JPH0316503Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to a dining table equipped with a heating plate on a part of the table, that is, a dining table with a heat plate.
This invention relates to a dining table with a heat plate that includes a heating plate for cooking processing to prevent burning on a part of the table. The present invention also relates to a dining table with a heating plate provided with a conveyor path.

(B) Conventional technology A dining table with a heating plate and a stove installed in a window hole of the table is used for cooking Yakiniku, Okonomiyaki, etc. in a restaurant where customers enjoy eating and drinking while cooking. It is widely used because it can

(c) Problems that the invention aims to solve In such conventional dining tables, heating for cooking is done using a gas burner, and in addition to the oil smoke and smell generated during cooking, combustion gas is also generated. Therefore, the size of the ventilation equipment has become a problem when ventilating the room. Moreover, it is difficult to downsize the gas burner, and therefore, for example, for individual customers other than groups, fuel consumption is a problem. Therefore, a dining table equipped with an electric heating device using heating wires such as nichrome wire was proposed, but
This dining table is prone to uneven heating, burnt food, and is difficult to electrically insulate in relation to thermal efficiency.

This invention does not require a large ventilation system as seen in conventional dining tables, does not increase fuel consumption, is easy to electrically insulate, does not cause uneven heating, and effectively prevents food from burning. The purpose is to provide a dining table that prevents

(d) Means for solving the problems The present invention provides a dining table that achieves the above objectives by using a sheet heating element and a far-infrared radiator in combination as a heating source. .

That is, in the present invention, a conveyor path is provided,
In a dining table with a heating plate, which is provided with a table having a heating plate in a window hole of a top plate along the conveyor path, the window hole of the table has a side wall portion having a bottom and a receiving frame protruding inward. A supporting frame body having a support frame body is attached by placing a flange portion formed to protrude outward from the top thereof on the edge of the window hole portion, and an electrically insulating plate is attached to a receiving frame of a side wall portion of the support frame body. A conductor part and a film resistance heating element part connected to the conductor part are deposited on the lower surface, and a far-infrared ray emitting material layer is deposited on the upper surface of the electrical insulating board, and a burnt material is formed on the upper surface of the far-infrared rays emitting material layer. A heating plate coated with an anti-fouling film is removably placed on the support frame, and a connecting member with a spring installed therein is provided at the bottom of the support frame to connect the electrode member. has its lower end in contact with the spring;
Its upper end is removably in contact with the lower conductor of the heating plate and is movable in the vertical direction, and the receiving frame is arranged such that the lower conductor of the heating plate comes into contact with an electrode member connected to a power source due to the elasticity of a spring. The eating and drinking table with a heating plate is provided at a height as high as possible, and the heat insulating material layer within the support frame is provided with holes for guiding electrode members connected to a power source.

In the present invention, the window hole provided in the table is provided through the top plate of the table. The number of window holes is set to an appropriate number depending on the number of customers eating and drinking at the table and the content of the cooking. Therefore, for example, if it is for personal use,
A window hole will be provided to accommodate customers eating and drinking at the table. The size and shape of the window hole are appropriately determined to be a circle, ellipse, square, rectangle, or other shape depending on the size and shape of the heating plate.

In the present invention, the heating plate is formed into a circle, an ellipse, a square, or a rectangle depending on the shapes of the coated resistor and the far-infrared radiator.

In the present invention, the far-infrared radiation material used is a thermal radiation type material, such as zirconia type, tetania type, black type, alumina type, etc. When providing these far-infrared emitting material layers, in order to provide electrical insulation between the far-infrared emitting material layer and the coated resistance layer, enamel or heat-resistant glass is used in contact with the surface of the coated resistance layer or the back side of the far-infrared emitting material layer. A layer of heat resistant electrically insulating material of , ceramic or glaze is formed. In this case, it is preferable to form a heat-resistant glass layer because the coated resistive layer, which is the heating source, can be seen with the naked eye. The far-infrared material layer is formed, for example, by painting or spraying a far-infrared emitting material on the surface of the heat-resistant electrically insulating material layer formed on the film resistance layer.

The non-stick coating material layer of the heating plate can be made of heat-resistant glass if it is a material that transmits far infrared rays and has excellent corrosion resistance.
Any material can be used, such as quartz, Teflon, etc. Since these protective layers are formed to transmit far infrared rays to the outside, they are formed directly or indirectly on the surface of the far infrared material layer by painting or the like.

