CN208953335U - Underground deepwater sampling system - Google Patents

Abstract

The utility model belongs to the technical field of groundwater sampling, especially, relate to a deep water sampling system in pit, include: the depth control device comprises a depth control bracket, a water sample collecting container, a water sample collecting main body arranged below the water surface of a sampling well, a control cable and a water conveying pipe set; the depth control bracket and the water sample collecting container are positioned on the ground outside the sampling well; the water sample collecting main body is connected with the depth regulating support through the regulating cable, and is hung in deep water in the sampling well through the depth regulating support and the regulating cable to collect a water sample; the water sample collecting main body is connected with the water pipe set, and water samples collected from deep water are conveyed into the water sample collecting container through the water conveying pipe set for scientific research. The utility model discloses a sampling system is not only efficient to the work of deep water sampling in the pit, and the sample quality of gathering moreover can obtain the guarantee equally, has established good basis for scientific ground detection and research underground well water pollution work.

Description

A kind of underground deep water sampling system

Technical field

The utility model belongs to groundwater sampling technical field more particularly to a kind of underground deep water sampling system.

Background technique

Underground water pollution monitoring be groundwater environment research element task, groundwater environment monitor reliability, directly Groundwater environmental assessment work is influenced, influences us to the objective understanding of underground water environmental change and the formulation of very important decision.Ground Lower monitoring water environment is that we recognize the change of the hydrogeologic condition, aquifer System structure, groundwater environment element in research area The prerequisite of law is groundwater environmental assessment, prediction, numerical simulation, Analysis On Underground Water Pollution, underground water pollution prevention and treatment Most important basis.

Currently, the sample mode of underground well water pollution is simpler and cruder, for example extracts underground using the water pump for being located at ground Well water sample, when acquiring the underground water sample of different depth, can not residual water sample inside Self-cleaning system, again locality When lower water sample, the sample quality of acquisition can not be ensured, and relatively difficult for the well water collecting sample of relatively deep, be caused The problems such as collecting efficiency is low has to sum up not only severely impacted scientific research progress, but also also affects underground well water pollution detection and grind The accuracy for studying carefully result leads to the waste of Scientific Research Resource.

Utility model content

(1) technical problems to be solved

For existing technical problem, the utility model provides a kind of underground deep water sampling system, solves existing Sampling system in technology can not acquire the low technical problem of deeper water sample, cleaning efficiency.

(2) technical solution

In order to achieve the above object, the main technical schemes of the utility model use include:

A kind of underground deep water sampling system,

Include: depth regulation bracket, water sample collection vessel, be set to sampled well water surface water sampling main body below, regulation Hawser and water-supply-pipe group；

The depth regulation bracket and the water sample collection vessel are located on the ground outside sampled well；

The water sampling main body regulates and controls bracket with the depth by the regulation hawser and connect, and passes through the depth Regulation bracket and the regulation hawser are hung in the deep water in sampled well, to acquire water sample；

The water sampling main body is connect with the water pipe group, and by the water-supply-pipe group will from deep water it is collected Water sample is delivered in water sample collection vessel, to scientific research.

Preferably, the water sampling main body is a deep submersible pump；

The water outlet and pump mouth of the deep submersible pump；

The water-supply-pipe group includes: that outlet pipe and water outlet are in charge of；

One end of the outlet pipe is connect with the water outlet of the deep submersible pump, and company is in charge of in the other end and the water outlet It connects, and can be in charge of by the water outlet and the water sample obtained from deep submersible pump is passed through in the water sample collection vessel；

The pump mouth is in sampling water layer.

Preferably, the deep water water pump further include: water inlet, the first solenoid valve and second solenoid valve；

The water-supply-pipe group further include: flushing pipe；

One end of the flushing pipe is connect with the water inlet, and the other end connects high-pressure wash water source；

First solenoid valve is located at the pump mouth, to control the opening and closing of the pump mouth；

The second solenoid valve is located at the water inlet, to control the opening and closing of the water inlet.

Preferably, the depth regulates and controls bracket further include: control device；

The control device is located at the top of depth regulation bracket, and the cable by being set in the regulation hawser It is electrically connected respectively with first solenoid valve and the second solenoid valve, to control first solenoid valve and described respectively Two solenoid valves open or close.

Preferably, the water-supply-pipe group further include: drainpipe, fork connector, third solenoid valve and the 4th solenoid valve；

The outlet pipe is in charge of with the water outlet respectively by the fork connector to be connect with the drainpipe；

The junction that the third solenoid valve is located at the outlet pipe and the water outlet is in charge of, to control the outlet pipe With the water outlet be in charge of between internal connection or partition；

4th solenoid valve is located at the junction of the drainpipe and the outlet pipe, to control the drainpipe with Internal connection or partition between the outlet pipe.

