The present invention relates to the field of electrothermal blowers, in particular to an electrothermal blower in which mica lamination is used as a basic material of the heater. An electrothermal blower in accordance with the present invention can be used as an electric blower in hairdressing and as an air heater used for household warming.
The electrothermal blower is one of the electrical appliances used widely, and the technical research on the heating element which is one of the key parts thereof is being developed. The heating element used at present is usually various resistance wires or electric heating tubes (See
The technical problem the invention aims to settle is to overcome the defects existing in the prior art and to provide an electrothermal blower, wherein the heating element thereof is made by use of a heating film adhering to a mica lamination as basic material.
Another object of the invention is to provide a method for manufacturing the heating element of the electrothermal blower mentioned above.
The technical scheme used by the inventor to solve the problem mentioned above is as follows:
An energy-saving electrothermal blower is composed of: a shell with an outlet and inlet, a fan and a motor for driving it fixed in the shell; an insulating plate with an electrothermal element in the shell, a connecting circuit for connection of the electrothermal element with a power supply, characterized in that mica is used as the basic material of the electrothermal element and coated or screen printed with a thin layer of high temperature resistant strong glue as a connection layer, and then coated or screen printed with a layer of heating film and an electrode to form the heating element.
The main raw material of the slurry of the heating film of the heating element consists of one or more of silicon oxide, alumina, silicon carbide, calcium, and potassium. The slurry is made by said main raw material, which is sintered at a high temperature and then broken into pieces and screened to powder and then mixed with a high temperature resistant organic glue slurry having the same expansion coefficient as the mica.
The wire of said electrothermal element is fixed on the electrode film by a conducting clip. One end of the electrode film is connected with a temperature controller, a fuse and a power switch in series; and the wire of the other end thereof is fixed on the other pole of the power switch by a conducting clip to form an electrical circuit.
The arrangement of the electrothermal elements is a grid, a cross or star, a triangle or a diamond in shape.
The outlet of said blower is a square, a rectangle, an ellipse, a circle, a taper or a triangle in shape. The total thickness of the heating film of the heating element and the mica lamination is less than 1 mm.
The technical scheme used by the inventor also includes the method for manufacturing the electrothermal element of the energy-saving electrothermal blower, and the method includes the following steps:
A. A thin layer of high temperature resistant strong glue is screen printed or coated on each surface of the mica lamination under the condition with a drying system, and then it is dried;
B. The slurry of the heating film, which is prepared according to the desirable power and temperature, is screen printed or coated on the surface of the mica lamination with a layer of high temperature resistant strong glue, and then it is dried;
C. The silver electrode film with a regulated ratio is screen printed on both ends of the heating film, and then it is dried to form the heating element.
The main raw material of the slurry of the heating film consists of one or more of silicon oxide, alumina, silicon carbide, calcium, and potassium. The slurry is made by said main raw material, which is sintered at a high temperature and then broken into pieces and screened to powder and then mixed with a high temperature resistant organic glue slurry having the same expansion coefficient as the mica; The drying process in steps a, b and c is carried out at 300° C.
After the mica lamination is adhered to the heating film, said heating element can be formed and then stored in a sealed plastic bag.
Comparing with the blower in the prior art, the application of the energy-saving electrothermal blower according to the present invention has following advantages:
1. In view of the air strength and energy consumption
2. In view of noise
3. Energy-saving: the energy-saving electrothermal blower in accordance with the present invention can transmit a far infrared ray and the motor is running at low speed and low resistance, thus the consumption of energy can be saved by more than 30%.
4. The mica heating plate is arranged in the same direction as the air outlet of the motor, thus the average exothermic efficiency is high, the radial radiation is less and the temperature is extraordinarily uniform.
5. The electrothermal element of the energy-saving electrothermal blower in accordance with the present invention can transmit a far infrared ray which can be absorbed by the human body without any side effect. Furthermore it can promote hypodermic blood circulation so that hypodermic cells can absorb more nutrition, which has certain effect in view of cosmetology and health.
The technical scheme of the present invention will be described using an electrothermal blower as an example combined with the drawings.
As shown in the
The main raw material of the slurry of the heating film for the heating element consists of one or more of silicon oxide, alumina, silicon carbide, calcium, potassium. The slurry is made by said main raw material, which is sintered at a high temperature and then broken into pieces and screened to powder and then mixed with a high temperature resistant organic glue slurry having the same expansion coefficient with the mica. In particular, the heating film contains many elements such as germanium, silicon and semiconductor ceramic resistant slurry. The resistant slurry does not contain any harmful substances such as lead, mercury, high valence chromium, polybenzoether and acidic benzene. The expansion coefficient of it is the same as the ceramic body. The resistant slurry is coated on the surface of the mica basic material and then is dried at 300° C. to form the heating film adhering to the surface of the mica, and the heating film can produce heat energy and heat energy of far infrared rays when switched on.
The wire of said electrothermal element is fixed on the electrode film 3 by a conducting clip 7. One end of the electrode film is connected with a temperature controller 8, a fuse 6 and the power switch in series; and the wire of the other end thereof is fixed on the other pole of the power switch by a conducting clip 7 to form an electrical circuit.
The total thickness of the heating film of the heating element and the mica lamination is not more than 0.8 mm. The arrangement of the said electrothermal element may be any of several varieties.
As shown in the drawings 6, 7 and 8, the arrangement of the electrothermal elements may be a grid in shape. As shown in the drawings 9, 10 and 11, the arrangement of the electrothermal elements can be a cross or star in shape. As shown in the drawings 12, 13 and 14, the arrangement of the electrothermal elements can be a triangle or a diamond in shape.
The outlet of the blower, manufactured correspondingly according to the shape of the arrangement of the electrothermal element, may be a square, a rectangle, an ellipse, a circle, a taper or a triangle in shape.
The method for manufacturing the electrothermal elements of the electrothermal blower in accordance with the present invention includes the following steps:
a. A thin layer of high temperature resistant strong glue is screen printed on each surface of the mica lamination under the condition with a drying system, and then it is dried at 300° C.;
Number | Date | Country | Kind |
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200710123365.3 | Jun 2007 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2007/002820 | 9/26/2007 | WO | 00 | 1/12/2010 |