KR101321518B1 - The electrode handling method of a heater using porous silicon carbide - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrode treatment method of a porous silicon carbide heater, and more particularly, a silicon carbide (SiC) heater by dipping (coating) and heating the electrode portion of the porous silicon carbide in a slurry solution dispersed in a metal powder. In addition to improving the strength of the silicon carbide heater, and the effect of correcting the balance of the overall density of the silicon carbide heater, by connecting the electrode to the silicon carbide heater by coating a ceramic on the surface of the external exposed area, thereby forming an insulating film on the heater surface It prevents the leakage of electricity, improves durability in water, and prevents the external wall of the heater from being disassembled.The terminal has a lattice pattern by applying electrodes on both ends of the honeycomb for silicon carbide heater. By assembling the electrode, the electrode is coated on the front surface to distribute the current evenly on the outer wall and inner wall of the honeycomb support body. It is possible to prevent overheating due to the overcurrent of the site and to minimize the heat loss by preventing the overheating of the heat generating part, and by assembling the grid-shaped electrode terminals, When blowing air into the silicon carbide heater, it does not interfere with the flow of air.Because the pores of the porous silicon carbide heater are filled, soldering such as soldering is possible on the surface of the electrode, so it is easy to use at high temperatures, and the strength is enhanced. There is also an effect that can bring.

Description

The electrode handling method of a heater using porous silicon carbide}

According to the present invention, both ends of the porous silicon carbide electrode are dipped in a slurry solution dispersed in a metal powder and heat treated, thereby improving the strength of the silicon carbide (SiC) heater as well as the overall density of the silicon carbide heater. It has the effect of correcting the balance, and by connecting the electrode to the silicon carbide heater and then coating the ceramic on the surface of the external exposed part, forming an insulating film on the heater surface to prevent leakage of electricity and in water It can improve the durability and prevent the disassembly of the outer wall of the heater, and apply the electrode to the front surface of both ends of the honeycomb for silicon carbide heater and assemble it into the terminal having the lattice pattern. The current is distributed evenly on the outer wall and inner wall to prevent overheating due to overcurrent of a specific part, as well as to generate heat. It is formed in a structure that exposes the powder as much as possible to minimize the loss of efficiency to prevent the decrease in efficiency. By assembling the grid-shaped electrode terminals, it prevents the flow of air when blowing air into the silicon carbide heater. It is a technology related to electrode treatment method of porous silicon carbide heater that can be used at high temperature and can also enhance strength because soldering such as soldering is possible on the electrode surface because the pores of porous silicon carbide heater are filled. .

In general, when the ceramic is not coated on the electrode of the silicon carbide heater, when the silicon carbide heater is left in the water for a long time, there is a problem that the fragments of silicon carbide (SiC) decomposed from the outer wall is extracted, resulting in a decrease in durability. do.

In addition, when another material is added to improve the strength of the silicon carbide heater, there is a problem that a change in the resistance value and characteristics of the silicon carbide heater may appear.

Therefore, both ends of the porous silicon carbide electrode are dipped in a slurry solution dispersed in metal powder and heat treated to improve the strength of the silicon carbide (SiC) heater as well as to correct the balance of the overall density of the silicon carbide heater. After connecting the electrode to the silicon carbide heater and coating the ceramic on the surface of the external exposed part to form an insulating film on the heater surface to prevent leakage of electricity and to improve durability in water The external wall of the heater can be prevented from being disassembled, and the electrodes are applied to the front surfaces of both ends of the honeycomb for silicon carbide heaters and assembled into a terminal having a lattice pattern. The current is distributed to prevent overheating caused by overcurrent of a certain part. There is formed a structure in which a situation that is required to develop a treatment electrode of the porous silicon carbide heater capable of minimizing heat loss preventing efficiency degradation of.

Accordingly, the present invention was conceived to solve the above problems, by dipping (coating) and heat treatment of both ends of the electrode of the porous silicon carbide in a slurry solution dispersed in the metal powder, thereby increasing the strength of the silicon carbide (SiC) heater The present invention also provides an electrode treatment method of a porous silicon carbide heater that has an effect of correcting the balance of the overall density of the silicon carbide heater.

In addition, the object of the present invention is to connect the electrode to the silicon carbide heater and then to coat the ceramic on the surface of the external exposed area, thereby forming an insulating film on the heater surface to prevent leakage of electricity as well as durability in water The present invention provides an electrode treatment method of a porous silicon carbide heater capable of improving and preventing the outer wall of the heater from being decomposed.

