KR101146587B1 - Heat radiating apparatus and heating apparatus having the same - Google Patents

Abstract

PURPOSE: A heating device having a radiator is provided to prevent electrical current leak caused by moisture through radiating heat far away. CONSTITUTION: A heating device(100) having a radiator comprises a case(110), a reflecting plate(120), a radiating unit(140), a plurality of heater rods(130), and a support unit(180). The reflecting plate is fixed to a front side of the case and reflects heat frontward. A plurality of through-holes for the heater rods is formed horizontally on a rear of the radiating unit. A surface of the radiating unit is coated with mineral materials and the radiating unit emits radiant heat so fire is prevented. The radiating unit comprises a curved section to emit the heat far away. A plurality of the heat rods is inserted into the through holes for the heat rods. An insulator is arranged on both end of the heat rods and the heat rods emit the heat. The supporting unit is installed between the floor side of reflector and rear side of the radiating unit. When the heating device operates, the support unit prevents bending of the reflecting plate and thesagging of the radiating unit caused by the heat.

Description

Heater with Heat Dissipation {HEAT RADIATING APPARATUS AND HEATING APPARATUS HAVING THE SAME}

The present invention relates to a heating device having a heat dissipation device, and more particularly, by constituting a heating device including a heat dissipation unit which is formed in a plate shape to receive heat from a plurality of heater rods and is capable of heat dissipation, thereby significantly reducing power consumption. It is possible to reduce the temperature, to dissipate heat farther by the heat dissipation part, to prevent short circuit caused by moisture (water), and to have a heat dissipation device to prevent fire even after long time use. It relates to a heating device.

In general, a heating device includes a heating device that applies power to a heater rod to reflect heat through a reflecting plate to enable heating, and a heating device having a fan built in to radiate heat to a far distance.

However, since the heating device is configured to heat the heat through the reflector by applying power to the conventional heater rod, the heating rod takes a long time for heating and eventually consumes a lot of electricity due to high power consumption. In addition, there was a problem such that heat is not transmitted far.

In view of this point, recently, as disclosed in Patent Application No. 10-2007-0119462, an electric heater equipped with a blower fan is being developed to emit heat to a long distance.

That is, in the hot-air far-infrared electric heater, a main body provided with a control unit and a power supply unit, a spiral heating wire groove is formed on the upper portion of the main body along the outer periphery of a cone shape, and a predetermined interval in the hot wire groove. A far infrared radiator having apertures formed therein, a series of heating wires inserted into the hot wire grooves to generate heat by electric energy, a blower installed inside the far infrared radiator to generate hot air through the through holes, and driven by a motor; It consists of a safety net installed around the far-infrared radiator and a top plate coupled to the top of the safety net.

However, the conventional general hot air type far-infrared electric heater made in this way can transmit heat to a far distance by the blowing fan as described above, but there is a problem that the volume is increased and noise is generated by installing the blowing fan.

In addition, the conventional hot air far-infrared electric heater described above has a problem of easily leaking into water.

Patent application No. 10-2007-0119462, filed November 20, 2007 Title of the Invention: Hot Air Far Infrared Electric Heater, Page 2 Line 3 ~ 11 Line, Fig. 2

Accordingly, the present invention has been made in order to solve the above-described problems, by configuring a heating device including a heat dissipation unit is formed in a plate shape so as to receive heat radiated from a plurality of heater rods, the heat dissipation can be stored in the heat dissipation unit Because it emits while releasing power, it can significantly reduce power consumption, radiate heat farther away by the heat dissipation part, prevent short circuit caused by moisture (water), and prevent fire even when used for a long time. It is an object of the present invention to provide a heating device having a heat radiating device.

