CN202195857U - Automatic level monitoring system used for copper foil production - Google Patents

Abstract

The utility model relates to the monitoring field of copper foil production, and particularly relates to an automatic level monitoring system used for copper foil production, which consists of a radar position finder and an DCS automatic monitoring system, wherein the radar position finder is used to measure the level in a solution tank, and the signal output end of the radar position finder is connected with the signal input end of the DCS automatic monitoring system; a wave guide is sleeved on a position finding tube of the radar position finder, and extends into the liquid. The automatic level monitoring system has a simple structure, and can transfer the actual level of the solution tank to the DCS automatic monitoring system, so as to enable the operator to monitor in real time the level in the solution tank, thereby reducing influence brought by inaccurate level information and providing sound basis for parameter control.

Description

A kind of liquid level automatic monitoring system that is used for Copper Foil production

Technical field

Monitoring field when the utility model relates to Copper Foil production is specifically related to a kind of liquid level automatic monitoring system that Copper Foil is produced that is used for.

Background technology

The production run of Copper Foil be unable to do without solution, so is provided with dirty solution tank, clean solution tank, concentrated sulphuric acid storage tank in the production run of Copper Foil, because production technology needs, dirty solution tank, clean solution tank, concentrated sulphuric acid storage tank and the corresponding pump housing all are positioned in the melt pit.If dirty solution tank liquid level is too high, the meeting overflow causes the variation of contaminated aqueous solution or concentration, and then causes Copper Foil quality problems such as pin hole to occur to clean solution tank; If liquid level rises to above cell body, the groove that will overflow hurts people around and equipment, causes the accident; If liquid level is low excessively, can suck air in the pump, cause pump housing damage, these all will have influence on production.And produce when normally carrying out, liquid level is metastable, against regulation product occurs if produce, and can analyze the place of production problem from the situation of change of liquid level, so solution level control is very important.

At present; Adopt the DCS automatic monitoring system that each liquid level is monitored during production: radar level gauge all to be installed at molten each broad liquid bath of coppersmith section; Radar level gauge feeds back to the DCS automatic monitoring system with the level value of measuring; Make DCS automatic monitoring system each tank liquor position situation of synchronous detection in real time, be controlled at state stably to liquid level thereby reach.But after radar level gauge came into operation, because liquid bath does not have the fluctuation of liquid, the measured value of part solution tank was unstable, and what have is mutually far short of what is expected with actual liquid level, even caused and do not show liquid level, can not reliable foundation be provided to explained hereafter.

The utility model content

The purpose of the utility model provides a kind of liquid level in can each liquid bath of stably measured in the Copper Foil production run, and the liquid level automatic monitoring system of reliable liquid level is provided for the staff.

For achieving the above object, the utility model adopts following technical scheme:

A kind of liquid level automatic monitoring system that is used for Copper Foil production; Comprise radar locating meter and DCS monitoring system; Said radar locating meter is used to be arranged in molten each solution tank of coppersmith section, and the signal output part of radar locating meter connects the signal input part of DCS monitoring system, also comprises waveguide pipe; Said waveguide pipe is enclosed within outside the location pipe of radar locating meter, and extend in the liquid of solution tank.

Said waveguide pipe adopts no seam pipeline, and the bottom of waveguide pipe segment distance bottom the solution tank cell body.

Adopt above technical scheme can reach following technique effect:

Owing to outside the location pipe of radar locating meter, be provided with a waveguide pipe; Described waveguide pipe can be stablized the liquid in the pipe; The radar wave that the radar locating meter is sent more returns to the radar locating meter; Increased substantially the echo coefficient, can be in time, send the actual liquid level in the solution tank to the DCS automatic monitoring system exactly.

Description of drawings

Fig. 1 is the structured flowchart of the utility model;

Fig. 2 is the structural representation that the utility model is provided with waveguide pipe.

Embodiment

Like Fig. 1, shown in Figure 2: the utility model comprises radar locating meter and DCS automatic monitoring system, and said radar locating meter is used to measure the liquid level in the solution tank 3, and the signal output part of radar locating meter connects the signal input part of DCS automatic monitoring system; Outside the location pipe 2 of described radar locating meter, be set with waveguide pipe 1, said waveguide pipe 1 extend in the liquid.

When measuring the liquid level in the solution tank 3; Radar locating meter meeting transmitting radar waves; Radar wave is run into the liquid level back reflection and is returned to receive to the radar locating meter; Transmitting radar waves is sent to the DCS automatic monitoring system to the time between the receiving radar ripple, and the DCS automatic monitoring system can calculate the liquid level of liquid according to radar wave from the time that is transmitted into reception.Before originally waveguide pipe 1 not being set, fluctuation often appears in the liquid less stable in the solution tank 3, so the radar wave of liquid emission received seldom by the radar locating meter, and the echo coefficient is little; After being provided with waveguide pipe 1; Because the effect of waveguide pipe, the liquid in waveguide pipe remains static basically, and the location pipe box of radar locating meter is in the inside of waveguide pipe; What therefore the radar wave of radar locating meter emission was run into is liquid more static in the waveguide pipe 1; By more can being received by the radar locating meter of radar wave that reflection liquid is returned, the echo system had relatively before also increased a lot, use waveguide pipe 1 like this after; Can be in time, exactly the actual liquid level in the solution tank is sent to the DCS automatic monitoring system; The operating personnel of DCS automatic monitoring system just can monitor the liquid level in the solution tank in real time, have reduced because of the inaccurate influence that causes of liquid level information, for controlled variable provides strong foundation.

In addition, for the liquid level numerical value that makes measurement is more accurate, waveguide pipe 1 adopts one whole seamless pipeline, and the bottom of waveguide pipe 1 can not be too high apart from the bottom of solution tank 3, and general setpoint distance is about 1 meter.

Claims (2)

1. one kind is used for the liquid level automatic monitoring system that Copper Foil is produced; Comprise radar locating meter and DCS monitoring system; Said radar locating meter is used to be arranged in molten each solution tank of coppersmith section, and the signal output part of radar locating meter connects the signal input part of DCS monitoring system, it is characterized in that: also comprise waveguide pipe; Said waveguide pipe is enclosed within outside the location pipe of radar locating meter, and extend in the liquid of solution tank.

2. as claimed in claim 1ly be used for the liquid level automatic checkout system that Copper Foil is produced, it is characterized in that: said waveguide pipe adopts no seam pipeline, and the bottom of waveguide pipe segment distance bottom the solution tank cell body.

Images