KR200182401Y1 - An apparatus for controlling press - Google Patents

Abstract

The present invention provides instrumentation nitrogen gas supply pipe for controlling the pressure control valve in the main supply pipe of the high pressure nitrogen holder, and instrumentation nitrogen gas in the vicinity of the main supply pipe of the drawn instrumentation nitrogen gas supply pipe. A valve is mounted to block and supply, a filter regulator for reducing the high pressure nitrogen gas supplied to the instrumentation nitrogen gas supply pipe at a constant pressure, and a receiver tank installed at the rear of the filter regulator to return the nitrogen gas. And a pressure gauge for checking the pressure of the supply gas and the buffered upper portion of the supply gas, a safety valve for preventing the pressure of the pressure gauge from rising above a predetermined pressure, and a vent valve formed at the lower portion of the safety valve, and a nitrogen gas for instrumentation. Including air purge of the pressure control valve through the instrumentation air disconnection or air due to power failure And a pressure control device, characterized in that without any interference even when the air-break for the instrumentation according to the accumulation of breakdown to the constant pressure supply control of the pressure control valve to the base.

Description

Pressure control device {An apparatus for controlling press}

The present invention relates to a pressure control device. In particular, the nitrogen-holding pressure control valve does not interfere with the instrumentation air disconnection due to a power failure or the instrument air disconnection due to the failure of the air compressor. The present invention relates to a pressure control device using nitrogen gas stored in a high-pressure nitrogen holder, in which a pressure control valve is stably operated to control and supply a constant pressure at a selected operating set pressure.

1 is a view showing a nitrogen gas pressure control supply state of a high pressure nitrogen holder using a conventional instrumentation air. ) Is filled with a constant pressure of 20kg / cm ² nitrogen gas is stored in the high-pressure nitrogen holder (10) for emergency supply.

When the instrumentation air becomes a normal supply (supply pressure 7-9kg / cm ² ) to the air supply pipe 20, a check-off valve is performed by the instrumentation air firstly pressurized by each filter regulator 22, 24, 26. The shut off valve 16 and the pressure control valve 14 operate normally to enable emergency supply of nitrogen gas stored in the high pressure nitrogen holder 10.

When the above-described operation method of the off valve 16 and the pressure control valve 14 will be described in detail, the check valve 16 may perform two selective operations for supplying or shutting off nitrogen gas for emergency supply, and for pressure control. In the valve 14, the nitrogen gas supply pressure measured from the nitrogen pressure pressure pipe 30 is instructed to a pressure indigator controller 32, and the supply pressure is set (the setting range is 0 to 10 kg / cm ² ,). When the set pressure is 5kg / cm ² ), the difference in developing instruction pressure with respect to the set pressure is transmitted to the positioner 28 so that the pressure control valve 14 can control the constant pressure in accordance with the set pressure. Will be.

However, when an accident occurs in which the supply air is disconnected due to a power failure or the instrument supply air is disconnected due to a malfunction of the air compressor, the nitrogen gas stored in the high pressure nitrogen holder 10 must be emergency supply. Although the pressure control valve 14 is closed and the control (operation) is not possible, the bypass valve (by-pass valve 15) is opened and supplied, but the supply pressure of the nitrogen gas supply pipe (18) is not always constant. In addition, the emergency supply of the stored nitrogen gas of the high pressure nitrogen holder 10 may not be timely and smoothly.

In the above situation, the 섣 off valve 16 is extinguished by a furnace which is operated to be opened in case of power failure or air disconnection. When the concentration increases due to the penetration of oxygen and moisture into the furnace, the cold rolled steel sheet is produced during production. Oxide is formed on the surface to reduce durability, which is the main cause of peeling, and it takes 5 to 10 hours purge time to completely purge oxygen and moisture of presbyopia to produce normal quality products. This will lead to a reduction in production utilization rates and huge losses.