Preferably, the control device is electrically connected with the third solenoid valve and the 4th solenoid valve respectively, to divide Opening or closing for the third solenoid valve and the 4th solenoid valve is not controlled.

Preferably, the control device is electrically connected by the cable being set in the regulation hawser with the deep submersible pump It connects, to control the work of the deep submersible pump.

Preferably, it is opened in first solenoid valve and third solenoid valve, second electromagnetism and the 4th solenoid valve When closing, the deep submersible pump can will since water sample collected in well be in charge of from the outlet pipe and water outlet be pumped into it is described In water sample collection vessel.

Preferably, it is closed in first solenoid valve and the third solenoid valve, the second solenoid valve and the described 4th When solenoid valve is opened, high-pressure wash water source in the flushing pipe being capable of inside from deep submersible pump, outlet pipe to drainpipe Discharge, to clean internal residual water sample.

It preferably, further include power supply device；

The power supply device is electrically connected with the control device and deep submersible pump respectively；

The power supply device is battery.

(3) beneficial effect

The beneficial effects of the utility model are: the utility model provides a kind of underground deep water sampling system, sampling here is Deep submersible pump in system can still ensure the completion of sampling operation in deeper water layer, secondly, using deep submersible pump Can be avoided can not work due to freezing inside it in cold winter, finally, this system does not need to carry out to pump before sampling The link of interior water filling can directly initiate deep submersible pump and start sampling operation after the completion of preparation.

The sampling system provided in the utility model adds flushing pipe, can be by quickly clear after primary sampling The residual water sample in system is washed, and then carries out next sampling task, not only increases the efficiency of sampling, but also ensured and adopted The quality of the water sample collected.

To sum up, the sampling system provided in the utility model is not only high-efficient for underground deep water sampling operation, but also adopts The sample quality collected can equally be protected, and establish good base for scientifically detection Study of The Underground well water pollution work Plinth.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of underground deep water sampling system of the utility model.

[description of symbols]

1: depth regulates and controls bracket；

2: deep submersible pump；201: the first solenoid valves；202: second solenoid valve；

3: water sample collection vessel；

4: regulation hawser；5: flushing pipe；6: outlet pipe；

7: water outlet is in charge of；701: third solenoid valve；

8: drainpipe；801: the four solenoid valves；

9: control device.

Specific embodiment

It is with reference to the accompanying drawing, right by specific embodiment in order to understand in order to preferably explain the utility model The utility model is described in detail.

Present embodiment discloses a kind of underground deep water sampling systems as shown in Figure 1:, comprising: depth regulates and controls bracket 1, water sample Collection vessel 3 is set to sampled well water surface water sampling main body below, regulation hawser 4 and water-supply-pipe group.

It is noted that underground deep water sampling system described in the present embodiment can not only grab sampling underground compared with deep water The water sample of layer to scientific research, but also can rapidly clean after sampling remaining water sample in system, avoid to next time The influence of sample quality, while also improving the working efficiency of sampling.

In detail, the regulation bracket 1 of depth described in the present embodiment and the water sample collection vessel 3 are located at the ground outside sampled well On face.

The water sampling main body regulates and controls bracket with the depth by the regulation hawser 4 and connect 1, and passes through the depth Degree regulation bracket 1 and the regulation hawser 4 are hung in the deep water in sampled well, to acquire water sample.

The water sampling main body is connect with the water pipe group, and by the water-supply-pipe group will from deep water it is collected Water sample is delivered in water sample collection vessel 3, to scientific research.

In practical applications, regulation hawser described in the present embodiment 4 is not only provided with length scale above, convenient reading its The lower length for placing underground, but also the depth of 4 lower section of the control regulation of bracket 1 hawser can be regulated and controled by the depth, in turn The depth of water layer where controlling the water sampling main body, to realize that the purpose fixed point depthkeeping of experiment acquires the water of mine water layer Sample, to scientific research.

In addition, should be described in detail: water sampling main body described in the present embodiment is a deep submersible pump 2.

Here it is noted that can not only have better deepwater work energy compared to suction pump using deep submersible pump 2 Power, but also can be avoided and can not work due to being freezed inside it in cold winter, finally, this system does not need before sampling Implement the link filled the water into pump, can directly initiate deep submersible pump 2 after the completion of preparation and start sampling operation.

The water outlet and pump mouth of the deep submersible pump 2.

The water-supply-pipe group includes: that outlet pipe 6 and water outlet are in charge of 7.