In the present invention, carbon film resistance materials and thick film resistance materials are mainly used as film materials for forming the film resistor part, and these are deposited on the back surface of the heating plate to form a heat-generating film. Any type of film resistance material can be used as long as it can be used, and the application means can be appropriately selected depending on the form and properties of the film material. For example, film resistance materials such as carbon film resistance materials and thick film resistance materials are used on the insulating substrate of the heating plate.
It is coated directly or via an electrically insulating layer by spraying, brushing, or roller coating, transfer, or screen printing, and is fired or baked in an appropriate atmosphere to form a layer with a thickness of, for example, 10 to 10 mm on the back surface of the heating plate.
It is formed into a relatively thick resistive film of about 20μm.

Examples of the carbon film resistance material used in the present invention include composite film resistance materials such as resistance ink made of fine carbon powder and a solution of thermosetting resin. Further, the thick film resistive material used in the present invention may be a commercially available material, such as a mixture of metal powder, metal oxide powder, and glassy powder to which an organic resin binder, a solvent, etc. are added, and then applied. A viscosity adjusted to an appropriate value is used.

In the present invention, the surfaces of the conductor part, the connecting material, and the film resistor part are insulated by the glaze in the enamel area. It is essential that the enamel and glaze used here have a melting point lower than the melting point of the film resistor, and are appropriately selected depending on the type of film resistor material.

In the present invention, at least one pair of conductor parts are connected to the film resistor part in order to connect the film resistor part to a power source. In order to connect the conductor portion to a power source, a connecting member such as a conductive wire is provided to connect the conductor portion and the power source such as an electric wire.

In the present invention, the shape of the film resistor portion formed on the surface can be formed into various shapes such as meandering shape, spiral shape, rectangular shape, etc. as long as it connects conductors. However, it is preferable to form a square or rectangle by connecting at least a pair of parallel conductors at the shortest distance from the viewpoint of heating rate, uniformity of temperature, etc.

In the present invention, the conductor part is a conductive paint or
It can be formed using a tape electric wire or the like.

(E) Effect In the present invention, since a far-infrared radiation surface heater is used as the heating source of the heating plate, bread, dough for Western confectionery, meat, fish and shellfish, etc. can be baked without raising the heating temperature relatively. Therefore, it is possible to form a non-stick protective layer such as Teflon or heat-resistant glass on the surface of the far-infrared material layer, so that meat, etc., can be heated directly on the heating plate without burning, making it clean. . Moreover, in the present invention, since a far-infrared heating method is adopted, heating efficiency is high.

(f) Examples Examples of embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited in any way by the following explanations and examples.

FIG. 1 is a partial cross-sectional view of an embodiment of the dining table of the present invention, mainly showing the heating plate provided in the window hole, and FIG. FIG. 3 is a rear view mainly showing the resistor section.

The eating table 1 has a window hole 3 in the table portion 2. The support frame 5 is fixed to the edge 4 of the window hole 3 with its collar 6 placed thereon. The support frame 5 is made of stainless steel, for example, and has a heater control accommodating portion 8 below the partition wall 7, and a heat insulating member 9 is provided on the partition wall 7. The heat insulating member 9 prevents the heat from the heating plate 10 from being transmitted to the table part 2 via the support frame 5, and
This prevents discoloration or deformation from occurring due to this heat.

The heating plate 10 includes a ceramic coating layer 11a formed by plasma spraying ceramic powder, which is a far-infrared emitting material, on the surface of a heat-resistant glass electrical insulating plate 11 made of, for example, Pyrex glass, and a Teflon resin coated on the ceramic coating layer 11a. A Teflon resin coating layer 11b is formed by baking, and the peripheral edge 10a of the heating plate 10 is coated with a metal surrounding frame 12 made of stainless steel, for example, to prevent damage during handling.
surrounded by The portion of the heating plate 10 surrounded by the metal surrounding frame 12 is provided so as to be positioned on the heat-insulating receiving frame 14 placed on the support plate 13 when the heating plate 10 is placed in the window hole 3. ing.

A film resistor 15 is adhered to the back surface of the heat-resistant glass electrical insulating plate 11 . The film resistor 15 is
It is formed by applying a film resistance material to the back surface of a heat-resistant glass electrical insulating plate and baking it, and then providing a glaze layer 16 thereon and baking it. The heating plate 10 is mounted on the receiving frame 14 so as to be freely removable, and can be easily removed and cleaned by washing with water or the like. The electrical connection of the heating plate 10 is made using an electrode member 17.
This is performed by contacting the conductive portion 18 of the heating plate 10 that is connected to the film resistor 15 . The electrode member 17 is in contact with a spring 19 housed in a connecting member 19' at its lower end, so that it is constantly in contact with the conductive portion 18 of the heating plate 10.

The electrode member 17 has an electrode insertion hole 2 in the heat insulating member 9.
0 and 21 are formed, and the electrode member 17 can be inserted and set into the electrode insertion holes 20 and 21.

