KR20210048258A - Oven Apparatus for Heat Treatment of Multi Layer Ceramic Capacitor - Google Patents

Abstract

The present invention relates to an oven for heat treatment of a multilayer ceramic capacitor to maximize productivity. According to the present invention, the oven for heat treatment of a multilayer ceramic capacitor comprises: a chamber main body; an inner case provided with a heating means; an outer case in which an inlet hole is formed; an upper pipe; a lower pipe; a connection pipe; a first partition plate; a second precipitation plate; a first moving hole; a first guiding body; a second moving hole; a second guiding body; and a suction fan sucking the external air.

Description

Oven Apparatus for Heat Treatment of Multi Layer Ceramic Capacitor

The present invention relates to an oven used in a heat treatment process during a firing process of a multilayer ceramic capacitor, and in particular, for heat treatment of a multilayer ceramic capacitor in which a rapid cooling process of a dielectric ceramic sheet after the heat treatment process is performed by flowing external air inside the oven. It's about the oven.

In general, multilayer ceramic capacitors are also referred to as multi-layer ceramic capacitors (MLCC, Multi-Layer Ceramic Capacitor), and a very thin sheet with circuit patterns is cut into a certain size. It is a small sized surface mount capacitor that is most commonly used today, such as being cut to size, and is used for impedance matching of mobile communication devices, LC resonance circuits, and electromagnetic wave noise removal of digital devices.

In the manufacturing process of the multilayer ceramic capacitor, a plurality of thin dielectric ceramic sheets printed with electric circuits are stacked, and a heat treatment process for curing and firing is essentially performed.

This heat treatment process consists of a process in which the laminated dielectric ceramic sheet stays inside the oven until the heat treatment is completely completed in a way that products are loaded and operated in cycle units.

In more detail, after raising the internal temperature of the oven with the inside sealed to 300 ~ 400 ℃, after firing of the laminated dielectric ceramic sheets for a certain period of time is completed, the door is opened and a cooling process is naturally performed.

However, this has a disadvantage in that the cooling process takes an excessively long time and productivity is deteriorated. Accordingly, there is an urgent need for an efficient cooling process.

Korean Patent Registration No. 10-1039128 (2011. 06. 07)

The present invention is invented to solve the problems of the prior art as described above, wherein the first and second partition plates divide both sides and rear surfaces of the inner case and the outer case, respectively, so that the external air introduced through the inlet hole is It blocks movement to the case, and external air is entirely moved to both sides and rear surfaces of the outer case due to the first and second conductors formed in the first and second partition plates, and the temperature of the external air is introduced into the chamber body, thereby preventing the heat treatment process. The purpose of this is to improve an oven for heat treatment of multilayer ceramic capacitors that can maximize productivity because a rapid cooling process of the completed dielectric ceramic sheet can be performed.

In order to achieve the above object, the present invention is made in the form of a square case so that the vehicle on which the dielectric ceramic sheet is mounted is inserted, and a chamber in which a plurality of through holes are formed in a frame formed on each side of the square frame. main body; An inner case formed in the shape of a square case accommodating the chamber body to form a space between the chamber bodies, and provided with heating means for applying high temperature heat to perform a heat treatment process of the dielectric ceramic sheet inserted into the chamber body; It is in the form of a square case that accommodates the inner case so that a space between the inner cases is formed, and a door is provided to seal or open the interior of the chamber body to the front, and inlet holes through which external air can be introduced into both sides of the lower front side are formed. An outer case; An upper pipe in which a square pipe is connected to an upper side of the outer case in the form of a square frame; A lower pipe in which a square pipe is connected to the lower side of the outer case in the form of a square frame; A connection pipe made of a plurality of square pipes connecting the vertices of the upper pipe and the lower pipe; A first partition plate formed in the form of a plate adjacent between the connection pipes on both sides of the outer case, and partitioning the upper pipe and the lower pipe middle disposed on both sides of the outer case; A second partition plate formed in the form of a plate adjacent between the connection pipes at the rear side of the outer case, and partitioning the upper pipe and the lower pipe at the rear side of the outer case; A first moving hole penetrating through a position of a lower pipe corresponding to an inlet hole formed in the outer case to move external air introduced by the inlet hole between the first partition plate and the outer case; It extends upward from the bottom of the first partition plate to be spaced apart from the upper pipe and is formed to be in contact with the outer case, so that external air introduced from the first moving hole is spaced apart from the upper pipe on the upper side of the first partition plate. A first inductor leading to the opposite side where the first moving hole is formed after guiding into the space; A second movable hole formed in a connecting pipe adjacent to the first and second partition plates to move external air that is moved between the first partition plate and the outer case between the second partition plate and the outer case; Each side of the middle of the second partition plate extends from the bottom to the upper pipe and is spaced apart from the upper pipe, and is formed to contact the outer case, so that external air that moves between the second partition plate and the outer case through the second moving hole is respectively A second derivative leading to the center; A suction fan installed in the outer case between the second inductors to discharge external air collected by the second inductors and to suck external air through the inlet hole; and a multilayer ceramic capacitor comprising: Provides an oven for heat treatment.

