CN215855504U - Underground pollution discharge and dehydration treatment equipment - Google Patents

Abstract

The utility model relates to the technical field of mine pollution discharge, in particular to underground pollution discharge and dehydration treatment equipment which comprises a pollution discharge mechanism, a treatment box, a settling chamber and a treatment chamber which are arranged in the treatment box from left to right, a solid-liquid separation mechanism arranged at the bottom of the settling chamber, a medicament feeding mechanism arranged at the top of the treatment chamber and a control mechanism. According to the device, the stainless steel filter screen arranged in the settling chamber can filter solids in the sewage, so that the water flows into the treatment chamber from the water guide groove, then the agent feeding mechanism is used for feeding a corresponding sewage treatment agent to perform sewage purification treatment, roughly treated water is obtained, the arranged solid-liquid separation mechanism is periodically opened to perform solid-liquid separation on the sewage in the settling chamber, and dehydration treatment on the sewage is realized.

Description

Underground pollution discharge and dehydration treatment equipment

Technical Field

The utility model relates to the technical field of mine pollution discharge, in particular to underground pollution discharge and dehydration treatment equipment.

Background

Most of underground pollution discharge equipment in the existing market can not carry out pollution discharge treatment on mines with different depths due to different operating powers, and pumped dirt can not be dewatered and recycled in time, so that the underground pollution discharge and dewatering treatment equipment is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide underground sewage discharging and dewatering treatment equipment, which is characterized in that an elevation sensor A is arranged on a sewage suction pump, an elevation sensor B is arranged on a treatment box, the elevation of the sewage suction pump can be obtained by utilizing the elevation difference detected by the elevation sensor A and the elevation sensor B, a PLC (programmable logic controller) can adjust the operating power of the sewage suction pump according to the information to ensure that sewage can be pumped into a settling chamber, a stainless steel filter screen arranged in the settling chamber can filter solid in the sewage to enable the water to flow into the treatment chamber from a water guide groove, then a corresponding sewage treatment agent is fed by a medicament feeding mechanism to carry out sewage purification treatment to obtain roughly treated water, a solid-liquid separation mechanism is arranged to be periodically started to carry out solid-liquid separation on the sewage in the settling chamber to realize the dewatering treatment of the sewage, and then the water is guided into the treatment chamber, and the equipment can realize the sewage discharging of mines at different depths, at the same time, effective water recovery is achieved to solve the problems set forth in the background art described above.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a blowdown and dehydration treatment equipment in pit, including blowdown mechanism, handle the case, handle the deposit room and the process chamber that turn right from a left side and set up in the incasement, the solid-liquid separation mechanism of setting in the deposit room bottom, the medicament dispensing mechanism and the control mechanism of setting at the process chamber top, blowdown mechanism is including deepening the soil pick-up pump under the mine, altitude sensor A and the altitude sensor B of setting on handling the case of setting on the soil pick-up pump of setting, solid-liquid separation mechanism is including setting up the solid-liquid separation pump bottom the deposit room discharging pipe and setting up the ooff valve in deposit room bottom discharging pipe mouth department.

As a preferable scheme, a drain pipe of the solid-liquid separation pump extends into the settling chamber and extends into the treatment chamber from a water guide groove arranged at the top of a partition plate between the settling chamber and the treatment chamber.

As a preferred scheme, the inside stainless steel filter screen that transversely is provided with of drip chamber, the feed pipe of soil pick-up pump stretch into in the drip chamber and run through the stainless steel filter screen and extend to the drip chamber bottom from the drip chamber top.

As a preferred scheme, the medicament feeding mechanism comprises a medicament box and a quantitative feeding pump which are arranged on a top plate of the treatment chamber, a pumping pipe of the quantitative feeding pump extends into the medicament box, and a feeding pipe of the quantitative feeding pump extends into the treatment chamber.

As a preferred scheme, the control mechanism comprises a control box arranged on a top plate of the treatment box, a frequency converter, a constant delivery pump controller and a relay group are sequentially arranged on a bottom plate in the control box from left to right, and a PLC controller is arranged on the inner wall of the left side of the control box.

As a preferred scheme, a radar liquid level sensor with a detection head extending into the treatment chamber is arranged on a top plate of the treatment chamber and is connected with the PLC through a circuit.

As a preferred scheme, a driving motor of the sewage suction pump is connected with a frequency converter through a line, and a control line of the frequency converter is connected with a PLC (programmable logic controller).

Preferably, the quantitative dosing pump of the drug dosing mechanism is connected with a quantitative pump controller through a line, and a control line of the quantitative pump controller is connected with the PLC controller.

