CN205958301U - Groundwater sample thief is used to hydrogeology - Google Patents

Abstract

The utility model provides a groundwater sample thief is used to hydrogeology, its sampling tube hangs in the well perpendicularly through the support, the lower extreme of sampling tube is provided with the water inlet, water inlet department is provided with check valve A, the upper end of sampling tube is connected with induction -pipe and outlet pipe respectively, the induction -pipe passes the upper end cover of sampling tube and stretches into the upper end of sampling tube inner chamber, the outlet pipe passes the upper end cover of sampling tube and stretches into the bottom of sampling tube inner chamber, and the tip of outlet pipe is provided with check valve B, the other end of the induction -pipe coherent pump of parallel connection that elevates above the soil, the air pump is connected with the controller, the other end of outlet pipe elevates above the soil and is connected with the sampling bottle, the intracavity lateral wall upper portion of sampling bottle is provided with photoelectric liquid level sensor A, the intracavity lateral wall bottom of sampling tube is provided with photoelectric liquid level sensor B, and photoelectric liquid level sensor B is higher than the lower extreme of outlet pipe, photoelectric liquid level sensor A and photoelectric liquid level sensor B are connected with the controller respectively. High -pressure gas's waste can effectually be avoided to this sample thief.

Description

A kind of hydrogeology underground water sampler

Technical field

The utility model relates to a kind of hydrogeology underground water sampler, belong to hydrogeologic prospecting technology neck Domain.

Background technology

In hydrogeologic prospecting work, need the groundwater sampling to different regions, so that the water quality of observation each department Situation.At present, it is impossible to monitor the situation of water in sampler in time in the gas displacement type sampler generally adopting, if sampling Water in bottle is full, is now further continued for, toward if conveying high-pressure gas in sampler, to cause the waste of gases at high pressure, increase is adopted Sample cost.Additionally, gases at high pressure are easily accessible outlet pipe and affect the accuracy sampled, here it is existing for prior art not In place of foot.

Content of the invention

The technical problems to be solved in the utility model is it is simply that be directed to the deficiency existing for prior art, and provides a kind of water Civilian geology underground water sampler, this sampler can effectively avoid the waste of gases at high pressure, improves sampling precision.

This programme is achieved by the following technical measures：This hydrogeology underground water sampler includes decentralization to water Probe tube in well, described probe tube is suspended in well by support vertical, and the lower end of described probe tube is provided with water inlet, Water inlet is provided with check valve A, and the upper end of described probe tube is connected to snorkel and outlet pipe, and described snorkel passes through The upper end cover of probe tube simultaneously stretches into the upper end sampling tube cavity, and described outlet pipe passes through the upper end cover of probe tube and stretches into probe tube The bottom of inner chamber, and the end of outlet pipe is provided with check valve B, the other end of described snorkel elevates above the soil and connects air pump, Air pump is connected with controller, and the other end of described outlet pipe elevates above the soil and is connected with sampling bottle, the lumen side of described sampling bottle Wall top is provided with photoelectric liquid level sensor A, and the intracavity sidewall bottom of described probe tube is provided with photoelectric liquid level sensor B, and Photoelectric liquid level sensor B be higher than outlet pipe lower end, photoelectric liquid level sensor A and photoelectric liquid level sensor B respectively with controller Connect.

Flowing to of above-mentioned check valve A and check valve B is identical.

Above-mentioned support includes horizontal stand and vertical support frame, and described horizontal stand supports on the ground, described vertical support frame Upper end and horizontal stand be connected, the upper end of lower end and probe tube is connected.

The external diameter of above-mentioned probe tube is less than the diameter of well.

Above-mentioned snorkel is pvc pipe.

Above-mentioned outlet pipe is pvc pipe.

The beneficial effect of this programme can be learnt according to the narration of such scheme, this hydrogeology underground water sampler In, described probe tube is suspended in well by support vertical, so can ensure that the stability of probe tube.Described probe tube Lower end is provided with water inlet, and water inlet is provided with check valve A, make water can only from stratum to sampling Bottomhole pressure, described sampling The upper end of pipe is connected to snorkel and outlet pipe, and described snorkel passes through the upper end cover of probe tube and stretches into sampling tube cavity Upper end, supplied into probe tube by snorkel, described outlet pipe passes through the upper end cover of probe tube and stretches into sampling tube cavity Bottom, and the end of outlet pipe is provided with check valve B, so that water can only be flowed from probe tube to outlet pipe, described snorkel The other end elevates above the soil and connects air pump, and air pump is connected with controller, and the other end of outlet pipe elevates above the soil and is connected with sampling Bottle, the intracavity sidewall top of described sampling bottle is provided with photoelectric liquid level sensor A, the intracavity sidewall bottom setting of described probe tube There is photoelectric liquid level sensor B, and photoelectric liquid level sensor B is higher than lower end, photoelectric liquid level sensor A and the photoelectric level of outlet pipe Sensor B is connected with controller respectively.When liquid level reaches photoelectric liquid level sensor B, controller controls air pump to start working, from And ensure that gas will not enter outlet pipe, to prevent gas from entering the accuracy that outlet pipe can affect to sample.By photoelectric level The level condition of sensors A real-time monitoring sampling water in bottle, when liquid level reaches at photoelectric liquid level sensor A, controller controls Air pump quits work, and prevents air pump from continuing the supply into probe tube, thus avoiding the waste of gases at high pressure.As can be seen here, originally Utility model compared with prior art, has substantive distinguishing features and progress, and the beneficial effect that it is implemented is also obvious.