One end of the outlet pipe 6 is connect with the water outlet of the deep submersible pump 2, and the other end and the water outlet are in charge of 7 Connection, and 7 can be in charge of by the water outlet and the water sample obtained from deep submersible pump 1 is passed through the water sample collection vessel 3 It is interior.

The pump mouth is in sampling water layer.

Water outlet described in the present embodiment is in charge of 7 and is mainly used for for collected water sample being passed through the water sample collection vessel 3 It is interior；Wherein, 6 hoses that can use plastic flexible pipe or other materials, water sample collection vessel 3 described here are in charge of in the water outlet It can be the glass container or other types of container of test, it should be noted that: it should be with the expection for the water sample being collected into Chemical property is reference frame, to carry out the material of selection water sample collection vessel 3.

Deep water water pump 2 described in the present embodiment further include: water inlet, the first solenoid valve 201 and second solenoid valve 202.

In detail, the water-supply-pipe group further include: flushing pipe 5.

One end of the flushing pipe 5 is connect with the water inlet, and the other end connects high-pressure wash water source.

Specifically, first solenoid valve 201 is located at the pump mouth, beats on and off to control the pump mouth It closes.

The second solenoid valve 202 is located at the water inlet, to control the opening and closing of the water inlet.

Here it is noted that flushing pipe described in the present embodiment can be realized rapidly to sampling system domestic demand communications centre The place of wash water sample residue provides flushing water source and is rinsed.

Specifically, by being passed through high pressure washing water source into flushing pipe, then high pressure washing water source is entered by flushing pipe In deep submersible pump, water sample must be remained in the deep submersible pump to dilute, after then being diluted by the deep submersible pump again Residual water sample be passed through the water sample residue further cleaned in outlet pipe in outlet pipe by carrier of high-pressure water, eventually by Waste water is discharged drainpipe, can be rapidly by the residual water sample in the sampling system in the present embodiment by this sequence of maneuvers It removes, realizes the purpose for quickly carrying out next sampling task.

In addition, depth described in the present embodiment regulates and controls bracket 1 further include: control device 9.

In detail, the control device 9 is located at the top of depth regulation bracket 1, and by being set to the regulation cable Cable in rope 4 is electrically connected with first solenoid valve 201 and the second solenoid valve 202 respectively, described to control respectively First solenoid valve 201 and the second solenoid valve 202 open or close.

Water-supply-pipe group described in the present embodiment further include: drainpipe 8, fork connector, third solenoid valve 701 and the 4th Solenoid valve 801.

The outlet pipe 6 by the fork connector respectively with it is described be discharged be in charge of 7 and the drainpipe 8 connect.

4th solenoid valve 801 is located at the junction of the drainpipe 8 and the outlet pipe 6, to control the row Internal connection or partition between water pipe 8 and the outlet pipe 6.

The third solenoid valve 701 is located at the junction that the outlet pipe 6 is in charge of 7 with the water outlet, described to control Connection or partition internal between 7 are in charge of in outlet pipe 6 and the water outlet.

Control device 9 described in the present embodiment is electric with the third solenoid valve 701 and the 4th solenoid valve 801 respectively Connection, to control opening or closing for the third solenoid valve 701 and the 4th solenoid valve 801 respectively.

Control device 9 described in the present embodiment passes through the cable and the sub-aqua diving in the regulation hawser 4 2 electrical connection of pump, to control the work of the deep submersible pump 2.

In detail, it is opened in first solenoid valve 201 and third solenoid valve 801, second electromagnetism 202 and described the When four solenoid valves 701 are closed, the deep submersible pump 2 from the outlet pipe 6 and can will go out since water sample collected in well Moisture pipe 7 is pumped into the water sample collection vessel 3.

It is noted that underground deep water sampling system described in this implementation should meet the first electromagnetism when acquiring sample Valve 201 and third solenoid valve 701 are opened, and second electromagnetism 202 and the 4th solenoid valve 801 are closed, while by described Control device 9 opens the deep submersible pump 2, carries out fixed point depthkeeping acquisition water sample.

Wherein, fixed point depthkeeping is the submerged depth by controlling the regulation hawser 4, and then regulates and controls the deep submersible pump 2 submerged depth.

In detail, it is closed in first solenoid valve 201 and the third solenoid valve 701,202 He of second solenoid valve When 4th solenoid valve 801 is opened, high-pressure wash water source in the flushing pipe 5 can from the inside of deep submersible pump 2, go out Water pipe 6 to drainpipe 8 is discharged, to clean internal residual water sample.

Deep water sampling system described in the present embodiment should meet first solenoid valve 201 and described in self-cleaning Third solenoid valve 701 is closed, and the second solenoid valve 202 and the 4th solenoid valve 801 are opened.Lead at this time into flushing pipe 5 Enter high-pressure wash water source to the residual water sample inside cleaning system, the water sample quickly to carry out next fixed point depth is adopted Collection, improves the efficiency of water sampling, has ensured the quality for collecting water sample.

