CN215612316U - Adjusting mechanism for accurately controlling separation water amount of magnetic separator - Google Patents

Abstract

The utility model relates to the technical field of mineral separation automation, and discloses an adjusting mechanism for accurately controlling the separation water quantity of a magnetic separator. Bottom water pipe and rinsing water pipe are connected the magnet separator respectively and are selected separately the water header pipe, and PLC control module connects the magnet separator, and remote control platform passes through cable junction PLC control module, is provided with flowmeter and electrical control valve on bottom water pipe and the rinsing water pipe, and the magnet separator is selected separately and is provided with the filter on the water header pipe, and PLC control module passes through cable junction flowmeter and electrical control valve. The utility model aims to provide an adjusting mechanism for accurately controlling the separation water quantity of a magnetic separator, which can stably and accurately control the flow of rinsing water and bottom water of the magnetic separator without the adjustment of personnel and improve the separation stability of the magnetic separator.

Description

Adjusting mechanism for accurately controlling separation water amount of magnetic separator

Technical Field

The utility model relates to the technical field of mineral separation automation, in particular to an adjusting mechanism for accurately controlling the separation water quantity of a magnetic separator.

Background

The magnetic separator is widely applied to mineral separation production. Traditional magnet separator rinsing water, bottom water do not all have automatic control mechanism such as flowmeter, governing valve, consequently can only realize the control to magnet separator water route water yield size through control water route valve opening by operating personnel, and manual operation has following shortcoming: (1) an operator can only control the size of the separation water quantity of the magnetic separator by controlling the opening of the valve, and the control process has no flow display and low control accuracy; (2) the separation water quantity of the magnetic separator is controlled by the opening of the valve, so that index fluctuation is caused by the influence of factors such as waterway blockage, water pressure fluctuation and low control precision; (3) different magnet separators are influenced by factors such as magnet separator position, water pressure and the like under the condition of the same water quantity, and the separated water quantity distribution has slight difference, so that the valve opening is different, and the requirement of accurately controlling the water quantity cannot be met manually.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an adjusting mechanism for accurately controlling the separation water quantity of a magnetic separator, which aims to solve the problems that (1) an operator can only control the separation water quantity of the magnetic separator by controlling the opening of a valve, the control process has no flow display and the control accuracy is low; (2) the separation water quantity of the magnetic separator is controlled by the opening of the valve, so that index fluctuation is caused by the influence of factors such as waterway blockage, water pressure fluctuation and low control precision; (3) different magnet separators are influenced by factors such as magnet separator position, water pressure and the like under the same water yield condition, and there is slight difference in separation water yield distribution, thereby the valve aperture is different, and the manual work can't satisfy the problem that the accurate control water yield required.

In order to achieve the above objects and other related objects, the present invention provides the following technical solutions: the utility model provides an adjustment mechanism of accurate control magnet separator separation water yield, includes magnet separator, magnet separator separation water header pipe, filter, flowmeter, electrical control valve, end water pipe, rinsing water pipe, cable, PLC control module and remote control platform.

Bottom water pipe and rinsing water pipe are connected magnet separator and magnet separator respectively and are selected separately the water main, and remote control platform passes through cable junction PLC control module, is provided with flowmeter and electrical control valve on bottom water pipe and the rinsing water pipe, and the magnet separator is selected separately and is provided with the filter on the water main, and PLC control module passes through cable junction flowmeter and electrical control valve.

Preferably, the remote control platform is provided with a manual flow setting window.

Preferably, the filter is a DN200 basket filter.

Preferably, the electric control valve is a stainless steel V-shaped ball valve.

Preferably, the flow meter is an electromagnetic flow meter.

Preferably, the filter is mounted in front of the electric control valve.

Preferably, the electrically operated regulating valve is mounted in front of the flow meter.

Preferably, the sorting water main pipe of the magnetic separator is a phi 200 pipeline.

Preferably, the bottom water pipe is a phi 80 stainless steel pipe.

Preferably, the rinsing water pipe is a phi 50 stainless steel pipe.

After the technical scheme is sampled, the utility model has the beneficial effects that: according to the utility model, the flow meter is arranged to accurately meter and feed back the flow of the bottom water pipe and the rinsing water pipe of the magnetic separator, the electric regulating valve is arranged to automatically control the flow of the water channel by executing the opening size instruction of the valve, and the PLC control module and the remote control platform are arranged to realize remote control.

Drawings

Fig. 1 is a schematic structural view of the present invention.

The labels in the figure are: 1-a magnetic separator; 2-a main sorting water pipe of the magnetic separator; 3-a filter; 4-a flow meter; 5-electric regulating valve; 6-bottom water pipe; 7-rinsing the water pipe; 8-a cable; 9-a PLC control module; 10-remote control platform.

