KR101884265B1 - Heat-generating chairs combined with cooling structure using carbon heating element - Google Patents

Abstract

The present invention relates to a heat-generating chair combined with a cooling structure using a carbon heating element and an object of the present invention is to reduce heat loss by forming a heat insulating air layer on a lower side of a tempered glass heating element by mounting the tempered glass heating element having a structure, in which a surface or linear carbon heating element is installed between tempered glass, on a mounting protrusion of a seat frame. The present invention includes: a seat frame having a rectangular shape with a predetermined thickness and including a heat insulating air layer having a certain depth and opened on both sides in the longitudinal direction and a mounting protrusion formed on an inner surface of both sides of the heat insulating air layer in the width direction; an elastic pad bonded to an upper surface of the mounting protrusion of the seat frame to provide an elastic force; a tempered glass heating element, in which both sides of the tempered glass heating element in the width direction are seated and supported on an upper side of the elastic pad, and the carbon heating element is heated as power is applied thereto; a frame support which is fastened to both sides of the seat frame in the longitudinal direction to support the seat frame at a predetermined height from the ground; a cooling fan installed on one side of the seat frame or a frame support for discharging heated air of the heat insulating air layer to the outside air to cool the tempered glass heating element; and a controller for controlling the tempered glass heating element and the cooling fan.

Description

[0001] The present invention relates to a heat generating chair combined with a cooling structure using a carbon heating element,

The present invention relates to a heat generating chair combined with a cooling structure using a carbon heating element, and more particularly, to a heating chair having a structure in which a flat or linear carbon heating element is disposed between tempered glass, And more particularly, to a heat generating chair using a carbon heating element, which can prevent a waste of power due to heat loss by forming a heat insulating air layer on a lower side of a tempered glass heating element.

Generally, conventional electric heaters use 220V or 110V in the home, and resistive wires such as copper wire or nichrome wire are arranged and fixed in a zigzag as a heating element, and heat generated by flowing electric current is used.

However, the electric heater according to the above-described prior art can be manufactured only in the form of a long plate because of a structural problem, and it is difficult to manufacture the electric heater in a specific form for special use. In addition, in the conventional electric heater, resistance wire such as copper wire or nichrome wire is liable to be broken when used for a long period of time. To repair the electric heater, it is inconvenient to disassemble the product and reconnect or replace the disconnected part.

In addition, an electric heater using a resistance wire such as a copper wire or a nichrome wire according to the related art may cause a fire or an image problem due to overheating, and also has a problem that a human body is adversely affected by the generation of electromagnetic waves.

On the other hand, a heater using carbon fiber has been developed and used to solve the problems of the prior art. Since the heater using such a carbon fiber has a smaller heat capacity than that of a heater using a metal heating element and has excellent rising and falling temperature characteristics and also has excellent durability at high temperature in a non-oxidizing atmosphere, And so on.

The carbon (carbon) constituting the above-mentioned carbon fiber is mainly composed of an inorganic or organic graphite structure. Examples of the carbon fiber include a carbon fiber made of yarn, a powder made of powder, a carbon felt made of cotton and a solidified carbon rod It can be divided into two. Such carbon is stronger than iron and lighter than aluminum because of its high elasticity and strength.

The carbon fiber, which is one type of carbon as described above, is classified into a polyacrylonitrile (PAN), a pitch and a rayon based on the raw materials, and most of the PAN and rayon are included.

Among the above-mentioned carbon fibers, PAN-based carbon fibers are produced by firing PAN at a temperature of 1,000 to 2,000 DEG C or more under an inert gas. On the other hand, in the case of the pitch system, the pitch from the coal is converted to fibrous material, and then the process is completed through almost the same process as that of the PAN system. However, since it is low in comparison with the PAN system, it is widely used as a thermal insulation material or a reinforcing material.

On the other hand, the conventional surface heating element using carbon fiber has a problem that since the carbon fiber heating wire is directly woven on the fabric, there is a problem that the heat generating effect is not largely exhibited, and there is a risk of fire.

In addition, there is a problem that disconnection of the carbon fiber can easily occur in the planar heating element using the carbon fiber according to the related art as described above.

In addition, the heating element using the carbon fiber as described above has many difficulties in applying to a chair such as a stoppage or a park.