In the present invention for achieving the above object, in the heat dissipation device, a plurality of through-holes for the heater rod are formed in the transverse direction through the rear surface, and the surface is coated with minerals to emit radiant heat of far infrared rays to prevent fire and heat for a long time It is possible to reduce the power consumption because it can store and dissipate, the heat dissipation unit is formed in a cross-section having a curved surface to be able to dissipate heat to a long distance, and each of the through-holes for the heater rod formed in the transverse direction on the back of the heat dissipation unit Inserted, but each end is characterized in that it comprises a plurality of heater rods provided to be capable of dissipating heat corresponding to the power is applied through the insulator.
In still another aspect of the present invention, there is provided a heating apparatus including a heat dissipation unit, a case having an open front surface, a reflecting plate fixed to a front surface of the case to reflect heat to the front side, and A plurality of heater rods are provided on both sides of the insulator on both sides thereof so that both ends are fixed so that heat can be dissipated in response to the power being applied, and a plurality of through-holes for the heater rods are respectively inserted to the rear of the heater rods. In addition, the surface is coated with minerals to dissipate the radiant heat of far-infrared rays, thus preventing fire and storing heat for a long time, which can reduce power consumption, and is formed in a wavy cross-section so as to dissipate heat to a long distance. One end and the other end of the heat dissipation unit is inserted into and fixed to both ends of the case, the user from the heat dissipation unit And a protection net provided to protect the power supply, and a power line connected to a plurality of heater rods on one side of the front of the case so as to control power by comparing with a preset temperature corresponding to the room temperature detected by a temperature sensor installed in the case. Characterized in that it comprises a control unit provided.

delete

In addition, the reflective plate is fixed to the back of the case is fixed to the front side is characterized in that a plurality of fixing brackets are further provided to be fixed to the heating device on the wall or ceiling.

And, it is installed between the bottom surface of the reflecting plate and the back of the heat dissipating unit is characterized in that the supporting means is further provided to prevent the heat dissipation unit is extended and trembling by heat when using the heating device, and to prevent the reflecting plate is bent.
Most preferably, a heating device having a heat dissipation device, the case 110 having a front opening; A reflector plate 120 fixed to a front surface of the case 110 to reflect heat to the front side; Heater rod through-holes are formed on the back side in the lateral direction, and the surface is coated with minerals to emit radiant heat of far infrared rays to prevent fire and to store heat for a long time, which can reduce power consumption and heat far. A heat dissipation unit 140 formed to have a curved surface to be dissipated so far; A plurality of heater rods 130 are respectively inserted into the heater rod through-holes formed in the transverse direction on the rear surface of the heat dissipation unit 140, and are provided to be capable of dissipating heat in response to the power being applied through each insulator. ; And a support unit 180 installed between the bottom surface of the reflecting plate 120 and the rear surface of the heat dissipating unit 140 to prevent the heat dissipating unit 140 from being stretched and shaken by heat when using a heating device, and to prevent the reflecting plate 120 from bending. ); The case 110 includes an exterior case 111 and a heat insulation plate 112 interposed between the exterior case and the reflection plate, and the heat dissipation unit 140 is disposed in a vertical direction based on a central portion. As it moves away, the convex portion 141a which protrudes forward while being recessed in the rear and the concave portion 141b which protrudes in the rear while being protruded in the rear are formed in a cross-section of a wavy shape formed in succession alternately. The rear surface of the part includes a heat dissipation plate 141 provided with heater rod through holes formed in the lateral direction so as to penetrate the plurality of heater rods 130, respectively. It is formed integrally with, the surface of the heat sink 141 is formed by coating with a heating coating layer 142 is radiant heat of far infrared rays in response to the power applied to the heater rod 130 side It is provided to be divergent, and the heater rod 130 is inserted into the through hole in a manner penetrating in one side of the left and right, each of the plurality of heater rods 130, insulator on the front of the case 110 It is interposed at both ends, while both ends are fixed to the case, power is applied from one side of the heater rod to the other side, the heating coating layer 142 is 50 ~ 70% by weight of illite having nanoparticles of 1,000 mesh ~ 10,000 mesh and 20 to 40% by weight of kaolin, and 3 to 8% by weight of pearlite, and a mixture of 5 to 25% by weight of the adhesive, the support means 180, the heat sink 141 of the heat dissipation unit 140 rear A support piece 181 which is slidable to the locking projection 141f formed in the support protrusion, a support fixing piece 182 provided to fix the support piece 181 to the case 110, and the support piece 181. It comprises a spring 183 for pushing the from the reflecting plate 120 A heating apparatus having a heat radiating device is proposed.