The present invention is to solve the above-mentioned problems, the pressure at the time of instrumentation air disconnection due to power failure or breakdown of the air compressor by power failure when supplying the stored nitrogen gas of the high pressure bilso holder used in the industrial field The supply of stored nitrogen gas from the nitrogen holder to the instrumentation system of the pressure control valve by using the stored nitrogen gas from the high pressure nitrogen holder enables stable pressure control supply of the pressure control valve. The purpose is to provide a pressure controlled supply method.

The above-mentioned object is to provide the instrumentation nitrogen gas supply pipe for controlling the pressure control valve in the main supply pipe of the high pressure nitrogen holder, and the instrumentation nitrogen gas in the vicinity of the main supply pipe of the drawn instrumentation nitrogen gas supply pipe. A valve is installed to cut off and supply a filter, a filter regulator for reducing the high pressure nitrogen gas supplied to the instrumentation nitrogen gas supply pipe at a constant pressure, and a receiver installed at the rear of the filter regulator to return the nitrogen gas. A pressure gauge for checking the pressure in the upper part of the tank, the buffered supply of the supply gas, and a safety valve for preventing the pressure of the pressure gauge from rising above a predetermined pressure, and a vent valve formed under the safety valve, and instrumentation nitrogen is provided. Including a purge of the pressure control valve through the gas, the instrumentation air disconnection or It is achieved by the pressure control device, characterized in that to allow, without any interference even when the air-break for the instrumentation according to the failure of the compressor group to the constant pressure supply control of the pressure control valve.

1 is a view showing a nitrogen gas pressure control supply state of a high-pressure nitrogen holder using a conventional instrumentation air.

2 is a view showing a pressure control supply using the stored nitrogen gas of the high-pressure nitrogen holder of the present invention.

<Explanation of symbols for main parts of the drawings>

14: pressure control valve

100: nitrogen gas supply pipe for the first instrumentation

200: filter regulator

300: receiver shank

320: safety valve

340: pressure gauge

360: vent valve

400: nitrogen gas supply pipe for the second instrument

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 2, the present invention draws out a nitrogen gas supply pipe a (100) for instrumentation to control the pressure manufacturing lab 14 in the main supply pipe 12 of the high-pressure nitrogen holder 10. In the vicinity of the main supply pipe 12 of the drawn instrument nitrogen gas supply pipe a (100), a valve for blocking and supplying the instrumentation nitrogen gas is attached to the instrumentation nitrogen gas supply pipe a (100). A filter regulator 200 for reducing the pressure of nitrogen gas to be supplied at a constant pressure level is installed, and a small receiver tank 300 is installed at a rear end thereof, and a pressure gauge 340 for buffered supply of the supply gas and pressure check at the upper portion thereof. ) And a safety valve 320 for preventing an abnormal pressure rise, and a vent valve 360 is formed at a lower portion thereof.

Instrumentation nitrogen gas supplied via the receiver tank 300 is supplied by the second nitrogen gas supply pipe 400, and the purge conditioner 28 of the pressure control valve 14 is connected and supplied through the filter regulator 26. The pressure indicator controller 32 has a configuration that is connected and supplied through the filter regulator 24.

When the filter regulator is described in detail, the filter regulator 200 has a decompression capacity of up to 20 kg / cm ^{2 of} input and 8 kg / cm ² of output, and the filter regulator 24 has an input max. 10kg / cm ² , the output pressure of 1.4kg / cm ² , the filter regulator 26 has an input max. 10kg / cm ² , the output pressure of 0.2 ~ 1.0kg / cm ² .