Korean Registered Patent No. 10-1390655 (Published in May, 2014) Korea Public Utility Model No. 2013-0006324 (Released on November 1, 2013) Korean Registered Patent No. 10-1373537 (published by Mar. 14, 2014)

The present invention has been conceived to solve all the problems of the prior art, and it is an object of the present invention to provide a tempered glass heating element having a structure in which a flat or linear carbon heating element is disposed between tempered glass, In which a heat insulating layer is formed on the heat insulating layer, thereby reducing heat loss.

Another object of the present invention is to place a tempered glass heating element having a flat or linear carbon heating element between tempered glass on a seating jaw of a standing frame to form a heat insulating air layer on the lower side of the tempered glass heating element So that the heat loss can be reduced and the energy can be saved.

It is another object of the present invention to provide a tempered glass heating element having a structure in which a sheet-like or line-shaped carbon heating element is sealed between tempered glass, thereby preventing short-circuiting even when exposed to moisture in the air .

In addition, according to the present invention, a tempered glass heating element having a structure in which a flat or linear carbon heating element is installed between tempered glass is placed on a seating jaw of a standing frame to form a heat insulating air layer on the lower side of the tempered glass heating element, So that a comfortable environment can be created for the user.

Further, according to the present invention, a cooling fan is installed on one side to discharge the air of the heat insulating air layer to the outside air, thereby preventing the tempered glass from being heated in hot weather or sunlight. Thus, It is an object of the present invention.

The present invention configured to achieve the above object is as follows. In other words, the heat generating chair using both the carbon heating body according to the present invention and the heating structure for cooling the floated structure is formed in a vertically curved shape with a certain thickness, and has a heat insulating air layer with a certain depth opened on both sides in the longitudinal direction, A seating frame having a seating jaw formed at a predetermined height; An elastic pad adhered on the upper surface of the seating chin of the chair frame to provide an elastic force; A tempered glass heating element in which both side surfaces in the width direction are seated and supported on the upper side of the elastic pad, and the carbon heating element is heated by application of power; A frame support which is fastened to both sides in the longitudinal direction of the left frame and supports the left frame at a predetermined height from the ground; A cooling fan installed at one side of the frame or frame support for discharging heated air of the heat insulating air layer to the outside air to cool the tempered glass heating element; And a controller for controlling the tempered glass heating element and the cooling fan.

In the construction according to the present invention as described above, the tempered glass heat generating element comprises a lower tempered glass having a size corresponding to a space between the seating jaws of the left frame; A carbon heating element of a planar or linear structure installed and fixed on the upper surface of the lower tempered glass; Silicon which is applied on the upper surface of the lower tempered glass around the carbon heating element to function as an adhesive; And an upper reinforcing glass disposed on the upper side of the lower reinforcing glass to seal the carbon heating element through adhesion with silicon.

In the configuration according to the present invention, LEDs may be further provided on both sides in the width direction of the carbon heating element.

In addition, in the structure according to the present invention, fastening grooves corresponding to both longitudinal ends of the left and right frame are formed on the inner surfaces of the upper ends of the frame supports, and both longitudinal ends of the left and right frames are inserted, As shown in Fig.

On the other hand, in the structure according to the present invention, each of the frame supports is provided with a ventilation passage communicating with the heat insulating air layer of the seat frame, so that the heated air of the heat insulating air layer can be discharged to the outside air through the cooling fan provided at one side of the ventilation passage Good.

In addition, in the configuration according to the present invention, a logo or a figure may be printed on the upper surface of the tempered glass heating element.

The above-described construction of the present invention may further comprise a conductive lid plate having a structure that covers the upper side of the tempered glass heat-generating body but is formed so as to form a heat-insulating air layer with the tempered glass heat-generating body.

According to the technique of the present invention, a tempered glass heating element having a structure in which a flat or linear carbon heating element is disposed between tempered glass is placed on a seating jaw of a standing frame to form a heat insulating air layer on the lower side of the tempered glass heating element, There is an advantage that it can be reduced.

In addition, in the technique according to the present invention, a tempered glass heating element having a structure in which a flat or linear carbon heating element is installed between tempered glass is placed on a seating jaw of a standing frame to form a heat insulating air layer on the lower side of the tempered glass heating element, It is possible to reduce the energy loss by reducing the loss.

On the other hand, according to the present invention, a tempered glass heating element having a structure in which a sheet-like or line-shaped carbon heating element is sealed between tempered glass forms an effect that shot does not occur even when exposed to moisture in the air.