Detailed Description

As shown in figure 1, the adjusting mechanism for accurately controlling the separation water quantity of the magnetic separator comprises the magnetic separator, a separation water main pipe of the magnetic separator, a filter, a flowmeter, an electric adjusting valve, a bottom water pipe, a rinsing water pipe, a cable, a PLC control module and a remote control platform.

Bottom water pipe 6 and rinsing water pipe 7 are connected magnet separator 1 respectively and are selected separately water header pipe 2 with the magnet separator, and remote control platform 10 passes through cable 8 and connects PLC control module 9, is provided with flowmeter 4 and electrical control valve 5 on bottom water pipe 6 and the rinsing water pipe 7, is provided with filter 3 on the magnet separator selects separately water header pipe 2, and PLC control module 9 passes through cable 8 and connects flowmeter 4 and electrical control valve 5.

During practical application, the adjusting mechanism for the separation water amount of the magnetic separator is applied to a 1540 weak magnetic separator of a dressing plant of Hongxing iron and steel Limited company of wine and Steel group, information fed back by the flowmeter 4 and set parameters are calculated through the PLC control module 9, and a calculated control instruction is sent to the electric regulating valve 5, so that the flow of the bottom water pipe 6 and the rinsing water pipe 7 of the magnetic separator and the electric regulating valve 5 form a control loop, and the aim of remote automatic adjustment is fulfilled. The functions of the PLC control module 9 comprise manual control and automatic control of the opening of the electric control valve 5, sending a control instruction of the opening of the electric control valve 5, setting flow parameters, converting a set value and a feedback value of the flow parameters into the control instruction of the opening of the electric control valve 5 through calculation, converting a control result into visual data on the remote control platform 10, storing historical data of the set value and the feedback value of the parameters, and setting the water flow of a bottom water pipe and a rinsing water pipe of the magnetic separator and monitoring the normal operation of an adjusting mechanism for accurately controlling the separation water amount of the magnetic separator by the remote control platform 10. The information that the remote control platform 10 can input includes manual and automatic switching of flow control, flow parameter setting, and valve opening setting of an electric control valve.

The utility model can realize no need of personnel adjustment, can stably and accurately control the flow of rinsing water and bottom water of the magnetic separator, improves the separation stability of the magnetic separator, and can visually reflect the blockage condition of a waterway system of the magnetic separator. The problem that the water quantity of a magnetic separator cannot be accurately measured and controlled and the index fluctuation caused by water pressure fluctuation and pipeline blockage is easily solved.

Claims (10)

1. The utility model provides an adjustment mechanism of accurate control magnet separator separation water yield, its characterized in that includes magnet separator (1), magnet separator separation water header pipe (2), filter (3), flowmeter (4), electrical control valve (5), end water pipe (6), rinsing water pipe (7), cable (8), PLC control module (9) and remote control platform (10).

End water pipe (6) with rinsing water pipe (7) are connected respectively magnet separator (1) with magnet separator selects separately water header pipe (2), remote control platform (10) are passed through cable (8) are connected PLC control module (9), end water pipe (6) with be provided with on rinsing water pipe (7) flowmeter (4) with electrical control valve (5), be provided with on magnet separator selects separately water header pipe (2) filter (3), PLC control module (9) are passed through cable (8) are connected flowmeter (4) with electrical control valve (5).

2. The adjusting mechanism for accurately controlling the separation water amount of the magnetic separator as claimed in claim 1, wherein the remote control platform (10) is provided with a manual flow setting window.

3. The regulating mechanism for accurately controlling the separation water quantity of a magnetic separator as claimed in claim 1, wherein the filter (3) is a DN200 basket filter.

4. The adjusting mechanism for accurately controlling the separation water quantity of the magnetic separator as claimed in claim 1, wherein the electric adjusting valve (5) is a stainless steel V-shaped ball valve.

5. The adjusting mechanism for accurately controlling the separation water amount of the magnetic separator as claimed in claim 1, wherein the flow meter (4) is an electromagnetic flow meter.

6. The regulating mechanism for accurately controlling the separation water amount of a magnetic separator as claimed in claim 1, wherein the filter (3) is installed in front of the electric regulating valve (5).

7. The regulating mechanism for accurately controlling the separation water amount of a magnetic separator as claimed in claim 1, wherein the electric regulating valve (5) is installed in front of the flow meter (4).

8. The adjusting mechanism for accurately controlling the separation water quantity of the magnetic separator as claimed in claim 1, wherein the magnetic separator separation water main pipe (2) is a phi 200 pipeline.

9. The adjusting mechanism for accurately controlling the separation water amount of the magnetic separator as claimed in claim 1, wherein the bottom water pipe (6) is a phi 80 stainless steel pipe.

10. The adjusting mechanism for accurately controlling the separation water amount of the magnetic separator as claimed in claim 1, wherein the rinsing water pipe (7) is a phi 50 stainless steel pipe.

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