JP5419849B2 - Heating glass chair and heating backrest - Google Patents

Description

  The present invention relates to a heating glass chair and a heating backrest using a heat generating glass plate, and more particularly to a heating glass chair and a heating backrest useful for outdoor use.

  Conventionally, various heating appliances such as an electric heating blanket, an electric heating mat, an electric anchor and the like are known as heating appliances that directly use the low voltage of an AC or DC power source and touch the human body. For example, the heating device of Patent Document 1 uses the conductive resistance action of activated carbon fiber in the form of a sheet, and electrodes are attached to both ends of the activated carbon fiber, which are heated objects such as mattress, blanket, seat, chair, etc. It is attached to. Further, Patent Document 2 includes a floor heating function in which carbon is baked on a glass fiber cloth to form a heat generating sheet, which is arranged below the chair stool, and protrudes forward during use to warm the feet. A chair is disclosed. In addition, although not using electric heat, there is also known a cold / warm chair in which a backrest plate of the chair is formed in a hollow shape and a water sac filled with warm water or cold water is accommodated in the hollow portion of the backrest plate (Patent Document 3).

Japanese Patent Laid-Open No. 10-3080 JP 2006-141739 A JP 2009-118972 A

  All of the heating appliances according to the above-mentioned patent documents are intended for daily use, particularly indoors, and are difficult to use by simply connecting to a power source in a wide outdoor area. Especially in facilities such as waiting rooms at stations, platforms, bus stops, parks, outdoor restaurants, etc., it is necessary to use large-scale equipment such as large gas heaters and heating blowers as well as the entire surroundings where people gather. It is in the form of heating. In such a large-scale facility, there is a problem that the heating effect is low for one propane gas consumed per day, for example.

  INDUSTRIAL APPLICABILITY The present invention is useful not only for chairs used indoors but also for chairs and benches installed in the above-mentioned facilities and places outdoors, and locally contacts a part of a human body when a person sits down. The object is to provide a heating glass chair (bench, stool, etc.) with a high heating effect by heating as little heat energy as possible.

  Another object of the present invention is to provide a screen-like heating backrest that allows a person to lean in a standing posture and warm up at a platform of a station or an outdoor venue.

In order to achieve the above object, the heating glass chair according to the present invention is a conductive tempered glass formed by attaching a glass to a conductive glass having a conductive film deposited on the glass surface and arranging the electrodes and firing the conductive glass. is characterized in that in consists heating a glass plate to form at least stool seat.
Thereby, when a person sits down, the contact part of a human body can be warmed effectively. It can withstand loads even when a person is sitting, and in summer it feels cold on the glass surface.

According to one aspect of the present invention, a back plate formed of the heat generating glass plate is connected to the back side of the seat portion.
Thereby, not only a waist part of a human body but a back can be warmed simultaneously, and an efficient heating chair is obtained.

According to another aspect of the present invention , a transparent or translucent stool seat and / or back plate is formed of the heat generating glass plate.

According to still another embodiment of the present invention, a variable resistor is provided on the energization line connected to the heat generating glass plate, a temperature sensor is attached to the chair machine frame, and the variable resistor is connected to the variable resistor according to a detected temperature signal of the temperature sensor. The temperature of the heat generating glass plate is controlled by adjusting the resistance. In addition, a switch control device is provided on the energization line connected to the heat generating glass plate, a temperature sensor and / or a human sensor is attached to the chair body, and the heat generation is performed by a detection signal of the temperature sensor and / or human sensor. The power supply to the glass plate is controlled.
With this configuration, it is possible to always warm appropriately at a temperature corresponding to the temperature of the outside air, and when the temperature becomes unnecessary for heating, the power is automatically turned off, thereby saving power. .

According to still another embodiment of the present invention, the heat generating glass plate forming the heating glass chair is divided into a plurality of parts, and the conductive wires connected to the parts of the heat generating glass plate are supplied via the power supply control device. And the timing of energizing each part of the heat generating glass plate is controlled.
With this configuration, it is possible to save power while maintaining the overall temperature by repeating energization and interruption at regular time intervals.