According to the heating device having a heat dissipation device according to the present invention as described above, by forming a heating device including a heat dissipation portion is formed in a plate shape so as to receive heat radiated from a plurality of heater rods, the heat dissipation portion Because it emits while saving energy, it can significantly reduce power consumption, discharge heat farther away by the heat dissipation part, prevent short circuit caused by moisture (water), and prevent fire even when used for a long time. It can be effective.

1 is a perspective view showing a combined heating device having a heat radiating device according to the present invention.
Figure 2 is an exploded perspective view showing a heating device having a heat dissipation device according to the present invention.
3 is a cross-sectional view illustrating a heating device having a heat dissipation device according to the present invention.
Figure 4 is a view showing the radiation state of the heat in the heat radiating portion of the heating device having a heat radiating device according to the present invention.
5 is a view showing a radiation state of heat in the heat radiating portion of the heating apparatus having a general heat radiating portion.

Hereinafter, an embodiment of the heat dissipation device and the heating device provided with the heat dissipation device according to the present invention will be described in detail.

First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As shown, the heat dissipation device according to the present invention and the heating device having the heat dissipation device are formed in a wavy cross-section and include a heat dissipation part formed to insert a plurality of heater rods on the back thereof, whereby power is applied. It is configured to be able to receive heat from the heater rod, thereby dissipating heat to a far distance and to prevent short circuiting by water.

That is, the heat dissipation device according to the present invention is formed by penetrating a plurality of through-holes for the heater rod in the transverse direction, the surface is coated with minerals to emit radiant heat of far infrared rays to prevent fire and to store heat for a long time Therefore, the power consumption can be reduced, and the heat dissipation unit 140 is formed in a cross section having a curved surface to dissipate heat to a long distance, and a plurality of through-holes for the heater rods formed in the transverse direction on the rear surface of the heat dissipation unit 140. Is inserted into each, each end comprises a plurality of heater rods 130 provided to be capable of dissipating heat corresponding to the power is applied through the insulator (not shown).

On the other hand, the heating device 100 with a heat dissipation device according to another embodiment of the present invention, the case 110 is the front surface is opened, the reflector is provided to be fixed to the front surface of the case 110 to reflect the heat to the front side 120 and a plurality of heater rods 130 provided on both sides of the case 110 to include heat insulators (not shown) on both ends thereof so as to be capable of dissipating heat corresponding to power applied thereto. Since a plurality of heater rod through-holes are formed to respectively insert the plurality of heater rods 130 into the rear surface, and the surface is coated with minerals to emit radiant heat of far infrared rays, thus preventing fire and storing heat for a long time. One end and the other end of the heat dissipation unit 140 and the case 110 may be inserted and fixed to the heat dissipation unit 140 and the case 110, respectively, which may reduce power consumption and are formed in a wavy cross-section so as to dissipate heat to a far distance. Air protection unit 150 is provided to protect the user from the heat dissipation unit 140, and a plurality of heater rods 130 on one side of the front side of the case 110 and the terminal block (D) connected through a power supply line once It is connected to the control unit 160 is provided to be able to control the power compared to the preset temperature is input corresponding to the room temperature detected from the temperature sensor (not shown) installed in the case 110.

Here, the back of the case 110 is further provided with a plurality of fixing brackets 170 which are fixed via a screw so that the heating device 100 can be fixed to the wall or ceiling.

In addition, the support means is installed between the bottom surface of the reflecting plate 120 and the rear surface of the heat dissipating unit 140 to prevent the heat dissipating unit 140 from stretching and shaking due to heat when using a heating device, and to prevent the reflecting plate 120 from bending. 180 is further provided.

 In addition, the controller 160 may be provided with a button or controllable by a remote control so that power can be applied to the heater rod 130 by a user directly operating by hand.

Meanwhile, the button may be configured to be capable of applying power to a plurality of heater rods 130 with one button, or may include a plurality of buttons corresponding to the heater rods 130.

Hereinafter, the heating device with a heat dissipating device according to the present invention described above will be described in more detail.

First, the case 110 of the heating device with a heat dissipation device according to the present invention, as shown in Figures 1 to 3, a plurality of heater rods 130 are respectively inserted into the back and the reflector plate 120 on the front The heat dissipation unit 140 to be fixed and the protection net 150 provided to protect the user from the heat dissipation unit 140 is provided to be installed.