In addition, according to the present invention, a tempered glass heating element having a structure in which a flat or linear carbon heating element is installed between tempered glass is placed on a seating jaw of a standing frame to form a heat insulating air layer on the lower side of the tempered glass heating element, So that the chair user can have a comfortable environment.

Further, according to the present invention, a cooling fan is installed on one side to discharge the air of the heat insulating air layer to the outside air, thereby preventing the tempered glass from being heated in hot weather or sunlight. Thus, Can be provided.

FIG. 1 is a perspective view showing a heat generating chair for cooling a floating structure using a carbon heating element according to the present invention. FIG.
Fig. 2 is a perspective view showing a combination of a heating seat and a cooling structure using a carbon heating element according to the present invention. Fig.
FIG. 3 is a perspective view showing a heating glass heating element separated from a heating heating chair using a carbon heating element according to the present invention.
FIG. 4 is a longitudinal sectional view showing a heat generating chair combined with a cooling structure using a carbon heating element according to the present invention. FIG.
FIG. 5 is a side cross-sectional view showing a heat generating chair combined with a cooling structure using a carbon heating element according to the present invention. FIG.
6 is a perspective view showing a printing pattern on the surface of a heating glass heating element of a heating chair combined with a cooling structure using a carbon heating element according to the present invention.
Fig. 7 is a perspective view showing the structure of the LED separated from the tempered glass heating element of the heating chair combined with the cooling structure using the carbon heating element according to the present invention. Fig.
FIG. 8 is a perspective view showing a combined structure of an LED and a heating element of a heating chair combined with a cooling structure using a carbon heating element according to the present invention. FIG.
FIG. 9 is a perspective view showing another example of a heat generating chair combined with a cooling structure using a carbon heating element according to the present invention. FIG.
10 is a sectional structural view of Fig. 9. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a heating chair according to an embodiment of the present invention; FIG.

FIG. 1 is a perspective view of a heat generating chair using a carbon heating element according to the present invention, and FIG. 2 is a perspective view showing a heat generating chair combined with a cooling structure using a carbon heating element according to the present invention. FIG. 3 is a perspective view showing a heating glass heating element separated from a heating heating chair according to an embodiment of the present invention. FIG. 4 is a perspective view of a heat generating chair for cooling a floating structure using a carbon heating body according to the present invention. 6 is a side view of a heating furnace body of a heating chair combined with a cooling structure using a carbon heating body according to the present invention. Fig. 5 is a sectional side view showing a heat generating chair combined with a cooling structure using the carbon heating body according to the present invention. FIG. 3 is a perspective view showing a printing pattern of FIG.

The heat generating chair 100 for heating a floating structure using a carbon heating element according to the present invention may be constructed as a base of a heating chair 100 using a tempered glass heating body 130, The heating temperature of the tempered glass heating body 130 can be maintained at a uniform temperature by heating the heat insulating air layer 112, thereby reducing waste of energy.

In addition, the heat generating chair 100, which uses the carbon heating element according to the present invention, has a structure in which the carbon heating element 130 is disposed between the tempered glass and the carbon heating element 134 So that watertightness can be achieved, thereby preventing short-circuiting of the tempered glass heating element 130 to moisture in the air.

In addition, the heat generating chair 100, which is a combined heating and cooling chair using the carbon heating element according to the present invention, prints a pattern or a picture on the upper surface of the tempered glass heating body 130 having a structure in which the carbon heating body 134 is installed between tempered glass So as to improve the monotony of the heating chair (100), thereby enabling the user to enjoy a more comfortable use.

As shown in FIGS. 1 to 6, a heat generating chair 100 for cooling a floated structure using a carbon heating element according to the present invention is formed in a straight corner shape of a predetermined thickness, and has a heat insulating air layer A seat frame 110 provided with seat cushions 114 formed at a predetermined height on both sides in the width direction of the heat insulating air layer 112 and the heat insulating air layer 112 on the upper surface of the seat cushion 114 of the seat cushion frame 110 A tempered glass heating element 130 in which both side surfaces in the width direction are seated and supported on the upper side of the elastic pad 120 and the carbon heating element 134 is heated by application of power, A frame supporting table 140 which is coupled to both longitudinal sides of the bed frame 110 and supports the bed frame 110 at a predetermined height from the ground surface; Outdoor Emissions by comprises a configuration comprising a controller 160 which controls the cooling fan 150 and the glass heating element 130 and cooling fan 150 for cooling the glass heating element (130).

