KR20170002042A - Radiant heater for vehicle - Google Patents

Abstract

In a radiant heater for a vehicle which includes a radiant heater for generating radiant heat and a heat insulating material laminated on the rear surface of the radiant heater, a heat insulating material comprises a reflection and heat distribution plate for dispersing heat generated from a radiation heater by being in contact with the rear surface of the radiation heater and for reflecting heat to the front side of the radiation heater; and an organic thermal insulator or an inorganic thermal insulator which is laminated so as to be in contact with the reflection and heat distribution plate to block heat and has a plurality of pores. So, it is possible to prevent heat loss to the back side of the radiant heater, thereby improving the efficiency of the heater, and preventing the deterioration of a radiant heater assembly and peripheral components where the radiant heater for the vehicle is installed.

Description

[0001] Radiant heater for vehicle [

The present invention relates to a radiant heater for a vehicle, and more particularly, to a radiant heater for a vehicle for improving heat comfort by directly radiating radiant heat toward a passenger at the beginning of a winter season vehicle, To a radiant heater for a vehicle that can prevent heat loss to the rear surface of a heater and deterioration of a vehicle component.

A radiator heater can be installed in the vehicle interior to radiate heat directly to the passenger by using radiant heat, because the cooling water can not be heated quickly in the early stage of the vehicle during the early winter of the vehicle. have.

Such radiant heaters for automobiles are installed on the lower side of the dashboard of the vehicle, the steering column on the driver's seat side, the glove box on the passenger's seat side, and the backrest of the front seat so that the radiant heat is directly emitted to the passenger's legs, And the like.

1, a conventional radiating heater apparatus 1 is provided with a radiating heater device 1 on a lower surface of a steering column 13 connected to a steering wheel 14 of a vehicle operator's seat, The radiating heater device 1 is configured to radiate radiant heat toward the leg 12 and the radiation heater device 1 has a configuration in which the heat dissipating portion 3, the heat generating portion 4, the terminal 7, and the like are formed on the substrate 2 as shown in FIG. .

However, in such a radiant heater for a vehicle, radiant heat is emitted only on one side (front side) and heat is not emitted on the other side (rear side). However, in a conventional radiant heater for a vehicle, heat is radiated to the rear side, And the main parts of the vehicle heater and the radiant heater assembly are deteriorated to shorten the lifetime of the parts.

JP 2014-003000 A (2014.01.09)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a radiant heater for a vehicle for improving the heating comfort by directly radiating radiant heat toward an occupant at the start of a winter season, And is provided with a heat insulating material which is applicable to the operating temperature of the heater on the rear surface, thereby preventing heat loss to the rear surface of the heater and deterioration of the vehicle parts.

According to an aspect of the present invention, there is provided a vehicular radiant heater including a radiant heater for generating radiant heat and a heat insulating material disposed on a rear surface of the radiant heater, The heat insulating material 200 includes a reflection and heat distribution plate 240 for dispersing heat generated from the radiation heaters 100 in contact with the rear surface of the radiation heaters 100 and reflecting the heat to the front surface of the radiation heaters 100; And an organic thermal insulator 210 or an inorganic thermal insulator 211 which are stacked in parallel to contact the reflection and thermal diffusing plate 240 to block heat and have a plurality of pores formed therein; And a control unit.

The organic insulating material 210 is formed by foaming any one of polyethylene, polypropylene, polyurethane, ethylene propylene rubber, and silicone.

The inorganic heat insulating material 211 is formed of any one of ferrite, fumed silica, glass fiber, and airgel.

A reflection plate 250 is laminated in parallel to the organic insulation material 210 or the inorganic insulation material 211 so as to be in contact with the opposite side of the reflection and thermal distribution plate 240, and reflects heat. And further comprising:

The radiator heater for a vehicle according to the present invention includes a radiator heater 100 generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiator heater 100, A reflection and heat distribution plate 240 for dispersing the heat generated by the radiation heaters 100 in contact with the rear surface of the radiation heaters 100 and reflecting the heat to the front of the radiation heaters 100; A pore insulation 220 formed in a direction in which the plurality of through holes 221 are stacked so as to be in contact with the reflection and heat distribution plate 240 so as to block heat; And a reflective plate 250 laminated side by side so as to be in contact with the opposite side of the borehole insulation material 220 contacting the reflection and thermal distribution plate 240 to reflect heat. And a control unit.

