JP3229551U - Multi-layer laminated ceramic heating element - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multilayer laminated ceramic heating element. SOLUTION: The multilayer laminated ceramic heating element includes a ceramic heating tube, the ceramic heating tube includes a winding tube main body 11 and a multilayer laminated ceramic assembly 12 covering an outer surface of the winding tube main body, and the winding tube main body includes. , Formed by automatically winding the winding tube tape cast sheet at least twice, coating the inner surface of the winding tube tape cast sheet with a ceramic slurry layer, and the multilayer laminated ceramic assembly is arranged in order from the inside to the outside. It contains one transition layer 121, a wiring layer, a second transition layer 123, and at least one layer of a tape-molded base material 125, and the inner surface of the first transition layer and the outer peripheral surface of the winding tube body are pressure-bonded by hydrostatic pressure. An electrode is provided at one end of the outer peripheral surface of the outermost tape-molded base material, and a lead 3 is provided on the electrode. By further providing the multi-layer laminated ceramic assembly on the winding tube body, the temperature of the flange can be lowered to improve the bending strength of the heating element, the power consumption is low, and the practicality is high. [Selection diagram] Fig. 5

Description

The present invention belongs to the field of ceramic heating element technology, and particularly relates to a multilayer laminated ceramic heating element.

Currently, examples of ceramic heating elements include sheet-shaped heating elements, tubular heating elements, and rod-shaped heating elements. Since the sheet-shaped heating element generates heat on one side, there is uneven heat generation. Currently, in the existing solid tube rod-shaped heating element, the outer peripheral surface of the solid substrate is wrapped with a green sheet on which a single layer of wiring layer is printed, and the heating line generates heat, but the wall of the substrate is thick and the flange temperature. As a result, heat loss of a part of the heating element occurs, which lowers the heat generation efficiency, lowers the practicality, and lowers the bending strength.

The present invention is intended to overcome the above-mentioned drawbacks and deficiencies in the prior art, and has a novel structure of the ceramic heating element. By further providing a multilayer laminated ceramic assembly on the winding tube body, the bending strength of the heating element is improved. It is an object of the present invention to provide a multi-layered ceramic heating element which can be made to grow, has low power consumption, saves energy, is safe and environmentally friendly, and is highly practical.

In the present invention, the following technical measures have been taken in order to achieve the above object.
A multilayer laminated ceramic heating element, which includes a ceramic heating tube, the ceramic heating tube includes a winding tube main body and a multilayer laminated ceramic assembly covering the outer surface of the winding tube main body, and the winding tube main body is Formed by automatically winding the winding tube tape cast sheet at least twice, the inner surface of the winding tube tape cast sheet is coated with a ceramic slurry layer, and the multilayer laminated ceramic assembly is arranged in order from the inside to the outside. It contains one transition layer, a wiring layer, a second transition layer, and at least one tape-molded base material, and the inner surface of the first transition layer and the outer peripheral surface of the winding tube main body are pressure-bonded by hydrostatic pressure. An electrode is provided at one end of the outer peripheral surface of the tape-molded base material of the outermost layer, and a lead is provided on the electrode.

Further, the winding tube tape cast sheet is a zirconia tape cast sheet.

Further, the wiring layer includes a set of heating lines.

Further, the wiring layer includes a set of heat generating lines and a set of temperature control lines, and a third transfer layer is provided between the heat generation lines and the temperature control lines.

Further, the first transition layer and the second transition layer are both alumina ceramic layers.

Further, the tape molding base material is a zirconia tape molding base material.

Further, the heating element includes a sharp member inserted into the side separated from the electrode of the ceramic heating tube.

Further, a glass glaze layer is provided on the outer peripheral surface of the heating element.

Further, the heating element includes a flange provided between the electrode and the sharp member.

Further, the thickness of the ceramic slurry layer, the first transition layer and the second transition layer is 10 to 100 μm.

The structure of the multi-layer laminated ceramic heating element of the present invention is new, and by further providing a multi-layer laminated ceramic assembly on the winding tube body, the temperature of the flange can be lowered and the bending strength of the heating element can be improved, and the power consumption can be improved. Low, energy saving, safety / environmental consideration, and high practicality.

It is a figure which shows the structure of Example 1 of this invention. This is the disassembly intention of Example 1 of the present invention. It is an exploded view of the ceramic heating tube, the electrode and the lead which concerns on Example 1 of this invention. It is a figure which shows the structure of Example 2 of this invention. It is an exploded view of the ceramic heating tube, an electrode and a lead which concerns on Example 2 of this invention. It is a figure which shows the structure of the winding tube main body of this invention. It is sectional drawing of the winding tube main body of this invention.

