KR19990008381U - Fine valve used for indirect metered discharge - Google Patents

Abstract

The present invention relates to a kiln for firing tantalum capacitors using a certain amount of steam, and in particular, to finely use the indirect quantitative discharge system designed to provide a fixed amount of distilled water in a distilled water tank to prevent defects of tantalum capacitors. It is about a valve.

The purpose of the present invention is to install a minute valve between the solenoid valve and the damper of the distilled water outlet pipe to allow the operator to control the minute amount of distilled water supplied to the steam tank, It is to provide a fine valve to be used in the indirect metering discharge method to ensure that the amounts match.

In order to achieve the above object, the present invention interconnects the solenoid valve (5) to the distilled water outlet pipe (3) interconnecting the pure water storage tank (1) and the steam tank (7) and one side of the steam tank (7) In the kiln system of the fixed-quantity discharge type which supplies distilled water to a steam tank by installing the upper limit level sensor 9 and the lower limit level sensor 11 connected to the solenoid valve 5, the pure water storage tank 1 and the steam tank ( 7) an indirect metering, characterized in that the pure on-off valve 13, the solenoid valve 5, the fine valve 19 and the damper 17 are installed in order in the distilled water outlet pipe 3 interconnecting 7). Provides a fine valve for use in the discharge method.

Description

Fine valve used for indirect metered discharge

The present invention relates to a kiln for firing tantalum capacitors using a certain amount of steam, and in particular, to finely use the indirect quantitative discharge system designed to provide a fixed amount of distilled water in a distilled water tank to prevent defects of tantalum capacitors. It is about a valve.

In general, when the tantalum element is calcined in the kiln, manganese dioxide impregnation liquid is present in the kiln, and the tantalum element is immersed in the immersion liquid to be calcined. Steam is supplied by the discharge method.

1 is a schematic view showing a pure water direct supply method according to the prior art, in which a pure water reservoir is formed above one end of a steam tank 7 and a solenoid valve 5 is provided at an intermediate portion of the distilled water outlet pipe 3 of the pure water tank. Form. One side of the steam tank (7) is provided with an upper limit level sensor (9) and a lower limit level sensor (11) connected to the solenoid valve (5) to control the water level of the steam tank (7). The steam generated in the steam tank 7 is moved to the kiln through the check valve 33 through the steam discharge pipe 30 and to smooth the surface of the product in the kiln.

2 is a schematic view showing another indirect metered discharge method of the prior art, wherein reference numeral 30 denotes a steam discharge tube, and 33 denotes a check valve.

A distilled water outlet pipe 3 having a pure water on-off valve 13 and a flow meter 15 is installed in the middle of one end of the steam tank 7, and the distilled water outlet pipe 3 is a pure water storage tank 1. Interconnected with. The pure water storage tank (1) supplies a predetermined amount of distilled water by the pure on-off valve (13) connected to the bottom, the pure on-off valve (13) is installed in the middle of the distilled water outlet pipe (3) Then, the flow meter 15 is installed in the lower portion where the pure on-off valve 13 is installed, and the distilled water passing through the pure on-off valve 13 is moved in small amounts to the steam tank 7.

A steam discharge tube 30 is formed at an upper portion of the steam tank 7, a check valve 33 is positioned in the middle of the steam discharge tube 30, and an end of the steam discharge tube 30 is connected to a firing furnace. Let's do it. Manganese nitrate solution is impregnated inside the firing furnace to smooth the surface of the tantalum element.

The conventional general steam bath having the above-described configuration is suitable for controlling the amount of distilled water coming into the inside and the amount of steam that smoothes the surface of the product by moving to the firing furnace to fire the tantalum element (product). The water level of the steam bath is measured by the solenoid valve and the light sensor (upper level sensor and the lower limit level sensor) to supply distilled water (pure water). When the water level is measured by the light sensor and the solenoid valve, the steam volume of the steam bath is accurately measured. The problem is that the quantity of steam entering the kiln cannot be matched because it cannot be measured and supplied.

In addition, when a flow meter using a metered discharge method is used, bubbles are generated due to the structure of the flow meter so that distilled water does not pass through the flow meter, and thus, the same amount of distilled water cannot be supplied to the steam tank.

Due to the condensed oil as described above, the amount of steam generated in the steam tank cannot be supplied to the kiln by a certain amount, and thus the temperature of the kiln is not constant. Since the surface of the tantalum element is not smoothly adhered to each other, the adhesion strength is weak and poor exposure occurs, resulting in a deterioration in the quality of the finished tantalum element (product).