Type Decompression capacity Supply situation by pressure fluctuation of nitrogen holder input output 20 ~ 8kg / cm ² 8 ~ 5.0kg / cm ² Filter Regulator (200) max kg / cm ² 8 kg / cm ² 20 ~ 8kg / cm ² input to output from slip supply Filter Regulator (24) max kg / cm ² 1.4kg / cm ² Normal decompression output Normal decompression output Filter Regulator (26) max kg / cm ² 0.2 ~ 1.0kg / cm ² Normal decompression output Normal decompression output Pressure Control Valves (14) max kg / cm ² set 5kg / cm ² 5kg / cm ² constant pressure control supply by set

The high pressure nitrogen gas supplied from the main supply pipe 12 of the high pressure nitrogen holder 10 to the first instrumentation nitrogen gas supply pipe 100 is decompressed to a constant pressure in the filter regulator 200 (input max 10 kg / cm ^2). & output 8kg / cm ² ) is supplied to the small receiver tank (300). In the receiver tank 300 to buffer the pressure for smooth supply of nitrogen gas supplied for crab.

A pressure gauge 340 for checking pressure and a safety valve 320 for preventing an increase due to an abnormal pressure are formed on the receiver tank 300, and the pressure of the receiver tank 300 is 10 kg due to the operating pressure set to 10 kg / cm ² . If / cm ² or more, it can operate to lower the pressure. The lower side of the receiver tank 300 has a vent valve 360 to discharge the internal gas when the operation such as repair is required. Instrumentation nitrogen gas supplied through the receiver tank 300 is supplied to the two instrumentation by the second nitrogen gas supply pipe 400, more specifically, one supplied from the second nitrogen gas supply pipe 400 Pipe is supplied to the purgener 28 of the pressure control valve 14 through the filter regulator 26, the other supply pipe is supplied to the pressure indicator controller 32 through the filter regulator 24 Instrumentation for stable pressure control valve 14 operation is achieved.

In this way, the filter indicator 200, the receiver tank 300, the second nitrogen gas supply pipe 400, the filter regulator 24 received the nitrogen gas for instrumentation in the indicator indicator controller 32 5kg / cm ² Furnace pressure is set (Stable pressure control supply is possible by arbitrarily adjusting within the set pressure adjustment range. The set pressure is stabilized to prevent breakdown of process low pressure equipment after failure by the nitrogen gas pressure supplied by emergency. Set to 5kg / cm ² ), and the nitrogen pressure supplied to the emergency is measured and measured from the nitrogen pressure pressure pipe 30, and the development indication pressure for the preset 5kg / cm ² pressure is compared with the fugner When the pressure control valve 14 reaches the set pressure and the pressure of the high-pressure nitrogen holder 910 becomes 20 kg / cm ² to 5 kg / cm ² or less, the supply set pressure of the pressure indicator controller 32 (5 kg / cm) ² ) the pressure control valve 14 is closed to supply Will be blocked. On the other hand, if necessary, the supply pressure may be set low to continuously supply nitrogen gas from the emergency-supplied nitrogen holder.

The present invention is stable by means of instrumentation nitrogen gas supply system without any interference even when there is a need for emergency supply of stored nitrogen gas from high pressure nitrogen holder, even when disconnection of instrument air due to power failure or instrument air disconnection due to air compressor failure. The pressure set so that the pressure control valve provides the effect of enabling a constant pressure control supply.

Claims (1)

Instrumentation nitrogen gas supply pipe for controlling the pressure control valve in the main supply pipe of the high pressure nitrogen holder, A valve mounted to close and supply the instrumentation nitrogen gas to the main supply pipe adjacent to the drawn instrumentation nitrogen gas supply pipe; A filter regulator for reducing the high pressure nitrogen gas supplied to the instrumentation nitrogen gas supply pipe at a constant pressure; A receiver tank installed at a rear end of the filter regulator and returning the nitrogen gas; A pressure gauge for checking the pressure on the buffered supply and the upper portion of the feed gas, A safety valve for preventing the pressure of the pressure gauge from rising above a predetermined pressure; A vent valve is formed below the safety valve, and includes a purge conditioner of the pressure control valve through nitrogen gas for instrumentation, and any interference is caused even when instrument air is disconnected due to power failure or instrument air is disconnected due to failure of the air compressor. Pressure control device characterized in that to enable a constant pressure control supply of the pressure control valve without receiving.