The present invention will be described in detail below with reference to Examples and Attachments 1-7 for those skilled in the art to understand. The content referred to in the embodiments is not limited to the present invention.

Referring to FIGS. 1 to 3, 6 and 7, it is a multilayer laminated ceramic heating element and includes a ceramic heating tube 1. The ceramic heating tube 1 includes a winding tube main body 11 and a multilayer laminated ceramic assembly 12 that covers the outer surface of the winding tube main body 11. The winding tube main body 11 is formed by automatically winding the winding tube tape cast sheet 111 at least twice, and the inner surface of the winding tube tape cast sheet 111 is coated with the ceramic slurry layer 112, and the multilayer laminated ceramic assembly 12 is formed. Includes a first transition layer 121, a wiring layer, a second transition layer 123, and at least one layer of a tape-molded substrate 125, which are arranged in order from the inside to the outside. The inner surface of the first transition layer 121 and the outer peripheral surface of the winding tube main body 11 are pressure-bonded by hydrostatic pressure, and an electrode 2 is provided at one end of the outer peripheral surface of the tape forming base material 125 of the outermost layer, and is provided on the electrode 2. Is provided with a lead 3.

The structure of the multi-layer laminated ceramic heating element of this embodiment is new, and by further providing the multi-layer laminated ceramic assembly 12 on the winding tube main body 11, the temperature of the flange 5 can be lowered and the bending strength of the heating element can be improved. It can, consumes low power, saves energy, is safe and environmentally friendly, and is highly practical.

The ceramic slurry layer 112 coated on the inner surface of the winding tube tape cast sheet 111 forms and adheres to the winding tube tape cast sheet 111 at the time of automatic winding, and automatically performs the winding tube tape cast sheet 111 in the molding jig. After the winding, the adhesion between the layers is stable between the structures of at least two layers that have been separated, and the hydrostatic pressure is applied to the winding tube body to crimp between the layers of the winding tube body. The adhesiveness between the layers is excellent, and the winding loosening phenomenon of the winding tube tape cast sheet 111 hardly occurs. The automatic winding of at least two layers of the winding tube tape cast sheet 111 can increase the strength of the winding tube tape cast sheet 111 itself and the bending strength of the ceramic heating element.

The first transition layer 121 and the second transition layer 123 are arranged on both side surfaces of the wiring layer and serve as an insulator to the wiring layer, and at least one of the arranged tape-molded base materials 125 is the bending strength of the ceramic heating element. Is preferably a zirconia ceramic base material that can effectively improve the above.

In this embodiment, the winding tube tape cast sheet 111 is a zirconia tape cast sheet, which gives better strength to the manufactured winding tube tape cast sheet 111, and the ceramic slurry layer 112 further has a winding tube tape cast sheet. It is preferable that the zirconia ceramic slurry layer 112 is capable of increasing the bending strength after the 111 is wound and molded.

In this embodiment, the wiring layer includes a set of heating lines 1221 and a set of temperature control lines 1222.

In this embodiment, by providing the heating line 1221 and the temperature control line 1222, the functions of heat generation and temperature control can be simultaneously realized to improve the performance of the ceramic heating element.

Here, the electrode 2 includes a heat generating line electrode 21 and a temperature control line electrode 22. Both the heating line electrode 21 and the temperature control line electrode 22 are connected to the reed 3.

A third layer 124 is provided between the heating line 1221 and the temperature control line 1222.

In this embodiment, the first transition layer 121 and the second transition layer 123 are both alumina ceramic layers, have high strength, and have a good insulating effect.

In this embodiment, the tape forming base material 125 is a zirconia tape forming base material 125, which has high strength and can increase the bending strength of the ceramic heating tube 1, and is formed by laminating the multilayer tape forming base material 125 in combination. Further increase the bending strength.

In this embodiment, the heating element includes a sharp member 4 that is inserted into the side of the ceramic heating tube 1 that is separated from the electrode 2.

In this embodiment, the sharp member 4 includes a tip portion 41 and an inner fitting portion 42 provided on the bottom surface. The inner fitting portion 42 is fitted inside the ceramic heating tube 1. Both the tip portion 41 and the inner fitting portion 42 have a solid structure, and when the inner fitting portion 42 is internally fitted inside the ceramic heating tube 1, it is less likely to be damaged and the quality is stable. In the case of a hollow structure, when it is internally fitted inside the ceramic heating tube 1, it is easily compressed and deformed in the internal fitting process, or the side wall of the internal fitting portion 42 is damaged. Further, the diameter of the inner fitting portion 42 is the same as the inner diameter of the ceramic heating tube 1, the tip portion 41 has a conical shape, and the maximum diameter of the tip portion 41 is larger than the diameter of the inner fitting portion 42. The inner fitting portion 42 is inserted into the other end of the ceramic heating tube 1, and the end surface of the tip portion 41 separated from the conical top abuts on the ceramic heating tube 1 to regulate the position of the sharp member 4. However, the sharp member 4 can be stably fitted to the ceramic heating tube 1, is difficult to fall off, and has high structural stability.