Brief description

Fig. 1 is the structural representation of this utility model specific embodiment.

In figure, 1- sampling bottle, 2- photoelectric liquid level sensor A, 3- outlet pipe, 4- well, 5- check valve B, 6- check valve A, 7- photoelectric liquid level sensor B, 8- probe tube, 9- snorkel, 10- vertical support frame, 11- horizontal stand, 12- air pump, 13- controls Device.

Specific embodiment

For the technical characterstic of this programme can be clearly described, below by specific embodiment, and combine its accompanying drawing, to we Case is illustrated.

A kind of hydrogeology underground water sampler, as illustrated, it includes transferring the probe tube 8 to well 4, described Probe tube 8 is suspended in well 4 by support vertical, and described support includes horizontal stand 11 and vertical support frame 10, described level Support 11 supports on the ground, and the upper end of described vertical support frame 10 and horizontal stand 11 are connected, the upper end of lower end and probe tube 8 is solid Even.By horizontal stand 11 and vertical support frame 10, stable for probe tube 8 is supported in well 4, ensure that stablizing of sampling Property, and the external diameter of probe tube 8 is less than the diameter of well 4, to ensure that probe tube 8 can smoothly transfer to well 4.

The lower end of described probe tube 8 is provided with water inlet, and water inlet is provided with check valve A6, described probe tube 8 upper End is connected to snorkel 9 and outlet pipe 3, and snorkel 9 and outlet pipe 3 are pvc pipe, can reduce the flow resistance to water, institute State the upper end that snorkel 9 passes through the upper end cover of probe tube 8 and stretches into probe tube 8 inner chamber, described outlet pipe 3 passes through probe tube 8 Upper end cover simultaneously stretches into the bottom of probe tube 8 inner chamber, and the end of outlet pipe 3 is provided with check valve B5, check valve A6 and check valve Flowing to of B5 is identical, and the other end of described snorkel 9 elevates above the soil and connects air pump 12, and air pump 12 is connected with controller 13, institute The other end stating outlet pipe 3 elevates above the soil and is connected with sampling bottle 1, and the intracavity sidewall top of described sampling bottle 1 is provided with photoelectricity Liquid level sensor A2, the intracavity sidewall bottom of described probe tube 8 is provided with photoelectric liquid level sensor B7, and photoelectric liquid level sensor B7 is higher than the lower end of outlet pipe 3, and photoelectric liquid level sensor A2 and photoelectric liquid level sensor B7 is connected with controller 13 respectively.

During sampling, the water in stratum enters in probe tube 8 by check valve A6, when liquid level reaches under the hydrostatic pressure of water During photoelectric liquid level sensor B7, controller 13 controls air pump 12 to start working, thus ensureing that gas will not enter outlet pipe 3, with Prevent gas from entering the accuracy that outlet pipe 3 can affect to sample.Air pump 12 passes through snorkel 9 to conveying high-pressure gas in probe tube 8 Body, the water in probe tube 8 enters outlet pipe 3 by check valve B5 in the presence of gases at high pressure, enters sampling by outlet pipe 3 Bottle 1, by the level condition in photoelectric liquid level sensor A2 real-time monitoring sampling bottle 1, when liquid level reaches photoelectric liquid level sensor When at A2, controller 13 controls air pump to quit work, and prevents air pump 12 from continuing the supply into probe tube 8, thus avoiding high pressure The waste of gas.

Can be achieved by the prior art without the technical characteristic of description in this utility model, will not be described here.This reality It is not limited in above-mentioned specific embodiment with new, those of ordinary skill in the art do in essential scope of the present utility model Change, remodeling, interpolation or the replacement going out, also should belong to protection domain of the present utility model.

Claims (6)

1. a kind of hydrogeology underground water sampler, it includes transferring the probe tube to well, it is characterized in that：Described sampling Gutron is crossed support vertical and is suspended in well, and the lower end of described probe tube is provided with water inlet, and water inlet is provided with check valve A, the upper end of described probe tube is connected to snorkel and outlet pipe, and described snorkel passes through the upper end cover of probe tube and stretches into The upper end of sampling tube cavity, described outlet pipe passes through the upper end cover of probe tube and stretches into the bottom of sampling tube cavity, and outlet pipe End be provided with check valve B, the other end of described snorkel elevates above the soil and connects air pump, and air pump is connected with controller, institute The other end stating outlet pipe elevates above the soil and is connected with sampling bottle, and the intracavity sidewall top of described sampling bottle is provided with photoelectric level Sensors A, the intracavity sidewall bottom of described probe tube is provided with photoelectric liquid level sensor B, and photoelectric liquid level sensor B is higher than The lower end of water pipe, photoelectric liquid level sensor A and photoelectric liquid level sensor B are connected with controller respectively.

2. hydrogeology underground water sampler according to claim 1, is characterized in that：Described check valve A and check valve B Flow to identical.

3. hydrogeology underground water sampler according to claim 2, is characterized in that：Described support includes horizontal stand And vertical support frame, described horizontal stand supports on the ground, the upper end of described vertical support frame is connected with horizontal stand, lower end with take The upper end of sample pipe is connected.

4. hydrogeology underground water sampler according to claim 3, is characterized in that：The external diameter of described probe tube is less than The diameter of well.

5. hydrogeology underground water sampler according to claim 4, is characterized in that：Described snorkel is pvc pipe.

6. hydrogeology underground water sampler according to claim 5, is characterized in that：Described outlet pipe is pvc pipe.