CN219483763U - Self-identification and self-repair intelligent and accurate underground water in-situ repair equipment - Google Patents

Abstract

The utility model discloses self-identification and self-repair intelligent and accurate in-situ groundwater repair equipment, which comprises a proportioning assembly, a repair assembly and a monitoring assembly. The utility model also provides a sample tank in the monitoring component, so that groundwater can be sampled in a manner of storing the groundwater, and then an oxidation repair test is carried out, thereby obtaining a more reasonable preset proportioning scheme of the oxidation repair agent, and simultaneously not affecting the normal groundwater repair operation.

Description

Self-identification and self-repair intelligent and accurate underground water in-situ repair equipment

Technical Field

The utility model belongs to the technical field of stratum restoration, and particularly relates to self-identification and self-restoration intelligent and accurate underground water in-situ restoration equipment.

Background

With the acceleration of global industrialization process, many fields polluted by organic matters appear, soil and groundwater are polluted to different degrees, researches and engineering practices related to groundwater pollution field control and restoration are carried out in developed countries such as the United states and the Netherlands, and a great deal of research results and engineering experience are accumulated for groundwater pollution control and restoration technology.

Referring to the patent application CN210121611U, an injection system for in-situ remediation of soil and groundwater is disclosed, comprising: the device comprises a box body, a medicament storage tank, an injection unit and a power unit; the injection unit includes: a plurality of injection pumps and a main medicament pipeline positioned in the box body; the power unit includes: an air compressor, an air storage tank and an air transmission pipeline which are positioned in the box body. The embodiment of the utility model provides an injection system for in-situ restoration of soil and groundwater.

According to the technology, the quality parameters of the underground water cannot be detected in real time and accurately restored, and in addition, the underground water cannot be stored in a sample, so that a restoration experiment cannot be carried out on the quality change, and a more efficient restoration scheme is not provided.

Disclosure of Invention

The utility model aims to provide self-identification and self-repair intelligent and accurate in-situ groundwater repair equipment so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: self-identification, self-repair's intelligent, accurate groundwater normal position repair equipment includes:

the proportioning assembly comprises a mixing tank and a liquid storage tank; the liquid storage tanks are provided in plurality and are used for respectively storing different kinds of medicaments; the mixing tank is connected with a plurality of liquid storage tanks and is used for receiving different kinds of medicaments to prepare oxidation repair medicaments in a mixing way;

a remediation assembly connected to the liquid storage tank to obtain the oxidative remediation agent, and then discharged into groundwater;

the monitoring assembly comprises a water suction pipe, a sample tank, a water quality detector and a controller; the water suction pipe is connected with the sample tank, and is provided with a water suction pump for conveying groundwater to the sample tank; the water quality detector is connected with the sample tank to obtain water quality parameters, the controller is in signal connection with the water quality detector, and the dosage of different kinds of medicaments conveyed to the mixing tank is controlled according to the water quality parameters.

Preferably, the mixing tank is connected with a liquid inlet pipe for inputting medicament, and the liquid inlet pipe is provided with a liquid inlet pump;

the liquid storage tank is connected with an infusion tube for outputting medicaments, and the infusion tube is connected with the liquid inlet tube; the infusion tube is provided with a flowmeter and an infusion electric control valve; the flowmeter and the infusion electric control valve are electrically connected with the controller.

Preferably, an electrically driven stirring device is arranged in the mixing tank, the stirring device is electrically connected with the controller, and the stirring device is controlled to be opened and closed by the controller.

Preferably, a liquid outlet pump is arranged on the liquid outlet pipe.

Preferably, a plurality of sample bins are arranged in the sample tank, and the sample bins are used for respectively storing underground water;

the sample bins are respectively connected with the water pumping pipe through a sample infusion pipe; the sample infusion tube is provided with a sample infusion valve.

Preferably, the plurality of sample bins are respectively connected with a detection main pipe through a water quality detection pipe, and the detection main pipe is connected with the water quality detector;

the water quality detection valve is arranged on the water quality detection pipe; and a detection pump is arranged on the detection header pipe.

Preferably, the pharmaceutical agent comprises a chemical agent and water.

Preferably, the repair assembly comprises a vertical pipe, a seepage pipe and a drill bit; the lower end of the vertical pipe is connected with the liquid seepage pipe, and the lower end of the liquid seepage pipe is fixedly connected with the drill bit; the vertical pipe is connected with the liquid storage tank to obtain the oxidation repairing agent, and then the oxidation repairing agent is discharged into underground water through the seepage pipe.

The utility model has the technical effects and advantages that:

(1) According to the utility model, firstly, the proportioning component for proportioning the oxidation restoration medicament and the monitoring component for detecting the water quality parameter are arranged, so that the intelligent and accurate in-situ restoration of the groundwater can be realized by controlling the proportioning of different medicaments according to the water quality parameter.