The perforated heat insulating material 220 may be formed by foaming any one of polyethylene, polypropylene, polyurethane, ethylene propylene rubber, and silicone.

The radiator heater for a vehicle according to the present invention includes a radiator heater 100 generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiator heater 100, And a pouch type heat insulating material 230 which is laminated so as to be in contact with the rear surface of the radiant heater 100 and blocks the heat and the core material 232 is sealed by the outer covering material 231.

The outer material 231 of the pouch type heat insulating material 230 may be sealed with the core material 232 filled with air or the core material 232 may be filled in the outer material 231 And is sealed in a vacuum state.

In addition, the outer cover material 231 is characterized by being a pouch in which a metal thin film layer and a resin thin film layer are laminated in two or more layers.

Also, the core member 232 is formed of any one of ferrite, fumed silica, glass fiber, and airgel.

The radiant heater for a vehicle according to the present invention is provided with a heat insulating material on the rear surface of the heater according to the operating temperature of the heater, thereby preventing heat loss to the rear surface of the heater, thereby improving the efficiency of the heater. In addition, there is an advantage that deterioration of the peripheral parts provided with the radiant heater for a vehicle and the radiant heater assembly can be prevented.

Fig. 1 and Fig. 2 are schematic views showing a configuration in which a conventional radiating heater apparatus is installed in a vehicle and a configuration of a radiating heater apparatus. Fig.
3 is an exploded perspective view showing a radiant heater assembly for a vehicle including a radiant heater for a vehicle according to the present invention.
4 is a schematic cross-sectional view of a radiant heater for a vehicle including an organic thermal insulator according to the present invention.
5 is a schematic cross-sectional view showing a radiant heater for a vehicle including an inorganic thermal insulating material according to the present invention.
6 and 7 are cross-sectional schematic views showing a radiant heater for a vehicle including a perforated thermal insulating material according to the present invention and a perspective view showing a perforated thermal insulating material.
8 is a schematic cross-sectional view showing a radiant heater for a vehicle including the pouch type heat insulating material according to the present invention.

Hereinafter, a radiant heater for a vehicle according to the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

4 is a schematic cross-sectional view illustrating a radiant heater for a vehicle including an organic thermal insulator according to the present invention. FIG. 5 is a cross-sectional view of a radiant heater according to an embodiment of the present invention. A schematic cross-sectional view showing a radiant heater for a vehicle including a heat insulating material.

As shown in the drawings, the radiator heater for a vehicle according to the present invention includes a radiant heater 100 for generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiant heater 100, A reflection and thermal distribution plate 240 for dispersing the heat generated by the radiant heater 100 in contact with the rear surface of the radiant heater 100 and reflecting the heat to the front of the radiant heater 100; And an organic thermal insulator 210 or an inorganic thermal insulator 211 which are stacked in parallel to contact the reflection and thermal diffusing plate 240 to block heat and have a plurality of pores formed therein; . ≪ / RTI >

3, the front cover 500, the safety mesh 400, the radiant heater 100, the heat insulating material 200, and the back cover 300 are stacked in this order, The safety mesh 400, the radiator heater 100, and the heat insulating material 200 may be fixed by combining the front cover 500 and the back cover 300. Here, the front cover 500 may be formed as a frame-like frame so that the rim portion of the safety mesh 400 may be fixed, and a plurality of engagement holes may be formed in the front cover 500, The fixing pin can be coupled to be inserted into the coupling hole of the front cover 500. [ The safety mesh 400 is formed in a net shape so that radiant heat generated from the radiant heater 100 is radiated in the front direction and the rim portion can be fixed between the front cover 500 and the back cover 300. Alternatively, the heat insulating material 200 may be adhered and fixed to the rear surface of the radiation heater 100 by using hot melt adhesive, adhesive, tape, or the like.

In the radiant heater for a vehicle of the present invention, the heat generated by the radiant heater 100 may not be transmitted in the rear direction by the heat insulating material 200 disposed on the rear surface of the radiant heater 100.