In this embodiment, a glass glaze layer is provided on the outer peripheral surface of the heating element.

In this embodiment, the heating element includes a flange 5 provided between the electrode 2 and the sharp member 4.

The glass glaze of the present embodiment is highly practical because it can block external oxygen from diffusing into the inside of the ceramic heating tube 1 to improve the structural stability and life of the ceramic heating tube 1. Here, the glass glaze layer is provided on the outer peripheral surface of the outermost tape forming substrate 125 and the outer peripheral surface of the tip portion 41 without covering the flange 5 and the electrode 2 portion, and the electrode 2 is exposed to the glass glaze layer. This prevents the glass glaze layer from blocking or affecting the electrical connection of the electrode 2.

The differences between this embodiment and the first embodiment are as follows.
Referring to FIGS. 4-7, the wiring layer in this embodiment includes a set of heating lines 1221. The heat generating action on the ceramic heating element is realized through the heat generating line 1221, and the heat generation is uniform.

Here, the electrode 2 is a heat generating line electrode 21.

Since the other technical features of this embodiment are the same as those of the first embodiment, they will not be described further here.

The above embodiments are merely preferred embodiments of the present invention, which may be realized in other embodiments, and various substitutions are included in the scope of protection of the present invention as long as they do not deviate from the technical idea of the present invention. Is done.

1 Ceramic heating tube 11 Winding tube body 111 Winding tube Tape cast sheet 112 Ceramic slurry layer 12 Multi-layer laminated ceramic assembly 121 1st transition layer 1221 Heating line 1222 Temperature control line 123 2nd transition layer 124 3rd transfer layer 125 Tape forming base Material 2 Electrode 21 Heat-generating line electrode 22 Temperature control line electrode 3 Lead 4 Sharp member 41 Tip part 42 Inner fitting part 5 Flange

Claims (10)

It is a multi-layer laminated ceramic heating element, including a ceramic heating tube (1), and the ceramic heating tube (1) is a multi-layer laminated ceramic assembly that covers the winding tube main body (11) and the outer surface of the winding tube main body (11). The winding tube main body (11), including the solid (12), is formed by automatically winding the winding tube tape cast sheet (111) at least twice, and is formed on the inner surface of the winding tube tape cast sheet (111). The ceramic slurry layer (112) is coated, and the multilayer laminated ceramic assembly (12) includes a first transition layer (121), a wiring layer, and a second transition layer (123) arranged in order from the inside to the outside. The inner surface of the first transition layer (121) and the outer peripheral surface of the winding tube main body (11) are pressure-bonded with hydrostatic pressure, and the outermost layer is said to contain at least one layer of the tape-molded base material (125). A multi-layer laminated ceramic heating element, characterized in that an electrode (2) is provided at one end of an outer peripheral surface of a tape-molded base material (125), and a lead (3) is provided on the electrode (2). The multilayer laminated ceramic heating element according to claim 1, wherein the winding tube tape cast sheet (111) is a zirconia tape cast sheet. The multilayer laminated ceramic heating element according to claim 1, wherein the wiring layer includes a set of heating lines (1221). The wiring layer includes a set of heat generating lines (1221) and a set of temperature control lines (1222), and a third transfer between the heat generating lines (1221) and the temperature control lines (1222). The multilayer laminated ceramic heating element according to claim 1, wherein a layer (124) is provided. The multi-layer laminated ceramic heating element according to claim 1, wherein the first transition layer (121) and the second transition layer (123) are both alumina ceramic layers. The multilayer laminated ceramic heating element according to claim 1, wherein the tape molding base material (125) is a zirconia tape molding base material (125). The multilayer laminated ceramic heating element according to claim 1, further comprising a sharp member (4) inserted into the side of the ceramic heating tube (1) separated from the electrode (2). The multilayer ceramic heating element according to claim 7, wherein a glass glaze layer is provided on the outer peripheral surface of the multilayer ceramic heating element. The multi-layer laminated ceramic heating element according to claim 7, further comprising a flange (5) provided between the electrode (2) and the sharp member (4). The multilayer layer according to claim 1, wherein the thickness of the ceramic slurry layer (112), the first transition layer (121), and the second transition layer (123) is 10 to 100 μm, respectively. Multilayer ceramic heating element.