(2) The utility model also provides a sample tank in the monitoring component, so that groundwater can be sampled in a manner of storing the groundwater, and then an oxidation repair test is carried out, thereby obtaining a more reasonable preset proportioning scheme of the oxidation repair agent, and simultaneously not affecting the normal groundwater repair operation.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic structural diagram of a repair assembly according to the present utility model.

In the figure:

1. proportioning components; 11. a mixing tank; 111. a liquid inlet pipe; 112. a liquid inlet pump; 113. a liquid outlet pipe; 114. a liquid outlet pump; 12. a liquid storage tank; 121. an infusion tube; 122. a flow meter; 123. an infusion electric control valve; 2. repairing the component; 21. a vertical tube; 22. a liquid seepage pipe; 23. a drill bit; 24. a liquid level sensor; 3. a monitoring component; 31. a water pumping pipe; 311. a water pump; 32. a sample tank; 33. a sample infusion tube; 331. a sample infusion valve; 34. a water quality detection tube; 341. a water quality detection valve; 35. detecting a main pipe; 351. detecting a pump; 36. a water quality detector; 37. and a controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides self-identification self-repair intelligent and accurate in-situ groundwater repair equipment shown in fig. 1, which comprises a proportioning component 1, a repair component 2 and a monitoring component 3.

The proportioning assembly 1 comprises a mixing tank 11 and a liquid storage tank 12; the liquid storage tanks 12 are provided in plurality and are used for storing different kinds of medicaments, respectively; the mixing tank 11 is connected to a plurality of liquid tanks 12, and is used to receive different kinds of agents to mix and prepare oxidation-repair agents. The chemical stored in the reservoir 12 is one of a chemical and water, and the chemical may be one or more of a Fenton's reagent, hydrogen peroxide, sodium persulfate, and the like.

Specifically, the mixing tank 11 is connected to a liquid inlet pipe 111 for inputting a medicine, and a liquid inlet pump 112 is installed on the liquid inlet pipe 111; the liquid storage tank 12 is connected with an infusion tube 121 for outputting medicament, and the infusion tube 121 is connected with a liquid inlet tube 111; a flow meter 122 and an infusion electronic control valve 123 are mounted on the infusion tube 121. The infusion tube 121 may deliver the medicament into the tube 111 and into the reservoir 12 for mixing.

The remediation assembly 2 is connected to a liquid storage tank 12 to obtain an oxidative remediation agent, which is then discharged into the groundwater.

Specifically, referring to fig. 2, the repair assembly 2 includes a vertical tube 21, a seepage tube 22, and a drill bit 23; the lower end of the vertical pipe 21 is connected with a seepage pipe 22, and the lower end of the seepage pipe 22 is connected with a drill bit 23; the vertical pipe 21 is connected to the liquid storage tank 12 to obtain an oxidation remediation agent, and then discharged into groundwater through the seepage pipe 22. The vertical pipe 21 is vertically communicated with the inside of the seepage pipe 22, when the repair assembly 2 is installed, a cylinder of the seepage pipe 22, which is tightly attached to the inner wall of the seepage pipe 22, is fixed in the seepage pipe 22 in advance, and then the seepage pipe 22 and the vertical pipe 21 are deeply penetrated into the ground through the drill bit 23 by rotating the vertical pipe 21. The seepage pipe 22 is provided with seepage holes which are uniformly distributed for supplying water and medicines to enter and exit the seepage pipe 22. A liquid level sensor 24 is arranged in the vertical pipe 21 and is used for monitoring the height of the water level in the pipe, so that the downward detection depth of the drill bit 23 is conveniently controlled.

Further, an electrically driven stirring device is provided in the mixing tank 11, and the stirring device is electrically connected to the controller 37, and the stirring device is controlled to be turned on and off by the controller 37. The liquid storage tank 12 is connected with the vertical pipe 21 through a liquid outlet pipe 113; a liquid outlet pump 114 is installed on the liquid outlet pipe 113. The stirring device consists of a stirring shaft with stirring blades and a motor for driving the stirring shaft to rotate, so that the mixing of medicaments can be accelerated.

The monitoring assembly 3 comprises a water suction pipe 31, a sample tank 32, a water quality detector 36 and a controller 37; the water suction pipe 31 connects the sample tank 32 and the vertical pipe 21 to convey groundwater to the sample tank 32, and a water suction pump 311 is installed on the water suction pipe 31; the water quality detector 36 is connected with the sample tank 32 to obtain water quality parameters, the controller 37 is connected with the water quality detector 36 and the liquid outlet pump 114 in a signal mode, the flowmeter 122 and the infusion electric control valve 123 are electrically connected with the controller 37, and dosages of different medicaments delivered to the mixing tank 11 are controlled according to the water quality parameters.

