CN215414559U - Novel groundwater monitoring is with sampling device - Google Patents

Abstract

The utility model discloses a novel sampling device for underground water monitoring, which comprises a PP (polypropylene) tool box, a peristaltic pump, a silicone tube I, a pipeline three-way joint, a silicone tube II and a PE (polyethylene) tube, wherein the other end of the silicone tube II is positioned in a sampling bottle, the other end of the PE tube is positioned in a monitoring well, a PP (polypropylene) insulating box is arranged at the back of the interior of the PP tool box, a flow rate controller is arranged inside the PP insulating box, a power line plug is arranged outside the PP tool box and above the PE tube, the power line plug is connected with the flow rate controller and the PP insulating box through power lines, a mobile power supply matched with the power line plug for use is arranged outside the PP tool box, a water level gauge matched with the monitoring well for use is arranged outside the PP tool box, a water level gauge rope is arranged on the water level gauge rope, and the other end of the water level gauge rope is positioned in the monitoring well. Compared with the prior art, the utility model has the advantages that: high working efficiency and good use effect.

Description

Novel groundwater monitoring is with sampling device

Technical Field

The utility model relates to the technical field of underground water, in particular to a novel sampling device for underground water monitoring.

Background

The underground water monitoring is realized mainly by a monitoring well, wherein the monitoring well is a special well for monitoring the underground water level, water temperature and water quality change conditions by a drilling method, the construction method is similar to that of a conventional well, a monitoring instrument is placed in the well after completion of the well, and a water sample is regularly taken for analysis and test, so that a sampling device is needed. When the sampling device in the prior art is used, the sampling device is low in working efficiency, wastes a large amount of time and manpower, is not good in using effect and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the technical defects and provide a novel sampling device for underground water monitoring, which has high working efficiency and good using effect.

In order to solve the technical problems, the technical scheme provided by the utility model is as follows: a novel sampling device for underground water monitoring comprises a PP tool box, wherein a peristaltic pump with double pump heads is arranged in the middle of the bottom surface inside the PP tool box, two outlet ends and two inlet ends of the peristaltic pump are respectively provided with a first silicone tube, two adjacent first silicone tubes are connected through a pipeline tee joint, the other ends of the two pipeline tee joints are respectively provided with a second silicone tube and a PE tube, the other ends of the second silicone tube and the PE tube extend to the outside of the PP tool box, the other end of the second silicone tube is positioned in a sampling bottle, the other end of the PE tube is positioned in a monitoring well, a PP insulating box is arranged behind the PP tool box, a flow rate controller is arranged inside the PP insulating box, a power line plug is arranged outside the PP tool box above the PE tube, and is connected with the flow rate controller and the PP insulating box through a power line, the portable power source that the outside of PP toolbox was equipped with the cooperation power cord plug and uses, the outside of PP toolbox is equipped with the water gauge that the cooperation monitoring well used, be equipped with the water gauge rope on the water gauge, the other end of water gauge rope is arranged in the monitoring well.

Compared with the prior art, the utility model has the advantages that: the novel sampling device for underground water monitoring provided by the utility model utilizes the peristaltic pump, not only can realize mechanical automatic continuous sampling and solve the problems of low efficiency, poor sampling stability, water sample disturbance and the like, but also is low in noise, small in size and convenient to carry; utilize the cooperation of peristaltic pump, silicone tube one, pipeline three way connection and PE pipe, not only applicable monitoring well of different bores, not in addition with water sample direct contact, solved the dead problem of water sample pollution and equipment card, improved the result of use.

As an improvement, the flow rate controller is a bare circuit board and is fixed in a PP insulation box through screws, so that the flow rate controller is convenient to maintain and replace.

As an improvement, a battery is arranged in the water level gauge, so that the battery is convenient to replace and can be taken for use.

As an improvement, the peristaltic pump is fixed on the inner bottom surface of the PP tool box through screws and U-shaped iron, so that the peristaltic pump is convenient to maintain and replace.

As an improvement, a water level warning lamp is arranged on the water level gauge, so that the position of the water level can be conveniently measured.

Drawings

Fig. 1 is a schematic structural diagram of a novel sampling device for groundwater monitoring according to the present invention.

As shown in the figure: 1. peristaltic pump, 2, flow rate controller, 3, silicone tube I, 4, PE pipe, 5, PP toolbox, 6, PP insulating box, 7, portable power source, 8, fluviograph, 9, pipeline three way connection, 10, monitoring well, 11, sampling bottle, 12, power cord plug, 13, silicone tube II, 14, water level chi rope.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A novel sampling device for underground water monitoring comprises a PP tool box 5, wherein a peristaltic pump 1 with double pump heads is arranged in the middle of the inner bottom surface of the PP tool box 5, silicone tubes I3 are respectively arranged at two outlet ends and two inlet ends of the peristaltic pump 1, two adjacent silicone tubes I3 are connected through a pipeline three-way joint 9, silicone tubes II 13 and PE tubes 4 are respectively arranged at the other ends of the two pipeline three-way joints 9, the other ends of the silicone tubes II 13 and the PE tubes 4 extend to the outside of the PP tool box 5, the other ends of the silicone tubes II 13 are positioned in a sampling bottle 11, the other end of the PE tube 4 is positioned in a monitoring well 10, a PP insulating box 6 is arranged at the back of the inside of the PP tool box 5, a flow rate controller 2 is arranged inside the PP insulating box 6, a power cord plug 12 is arranged above the PE tubes 4 outside the PP tool box 5, all be connected through the power cord between power cord plug 12 and flow rate controller 2 and the PP insulation box 6, the outside of PP toolbox 5 is equipped with portable power source 7 that cooperation power cord plug 12 used, the outside of PP toolbox 5 is equipped with the water gauge 8 that cooperation monitoring well 10 used, be equipped with water level gauge rope 14 on the water gauge 8, the other end of water level gauge rope 14 is located monitoring well 10.