A film resistor 15 is attached to the back surface 22 of the heating plate 10, and the film resistor 15 is provided with comb-shaped conductor portions 23 and 24 of the conductive portion 18. The regions of the film resistor and conductor portions 23 and 24 are insulated by a film of enamel, glaze, or the like. However, some of the comb-shaped conductor parts 23 and 24 are not coated with enamel or glaze so that they can come into contact with the connecting electrode member 17 at any time.
The end portions 23', 23'', 23 and 24', 24'', 24 of the comb-shaped conductor portion are arranged so as to interlock with each other. Each film resistor 15
is connected to. The conductor parts 23 and 24 are formed by baking a conductive paint, or by using a conductive material such as a conductive tape.

Therefore, if the heating plate 10 is placed in the window hole 3 of the table portion 2 in a fixed direction, it can be brought into contact with the electrode member 17.

In this example, the heating plate 10 can be removed if necessary. In this way, heating plate 1
0 can be removed to clean the inside of the window hole 3 and the heating plate.

In this example, the heat-resistant electrical insulating plate 11 of the heating plate 10 is made of heat-resistant glass, but it may also be made of ceramic, metal such as stainless steel, or an alloy. In the case of stainless steel, in order to ensure electrical insulation, the back surface of the heating plate 10 made of metal or alloy such as stainless steel is enameled or glazed in advance, and a resistive film is formed thereon.

In this example, the resistance heating element is a planar one, but other resistance heating elements can also be used. Moreover, it is preferable to use a planar heating element because the temperature can be raised in a short time and a uniform temperature distribution can be achieved.

(g) Effects of the invention This invention provides a Teflon resin coating layer on the surface of the heating plate and uses a far-infrared heating method, so it can be easily heated by turning on the power with a switch operation and heating the far-infrared radiating material. can.

Therefore, compared to conventional eating and drinking tables equipped with heating plates, there is no danger from gas, etc., and even if food is cooked on the surface of the heating plate, the food will not burn, and only the heating plate can be removed. This makes it easy to clean and wash the heating plate, which is sanitary. Further, in the present invention, since heating can be performed by electrically connecting the table, the table can be placed at an appropriate location.

Furthermore, since the size of the heating plate can be adjusted to an appropriate size, tables suitable for various types of customers such as individuals and groups can be manufactured.

This invention uses far-infrared heating using electric heating, so compared to conventional dining tables with heating plates, the amount of exhaust gas is reduced because there is no combustion gas caused by burnt food during cooking. The ventilation system can be made smaller and more economical when ventilating a room.

As described above, the dining table of the present invention has many advantages over conventional dining tables, and its effects are significant.

[Brief explanation of the drawing]

FIG. 1 is a partial cross-sectional view of an embodiment of the dining table of the present invention, mainly showing the heating plate provided in the window hole, and FIG. FIG. 3 is a rear view mainly showing the resistor section. Regarding the symbols in the figure, 1 is a dining table, 2
is a table part, 3 is a window hole, 4 is an edge of a window hole, 5 is a support frame body, 6 is a collar part, 7 is a partition wall, 8 is a heater control housing part, 9 is a heat insulating member, 10 is a heating plate,
10a is a peripheral edge, 11 is an electric insulating plate made of heat-resistant glass,
12 is a metal surrounding frame, 13 is a support plate, 14 is a receiving frame,
15 is a film resistor, 16 is a glaze layer, 17 is an electrode member, 18 is a conductive part, 19 is a spring, 19' is a connecting member, 20 and 21 are electrode insertion holes, 22 is a back surface of the heating plate, 23 and 24 are It is a conductor part.

Claims (1)

[Scope of utility model registration request] In a dining table with a heating plate, in which a conveyor path is provided, and a table is provided with a heating plate in a window hole of the top plate along the conveyor path, the table has a heating plate in the window hole of the table. A supporting frame body having a side wall portion provided with a receiving frame is attached by placing a flange formed by protruding outward from the top of the supporting frame body on the edge of the window hole portion, and the supporting frame body is attached to the side wall portion of the supporting frame body. A conductor portion and a film resistance heating element portion connected to the conductor portion are attached to the lower surface of the electrical insulating plate, and a far infrared ray emitting material layer is attached to the upper surface of the electrical insulating plate, and the far infrared radiation is A heating plate formed by applying a non-stick coating on the upper surface of the material layer is removably mounted, and a connecting member in which a spring is installed is provided at the bottom of the support frame. The lower end of the electrode member is in contact with the spring, and the upper end is in removable contact with the lower conductor portion of the heating plate so as to be movable in the vertical direction. The lower conductor portion of the spring shall be provided at a height such that it can come into contact with the electrode member connected to the power source due to the elasticity of the spring, and the heat insulating material layer within the support frame shall be provided with a hole for guiding the electrode member connected to the power source. A dining table with a heating plate.