In addition, an object of the present invention is to apply the electrodes to the front surface of both ends of the honeycomb for the silicon carbide heater to be assembled into a terminal having a lattice pattern, the electrode is applied to the front surface and the current is evenly distributed on the outer wall and the inner wall of the honeycomb-shaped support. It is to provide an electrode treatment method of a porous silicon carbide heater that can prevent the overheating phenomenon due to the overcurrent of the current, as well as the structure in which the heat generating portion is exposed to the maximum, thereby minimizing heat loss and preventing the decrease in efficiency. .

In addition, an object of the present invention is to provide a method for treating an electrode of a porous silicon carbide heater that does not interfere with the flow of air when blowing air into the silicon carbide heater by assembling and using a grid pattern electrode terminal.

In addition, the object of the present invention is to fill the pores of the porous silicon carbide heater, so that soldering such as soldering is possible on the surface of the electrode, it is easy to use at high temperatures and electrode treatment method of the porous silicon carbide heater that can bring about enhanced strength. To provide.

Electrode treatment method of the porous silicon carbide heater according to an embodiment of the present invention for achieving the above object is to improve the strength and density of the silicon carbide heater in the honeycomb for silicon carbide (SiC) heater, the honeycomb for the silicon carbide heater. In order to correct the balance of the upper and lower metals on both ends of the porous silicon carbide electrode, the porous silicon carbide honeycomb is coated with a screen printing method or a dipping method in a slurry solution dispersed in metal powder, dried and heat-treated. (A) preparing an electrode, upper and lower terminals, a fastening member which is a set or fixing pin of a bolt and a nut, and a power cable; (B) inserting upper and lower metal electrodes into the grooves formed around the inner circumferences of the upper and lower terminals, respectively; (C) placing a honeycomb for a silicon carbide (SiC) heater in the state where the metal electrode of the lower part is inserted into the terminal of the lower part, and placing and mounting an upper terminal of the upper metal electrode; The honeycomb for the silicon carbide (SiC) heater, the upper and lower metal electrodes, and the upper and lower terminals are assembled, and then a fastening member is inserted into a plurality of holes formed in the upper and lower terminals for the silicon carbide heater. (D) fixing the honeycomb, upper and lower metal electrodes and upper and lower terminals; (E) connecting the power cable to the upper metal electrode and the lower metal electrode after the fixing; .

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In the present invention, in the step (a), the slurry solution is composed of a metal powder of silver, gold, nickel, chromium, frit (sintering aid), a binder, and a solvent.

In the present invention, in the step (c), the electrode is applied to the front surface of both ends of the honeycomb for the silicon carbide heater and then assembled into a terminal having a lattice pattern so that the current is evenly distributed on the outer wall and the inner wall of the honeycomb support body. It is possible to prevent the overheating phenomenon caused by the overcurrent of a specific part and to form a structure in which the heat generating part is exposed to the maximum, it is characterized by minimizing the heat loss to prevent the decrease in efficiency.

In the present invention, in the step (d), after connecting the metal electrode to the honeycomb for the silicon carbide heater, the ceramic is coated on the surface of the exposed portion of the outside to form an insulating film on the heater surface to leak electricity It is characterized in that to prevent and prevent the phenomenon that the outer wall of the heater is decomposed.

The electrode treatment method of the porous silicon carbide heater according to the present invention has the following effects.

First, the present invention, by dipping (coating) the electrode portion of the porous silicon carbide in the slurry solution dispersed in the metal powder and heat treatment, thereby improving the strength of the silicon carbide (SiC) heater as well as balancing the overall density of the silicon carbide heater Has the effect of correcting.

Second, the present invention by connecting the electrode to the silicon carbide heater and then coating the ceramic on the surface of the external exposed area, thereby forming an insulating film on the heater surface to prevent leakage of electricity as well as to improve durability in water It is possible to prevent the phenomenon that the outer wall of the heater is decomposed.

Third, the present invention by applying the electrodes on the front surface of both ends of the honeycomb for silicon carbide heater and assembling the terminal having a lattice pattern, by applying the electrode on the front surface and the current is evenly distributed on the outer wall and the inner wall of the honeycomb-type support It is possible to prevent overheating due to overcurrent and to have a structure in which the heat generating part is exposed to the maximum, thereby minimizing heat loss and preventing a decrease in efficiency.

Fourthly, the present invention does not disturb the flow of air when blowing air into the silicon carbide heater by assembling and using the grid-shaped electrode terminals.

Fifth, since the present invention fills the pores of the porous silicon carbide heater, soldering such as soldering is possible on the surface of the electrode, so that it is easy to use at a high temperature and may also increase the strength.