That is, the case 110 is formed in a rectangular plate shape, the upper and lower ends of the outer case 111 is provided with a bending piece (111a) is bent in the upper direction and the inner direction, and the outer case A heat insulating plate 112 formed to have a cross-sectional shape corresponding to a slide insert into the bent piece 111a of the 111 and provided to block heat radiated from the heat radiating unit 140, and the outer case 111 Left and right cover plates 113 and 113 ′ provided to block both ends of the outer case 111 in which the heat insulation plate 112 is slide-in fixed by fixing the upper and lower ends in the drilling holes, and the upper surface of the outer case 111. One end is fixed to each end via a plurality of screws, and the other end is provided with left and right fixing plates 114 and 114 'respectively provided to fix the penetrating through the insulator (not shown) at one end and the other end of the heater rod 130. It is composed of

Here, a plurality of fixing holes (drawing number omitted) and support fixing holes (drawing number) on the plate of the outer case 111 to fix the fixing bracket 170 and the support means 180 via a plurality of screws. A plurality of holes (not shown) are formed at both ends of the plate to penetrate the bolt ends of the plurality of bolts and nuts provided to fix the left and right fixing plates 114 and 114 ', respectively. On both ends of the bent piece 111a, left and right mounting holes (not shown) are formed to fix the left and right cover plates 113 and 113 'by screws, respectively. Each rear end is provided with a terminal block fixing hole (not shown) and a fuse part fixing hole (not shown) for fixing the terminal block (D) and the fuse (F), respectively.

In addition, a wiring hole (not shown) for wiring a power line is further formed at one side of the plate-shaped side of the exterior case 111, that is, at one side of the terminal block fixing hole formed on the left side of the plate.

The heat insulating plate 112 is formed in a plate shape bent in the upper and lower ends, so that the slide case can be inserted into the bent piece (111a) of the outer case 111, the fixing means support plate 180 on the plate A plurality of through holes (not shown) are formed to be fixed to the front surface of the exterior case 111 by fixing the support means 180 by penetrating a plurality of screw ends provided to each other.

The left and right cover plates 113 and 113 'are each formed in a rectangular plate shape, and both ends of the left and right slide pieces extending downward and outward so as to slide into the bent pieces 111a of the outer case 111 ( 113a and 113a 'are formed, and the rear and right extension cover pieces 113b and 113b' are formed at each rear end so as to be extended downward to cover one end and the other end of the outer case 111, respectively. On both ends of the extension cover pieces 113b and 113b ', left and right cover plate fixing holes 113c and 113c formed with left and right cover plate fixing holes (not shown in the drawing) are formed in the center to be fixed to the bent pieces 111a via screws at the center. ') Is integrally formed and provided.

The left and right fixing plates 114 and 114 'are formed of vertical pieces 114a and 114a' and horizontal pieces 114b and 114b ', respectively, each of which has a lower end bent outward. A plurality of left and right heater rod fixing holes (not shown in the drawing) are formed to fix the insulator at one end and the other end of the heater rod 130 inserted into the rear surface of the 140, and horizontal pieces 114b and 114b '. In the mounting holes formed at both ends of the outer case 111, a plurality of left and right fixing plate horizontal fixing plate horizontal holes 114b and 114b 'are formed so as to be fixed by a medium.

The heat dissipation unit 140 is formed to insert the plurality of heater rods 130 at regular intervals on the back surface as shown in FIGS. 1 to 3, respectively, so that radiant heat of far infrared rays can be radiated on the surface thereof. Since mineral materials are coated and provided in a wavy cross section, flammable materials such as paper are not ignited to prevent fire, and heat can be stored and dissipated for a long time, thus reducing power consumption and dissipating heat to a long distance. It is provided.

That is, the heat dissipation unit 140 is formed in a wavy cross section in which convex portions 141a and concave portions 141b protruding from the upper and lower portions on the basis of the center portion are formed in succession, and the upper portion of the rear center portion and the central portion is formed. A heat dissipation plate 141 provided with a receiving piece 141c through which a heater rod through hole (not shown) is formed in a horizontal direction so as to penetrate the plurality of heater rods 130, respectively; It is coated on the surface of the heat dissipation plate 141 is composed of a heating coating layer 142 provided to radiate heat of far-infrared radiation to correspond to the power applied to the heater rod 130 side.