According to still another aspect of the present invention, the conductive glass conductive film is formed by transparently depositing a conductive solution obtained by adding a metal substance to a solution containing tin oxide as a basic component on a glass surface to form a transparent conductive film. It is characterized by becoming.

Moreover, the heating backrest according to the present invention is a heat generation glass plate made of conductive tempered glass formed by depositing and baking a glass on a conductive glass on which a conductive film is deposited and formed on a glass surface. A screen-like human body support plate is formed.
With this heating backrest, you can warm up at the same time while leaning against the heat-generating glass support plate until the train arrives at the station platform, etc. Similar effects can be obtained when used.

According to still another aspect of the present invention , a transparent or translucent human body support plate is formed of the heat generating glass plate .

According to still another aspect of the present invention, a handle portion is provided on the front surface of the human body support plate.
With this configuration, it is possible to lean on the support plate safely.

According to a heating backrest according to another aspect of the present invention, a variable resistor is provided on the energization line connected to the heat generating glass plate, a temperature sensor is attached to the human body support plate, and the variable is detected by a temperature signal detected by the temperature sensor. The temperature of the heat generating glass plate is controlled by adjusting the resistance of the resistor. In addition, a switch control device is provided on the energization line connected to the heat generating glass plate, a temperature sensor and / or a human sensor is attached to the human body support plate, and the temperature sensor and / or the human sensor detects the The power supply to the heat generating glass plate is controlled.
With this configuration, it is possible to always warm appropriately at a temperature corresponding to the temperature of the outside air, and when the temperature becomes unnecessary for heating, the power is automatically turned off, thereby saving power. .

The heating glass plate forming the heating back is formed by dividing into a plurality of parts, and the energization lines connected to each part of the heating glass plate are connected to a power source via an energization control device, to each part of the heating glass plate It is characterized in that the timing of energization is controlled.
With this configuration, it is possible to save power while maintaining the overall temperature by repeating energization and interruption at regular time intervals.

According to still another embodiment of the present invention, the conductive conductive oxide film is formed by subjecting a transparent conductive film to a glass surface by depositing a conductive solution obtained by adding a metal substance to a solution containing tin oxide as a basic component. It is formed.

  According to the heating glass chair and the heating backrest according to the present invention, it is possible to effectively warm the contact portion of the human body when a person is seated or leans on with very little power consumption and without generating exhaust gas. it can. In addition, since the contact area such as the waist and the back can be directly warmed without making the entire surrounding space of the person warm, a high heating effect can be obtained when used in various outdoor facilities.

1 is an overall perspective view of a heating glass chair according to an embodiment of the present invention. It is a whole perspective view of the heating stool by other examples of the present invention. It is the schematic which showed the electricity supply control system of the heating stool by which the exothermic glass plate was divided | segmented into plurality. It is a whole perspective view of the heating backrest by the Example of this invention.

Next, preferred embodiments of the present invention will be described with reference to the drawings.
In recent years, conductive heat-generating glass called warm glass (registered trademark) has been developed. This is a high temperature deposition (spray deposition) in a furnace by chemical vapor deposition on the surface of a thin glass plate with several metallic substances added to a solution based on tin oxide (SnO2). Thus, a transparent transparent conductive film is formed, and an electrode is baked on the end portion and energized to generate heat on the entire glass surface.

  The heating glass chair of the present invention and the heating glass used for the heating backrest, the conductive glass on which the transparent conductive film is formed, are laminated together in a furnace for manufacturing tempered glass, and the glass is baked to serve as protection of the transparent conductive film. Conductive tempered glass. The temperature of the heat generating glass can be controlled by controlling the type of the conductive film and the resistance value of the energizing cable connected to the electrode. In the present invention, a heating glass chair and a heating backrest are configured using the heat generating glass plate.