Finally, it is noted that the underground deep water sampling system disclosed in the present embodiment further includes power supply device.

In detail, the power supply device is electrically connected with the control device 9 and deep submersible pump 2 respectively；The power supply dress It is set to battery.

Certainly, power supply device described in this implementation can also be AC power source etc., when power supply is battery, here Battery setting is on depth regulation bracket 1.

Technical principle of the utility model has been described above with reference to specific embodiments, these descriptions are intended merely to explain this reality With novel principle, it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on explaining herein, ability The technical staff in domain, which does not need to pay for creative labor, can associate with other specific implementation modes of this utility model, these Mode is fallen within the protection scope of the utility model.

Claims (10)

1. a kind of underground deep water sampling system, which is characterized in that

Include: depth regulation bracket, water sample collection vessel, be set to sampled well water surface water sampling main body below, regulation hawser With water-supply-pipe group；

The depth regulation bracket and the water sample collection vessel are located on the ground outside sampled well；

The water sampling main body regulates and controls bracket with the depth by the regulation hawser and connect, and is regulated and controled by the depth Bracket and the regulation hawser are hung in the deep water in sampled well, to acquire water sample；

The water sampling main body is connect with the water-supply-pipe group, and by the water-supply-pipe group will from deep water collected water Sample is delivered in water sample collection vessel, to scientific research.

2. deep water sampling system according to claim 1, which is characterized in that

The water sampling main body is a deep submersible pump；

The deep submersible pump includes water outlet and pump mouth；

The water-supply-pipe group includes: that outlet pipe and water outlet are in charge of；

One end of the outlet pipe is connect with the water outlet of the deep submersible pump, and the other end is in charge of with the water outlet to be connect, and It can be in charge of by the water outlet and the water sample obtained from deep submersible pump is passed through in the water sample collection vessel；

The pump mouth is in sampling water layer.

3. deep water sampling system according to claim 2, which is characterized in that

The deep submersible pump further include: water inlet, the first solenoid valve and second solenoid valve；

The water-supply-pipe group further include: flushing pipe；

One end of the flushing pipe is connect with the water inlet, and the other end connects high-pressure wash water source；

First solenoid valve is located at the pump mouth, to control the opening and closing of the pump mouth；

The second solenoid valve is located at the water inlet, to control the opening and closing of the water inlet.

4. deep water sampling system according to claim 3, which is characterized in that

The depth regulates and controls bracket further include: control device；

The control device is located at the top of depth regulation bracket, and the cable by being set in the regulation hawser is distinguished It is electrically connected with first solenoid valve and the second solenoid valve, to control first solenoid valve and second electricity respectively Magnet valve opens or closes.

5. deep water sampling system according to claim 4, which is characterized in that

The water-supply-pipe group further include: drainpipe, fork connector, third solenoid valve and the 4th solenoid valve；

The outlet pipe is in charge of with the water outlet respectively by the fork connector to be connect with the drainpipe；

The junction that the third solenoid valve is located at the outlet pipe and the water outlet is in charge of, to control the outlet pipe and institute State water outlet be in charge of between internal connection or partition；

4th solenoid valve is located at the junction of the drainpipe and the outlet pipe, to control the drainpipe with it is described Internal connection or partition between outlet pipe.

6. deep water sampling system according to claim 5, which is characterized in that

The control device is electrically connected with the third solenoid valve and the 4th solenoid valve respectively, to control described respectively Three solenoid valves and the 4th solenoid valve open or close.

7. deep water sampling system according to claim 6, which is characterized in that

The control device is electrically connected by the cable being set in the regulation hawser with the deep submersible pump, to control State the work of deep submersible pump.

8. deep water sampling system according to claim 7, which is characterized in that

It is opened in first solenoid valve and third solenoid valve, it is described when second electromagnetism and the 4th solenoid valve are closed Deep submersible pump will can be in charge of to be pumped into the water sample and collect and hold since water sample collected in well from the outlet pipe and water outlet In device.

9. deep water sampling system according to claim 8, which is characterized in that

It is closed in first solenoid valve and the third solenoid valve, the second solenoid valve and the 4th solenoid valve are opened When, the high-pressure wash water source in the flushing pipe can be discharged from the inside of deep submersible pump, outlet pipe to drainpipe, to clear Wash internal residual water sample.

10. deep water sampling system according to claim 9, which is characterized in that

It further include power supply device；

The power supply device is electrically connected with the control device and deep submersible pump respectively；

The power supply device is battery.