Here, the heat dissipation plate 141 is configured such that the thickness is gradually thinner toward the upper and lower ends so as to be able to dissipate the heat transmitted from the plurality of heater rods 130 to a long distance, the upper and lower rear surface due to the high heat in the transverse direction A pair of heat storage protrusions 141d are formed to protrude to prevent the heat sink 141 from bending.

In addition, the front upper and lower ends of the heat dissipation plate 141 and the protruding convex portion 141a store a part of the heat transferred from the heater rod 130 to prevent the heat dissipation to the upper and lower ends of the heat dissipation plate 141. In addition, a plurality of heat storage grooves 141e are formed in the longitudinal direction such that the radiation wavelength of the heat is generated in a complex manner so that heat can be radiated to a long distance.

And, the upper and lower ends of the outer peripheral surface of the receiving piece (141c) formed in the rear center portion of the heat dissipation plate 141 is further formed with a locking projection (141f) protruding so as to slide the one end of the support means 180.

The exothermic coating layer 142 is 50 to 70% by weight of chorionic mica (or illite) having nanoparticles of 1,000 mesh to 10,000 mesh, 20 to 40% by weight of kaolin, 3 to 8% by weight of pearlite, and 5 to 5% of adhesive. It consists of a mixture of 25% by weight.

When the mixture of the exothermic coating layer is composed of nanoparticles of 1,000 mesh or less, the heat generating area becomes small, and when the composition of the exothermic coating layer is made of 10,000 mesh or more, the cost of manufacturing increases, and thus, 1,000 mesh to 10,000 mesh as described above. It is preferable to comprise with nanoparticles of.

The fixing bracket 170 is fixed to the rear surface of the outer case 111 of the case 110 by a plurality of screws, and is provided to be installed on a wall or suspended from a ceiling.

That is, the fixing bracket 170 as shown in Figures 2 and 3 from the both ends of the fixing vertical piece 171, the fixing hole 171a is holed in the center and the fixing vertical piece 171 It extends outward from one-way bent fixing horizontal piece 172, the center portion is provided with a bracket fixing hole (not shown) to be fixed to the outer case 111 of the case 110 via a dozen screws. .

As shown in FIGS. 2 and 3, the support means 180 is interposed between the rear surface of the heat dissipation unit 140 and the reflecting plate 120, and one end thereof is formed on the rear surface of the heat dissipation plate 141 of the heat dissipation unit 140. The other end is caught by the locking projection (141f) and the other end is fixed to the front of the reflector through the screw is provided to prevent the heat radiation unit 140 is extended and trembling by heat when using the heating device, and to prevent the reflector 120 is bent.

That is, the support means 180, the support vertical piece 181a is formed in the center portion through-hole (not shown) so as to be able to slide the locking projection (141f) formed on the rear surface of the heat dissipation plate 141 of the heat dissipation unit 140. And, both ends of the support vertical piece (181a) is formed in a cross-sectional shape of the Diagonal shape formed by a support horizontal piece (181b) bent in one direction, both ends are provided with a support hook piece (181c) is bent inwardly formed Support piece screw hole (not shown) so that one end is fixed to the piece 181 and the outer surface of the support vertical piece 181a of the support piece 181 by a welding, and the center part communicates with the through hole of the support vertical piece 181a. A support fixing piece 182 and a support fixing piece 182 which are provided to be fixed through respective screws (not shown) which are fastened at the rear surface of the outer case 111 of the case 110, and the support fixing piece 182 is formed on the center of the case 110. Through one end is supported by the support vertical piece (181a) and the other end is It is composed of a spring 183 is supported on the front of the reflector 120, respectively, and provided to prevent the heat radiating unit 140 is extended and tremored by heat when using the heating device, and to prevent the reflector 120 from bending.

After the installation on the wall via a plurality of fixing brackets 170 provided on the back of the case of the heating device having a heat dissipation device according to the invention made in this way, the control unit so that power is applied as shown in Figs. Each of the plurality of buttons provided in the 160 is adjusted.