The flow rate controller 2 is a bare circuit board, and the flow rate controller 2 is fixed in a PP insulation box 6 through screws.

A battery is arranged in the water level gauge 8.

The peristaltic pump 1 is fixed on the inner bottom surface of the PP toolbox 5 through screws and U-shaped iron.

And a water level warning lamp is arranged on the water level meter 8.

In specific implementation, the structure schematic diagram of the novel sampling device for underground water monitoring shown in fig. 1 is combined, when the novel sampling device for underground water monitoring is used, firstly, the power line plug 12 of the flow rate controller 2 is connected with the mobile power supply 7, then the PE pipe 4 and the water level gauge rope 14 of the water level gauge 8 are placed into the monitoring well 10, and when the water level gauge rope 14 touches the water level, the water level warning lamp is turned on, so that a worker can know the position of the water level conveniently, and the using effect is improved. Then clockwise rotation flow rate controller 2 on the power knob, start peristaltic pump 1, water is taken out to sampling bottle 11 through peristaltic pump 1 by PE pipe 4, pipeline three way connection 9 and silicone tube 3 this moment, at this in-process, the water sample does not contact with peristaltic pump 1 inner chamber, only flows in PE pipe 4, pipeline three way connection 9 and silicone tube 3, has not only solved the dead problem of water sample pollution and equipment card, and applicable different bore's monitoring well 10 has improved the result of use in addition. And then, the power knob on the flow rate controller 2 is continuously rotated clockwise or anticlockwise, so that the flow rate can be adjusted, the specified flow rate range is reached according to the standard requirement, the operation is simple, the time and the labor are saved, and the working efficiency is improved. By the operation, the well washing or water extraction operation of the monitoring well 10 can be completed, mechanical automatic continuous sampling can be realized, the problems of low efficiency, poor sampling stability, water sample disturbance and the like are solved, and the device is low in noise, small in size and convenient to carry. And finally, the power supply knob on the flow rate controller 2 is rotated to the end anticlockwise, so that the power supply can be turned off, the operation is stopped, the operation is simple, the time and the labor are saved, and the working efficiency is improved. Therefore, the novel sampling device for monitoring the underground water has high working efficiency and good using effect.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (5)

1. The utility model provides a novel groundwater monitoring is with sampling device, includes PP toolbox (5), its characterized in that: the peristaltic pump (1) with double pump heads is arranged in the middle of the inner bottom surface of the PP tool box (5), two outlet ends and two inlet ends of the peristaltic pump (1) are respectively provided with a silicone tube I (3), two adjacent silicone tubes I (3) are connected through a pipeline tee joint (9), the other ends of the two pipeline tee joints (9) are respectively provided with a silicone tube II (13) and a PE tube (4), the other ends of the silicone tube II (13) and the PE tube (4) extend to the outside of the PP tool box (5), the other end of the silicone tube II (13) is positioned in a sampling bottle (11), the other end of the PE tube (4) is positioned in a monitoring well (10), a PP insulating box (6) is arranged behind the inner part of the PP tool box (5), a flow rate controller (2) is arranged inside the PP insulating box (6), a power cord plug (12) is arranged above the PE tube (4) outside the PP tool box (5), all be connected through the power cord between power cord plug (12) and flow rate controller (2) and the insulating box of PP (polypropylene) 6, the outside of PP toolbox (5) is equipped with portable power source (7) that cooperation power cord plug (12) used, the outside of PP toolbox (5) is equipped with water gauge (8) that cooperation monitoring well (10) used, be equipped with water level chi rope (14) on water gauge (8), the other end of water level chi rope (14) is arranged in monitoring well (10).

2. A novel sampling device for groundwater monitoring according to claim 1, wherein: the flow rate controller (2) is a bare circuit board, and the flow rate controller (2) is fixed in the PP insulation box (6) through screws.

3. A novel sampling device for groundwater monitoring according to claim 1, wherein: and a battery is arranged in the water level meter (8).

4. A novel sampling device for groundwater monitoring according to claim 1, wherein: the peristaltic pump (1) is fixed on the bottom surface of the interior of the PP toolbox (5) through screws and U-shaped iron.

5. A novel sampling device for groundwater monitoring according to claim 1, wherein: and a water level warning lamp is arranged on the water level meter (8).

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