The heat generating chair 100 for heating the floating structure using the carbon heating element according to the present invention constructed as described above is configured such that the tempered glass heating element 130 is fixedly mounted on the seating jaw 114 of the bed frame 110, Both ends in the longitudinal direction of the seat frame 110 on which the seat 130 is mounted are fastened to the upper side of the opposite side of the frame support table 140 so that the seat frame 110 can be supported at a predetermined height by the frame support table 140 . That is, the frame support 140 functions as a leg of the heating chair 100.

The heated heating chair 100 using the carbon heating element according to the present invention assembled as described above is heated at a predetermined temperature or below by the heating of the carbon heating element 134 constituting the tempered glass heating body 130, The upper tempered glass 132 constituting the heating body 130 is heated to warm the user's hips sitting on the tempered glass heating body 130 of the heating chair 100.

When the upper tempered glass 132 constituting the tempered glass heating body 130 is heated by the heating of the carbon heating body 134 constituting the tempered glass heating body 130 as described above, The temperature of the tempered glass heating body 130 is not rapidly cooled even if the air of the heat insulating air layer 112 constituting the bottom of the bed frame 110 which is the lower part of the bed glass 110 is heated and the power is cut off by the heating air of the heat insulating air layer 112 .

On the other hand, when the sunlight is hot or the atmospheric temperature is high, such as during the summer, the heated heating chair 100 using the carbon heating body according to the present invention configured as described above is heated by the tempered glass heating body 130 The cooling fan 150 is operated to discharge the heated air of the heat insulating air layer 112 to the outside air to cool the tempered glass heating body 130.

As described above, according to the present invention, the heat generating chair 100 for cooling a float structure using a carbon heating element according to the present invention can prevent the warm heating chair 100 from being heated by the heating of the tempered glass heating body 130, In addition, the heating fan 100 can be heated at a proper temperature by operating the cooling fan 150 in summer or by discharging heated air from the heat insulating air layer 112 to the atmosphere.

The constituent elements of the heat generating chair 100 for cooling a floated structure using the carbon heating element according to the present invention will be described in more detail as follows. First, the seat frame 110 constituting the present invention forms a seat of the heating chair 100, and the seat frame 110 is formed in a shape of a straight corner of a predetermined thickness up and down as shown in FIGS. 1 to 6 A heat insulating air layer 112 having a predetermined depth opened to the both sides in the longitudinal direction and a seating step 114 formed at a predetermined height on the inner sides of both sides in the width direction of the heat insulating air layer 112 are formed.

The heat insulating air layer 112 of the seat frame 110 constituted as described above is formed by a tempered glass heating body 130 which is seated and supported on the seating surface 114 so that the tempered glass heating body 130 is adhered to the heat insulating air layer 112 to form a floating structure. The air of the heat insulating air layer 112 which makes the tempered glass heating body 130 open is heated by the heat of the tempered glass heating body 130 so that even if the power of the tempered glass heating body 130 is cut off, The temperature of the tempered glass heating body 130 is prevented from being abruptly cooled by the heated air.

The seat cushion 114 constituting the seat frame 110 according to the present invention has a length corresponding to the length of the seat frame 110 on both sides in the width direction of the heat insulating air layer 112, Respectively. At this time, both side lower surfaces of the tempered glass heating body 130 are supported on the seating jaws 114 so that the upper portion of the heat insulating air layer 112 is closed by the lower side of the tempered glass heating body 130.

As described above, both side lower surfaces of the tempered glass heating body 130 are supported on the seating jaws 114 so that the upper portion of the heat insulating air layer 112 is closed by the lower side of the tempered glass heating body 130 , And both ends in the longitudinal direction of the chair frame 110 are constructed so that the heat insulating air layer 112 is opened.

Next, the elastic pad 120 constituting the present invention is for elastically supporting the tempered glass heating body 130 supported by the seating jaw 114, and the elastic pad 120 is formed as shown in FIGS. 3 to 5 The reinforcing glass heating body 130 is adhered to the upper surface of the seating jaw 114 of the chair frame 110 to elastically support the reinforcing glass heating body 130.