The present invention is devised to solve the above problems, the object of the present invention is to provide a fine valve for the operator to control the minute amount of distilled water supplied to the steam tank between the solenoid valve of the distilled water outlet pipe and the damper. It is to provide a fine valve to be used in the indirect quantitative discharge system so that the amount of steam generated in the steam tank and the amount of distilled water coming into the steam tank can be matched.

As described above, in order to achieve the above object, the present invention interconnects the solenoid valve 5 to the distilled water outlet pipe (3) interconnecting the pure water storage tank (1) and the steam tank (7) and the steam tank In the firing furnace system of the fixed-quantity discharge type in which distilled water is supplied to a steam tank by installing an upper limit level sensor 9 and a lower limit level sensor 11 connected to the solenoid valve 5 on one side thereof, the pure water storage tank 1 ) And a pure water on-off valve (13), solenoid valve (5), fine valve (19) and damper (17) in the distilled water outlet pipe (3) interconnecting the steam tank (7). Provided is a fine valve for use in an indirect quantitative discharge method.

1 is a schematic view showing a pure water direct supply method of the prior art.

Figure 2 is a schematic diagram showing another indirect metered discharge method of the prior art.

Figure 3 is a schematic diagram showing the use of the micro-valve of the present invention in an indirect metered discharge type kiln system.

Explanation of symbols for the main parts of the drawings

1: pure water storage tank 3: distilled water outlet pipe

5: solenoid valve 7: steam bath

9: Upper limit level sensor 11: Lower limit level sensor

13: pure on-off valve 15: flow meter

17: damper 19: fine valve

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the present invention in detail as follows.

3 is a schematic view showing the use of the micro-valve of the present invention in an indirect metering discharge kiln system, so that the amount of distilled water entering the steam tank can be arbitrarily adjusted and replace the flow meter, the present invention is a pure water storage tank (1 ) And a pure water on-off valve (13) in the distilled water outlet pipe (3) connected to the steam bath (7) and install a solenoid valve (5) below the pure water on-off valve (13). In the lower part of the solenoid valve 5, a microvalve 19, which is a special valve that can be manipulated by an operator, is installed, and a damper 17 is installed in the lower part of the microvalve 19, thereby providing the steam tank 7. Interconnect to one side of. An upper limit level sensor 9 and a lower limit level sensor 11 connected to the solenoid valve 5 are installed on one side upper portion of the steam tank 7. The uppermost part of the steam tank 7 supplies steam generated from the steam tank 7 to a firing furnace (not shown in the drawing) located above through a check valve 33 installed in the steam discharge pipe 30. .

Referring to the working state of the present invention having the above-described configuration in detail as follows.

When the amount of distilled water (pure water) coming from the pure water storage tank 1 formed at one side of the steam tank 7 and the amount of steam formed in the steam tank 7 and entering the firing furnace coincide, the surface of the tantalum element may be smoothly formed. The fine valve 19 according to the present invention can arbitrarily adjust the amount of distilled water can supply distilled water moving to the steam tank 7 through the distilled water outlet pipe 3 in a quantitative manner. By the heater installed in the lower portion of the steam tank (7) it is possible to maintain a constant temperature of the steam at all times, and thereby to maintain a constant temperature (230-290 °) in the kiln when the steam moves to the kiln. .

Referring to the effects of the present invention by the above-described configuration and operation are as follows.

A fine valve 19 is installed so that the amount of distilled water supplied to the steam tank 7 can be kept constant at all times, and the amount of steam sent to the firing furnace from the steam tank 7 by the fine valve 19 and the steam tank. The amount of distilled water to be supplied can be matched and the amount of distilled water can be supplied to the steam bath accurately without generating bubbles per minute or hourly.

In the case of using a fine valve in the indirect metering discharge kiln system according to the present invention, the surface of the tantalum element (product) is smoothed, it is possible to supply a stable tantalum element is suppressed poor exposure and enhanced adhesion.

Claims (1)

An upper limit level at which the solenoid valve 5 is connected to the distilled water outlet pipe 3 interconnecting the pure water storage tank 1 and the steam tank 7 and connected to the solenoid valve 5 at one side of the steam tank 7. In the kiln system of the fixed-quantity discharge type | mold which installs the sensor 9 and the lower limit level sensor 11, and supplies distilled water to a steam tank, the distilled water outlet pipe 3 which connects the said pure water storage tank 1 and the steam tank 7 to each other. The fine valve used for the indirect metering discharge method, characterized in that the pure water on-off valve (13), solenoid valve (5), fine valve (19) and damper (17) are installed in this order.