The radiator heater for a vehicle of the present invention may include a radiator heater 100 for generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiator heater 100. The heat insulating material 200 includes a reflection and heat distribution plate 240 that disperses heat generated by the radiation heaters 100 in contact with the rear surface of the radiation heaters 100 and reflects heat to the front surface of the radiation heaters 100, ; And an organic thermal insulator 210 or an inorganic thermal insulator 211 which are stacked in parallel to contact the reflection and thermal diffusing plate 240 to block heat and have a plurality of pores formed therein; . ≪ / RTI >

That is, the heat insulating material 200 may be disposed on the rear surface of the radiation heater 100 and the heat insulating material 200 may be laminated so that the heat and heat reflecting plate 240, the organic heat insulating material 210, As shown in FIG. Since the heat generated by the radiant heater 100 is radiated not only in the front direction but also in the rear direction, the heat generated in the rear direction of the radiant heater 100 is reflected to the front direction, The reflection and thermal distribution plate 240 is laminated so as to be in contact with the rear surface of the radiation heater 100 so that the heat generated from the radiation heaters 100 can be evenly dispersed, The organic heat insulating material 210 or the inorganic heat insulating material 211 is laminated on the opposite reflection and thermal distribution plate 240 so as to prevent heat loss in the rear direction of the radiation heaters 100. At this time, a plurality of pores may be formed in the organic thermal insulator 210 so that the heat insulating effect is excellent. The thermal insulator 211 may be a heat insulator having pores formed therein. Also, the reflection and thermal diffusing plate 240 may be made of a material having a high radiant heat reflectance and an excellent heat transfer, such as an aluminum film.

The radiant heater for a vehicle according to the present invention is provided with a heat insulating material on the rear surface of the heater to prevent heat loss to the rear surface of the heater, thereby improving the efficiency of the heater. Further, peripheral parts provided with a radiant heater for a vehicle and a radiant heater And the life of the radiator heater assembly can be improved.

The organic insulating material 210 may be formed by foaming any one of polyethylene (PE), polypropylene (PP), polyurethane (PU), ethylene propylene rubber (EPDM), and silicone. That is, the organic insulating material 210 may be made of a foamed material such that a plurality of pores are formed using the above-described material. The organic insulation 210 is preferably used when the use temperature of the radiant heater 100 is less than 150 degrees centigrade.

The inorganic heat insulating material 211 may be formed of any one of ferrite, fumed silica, glass fiber, and aerogel. That is, since the inorganic heat insulating material 211 made of the above-mentioned material has numerous pores therein, it can be used as a heat insulating material. The inorganic thermal insulator 211 may be used when the use temperature of the radiant heater 100 is 150 ° C or more or at a very high temperature.

A reflection plate 250 is laminated in parallel to the organic insulation material 210 or the inorganic insulation material 211 so as to be in contact with the opposite side of the reflection and thermal distribution plate 240, and reflects heat. As shown in FIG. That is, the reflection plate 250 may be further stacked on the rear surface of the organic insulation material 210 or the inorganic insulation material 211 to further improve the heat insulation effect.

6 and 7 are a schematic cross-sectional view of a radiant heater for a vehicle including a perforated heat insulating material according to the present invention and a perspective view showing a perforated heat insulating material.

As shown in the drawings, the radiator heater for a vehicle according to the present invention includes a radiant heater 100 for generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiant heater 100, A reflection and thermal distribution plate 240 for dispersing the heat generated by the radiant heater 100 in contact with the rear surface of the radiant heater 100 and reflecting the heat to the front of the radiant heater 100; A pore insulation 220 formed in a direction in which the plurality of through holes 221 are stacked so as to be in contact with the reflection and heat distribution plate 240 so as to block heat; And a reflective plate 250 laminated side by side so as to be in contact with the opposite side of the borehole insulation material 220 contacting the reflection and thermal distribution plate 240 to reflect heat. . ≪ / RTI >