1 is a photographic view showing the components constituting the porous silicon carbide heater according to an embodiment of the present invention.
FIG. 2 is a photograph showing a state in which upper and lower metal electrodes are inserted into upper and lower terminals of the component of FIG. 1. FIG.
3 is a photograph showing a state in which a honeycomb for a silicon carbide (SiC) heater and upper and lower terminals fitted with metal electrodes at an upper portion and a lower side are assembled among the components of FIG. 1;
4 is a photograph showing a state in which the fastening member is inserted and fixed in FIG.
FIG. 5 is a photograph showing a state in which a power cable is connected to FIG. 4. FIG.
Figure 6 is a photograph showing a state of dipping (dip) the end and the whole of the honeycomb for the silicon carbide heater among the components constituting the porous silicon carbide heater according to an embodiment of the present invention.
7 is a flow chart of electrode treatment of a porous silicon carbide heater according to an embodiment of the present invention.

Looking at the preferred embodiment of the present invention together with the accompanying drawings as follows, when it is determined that the detailed description of the known art or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention The description will be omitted, and the following terms are terms defined in consideration of functions in the present invention, which may vary according to a user's intention or an operator's intention or custom, and the definitions refer to the electrode treatment method of the porous silicon carbide heater of the present invention. It should be made based on the contents throughout the specification to be described.

1 is a photograph showing a part constituting a porous silicon carbide heater according to an embodiment of the present invention, Figure 2 is a state in which the upper and lower metal electrodes of the upper and lower terminals of the component of Figure 1 is fitted 3 is a photographic view illustrating a state in which a honeycomb for a silicon carbide (SiC) heater and upper and lower terminals fitted with upper and lower metal electrodes are assembled among the components of FIG. 1, and FIG. Figure 3 is a photograph showing a state in which the fastening member is inserted and fixed. In addition, Figure 5 is a photograph showing a state connecting the power cable to Figure 4, Figure 6 is a tip and all of the honeycomb for the silicon carbide heater of the components constituting the porous silicon carbide heater according to an embodiment of the present invention FIG. 7 is a photographic view illustrating a state of dipping, and FIG. 7 is a flowchart illustrating electrode treatment of a porous silicon carbide heater according to an exemplary embodiment of the present invention.

The electrode treatment method of the porous silicon carbide heater of the present invention is a silicon carbide (SiC) heater honeycomb (10), the upper and lower metal electrodes (20, 30), the upper and lower terminals (40, 50), (A) preparing a fastening member 60 and a power cable 70; (B) inserting the upper and lower metal electrodes 20 and 30 into the grooves 41 and 51 formed in the inner circumference of the upper and lower terminals, respectively; The honeycomb 10 for the silicon carbide (SiC) heater is placed on the lower terminal 50 and the upper terminal 40 on which the upper metal electrode 20 is fitted is placed. Placing and assembling (c); The silicon carbide (SiC) heater honeycomb 10, upper and lower metal electrodes 20 and 30, and upper and lower terminals 40 and 50 are assembled, and then upper and lower terminals 40 and 50. The honeycomb 10 for the silicon carbide (SiC) heater, the upper and lower metal electrodes 20 and 30, the upper and (D) fixing the lower terminals 40 and 50; (E) connecting the power cable 70 to the upper metal electrode 20 and the lower metal electrode 30 after the fixing; .

As shown in Figures 1 to 7, look at the function of the technical step of processing the electrode of the porous silicon carbide heater in detail as follows.

The first step is to prepare a component of the porous silicon carbide heater (a), as shown in Figure 1, the silicon carbide (SiC) heater honeycomb 10, and the upper, lower metal electrodes (20, 30) ), The upper and lower terminals 40 and 50, the fastening member 60, and the power cable 70 are prepared.

Here, in order to improve the strength of the silicon carbide heater in the silicon carbide heater honeycomb 10 and to correct the balance of density, both ends of the electrodes of the porous silicon carbide honeycomb 10 are porous in the slurry solution dispersed in the metal powder. The silicon carbide honeycomb 10 is coated by a screen printing method or a dipping method (shown in FIG. 6), dried and heat-treated, and the components of the slurry solution are metal powders of silver, gold, nickel and chromium, and frit (Sintering aid), a binder, and a solvent. In addition, the fastening member 60 is most preferably a set of bolts and nuts, fixing pins will also be possible.

The second step is to (b) inserting the upper and lower metal electrodes into the upper and lower terminals to be coupled to each other. As shown in FIG. 2, a groove formed around the inner circumference of the upper and lower terminals ( The upper and lower metal electrodes 20 and 30 are fitted to 41 and 51, respectively.

Third, the step (c) of placing the honeycomb for the silicon carbide (SiC) heater on the lower terminal and the terminal on the upper side, as shown in Figure 3, as shown in Figure 3, the lower terminal 50 The honeycomb 10 for the silicon carbide (SiC) heater is placed in the state where the metal electrode is inserted, and the upper terminal 40 on which the upper metal electrode 20 is fitted is assembled.