In addition, the heating means is installed to pass through the upper one side of the inner case, a plurality of heater rods that generate high temperature heat between the chamber body and the inner case, and are installed to pass through the upper other side of the inner case, and between the chamber body and the inner case. It is characterized by consisting of a blower fan that flows the high-temperature heat generated in the chamber body between the chamber body and the inner case to flow into the through hole formed in the chamber body.

As described above, according to the present invention, the first and second partition plates divide both sides and rear surfaces of the inner case and the outer case, respectively, to block the external air from flowing into the inner case through the inlet hole. Due to the first and second inductors formed on the 1st and 2nd compartment plates, external air is entirely moved to both sides and rear of the outer case, causing the temperature of the external air to be drawn into the chamber body, thereby allowing the rapid cooling process of the dielectric ceramic sheet, which has completed the heat treatment process. As it can be performed, there is an effect that can maximize productivity.

In addition, the high-temperature heat circulated by the heating means in the inner case is introduced into the chamber body through the through hole, so that the heat treatment process can be easily performed, and the structure of the first and second partition plates and the first and second conductors is achieved. Therefore, the cooling process is performed quickly, so that the temperature of the heat treatment process can be further increased, so that not only the cooling process but also the time of the heat treatment process can be shortened.

1 and 2 are exemplary views showing preferred front and rear shapes of an oven for heat treatment of a multilayer ceramic capacitor according to the present invention,
3, 4, and 5 are exemplary diagrams showing an internal shape of an oven for heat treatment of a multilayer ceramic capacitor according to the present invention and a preferred shape in which external air flows;
6 is an exemplary view showing a preferred form in which high-temperature heat is introduced into the chamber body by the heating means according to the present invention.

It will be described in more detail below with reference to the accompanying drawings specific details for the implementation of the present invention.

1 and 2 are exemplary views showing preferred front and rear shapes of an oven for heat treatment of a multilayer ceramic capacitor according to the present invention, and FIGS. 3, 4, and 5 are internal shapes of an oven for heat treatment of a multilayer ceramic capacitor according to the present invention. And as an exemplary diagram showing a preferred form in which external air flows, the present invention performs a rapid cooling process of the dielectric ceramic sheet, which has completed the heat treatment process, by flowing external air as shown in FIGS. 1, 2, 3, 4, 5 It relates to an oven for heat treatment of a multilayer ceramic capacitor to be used.

To this end, it is made in the shape of a square case so that the vehicle on which the dielectric ceramic sheets are mounted is inserted, and a chamber body 10 in which a plurality of through holes 11 are formed is included in a frame formed on each side of the square frame. It is composed.

In addition, it is made in the shape of a square case accommodating the chamber body 10 so that the space between the chamber body 10 is formed, and is inserted into the chamber body 10 through the through hole 11 formed in the chamber body 10. It includes an inner case 20 provided with a heating means for applying high temperature heat so that the heat treatment process of the dielectric ceramic sheet is performed.

In addition, it is in the shape of a square case accommodating the inner case 20 so that a space between the inner cases 20 is formed, and a door 31 is provided to seal or open the interior of the chamber body 10 to the front, An inlet hole 33 through which external air can be introduced into both sides of the lower front side is formed, and an outer case 30 for cooling the heat-treated dielectric ceramic sheet through the introduced inlet hole is included.

