchange plate is radiant heat heater capable of convective heating, characterized in that the plurality of ventilation holes through which the air passing through is formed radially. The method according to claim 1 or 2, Each heat exchange plate has a radiant heat heater capable of convective heating, characterized in that a plurality of vent holes are formed radially from the outer circumferential surface of the center to a predetermined length.

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