Preferably, the solid-liquid separation pump and the switch valve in the solid-liquid separation mechanism are respectively connected with the corresponding relay in the relay group through lines, and the control lines of the relays in the relay group are respectively connected with the PLC.

Preferably, the altitude sensor a and the altitude sensor B are respectively connected with the PLC controller through a line.

Compared with the prior art, the utility model has the beneficial effects that: the elevation sensor A is arranged on the sewage suction pump, the elevation sensor B is arranged on the treatment box, the elevation of the sewage suction pump can be obtained by utilizing the altitude difference detected by the altitude sensor A and the altitude sensor B, the PLC can adjust the operating power of the sewage suction pump according to the information to ensure that the sewage can be pumped into the settling chamber, a stainless steel filter screen arranged in the settling chamber can filter the solid in the sewage to ensure that the water flows into the treatment chamber from a water guide groove, then a corresponding sewage treatment agent is put in by the agent putting mechanism to carry out sewage purification treatment to obtain roughly treated water, the arranged solid-liquid separation mechanism is periodically opened to carry out solid-liquid separation on the sewage in the settling chamber to realize dehydration treatment on the sewage, and then the water is led into the treatment chamber, the device can realize pollution discharge of mines with different depths, and simultaneously realize effective water recovery, is suitable for popularization and application.

Drawings

FIG. 1 is a schematic view of the overall structure of a downhole sewage disposal and dewatering apparatus according to the present invention.

In the figure: 1. a treatment tank; 101. a settling chamber; 102. a processing chamber; 103. a water chute; 104. A stainless steel filter screen; 2. a sewage suction pump; 3. an altitude sensor A; 301. an altitude sensor B; 4. a solid-liquid separation pump; 401. an on-off valve; 5. a kit; 501. a quantitative dispensing pump; 6. a radar level sensor; 7. a control box; 701. a frequency converter; 702. a constant displacement pump controller; 703. a relay group; 704. a PLC controller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the present invention.

Example (b):

referring to fig. 1, the present embodiment provides a technical solution:

an underground sewage disposal and dehydration treatment device comprises a sewage disposal mechanism, a treatment box 1, a sedimentation chamber 101 and a treatment chamber 102 which are arranged in the treatment box 1 from left to right, a solid-liquid separation mechanism arranged at the bottom of the sedimentation chamber 101, a medicament feeding mechanism and a control mechanism arranged at the top of the treatment chamber 102, wherein a radar liquid level sensor 6 with a detection head extending into the treatment chamber 102 is arranged on the top plate of the treatment chamber 102, and the radar liquid level sensor 6 is connected with a PLC (programmable logic controller) 704 through a circuit;

the sewage discharging mechanism comprises a sewage suction pump 2 which goes deep into a mine, an altitude sensor A3 arranged on the sewage suction pump 2 and an altitude sensor B301 arranged on the treatment box 1, wherein the altitude sensor A3 and the altitude sensor B301 are respectively connected with a PLC (programmable logic controller) 704 through lines, a stainless steel filter screen 104 is transversely arranged in the sedimentation chamber 101, a feeding pipe of the sewage suction pump 2 extends into the sedimentation chamber 101 from the top of the sedimentation chamber 101 and extends to the bottom of the sedimentation chamber 101 through the stainless steel filter screen 104, a driving motor of the sewage suction pump 2 is connected with a frequency converter 701 through a line, and a control line of the frequency converter 701 is connected with the PLC 704;

the solid-liquid separation mechanism comprises a solid-liquid separation pump 4 arranged at the bottom of a discharge pipe at the bottom of the settling chamber 101 and a switch valve 401 arranged at a pipe orifice of the discharge pipe at the bottom of the settling chamber 101, a drain pipe of the solid-liquid separation pump 4 extends into the settling chamber 101 and extends into the treatment chamber 102 from a water chute 103 arranged at the top of a partition plate between the settling chamber 101 and the treatment chamber 102, and the solid-liquid separation pump 4 and the switch valve 401 in the solid-liquid separation mechanism are respectively connected with corresponding relays in a relay group 703 through lines;

the drug feeding mechanism comprises a drug box 5 and a quantitative feeding pump 501, the drug box 5 and the quantitative feeding pump 501 are arranged on the top plate of the treatment chamber 102, a pumping pipe of the quantitative feeding pump 501 extends into the drug box 5, a feeding pipe of the quantitative feeding pump 501 extends into the treatment chamber 102, the quantitative feeding pump 501 in the drug feeding mechanism is connected with a quantitative pump controller 702 through a line, and a control line of the quantitative pump controller 702 is connected with a PLC (programmable logic controller) 704;

the control mechanism comprises a control box 7 arranged on the top plate of the processing box 1, a frequency converter 701, a constant delivery pump controller 702 and a relay group 703 are sequentially arranged on a bottom plate in the control box 7 from left to right, a PLC 704 is arranged on the inner wall of the left side of the control box 7, and control circuits of all groups of relays in the relay group 703 are respectively connected with the PLC 704.