  FIG. 1 is a perspective view of a heating glass chair according to Embodiment 1 of the present invention. Although this example is configured as a chair for two persons, of course, the present invention is not limited to such a chair, and a chair such as a chair for one person or a bench on which many people sit. It may be.

  In the heating glass chair 1 of the embodiment of FIG. 1, two front and rear leg columns 2 and 3 are connected to both ends and the center respectively by a cross beam member 5 at the upper end, and a back column 6 is connected to the upper end of the rear leg 3. The machine frame of the chair 1 is formed. A seat portion 7 is attached so as to connect the cross beam members 5 of each machine frame, and a back plate 8 is attached to support the back when a person sits across the back pillars 6. Here, the seat portion 7 and the back plate 8 are constituted by the transparent heat generating glass plate on which the conductive film described above is formed. Electrodes 9 and 10 are formed on both ends of the heat generating glass plate of the seat portion 7 and the back plate 8, respectively, and further, the conductive wires 12 of the power cord 11 are connected to these electrodes 9 and 10 and connected to the power source. . The stool seat 7 and the back plate 8 are tempered with a predetermined thickness so that they can sufficiently withstand the load when a person is sitting. The electrodes 9, 10 and the tempered glass are integrated with the heat generation glass plate by heat treatment in a dedicated furnace together with the heat generation glass plate. The thickness of the seat portion 7 and the back plate 8 reinforced with the tempered glass plate depends on the type and size of the chair, but is selected to be, for example, about 3.2 mm, 4 mm, 6 mm, and 8 mm.

  Moreover, although the heating temperature of the heating glass chair 1 is set to a normal bath water temperature, for example, 30-C to 42-C, which is just right for people to warm up, this temperature setting is set outdoors. It can change suitably according to the external temperature in a case. In this embodiment, a variable resistor 13 is provided in the conducting wire 12 of the power cord 11 drawn from the electrodes 9 and 10 of the heat generating glass plate, and the temperature can be controlled by changing the current resistance to the heat generating glass plate. It is. As another example, a temperature sensor 15 is attached to an appropriate chair body portion of the heating glass chair 1, for example, a machine frame portion in this embodiment, and a resistance control device 17 is provided attached to the variable resistor 13. The temperature of the heating glass chair 1 is controlled by automatically adjusting the resistance value of the variable resistor 13 via the resistance control device 17 based on the outside temperature detection signal of the temperature sensor 15. Thus, for example, the temperature of the glass chair 1 can be raised when the outside air temperature is low in the morning, evening, or night, and the temperature of the heating glass chair 1 can be automatically lowered when the temperature rises during the daytime. In addition, a temperature sensor is attached to the seat portion 7 or the back plate 8 and the resistance value of the variable resistor 13 is automatically adjusted via the resistance control device 17 according to the temperature detection signal of the heating glass chair body, thereby heating the glass chair. 1 temperature control may be performed.

  In the first embodiment, a switch mechanism 16 and a switch control device 18 that controls the switch mechanism 16 on and off are provided. When the temperature falls to such an extent that heating is not necessary, the switch mechanism 16 provided in the energizing wire 12 is turned off via the switch control device 18 by the signal of the temperature sensor 15, thereby automatically heating. Saving electricity by turning off the power to the glass chair 1. In the illustrated embodiment, the temperature sensor 15 is provided in the machine frame portion of the chair body, but the heat generating glass plate such as another body portion that touches the outside air of the chair body portion, for example, the seat portion 7 or the back plate 8. You may make it attach the temperature sensor 15 to the suitable site | part of the tempered glass board which reinforces. In this case, a sheet-like temperature sensor can be suitably used as the temperature sensor.

  Furthermore, in a heating glass chair in which the temperature drop due to the outside air temperature is relatively small, since the correlation between the current value flowing through the conducting wire 12 connected to the heating glass chair and the temperature is relatively stable, a current meter (not shown) Based on this signal, the switch control device 18 controls on / off of the switch mechanism 16 or automatically adjusts the resistance value of the variable resistor 13 via the resistance control device 17 according to this signal. 1 temperature control can also be performed.