As described above, the elastic pad 120, which is adhered on the upper surface of the seating jaw 114 of the sitting frame 110 and elastically supports the tempered glass heat emitting body 130, is disposed between the width of the seating jaw 114 and the width of the seat frame 110 And is adhered to the seating jaw 114 through an adhesive. The elastic pad 120 elastically supports the tempered glass heating body 130, which is made of rubber, soft synthetic resin, or silicone, and is supported by the seating jaws 114.

Next, the tempered glass heating body 130 constituting the present invention is provided to supply a warm heating chair 100 by being heated by application of a power source. The tempered glass heating body 130 has a structure shown in FIGS. 1 to 5 Both sides of the elastic pad 120 in the width direction are seated and supported on the upper side of the elastic pad 120, and the carbon heating element 134 is heated by application of power.

The tempered glass heating body 130 constructed as described above includes a lower tempered glass 132 having a size corresponding to that between the seating ridges 114 of the floor frame 110, And a lower heating glass 132 around the carbon heating body 134. The silicon 136 and the lower tempered glass 132 are coated on the upper surface of the lower heating glass 132 around the carbon heating body 134 to function as an adhesive, And an upper toughened glass 138 that is located on the upper side of the silicon heating body 134 and adheres to the silicon 136 to make the carbon heating body 134 watertight.

The carbon heating element 134 is positioned between the lower tempered glass 132 and the upper tempered glass 138 and the lower tempered glass 132 and the upper glass 138 are heated through the silicon 136 coated around the carbon heating body 134, When the tempered glass 138 is integrally adhered, the carbon heating element 134 is water tightened by the silicon 136 functioning as an adhesive so that the heating element 134 is exposed to moisture, The short circuit is not generated.

Therefore, as described above, since the tempered glass heating body 130 constituting the present invention is watertight through the lower tempered glass 132, the upper tempered glass 138 and the silicon 136, even if the moisture concentration in the atmosphere is high The carbon heating body 134 is prevented from short-circuiting, thereby preventing failure of the heating chair 100 due to a short circuit, and reducing maintenance and repair costs.

On the other hand, the lower tempered glass 132 and the upper tempered glass 138 constituting the tempered glass heating body 130 as described above refer to a glass which is several times stronger than the ordinary glass and does not break easily. The physical strengthening method of rapidly cooling the surface of the glass by heating the glass plate to about 800 ° C and immersing the glass in the molten alkali salt near 500 ° C and replacing some of the sodium ions in the surface layer with potassium ions larger than that, There is a chemical strengthening method that produces. Tempered glass made from chemically reinforced methods is used in many Haitian (IT) devices such as smart phones, tablet PCs and LCD TVs.

In the structure of the tempered glass heating body 130 constituting the present invention as described above, the carbon heating body 134 is constituted by a unitary body of a plane or line heating body using carbon fibers in advance, So that it can be installed more easily than when it is positioned and fixed between the glass 138.

1 to 6, the frame supporting table 140 constitutes a leg of the heating chair 100. The frame supporting table 140 has a length of the bed frame 110 And supports the left frame 110 at a predetermined height from the ground.

As described above, on the inner surfaces of the upper ends of the frame supports 140, which are fastened on both sides in the longitudinal direction of the left frame 110 and support the left frame 110 at a predetermined height from the ground, So that both longitudinal ends of the left and right frame 110 are inserted into the corresponding fastening holes 142 so that the frame 110 supports the frame 110 at a predetermined height.

Each of the frame supports 140 includes a cooling fan 150 formed at one side of the ventilation flow path 144 with a ventilation passage 144 communicating with the heat insulating air layer 112 of the bed frame 110 The heated air in the adiabatic air layer 112 can be discharged to the outside air to cool the tempered glass heating element 130 when the sunlight is strong or the atmospheric temperature is high as in the summer.

Accordingly, the cooling fan 150 installed at one side of the air flow path 144 is formed by forming the air flow path 144 communicating with the heat insulating air layer 112 of the bed frame 110 in each of the frame supports 140 as described above, The heating air of the heat insulating air layer 112 is discharged to the outside air, thereby providing the heat generating chair 100 of a cool degree when the sunlight is strong or the atmospheric temperature is high as in the summer season.