The working principle is as follows: the elevation sensor A is arranged on the sewage suction pump, the elevation sensor B is arranged on the treatment box, the elevation of the sewage suction pump can be obtained by utilizing the altitude difference detected by the altitude sensor A and the altitude sensor B, the PLC can adjust the operating power of the sewage suction pump according to the information to ensure that the sewage can be pumped into the settling chamber, a stainless steel filter screen arranged in the settling chamber can filter the solid in the sewage to ensure that the water flows into the treatment chamber from a water guide groove, then a corresponding sewage treatment agent is put in by the agent putting mechanism to carry out sewage purification treatment to obtain roughly treated water, the arranged solid-liquid separation mechanism is periodically opened to carry out solid-liquid separation on the sewage in the settling chamber to realize dehydration treatment on the sewage, and then the water is led into the treatment chamber, the device can realize pollution discharge of mines with different depths, and simultaneously realize effective water recovery, is suitable for popularization and application.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a blowdown and dehydration treatment facility in pit, includes that blow-down mechanism, processing case (1) are interior to go right deposit room (101) and processing chamber (102) that set up from a left side, set up the solid-liquid separation mechanism in deposit room (101) bottom, set up at the medicament dispensing mechanism and the control mechanism at processing chamber (102) top, its characterized in that: the sewage discharging mechanism comprises a sewage suction pump (2) penetrating into a mine, an altitude sensor A (3) arranged on the sewage suction pump (2) and an altitude sensor B (301) arranged on a treatment box (1), and the solid-liquid separation mechanism comprises a solid-liquid separation pump (4) arranged at the bottom of a discharge pipe at the bottom of a settling chamber (101) and a switch valve (401) arranged at a pipe orifice of the discharge pipe at the bottom of the settling chamber (101).

2. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: the drain pipe of the solid-liquid separation pump (4) extends into the settling chamber (101) and extends into the treatment chamber (102) from a water chute (103) arranged at the top of the partition board between the settling chamber (101) and the treatment chamber (102).

3. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: the inside stainless steel filter screen (104) that transversely is provided with of drip chamber (101), the feed pipe of soil pick-up pump (2) stretches into in drip chamber (101) and runs through stainless steel filter screen (104) and extend to drip chamber (101) bottom from drip chamber (101) top.

4. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: the drug feeding mechanism comprises a drug box (5) and a quantitative feeding pump (501), the drug box (5) and the quantitative feeding pump are arranged on a top plate of the processing chamber (102), a pumping pipe of the quantitative feeding pump (501) extends into the drug box (5), and a feeding pipe of the quantitative feeding pump (501) extends into the processing chamber (102).

5. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: control mechanism is including setting up control box (7) on handling case (1) roof, turn right from a left side on the inside bottom plate of control box (7) and set gradually converter (701), constant delivery pump controller (702) and relay group (703), be provided with PLC controller (704) on the left side inner wall of control box (7).

6. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: the radar liquid level sensor (6) with a detection head extending into the processing chamber (102) is arranged on the top plate of the processing chamber (102), and the radar liquid level sensor (6) is connected with the PLC (programmable logic controller) (704) through a circuit.

7. A downhole blowdown and dewatering apparatus as claimed in claim 1 or claim 5, wherein: the driving motor of the sewage suction pump (2) is connected with a frequency converter (701) through a line, and a control line of the frequency converter (701) is connected with a PLC (704).

8. A downhole blowdown and dewatering apparatus as claimed in claim 1 or claim 5, wherein: a quantitative dosing pump (501) in the medicine dosing mechanism is connected with a quantitative pump controller (702) through a line, and a control line of the quantitative pump controller (702) is connected with a PLC (programmable logic controller) (704).

9. A downhole blowdown and dewatering apparatus as claimed in claim 1 or claim 5, wherein: a solid-liquid separation pump (4) and a switch valve (401) in the solid-liquid separation mechanism are respectively connected with corresponding relays in a relay group (703) through lines, and control lines of all groups of relays in the relay group (703) are respectively connected with a PLC (programmable logic controller) (704).

10. A downhole blowdown and dewatering apparatus as claimed in claim 1, wherein: the altitude sensor A (3) and the altitude sensor B (301) are respectively connected with a PLC (704) through lines.

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