  Furthermore, if necessary, a human sensor (not shown) is attached to an appropriate part of the tempered glass plate that reinforces the heat generating glass plate, such as the seat 7 or the back plate 8, so The switch mechanism 16 provided on the energization line 12 is controlled to be turned on / off by the sensor detection signal via the switch control device 18, or the variable resistance is supplied via the resistance control device 17 by the human sensor signal It is also possible to automatically adjust the resistance value of the heater 13 to control the temperature of the heating glass chair 1.

Furthermore, even when the commercial rated voltage differs from country to country, it is possible to appropriately cope with installation in another country by determining the energization resistance value with respect to the voltage of the country. When the set temperature is 30 ° C. to 42 ° C. , the energization current is approximately 10 to 20 amperes.

  In addition, in the present invention, a special effect can be exhibited by adding various accessories using energization to the heating glass chair. For example, the heating glass chair may be provided with an LED to provide an optical effect, or may have a function such as a light emitting advertisement or illumination display.

  The second embodiment of the present invention is an example configured as a horizontally long heating glass stool 20. As shown in FIG. 2, the stool 20 of this example has a base 21 that is long enough to seat about four people, and a heat generating glass plate 23 reinforced with a tempered glass plate 22 is mounted on the upper surface thereof. ing. In this case, the heat-generating glass plate 23 is divided into four bodies in the stool length direction, and a pair of electrodes 25 and 26 are respectively provided and connected to the power source via an energizing cable (not shown). Each of the electrodes 25 and 26 may be directly connected to a common power source so that the four heat generating glass plates are energized at the same time, but the energization timing is shifted with respect to the four heat generating glass plates. It can also be energized. FIG. 3 is a schematic diagram showing an energization control system in this case. In general, heat-generating glass has a slow temperature rise after energization, but is slow to cool after energization interruption, and is characterized by maintaining a warm state for a while. Therefore, in the case of a chaise longue, a long bench, or a horizontally long stool, the heating glass plate is divided into a plurality of pieces, and the energization and the interruption are repeated at regular time intervals, for example, at intervals of 10 to 30 seconds. Power can be saved while maintaining the temperature.

  Specifically, as shown in FIG. 3, each of the electrodes 25 and 26 of the heat generating glass plates 23 (1) to 23 (4) divided into four parts is connected to a common power supply 28 via an energization control device 27. ing. The energization control device 27 includes a timer mechanism and a switch mechanism (both not shown). First, after one end of the heat generating glass plate 23 (1) (No. 1 glass plate) is energized for a predetermined time, for example, 30 seconds, The energization of the portion is interrupted, and the adjacent exothermic glass plate 23 (2) (No. 2 glass plate) is energized for a predetermined time and then interrupted. At the same time, the adjacent exothermic glass plate 23 (3) (No. (3 glass plates) are energized, and the energization and shut-off of the four heat generating glass plates 23 (1) to 23 (4) are repeated in a certain cycle. In this way, a long bench or stool can ensure a substantially constant temperature as a whole while saving power.

  In the second embodiment, as in the first embodiment, a temperature sensor, a variable resistor and a resistance control device, a switch mechanism and a switch control device are provided to control the temperature of the stool in response to a change in the outside air and to energize the stool. Automatic shut-off may be performed.