In addition, an upper pipe 40 in which a square pipe is connected to the upper side of the outer case 30 in the form of a square frame, and a lower pipe 40 in which a square pipe is connected to the lower side of the outer case 30 in a form of a square frame. A pipe 50 and a connection pipe 60 made of a plurality of square pipes connecting the vertices of the upper pipe 40 and the lower pipe 50 are provided, respectively.

In addition, the outer case 30 is made in the form of a plate adjacent between the connection pipes 60 on both sides of the outer case 30, by dividing the upper pipe 40 and the lower pipe 50 located on both sides of the outer case 30 A first partition plate 70 is provided that prevents external air flowing into the inlet hole 33 formed in the outer case 30 from flowing into the inner case 20 and flows to the inner walls of both sides of the outer case 30.

In addition, it is made in the form of a plate adjacent to the connection pipe 60 at the rear side of the outer case 30, and divides the upper pipe 40 and the lower pipe 50 located at the rear side of the outer case 30 A second partition plate 80 is provided that prevents external air flowing from the first partition plate 70 from flowing into the inner case 20 and flows to the rear inner wall of the outer case 30.

In addition, the external air that penetrates into the position of the lower pipe 50 corresponding to the inlet hole 33 formed in the outer case 30 and flows in through the inlet hole 33 is passed through the first partition plate 70 and the outer case. (30) A first moving hole 90 is formed to move between.

In addition, the first partition plate 70 extends upward from the lower portion of the middle to be spaced apart from the upper pipe 40 and is formed to contact the outer case 30, After the air is guided to a space spaced apart from the upper pipe 40 on the upper side of the first partition plate 70, the first partition plate 70 and the outer case 30 are guided to the opposite side where the first moving hole 90 is formed. ) A first inductor 100 that flows to both sides of the entire surface is formed.

In addition, the first partition plate 70 and the second partition plate 80 are formed in the connecting pipe 60 adjacent to each other to control external air that moves between the first partition plate 70 and the outer case 30. A second moving hole 110 is formed to move between the two partition plate 80 and the outer case 30.

In addition, the second partition plate 80 is formed to be in contact with the outer case 30 and extends apart from the upper pipe 40 from the lower side to the upper side of the middle of the second partition plate 80, and through the second moving hole 110 A second inductor 120 is formed to guide the external air that is moved between the second partition plate 80 and the outer case 30 to the center, respectively.

A suction fan installed in the outer case 30 between the second inductors 120 to discharge the external air collected by the second inductors 120 and at the same time to inhale the external air through the inlet hole 33 ( 130) is included.

That is, the first and second partition plates 70 and 80 divide both sides and rear surfaces of the inner case 20 and the outer case 30, respectively, so that the outer air introduced through the inlet hole 33 is transferred to the inner case. Blocks from being moved to (20), and external air is entirely moved to both sides and rear surfaces of the outer case (30) due to the first and second conductors (100, 120) formed on the first and second partition plates (70, 80) As a result, the temperature of the external air is introduced into the chamber body 10 so that a rapid cooling process of the dielectric ceramic sheet, which has been subjected to the heat treatment process, can be performed, thereby maximizing productivity.

Here, the heating means is installed to pass through the upper one side of the inner case 20 as shown in FIG. 6 and a plurality of heater rods generating high temperature heat between the chamber body 10 and the inner case 20 ( 140) and installed to penetrate the other side of the upper part of the inner case 20, and the high temperature heat generated between the chamber main body 10 and the inner case 20 flows between the chamber main body 10 and the inner case 20 It consists of a blower fan 150 that flows into the through hole 11 formed in the chamber body 10.

That is, when the high-temperature heat is discharged by the heater rod 140, the high-temperature heat discharged to the heater rod 140 by the operation of the blowing fan 150 is circulated within the inner case 20, and the inner case (20) The high temperature heat circulated within the chamber body 10 is introduced into the chamber body 10 through the through hole 11 formed in the chamber body 10, so that the heat treatment process can be easily performed, but as mentioned above, the first , Due to the structure of the two compartment plates (70, 80) and the first and second conductors (100, 120), the cooling process is made quickly, and the temperature of the heat treatment process that was performed in the existing temperature range of 300 ~ 400℃ is further increased. As a result, it has the effect of shortening not only the cooling process but also the time of the heat treatment process.