Specifically, a plurality of sample bins are disposed in the sample tank 32, and the sample bins are used for respectively storing groundwater; the sample bins are respectively connected with the water pumping pipe 31 through a sample infusion pipe 33; a sample transfer valve 331 is mounted on the sample transfer tube 33. The plurality of sample bins are respectively connected with a detection main pipe 35 through a water quality detection pipe 34, and the detection main pipe 35 is connected with a water quality detector 36; the water quality detection valve 341 is installed on the water quality detection pipe 34; the detection manifold 35 is provided with a detection pump 351. The sample transfusion valve 331, the water quality detection valve 341 and the detection pump 351 are all in signal connection with the controller 37 to control the working state. The plurality of sample bins may each store a different stage of groundwater sample and may each be transported by the water quality detector tube 34 to the water quality detector 36.

The sample tank 32 can be used for carrying out subsequent sampling on the groundwater in a mode of storing the groundwater in advance, and then carrying out an oxidation remediation test, so that a more reasonable preset proportioning scheme of the oxidation remediation agent is obtained, and the normal groundwater remediation operation is not influenced.

Working principle: in the present utility model, firstly, the vertical pipe 21 can be rotated to make the liquid permeation tube 22 and the vertical pipe 21 go deep underground by the drill bit 23, then the water pumping tube 31 and the liquid outlet tube 113 are connected, the water quality detector 36 obtains the water quality parameter by inputting the groundwater in the sample tank 32, the controller 37 controls and presets the dosage of different kinds of medicaments delivered to the mixing tank 11 according to the water quality parameter, the mixing tank 11 receives the different kinds of medicaments to mix and prepare the oxidation repair medicament, the vertical pipe 21 obtains the oxidation repair medicament by the liquid storage tank 12, and then the oxidation repair medicament is discharged into the groundwater by the liquid permeation tube 22.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. Self-identification, self-repair intelligent, accurate groundwater normal position repair equipment, its characterized in that: comprising the following steps:

a proportioning assembly (1) comprising a mixing tank (11) and a liquid storage tank (12); the liquid storage tanks (12) are provided in plurality and are used for respectively storing different kinds of medicaments; the mixing tank (11) is connected with a plurality of the liquid storage tanks (12) and is used for receiving different kinds of medicaments to prepare the oxidation repair medicaments in a mixing way;

a remediation assembly (2) connected to the liquid storage tank (12) to obtain the oxidative remediation agent, which is then discharged into groundwater;

a monitoring assembly (3) comprising a water suction pipe (31), a sample tank (32), a water quality detector (36) and a controller (37); the water suction pipe (31) is connected with the sample tank (32), and a water suction pump (311) is arranged on the water suction pipe (31) so as to convey groundwater to the sample tank (32); the water quality detector (36) is connected with the sample tank (32) to obtain water quality parameters, the controller (37) is connected with the water quality detector (36) in a signal mode, and the dosages of different types of medicaments delivered to the mixing tank (11) are controlled according to the water quality parameters.

2. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: the mixing tank (11) is connected with a liquid inlet pipe (111) for inputting medicament, and a liquid inlet pump (112) is arranged on the liquid inlet pipe (111);

the liquid storage tank (12) is connected with an infusion tube (121) for outputting medicament, and the infusion tube (121) is connected with the liquid inlet tube (111); a flowmeter (122) and an infusion electric control valve (123) are arranged on the infusion tube (121); the flowmeter (122) and the infusion electric control valve (123) are electrically connected with the controller (37).

3. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: an electrically driven stirring device is arranged in the mixing tank (11), and is electrically connected with the controller (37), and the stirring device is controlled to be opened and closed by the controller (37).

4. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: a liquid outlet pump (114) is arranged on the liquid outlet pipe (113).

5. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: a plurality of sample bins are arranged in the sample tank (32) and are used for respectively storing underground water;

the plurality of sample bins are respectively connected with the water pumping pipe (31) through a sample infusion pipe (33); a sample infusion valve (331) is arranged on the sample infusion tube (33).

6. The self-identifying, self-repairing intelligent, accurate groundwater in situ remediation device of claim 5, wherein: the plurality of sample bins are respectively connected with a detection main pipe (35) through a water quality detection pipe (34), and the detection main pipe (35) is connected with the water quality detector (36);

a water quality detection valve (341) is arranged on the water quality detection pipe (34); and a detection pump (351) is arranged on the detection header pipe (35).

7. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: the medicament includes a chemical agent and water.

8. The self-identifying, self-repairing intelligent, accurate groundwater in-situ remediation device of claim 1, wherein: the repairing assembly (2) comprises a vertical pipe (21), a seepage pipe (22) and a drill bit (23); the lower end of the vertical pipe (21) is connected with the seepage pipe (22), and the lower end of the seepage pipe (22) is fixedly connected with the drill bit (23); the vertical pipe (21) is connected with the liquid storage tank (12) to obtain the oxidation repair agent, and then is discharged into groundwater through a seepage pipe (22).