Here, the electrode is applied to the front surfaces of both ends of the silicon carbide heater honeycomb 10 and assembled into terminals 40 and 50 having a lattice pattern to distribute the current evenly on the outer wall and the inner wall of the honeycomb-type support. It is possible to prevent overheating due to overcurrent and to minimize the heat loss because the heat generating part is exposed to the maximum structure.

The fourth step is to insert and fix the fastening member 60 in a plurality of grooves formed in the upper and lower terminals, as shown in Figure 4, the honeycomb for the silicon carbide (SiC) heater. 10 and the plurality of groove holes formed in the upper and lower terminals 40 and 50 after the upper and lower metal electrodes 20 and 30 and the upper and lower terminals 40 and 50 are assembled. inserting the fastening member 60 into the hole to fix the silicon carbide (SiC) heater honeycomb 10, the upper and lower metal electrodes 20 and 30, and the upper and lower terminals 40 and 50. will be.

Here, the metal electrodes 20 and 30 are connected to the honeycomb 10 for the silicon carbide heater, and then a ceramic is coated on the surface of an external exposed portion to form an insulating film on the heater surface to prevent leakage of electricity and This can prevent the phenomenon that the outer wall of the decomposition.

Fifth, the step (e) of connecting the power cable to the upper metal electrode and the lower metal electrode, as shown in Figure 5, after the fixing the power cable to the upper metal electrode and the lower metal electrode ( 70).

As described above, the electrode treatment method of the porous silicon carbide heater can be used to process electrodes such as hair dryers, instantaneous water heaters, cold and hot water heaters, dryers for washing machines, gas ranges, boilers, exhaust gas reducing devices, and the like. Extensive

Best Mode for Carrying Out the Invention In the drawings and specification, there have been disclosed preferred embodiments and the terminology used herein is for the purpose of describing the present invention only and not for limiting the scope of the present invention. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments may be possible without departing from the scope of the invention.

10 honeycomb for silicon carbide heater 20 metal electrode on top
30: lower metal electrode 40: upper terminal
50: lower terminal 60: fastening member
70: power cable
41: groove formed around the inner circumference of the upper terminal
51: groove formed around the inner periphery of the lower terminal
42: hole formed in the upper terminal 52: hole formed in the lower terminal

Claims (6)

In the electrode treatment method of a porous silicon carbide heater,
In order to improve the strength of the silicon carbide heater and to correct the balance of the density, the honeycomb for the silicon carbide (SiC) heater and the honeycomb for the silicon carbide heater are placed on the slurry solution dispersed in the metal powder. The upper and lower metal electrodes, the upper and lower terminals, the fastening member which is a set or fixing pin of bolts and nuts, which is coated, dried and heat-treated and coated with porous silicon carbide honeycomb by the screen printing method or the dipping method, and a power supply (A) preparing a cable;
(B) inserting upper and lower metal electrodes into the grooves formed around the inner circumferences of the upper and lower terminals, respectively;
(C) placing a honeycomb for a silicon carbide (SiC) heater in the state where the metal electrode of the lower part is inserted into the terminal of the lower part, and placing and mounting an upper terminal of the upper metal electrode;
The honeycomb for the silicon carbide (SiC) heater, the upper and lower metal electrodes, and the upper and lower terminals are assembled, and then a fastening member is inserted into a plurality of holes formed in the upper and lower terminals for the silicon carbide heater. (D) fixing the honeycomb, upper and lower metal electrodes and upper and lower terminals;
(E) connecting the power cable to the upper metal electrode and the lower metal electrode after the fixing; Electrode treatment method of a porous silicon carbide heater characterized in that it comprises a. delete delete The method of claim 1,
In the step (a), the slurry solution is composed of a metal powder of silver, gold, nickel, chromium, frit (sintering aid), a binder and a solvent, characterized in that the electrode treatment of the porous silicon carbide heater Way. The method of claim 1,
In the step (c), the electrode is applied to the front surfaces of both ends of the silicon carbide heater honeycomb and then assembled into a terminal having a lattice pattern so that the current is evenly distributed on the outer wall and the inner wall of the honeycomb support body due to the overcurrent of a specific part. The electrode treatment method of the porous silicon carbide heater, it is possible to prevent the overheating phenomenon and to minimize the heat loss because the heat generating portion is exposed to the maximum structure. The method of claim 1,
In the step (d), the metal electrode is connected to the silicon carbide heater honeycomb, and then a ceramic is coated on the surface of the exposed portion to form an insulating film on the surface of the heater to prevent leakage of electricity and the outer wall of the heater Electrode treatment method of a porous silicon carbide heater, characterized in that to prevent decomposition.

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