Meanwhile, opposite surfaces of the first and second partition plates 70 and 80 on which the first and second conductors 100 and 120 are not formed, the connection pipe 60 and the inner case 20 ) A plurality of reinforcing pipes 160 are installed between the inner case 20 and the connection pipe 60, so as to firmly support between the first partition plate 70 and the second partition plate 80.

10: chamber body 11: through hole
20: inner case 30: outer case
31: door 33: inlet hole
40: upper pipe 50: lower pipe
60: connection pipe 70: first partition plate
80: 2nd partition plate 90: 1st moving hole
100: first derivative 110: second moving hole
120: second conductor 130: suction fan
140: heater rod 150: blowing fan
160: reinforcing pipe

Claims (3)

A chamber body 10 formed in a square case shape so that a vehicle in which the dielectric ceramic sheets stacked therein are mounted is inserted, and in which a plurality of through holes 11 are formed in a frame formed on each side of the rectangular frame;
It is made in the shape of a square case accommodating the chamber body 10 so that a space between the chamber body 10 is formed, and heating by applying high temperature heat so that the heat treatment process of the dielectric ceramic sheet inserted into the chamber body 10 is performed. Inner case 20 is provided with means;
It is in the form of a square case accommodating the inner case 20 so that a space between the inner cases 20 is formed, and a door 31 is provided to seal or open the interior of the chamber body 10 to the front, and the lower front An external case 30 formed with inlet holes 33 through which external air can be introduced into both sides;
An upper pipe 40 in which a square pipe is connected to an upper side of the outer case 30 in the form of a square frame;
A lower pipe 50 in which a square pipe is connected to the lower side of the outer case 30 in the form of a square frame;
A connection pipe 60 made of a plurality of square pipes connecting the vertices of the upper pipe 40 and the lower pipe 50;
A first formed in the form of a plate adjacent between the connection pipes 60 on both sides of the outer case 30, and partitions the middle of the upper pipe 40 and the lower pipe 50 located on both sides of the outer case 30 Partition plate 70;
A second plate formed in the form of a plate adjacent to the connection pipe 60 on the rear side of the outer case 30, and partitioning the middle of the upper pipe 40 and the lower pipe 50 located at the rear side of the outer case 30 Partition plate 80;
The first partition plate 70 and the outer case 30 penetrate the lower pipe 50 position corresponding to the inlet hole 33 formed in the outer case 30 and flow in through the inlet hole 33. ) A first moving hole 90 for moving between;
The first partition plate 70 extends upwardly from the lower portion of the middle portion to be spaced apart from the upper pipe 40 and is formed to contact the outer case 30, so that the external air introduced from the first moving hole 90 is A first inductor 100 leading to a space spaced apart from the upper pipe 40 on the upper side of the first partition plate 70 and then leading to the opposite side where the first moving hole 90 is formed;
The first partition plate 70 and the second partition plate 80 are formed in the connecting pipe 60 adjacent to each other, so that external air that moves between the first partition plate 70 and the outer case 30 is divided into a second partition. A second moving hole 110 that moves between the plate 80 and the outer case 30;
The second partition plate 80 is formed to be in contact with the outer case 30 while extending away from the upper pipe 40 from the lower side to the upper side of the middle of the second partition plate 80, and through the second moving hole 110 A second inductor 120 for guiding external air moved between the partition plate 80 and the outer case 30 to the center, respectively;
A suction fan installed in the outer case 30 between the second inductors 120 to discharge the external air collected by the second inductors 120 and at the same time to inhale the external air through the inlet hole 33 ( 130); An oven for heat treatment of a multilayer ceramic capacitor, characterized in that it is configured to include. The method of claim 1,
The heating means is installed to pass through the upper one side of the inner case 20, a plurality of heater rods 140 for generating high temperature heat between the chamber body 10 and the inner case 20, and the inner case 20 A through hole formed in the chamber body 10 by flowing heat of high temperature generated between the chamber body 10 and the inner case 20 and flowing between the chamber body 10 and the inner case 20. (11) An oven for heat treatment of a laminated ceramic capacitor, characterized in that it consists of a blower fan (150) flowing into it. The method of claim 2,
A plurality of reinforcement between the first and second conductors 100 and 120 are not formed between the first partition plate 70, the second partition plate 80, the connection pipe 60 and the inner case 20 An oven for heat treatment of a laminated ceramic capacitor, characterized in that the pipe 160 is installed.

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