The three heater rods 130 respectively inserted in the heater rod through-holes of the receiving piece 141c formed on the rear surface of the heat dissipation plate 141 of the heat dissipation unit 140 are generated to correspond to adjusting the buttons.

Heat generated from the three heater rods 130 is transferred to the heat sink 141 side of the heat radiation unit 140.

When the heat is transferred to the heat sink 141 as described above, as shown in Figure 4 attached to the heat is the heat sink 141 of the heat radiation portion 140 is formed in a wavy cross-section, the front convex portion 141a ) And a plurality of heat storage grooves 141e formed at the upper and lower ends thereof, and the thickness of the upper and lower ends thereof is made thinner so that the radiation wavelengths of the heat are combined to radiate heat to a long distance.

On the other hand, when the heat dissipation plate 141 of the heat dissipation unit 140 is formed only in the shape of a square plate as shown in FIG. In addition, it is formed in the cross-section of the wavy, there is no change in thickness or is formed in the cross-section of the wavy and at the same time, the thickness is gradually formed as the upper and lower ends, as shown in Figure 4 on the front of the heat sink 141 When the heat dissipation plate is configured without a plurality of heat storage grooves 141e, the radiated heat is not changed in wavelength and thus cannot be radiated to a long distance as in the heat dissipation plate 141 of the present invention.

However, the radiating plate 140 of the radiating unit 140 of the heating device 100 having the radiating device according to the present invention is formed in the cross-section of the wave shape as described above, and the front convex portion 141a, A plurality of heat storage grooves (141e) formed at the bottom is formed, the radiation wavelength of the heat is complex by the thickness change is formed thinner toward the upper and lower ends, the heat can be radiated to a distance as well as to store heat It can dissipate heat continuously for a long time even if power is cut off.

In addition, the heat dissipation plate 141 is a heating coating layer 142 composed of a mixture of 50% by weight of chorus mica having 5,000 mesh nanoparticles on the surface, 30% by weight of kaolin, 5% by weight of pearlite, and 15% by weight of adhesive. Since the coating is configured to increase the radiant heat, the room can be heated in a short time.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

100; Heating device 110; case
120; Reflector 130; Heater rod
140; Heat dissipation unit 150; Protection net
160; Control unit 170; fixed bracket
180; Support means

Claims (9)