  FIG. 4 is a perspective view showing an embodiment of the heating backrest 30 according to the present invention. A plate-like base 31 is erected on the ground or a floor of an arbitrary facility, and a heat generation glass plate 32 is attached to the upper part of the base 31 perpendicularly to the ground or the floor surface. When a person stands on the heat generating glass plate 32 and leans, for example, so that his / her back touches the heat generating glass plate 32, the temperature of the heat generating glass plate 32 when the electrodes 35 and 36 are energized can be warmed. . In this case as well, the heat generating glass plate 32 is integrally formed with a tempered glass plate 33 having good thermal conductivity for reinforcement. A suitable handle for supporting the body when a person leans on the front surface of the tempered glass plate 33, in this embodiment, a long rod-shaped handle 37 is attached. In place of the rod-shaped handle 37, an armrest, a partition plate, a recessed portion along the shape of the human body, or the like may be formed.

  Also for the heating backrest 30 of the third embodiment, a temperature sensor, a variable resistor and a resistance control device, a switch mechanism and a switch control device are provided in the same manner as in the first and second embodiments, so You may make it perform temperature control and automatic electricity supply interruption | blocking. Specifically, a temperature sensor 38 is attached to a tempered glass plate 33 that reinforces the heat generating glass plate 32 of the heating backrest 30, and a resistance control device 40 is provided attached to the variable resistor 39. The temperature of the heating back 30 is controlled by automatically adjusting the resistance value of the variable resistor 39 via the resistance control device 40 based on the outside air temperature detection signal 38. Thus, for example, the temperature of the heating back 30 can be raised when the outside air temperature is low in the morning, evening, or night, and the temperature of the heating back 30 can be automatically lowered when the temperature rises during the daytime. In addition, a switch mechanism 41 and a switch control device 42 that controls on / off of the switch mechanism 41 are provided on the energization line 12 of the power cable 11. When the temperature drops to the point where heating is not necessary, the switch mechanism 41 provided on the energizing wire 12 is turned off via the switch control device 42 by the signal of the sensor 38, thereby automatically heating the backrest. Saving power by turning off the power to 30.

  Further, in the heating backrest 30 in which the temperature drop due to the outside air temperature is relatively small, the correlation between the current value flowing through the conducting wire 12 connected to the heating backrest 30 and the temperature is relatively stable, so that a current meter (not shown) Based on this signal, the switch control device 42 controls on / off of the switch mechanism 41 or automatically adjusts the resistance value of the variable resistor 39 via the resistance control device 40 by using this signal. 1 temperature control can also be performed.

  Furthermore, if necessary, a human sensor (not shown) is attached to a tempered glass plate 33 that reinforces the heat generating glass plate 32 of the heating backrest 30, and when a person leans on, a detection signal from the human sensor causes a conduction line. 12 is controlled by automatically switching the resistance value of the variable resistor 39 via the resistance control device 40 according to the detection signal of the human sensor. Temperature control.

  The heating backrest 30 of the present invention can be installed in a corner of the station platform, near the wall of the station waiting room, or in any facility such as an outdoor entertainment plaza, a road station, a standing place in a movie theater, or a park. It is effective to get warm easily in the season. It should be noted that the heating back of the present invention may be directly installed on the ground or floor surface, except for the case where it is provided on the plate-like base 31 as in the illustrated embodiment. Of course. Further, as described in the second embodiment, when the heat generating glass plate 32 close to a person's height is long in the side, it may be divided into a plurality of pieces. Moreover, such a heating backrest can be installed not only in the outdoors but also in various places such as near an indoor bulletin board such as a library or near the front of a newspaper stand.

  In addition, in the heating back of the present invention, a special effect can be exhibited by adding various accessories using the power to the heating back. For example, it is possible to arrange an LED on the heating back so as to exhibit an optical effect, or to provide a function such as putting a light-emitting advertisement or illumination display.

  In this way, the temperature rise after heating is slow, but it is slow to cool after turning off the power. In addition, it is possible to provide a soft warmth suitable for a person to warm up. Furthermore, since it is a transparent or translucent glass, it has excellent aesthetics, and even when exposed to the open air, it does not grow, rust, or deteriorate with ultraviolet rays, and is easy to clean.