That is, the heat insulating material 200 is disposed on the rear surface of the radiant heater 100, and the heat insulating material 200 is laminated on the rear surface of the radiation heater 100. The heat insulating material 200 includes a reflecting and thermal diffusing plate 240, a pore insulating material 220 having a plurality of through holes 221, And a reflection plate 250 may be stacked in this order. In this case, the reflection and thermal diffusing plate 240 is disposed on the radiant heater 100 so as to reflect the heat radiated to the rear surface of the radiant heater 100 back to the front direction and to distribute the heat generated by the radiant heater 100, And the reflection and thermal diffusing plate 240 is laminated on the opposite side of the surface contacting the radiant heater 100 and the thermal diffusing plate 240 so as to contact the hot air insulator 220, 100) backward heat loss can be blocked. Since the perforated thermal insulating material 220 is formed with a plurality of through holes 221 in the direction in which the perforated thermal insulating material 220 is laminated, the perforated thermal insulating material 220 is formed so that the radiant heat radiated to the rear direction through the through- And a reflection plate 250 may be laminated on the rear surface of the light guide plate 250. The perforated thermal insulation material 220 may be formed by a blanking process using a press or the like so that the perforated thermal insulation material 220 is formed by the perforation insulators 220 The heat conduction through it can be minimized and the adiabatic effect can be improved.

The pore insulation 220 may be formed by foaming any one of polyethylene, polypropylene, polyurethane, ethylene propylene rubber, and silicone. That is, similarly to the above, the perforated thermal insulating material 220 may foam the material of the organic thermal insulating material to form innumerable pores, thereby further reducing heat conduction.

8 is a schematic cross-sectional view showing a radiator heater for a vehicle including a pouch type heat insulating material according to the present invention.

As shown in the drawings, the radiator heater for a vehicle according to the present invention includes a radiant heater 100 for generating radiant heat and a heat insulating material 200 stacked on the rear surface of the radiant heater 100, May be formed of a pouch-type heat insulating material 230 in which the core member 232 is sealed by a sheath material 231, and the heat insulating material 230 is laminated so as to be in contact with the rear surface of the radiant heater 100.

This is because the pouch type heat insulator 230 is laminated and adhered to the rear surface of the radiant heat heater 100. The pouch type heat insulator 230 is formed in a shape that the core member 232 is hermetically sealed in the outer shell material 231 The pouch type heat insulating material 230 serves as a reflection and heat distribution plate that disperses the heat generated from the radiation heaters 100 and reflects radiant heat emitted in the rear direction, . The core material 232 can serve as an organic thermal insulator or an inorganic thermal insulator and the sheath material 231 of the rearmost chamber can be used as a heat shielding material ) Can serve as a reflector.

Since the heat insulating material 200 is formed of the pouch type heat insulating material 230, the core material 232 which is a heat insulating material can be easily manufactured in the form of a plate or a block by using the sheath material 231, Can be included. In addition, even if the core member 232 is in the form of powder, particles, fibers, or pieces, the outer shape of the core member can be easily formed.

The outer material 231 of the pouch type heat insulating material 230 may be sealed with the core material 232 filled with air or the core material 232 may be filled in the outer material 231 It can be sealed in a vacuum state.

That is, the pouch-type heat insulating material 230 is formed so that the core material 232 is filled in the inside of the outer covering material 231 and is then closed. When the outer covering material 231 is filled with air and the casing material 231 is sealed The core member 232 and the air may be formed in a form in which pores are formed in the heat insulating material. In addition, when the core member 232 is filled, the air inside the shell member 231 is removed, and the inside of the shell member 231 is made to be in a vacuum state of less than 0.1 Torr (Torr).

In addition, the outer cover material 231 may be formed of a pouch in which a metal thin film layer and a resin thin film layer are laminated in two or more layers.

That is, the outer cover material 231 may be formed of a metal material such as aluminum foil so as to enclose and seal the core material 232 while serving as a reflection and a heat distribution plate, and the metal thin film layer and the resin thin film layer Or may be formed of a pouch in the form of closely attached. When the cover material 231 is formed as a pouch, the core material 232 is filled in the cover material 231 and then the cover material 231 is easily sealed through a method such as thermal fusion, The thickness and the size of the substrate can be variously and easily formed. Also, the pouch is easily sealed so that the enclosure 231 is sealed with air or the vacuum is formed easily.