The cooling fan 150 constituting the present invention is configured to cool the tempered glass heating element 130 of the heating chair 100 by discharging heated air from the heat insulating air layer 112 constituting the bed frame 110 to the atmosphere 1, 4, and 5, the cooling fan 150 is installed at one side of the bed frame 110 or the frame support 140 as shown in FIGS. 1, 4 and 5, To cool the tempered glass heating element (130).

The cooling fan 150 is formed on each of the left frame 110 and the frame support 140 as described above so that the heating air of the heat insulating air layer 112 flows through the air flow path (Not shown). In the present invention, it is shown in the drawing that it is provided on the left frame (110). In the process of discharging the air of the heat insulating air layer 112 through the operation of the cooling fan 150 thus installed, the outside air is sucked through the air passage 144 on the frame support 140 to cool the inside of the heat insulating air layer 112 .

1, 4 and 5, at least one cooling fan 150 may be installed on the left and right upper and lower frames 110 to heat the heated air on the heat insulating air layer 112 And may be installed on the frame support 140 if the air of the heat insulating air layer 112 can be discharged.

1 and 4, the control unit 160 controls the electrical part of the heating chair 100. The control unit 160 controls the temperature of the heated glass heating body 130, And a cooling fan (150).

In other words, when the temperature of the tempered glass heater 130 is lowered to a temperature lower than the set temperature, the control unit 160 may apply power to the carbon heating element 134 to generate heat, The power applied to the carbon heating element 134 is cut off when the temperature of the carbon heating element 130 rises above a preset maximum temperature. The power supply to the carbon heating element 134 or the cut off of the applied power is performed when the temperature of the atmosphere is low.

In addition, when the surface temperature of the tempered glass body 130 rises above the set temperature even though the power is not applied due to strong sunlight or high atmospheric temperature, the controller 160 may not be able to sit The cooling fan 150 is controlled to discharge the heated air of the heat insulating air layer 112 to the outside air to cool the tempered glass heating body 130 so that the user can sit comfortably.

As described above, by using the carbon heating element having the constitution including the seat frame 110, the elastic pad 120, the tempered glass heating body 130, the frame support 140, the cooling fan 150 and the control unit 160 The heat generating chair 100 for cooling the floated structure may further include a printed layer 170 on which a logo or a logo is printed on the surface of the upper tempered glass 138 of the tempered glass heating body 130.

The printed layer 170 printed on the surface of the upper tempered glass 138 of the tempered glass heating body 130 with a logo or a picture as described above is formed on the surface of the upper tempered glass 138 of the tempered glass heating body 130 The advertising effect can be expected through advertisement through the logo or logo printed on the upper surface of the upper tempered glass 138. [ In addition, by printing a picture on the upper surface of the upper tempered glass 138, the heating chair 100 can be brightly decorated.

FIG. 7 is a perspective view of a LED heating element according to the present invention, and FIG. 8 is a perspective view showing a heat generating chair using a carbon heating element according to the present invention. Is a perspective view showing a configuration of LEDs combined with a tempered glass heating element of Fig.

7 and 8, the heat generating chair 100 for cooling a float structure using the carbon heating element according to the present invention further comprises LEDs 180 at regular intervals on both sides in the width direction of the carbon heating element 134 . At this time, the LEDs 180, which are provided at regular intervals on both sides of the carbon heating element 134 in the width direction, are also made watertight by the silicon 136.

The LED (180) configured as described above emits light at night under the control of the controller (160), and not only effects the illumination, but also comforts and brightens the atmosphere such as a park or a stop station where the heating chair .

FIG. 9 is a perspective view showing another example of a heat generating chair for cooling a floating structure using a carbon heating element according to the present invention, and FIG. 10 is a sectional view of FIG. 9.

9 and 10, the conductive lid plate 190 is a portion to which the heat of the tempered glass heat-generating body 130 is transmitted when the user sits, and the conductive lid plate 190 is shown in Figs. 9 and 10 The heating glass member 130 is covered with the upper portion of the tempered glass heat generating member 130 and the insulating air layer 192 is formed between the tempered glass heating member 130 and the tempered glass heating member 130. When the load of the user is loaded on the conductive cover plate 190, the conductive cover plate 190 is brought into surface contact with the tempered glass heating body 130 to heat the conductive cover plate 190 by thermal conduction.

In the above-described configuration, the heat insulating air layer 192 is sealed and elastically supports the conductive cover plate 190 through the air cushion function. As described above, since the heat shielding plate 190 is heated through the heating air of the heat insulating layer 192, the heat loss of the conductive covering plate 190 is minimized, .