DESCRIPTION OF SYMBOLS 1 Heating glass chair 2,3 Front-and-back leg pillar 5 Cross beam member 6 Back pillar 7 Stool seat part 8 Back board 9,10 Electrode 11 Power cord 12 Conducting wire 13 Variable resistor 15 Temperature sensor 16 Switch mechanism 17 Resistance control device 18 Switch Control device 20 Stool 21 Base 22 Tempered glass plate 23 Heat generation glass plate 25, 26 Electrode 27 Power supply control device 28 Power supply 30 Heating back 31 Base 32 Heat generation glass plate 33 Tempered glass plate 35, 36 Electrode 37 Rod-shaped handle 38 Temperature sensor 39 Variable resistor 40 Resistance control device 41 Switch mechanism 42 Switch control device

Claims (14)

  It is characterized in that at least a stool seat is formed of a heat-generating glass plate made of conductive tempered glass formed by depositing a conductive film on a glass surface and depositing the glass on a conductive glass provided with electrodes and firing. And heating glass chair.   The heating glass chair according to claim 1, wherein a back plate formed of the heat generating glass plate is connected to a back side of the seat portion.   The heating glass chair according to claim 1 or 2, wherein a transparent or translucent stool seat and / or a back plate is formed of the heat generating glass plate.   A variable resistor is provided on the conducting wire connected to the heat generating glass plate, a temperature sensor is attached to the chair body, and the temperature of the heat generating glass plate is adjusted by adjusting the resistance of the variable resistor according to a detection temperature signal of the temperature sensor. The heating glass chair according to any one of claims 1 to 3, wherein the heating glass chair is controlled.   A switch control device is provided on the energization line connected to the heat generating glass plate, a temperature sensor and / or a human sensor is attached to the chair body, and the heat generating glass plate is detected by a detection signal of the temperature sensor and / or human sensor. The heating glass chair according to any one of claims 1 to 4, characterized in that energization is controlled.   The heating glass sheet forming the heating glass chair is divided into a plurality of parts, and the conductive wires connected to each part of the heating glass sheet are connected to a power source through an energization control device, and each part of the heating glass sheet is formed. The heating glass chair according to any one of claims 1 to 5, wherein the timing of energization is controlled.   The conductive film of conductive glass is formed by depositing a conductive solution obtained by adding a metal substance to a solution containing tin oxide as a basic component on a glass surface to form a transparent conductive film. The heating glass chair in any one of thru | or 6.   A screen-shaped human body support plate was formed of a heat-generating glass plate made of conductive tempered glass formed by depositing a conductive film on the glass surface and attaching the glass to the conductive glass provided with electrodes and firing. Heating backrest characterized by that. The heating backrest according to claim 8, wherein a transparent or translucent human body support plate is formed of the heat generating glass plate.   The heating backrest according to claim 8 or 9, wherein a handle portion is provided on a front surface of the human body support plate.   A variable resistor is provided on the conducting wire connected to the heat generating glass plate, a temperature sensor is attached to the human body support plate, and the resistance of the variable resistor is adjusted by a temperature signal detected by the temperature sensor to adjust the resistance of the heat generating glass plate. The heating backrest according to any one of claims 8 to 10, wherein the temperature is controlled.   A switch control device is provided on a conducting wire connected to the heat generating glass plate, a temperature sensor and / or a human sensor is attached to the human body support plate, and the heat generating glass is detected by a detection signal of the temperature sensor and / or human sensor. The heating backrest according to any one of claims 8 to 11, wherein energization of the plate is controlled.   The heating glass plate forming the heating back is formed by dividing into a plurality of parts, and the energization lines connected to each part of the heating glass plate are connected to a power source via an energization control device, to each part of the heating glass plate The heating backrest according to any one of claims 8 to 12, wherein the timing of energization of the heater is controlled.   9. The conductive glass conductive film is formed by depositing a conductive solution obtained by adding a metal substance to a solution containing tin oxide as a basic component on a glass surface to form a transparent conductive film. The heating backrest as described in any one of thru | or 13.

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