Also, the core member 232 may be formed of any one of ferrite, fumed silica, glass fiber, and airgel.

That is, in the case of using the heat-insulating materials of various materials as the core material 232 to be filled in the outer cover material 231, when the materials which are difficult to maintain the shape are used, The core material 232 formed of particles (powder or the like) such as ferrite, fumed silica, glass fiber and aerogels, which is a material of the thermal insulation material, is filled in the outer cover material 231 so as to be hermetically sealed, .

Accordingly, the radiating heater for a vehicle according to the present invention can be provided with a heat insulating material on the rear surface of the radiating heater according to the operating temperature of the heater, thereby preventing heat loss on the rear surface, improving the efficiency of the heater, There is an advantage that deterioration of the peripheral parts provided with the radiant heater and the radiant heater assembly can be prevented.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: Car radiant heater assembly
100: Radiant heater
200: Insulation
210: organic insulation material 211: inorganic insulation material
220: perforated heat insulator 221: through hole
230: pouch type heat insulating material 231:
232: core material
240: Reflective and thermal diffuser plate
250: reflector
300: back cover
400: Safety Mesh
500: Front cover

Claims (10)

A radiant heater for a vehicle including a radiant heater (100) generating radiant heat and a heat insulating material (200) stacked on a rear surface of the radiant heater (100)
The heat insulating material (200)
A reflection and heat distribution plate 240 for dispersing the heat generated by the radiation heaters 100 in contact with the rear surface of the radiation heaters 100 and reflecting the heat to the front of the radiation heaters 100; And
An organic thermal insulator 210 or an inorganic thermal insulator 211 which is laminated in parallel to the reflection and thermal diffusing plate 240 to block heat and has a plurality of pores; And a radiator for a vehicle.
The method according to claim 1,
Wherein the organic insulation material (210) is formed by foaming any one of polyethylene, polypropylene, polyurethane, ethylene propylene rubber, and silicone.
The method according to claim 1,
Wherein the inorganic heat insulating material (211) is formed of any one of ferrite, fumed silica, glass fiber, and airgel.
The method according to claim 1,
A reflection plate 250 laminated side by side so that the organic insulation material 210 or the inorganic insulation material 211 is in contact with the opposite side of the reflection and thermal diffusing plate 240; Further comprising: a radiant heater for a vehicle.
A radiant heater for a vehicle including a radiant heater (100) generating radiant heat and a heat insulating material (200) stacked on a rear surface of the radiant heater (100)
The heat insulating material (200)
A reflection and heat distribution plate 240 for dispersing the heat generated by the radiation heaters 100 in contact with the rear surface of the radiation heaters 100 and reflecting the heat to the front of the radiation heaters 100;
A pore insulation 220 formed in a direction in which the plurality of through holes 221 are stacked so as to be in contact with the reflection and heat distribution plate 240 so as to block heat; And
A reflection plate 250 laminated side by side so as to be in contact with the opposite side of the pore insulation material 220 contacting the reflection and thermal distribution plate 240 and reflecting heat; And a heater for heating the vehicle.
6. The method of claim 5,
Wherein the perforated heat insulating material (220) is formed by foaming any one of polyethylene, polypropylene, polyurethane, ethylene propylene rubber, and silicone.
A radiant heater for a vehicle including a radiant heater (100) generating radiant heat and a heat insulating material (200) stacked on a rear surface of the radiant heater (100)
The heat insulating material (200)
And a pouch type heat insulating material (230) which is laminated so as to be in contact with the rear surface of the radiant heat heater (100) and blocks the heat and the core material (232) is sealed by a covering material (231).
8. The method of claim 7,
The pouch-shaped heat insulating material 230 is made of,
Wherein the outer cover material (231) is sealed in a state in which the core material (232) and air are filled in the inner cover material (231) or the core material (232) is filled in the outer cover material (231) heater.
8. The method of claim 7,
Characterized in that the outer covering material (231) is a pouch in which a metal thin film layer and a resin thin film layer are laminated in two or more layers.
8. The method of claim 7,
Wherein the core member (232) is formed of one of ferrite, fumed silica, glass fiber, and airgel.

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