On the other hand, even if heat loss is generated according to the temperature condition with the outside air, the conductive cover plate 190 as described above is always heated to a predetermined temperature by the heated air on the heat insulating air layer 192 heated by the tempered glass heating body 130 So that heat loss is reduced.

As described above, according to the present invention, the heat insulating air layer 192 is formed between the conductive cover plate 190 and the tempered glass heat generating body 130, Since the air on the heat exchanger 192 is always heated, the heat resistance of the tempered glass heater 130 hardly occurs.

Therefore, when the load is applied to the heating chair 100, only a part of the conductive cover plate 190 carrying the load is brought into surface contact with the tempered glass heating body 130 to form the tempered glass heating body 130 Is immediately conducted to the hip portion of the user through the conductive cover plate 190. [

As described above, according to the present invention, a tempered glass heating body 130 having a structure in which a flat or linear carbon heating body 134 is disposed between tempered glass plates 132 and 138 is placed on the seating jaws 114 to form the heat insulating air layer 112 on the lower side of the tempered glass heating element 130, thereby reducing heat loss and thus saving energy.

In addition, the technology of the present invention has an advantage in that the cost of the carbon heating element 134 can be reduced due to the failure of the carbon heating element 134 through the structure of the tempered glass heating element 130, which prevents short-circuiting even when exposed to moisture in the air .

In addition, according to the present invention, a heat insulating air layer 112 is formed on the lower side of the tempered glass heating body 130 by placing the tempered glass heating body 130 on the seating jaw 114 of the bed frame 110, So that the user can enjoy a comfortable environment.

Further, according to the present invention, the cooling fan 150 is installed on one side of the heat insulating air layer 112 so that the air of the heat insulating air layer 112 can be discharged to the outside air, thereby preventing the tempered glass from being heated in hot weather or sunlight, The advantage of being able to provide a chair with a suitable temperature for the rim.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Fever chair 110. Seat frame
112. Adiabatic air layer 114. Seal chin
120. Elastic pad 130. Tempered glass heating element
132. Lower tempered glass 134. Carbon heating element
136. Silicone 138. Top Tempered Glass
140. Frame support 142. Fastening groove
144. Ventilation channel 150. Cooling fan
160. Control 170. Printed layer
180. LED 190. Conductive cover plate
192. Atmospheric air layer

Claims (7)

A left and right side frame having a predetermined depth and having a predetermined height on both sides in the width direction of the heat insulating air layer;
An elastic pad adhered to the upper surface of the seating frame of the left frame to provide an elastic force;
A bottom reinforcing glass having a size corresponding to a space between the seating jaws of the bed frame, a carbon heating element of a planar or linear structure fixed on the upper surface of the lower tempered glass, And an upper reinforcing glass disposed on an upper side of the lower reinforcing glass to seal the carbon heating element through adhesion with the silicon, wherein both side surfaces in the width direction are seated on the upper side of the elastic pad, A tempered glass heating element supported while being heated by a power source;
A frame support member fastened to both longitudinal sides of the left and right frame so as to support the left and right frame frames at a predetermined height from the ground;
A cooling fan installed on one side of the frame or frame support for cooling the tempered glass heating element by discharging heated air of the heat insulating air layer to the outside air; And
And a controller for controlling the tempered glass heating element and the cooling fan. delete The heating element according to claim 1, wherein LEDs are further provided on both sides of the carbon heating element in the width direction thereof. [2] The apparatus according to claim 1, wherein fastening grooves corresponding to both longitudinal ends of the left and right frame frames are formed on inner sides of upper ends of the frame supports, respectively, and both longitudinal ends of the left and right frame frames are inserted, Wherein the heating member is supported by the carbon heating body. [2] The air conditioner of claim 1, wherein each of the frame supports includes a ventilation passage communicating with the heat insulating air layer of the seat frame so that heated air of the heat insulating air layer may be discharged to the outside air through the cooling fan installed at one side of the ventilation passage Wherein the carbon heating element is used as a heating element. The heated heating chair according to claim 1, wherein a logo or a figure is printed on the upper surface of the tempered glass heating element. The heated heating chair according to claim 1, further comprising a conductive cover plate having a structure that covers the upper side of the tempered glass heating element and has an insulating air layer formed between the tempered glass heating element and the tempered glass heating element.

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