A heating device having a heat radiating device,
A case 110 having a front surface opened;
A reflector plate 120 fixed to a front surface of the case 110 to reflect heat to the front side;
Heater rod through-holes are formed on the back side in the lateral direction, and the surface is coated with minerals to emit radiant heat of far infrared rays to prevent fire and to store heat for a long time, which can reduce power consumption and heat far. A heat dissipation unit 140 formed to have a curved surface to be dissipated so far;
A plurality of heater rods 130 are respectively inserted into the heater rod through-holes formed in the transverse direction on the rear surface of the heat dissipation unit 140, and are provided to be capable of dissipating heat in response to the power being applied through each insulator. ; And
The support means 180 is installed between the bottom surface of the reflective plate 120 and the rear surface of the heat dissipating unit 140 to prevent the heat dissipating unit 140 from stretching and shaking due to heat when using a heating device, and to prevent the reflecting plate 120 from bending. ;
Including;
The case 110 includes an outer case 111 and a heat insulating plate 112 interposed between the outer case and the reflector.
As the heat dissipation unit 140 moves away from the center in the vertical direction, the convex portion 141a protrudes forward while being recessed from the rear and the concave portion 141b protruding backward while being protruded rearward alternately. And a heat dissipation plate 141 which is formed in a cross-sectional shape of a continuous wave, and the through-holes for the heater rods are formed in the transverse direction so as to penetrate the plurality of heater rods 130, respectively, on the rear surface of the concave portion. And, the receiving piece (141c) through the through hole is formed integrally with the heat sink, the surface of the heat sink 141 is formed by being coated with a heating coating layer 142 is applied power to the heater rod 130 side In response to the radiation of far-infrared radiation is provided,
The heater rod 130 is inserted into the through hole in a manner penetrating in one side of the left and right,
Each of the plurality of heater rods 130, through the insulator at both ends on the front surface of the case 110, the power is applied from one side of the heater rod to the other side while both ends are fixed to the case,
The exothermic coating layer 142 is a mixture of 50 to 70% by weight of illite having nanoparticles of 1,000 mesh to 10,000 mesh, 20 to 40% by weight of kaolin, 3 to 8% by weight of pearlite, and 5 to 25% by weight of adhesive. Consists of one mixture,
The support means 180 includes a support piece 181 that can slide on a locking protrusion 141f formed on a rear surface of the heat dissipation plate 141 of the heat dissipation unit 140, and the support piece 181 on the case 110. And a support fixing piece (182) provided to be fixable, and a spring (183) for pushing the support piece (181) from the reflecting plate (120). The method of claim 1,
One end and the other end of the case 110 are inserted and fixed to both ends of the protection net 150 provided to protect the user from the heat dissipation unit 140;
A power line connected to a plurality of heater rods 130 on one side of the front side of the case 110 may control power by comparing with a preset temperature corresponding to an indoor temperature detected by a temperature sensor installed in the case 110. The control unit 160 is provided to
Heating device having a radiator, characterized in that further comprises. The method of claim 1,
The reflecting plate 120 is fixed to the rear surface of the case 110 fixed to the front of the heat dissipation device characterized in that a plurality of fixing brackets 170 is further provided to be fixed to the heating device 100 on the wall or ceiling Heating with. delete The method of claim 1,
The exterior case 111 is formed in a rectangular plate shape, the upper and lower ends are formed bent pieces (111a) bent in the upper direction and the inner direction,
The heat insulation plate 112 is formed to have a cross-sectional shape corresponding to slideable into the bent piece 111a of the outer case 111 so as to block heat transfer to the rear of heat radiated from the heat radiating unit 140. ,
The case 110, the upper and lower ends are fixed to the perforation hole of the outer case 111, the left and right cover plates are provided to be able to prevent both ends of the outer case 111, the heat insulation plate 112 is slide-fixed fixed (113,113 '), and one end is fixed to each of both ends of the upper surface of the outer case 111 via a plurality of screws, and the other end through the insulator on one end and the other end of the heater rod 130, respectively Heating device having a heat dissipation device, characterized in that it further comprises a left, right fixing plate (114, 114 ') provided. delete The method of claim 1,
The heat dissipation plate 141 is configured such that the thickness of the heat dissipation plate 141 is gradually thinner to the upper and lower ends so that heat transmitted from the plurality of heater rods 130 can be dissipated to a long distance, and the upper and lower rear surfaces of the heat dissipation plate 141 due to high heat in the transverse direction. A pair of heat storage protrusions 141d are formed to protrude so as to prevent the bend from being bent, and a part of the heat transferred from the heater rod 130 is stored in the upper, lower and protruding convex portions 141a to form a heat sink. A plurality of heat storage grooves 141e are formed in the longitudinal direction to prevent heat from being collected at the upper and lower ends of the 141 and to generate heat in a complex manner so that heat can be radiated to a long distance. Heat dissipation device characterized in that the upper and lower outer peripheral surface of the piece (141c) is further provided with a locking projection (141f) protruding from the outside so as to slide the end of the support means 180 Heating with. delete The method of claim 1,
The support piece 181 may include a support vertical piece 181a having a through-hole formed at a central portion thereof so that the support piece 181 can slide to a locking protrusion 141f formed on a rear surface of the heat dissipation part 141 of the heat dissipation part 140, and the support vertical piece ( Both ends of the 181a are formed in the shape of a Diagonal cross-section formed of the support horizontal piece 181b bent in one direction, and both ends are formed of the support hook pieces 181c bent inwardly.
The support fixing piece 182, one end is fixed to the outer surface of the support vertical piece (181a) of the support piece 181, the center portion is formed with a support piece screw hole is formed so as to communicate with the through hole of the support vertical piece (181a) It is provided to be fixed through a screw fastened from the rear of the outer case 111 of 110,
The spring 183 is penetrated by the support fixing piece 182 to the center portion, one end is supported by the support vertical piece 181a, and the other end is respectively supported on the front surface of the reflector plate 120 so that the heat dissipation part (heat) The heating device having a heat dissipation device, characterized in that the 140 is extended and trembling, and the reflection plate 120 is prevented from bending.

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