CN215339096U - Hydrogeology reconnaissance water source sampling test device - Google Patents

Abstract

The utility model belongs to the technical field of hydrogeological prospecting equipment, in particular to a hydrogeological prospecting water source sampling detection device, which comprises a holding cylinder for workers to hold, wherein a water inlet conical head used for installing parts and extending into the water is arranged below the holding cylinder, a telescopic connecting rod used for connecting the holding cylinder and the water inlet conical head is fixedly arranged between the bottom of the holding cylinder and the top of the water inlet conical head, in the utility model, after a sampling assembly moves downwards to a specified depth, an inlet end of five L-shaped water guide pipes can be slowly superposed with five water leakage holes on the water inlet conical head by rotating a holding rod connected to the top of the sampling cylinder to finish the collection work of a water source, after the collection is finished, the holding rod is rotated again to ensure that a top plate re-plugs the five water leakage holes to cut off the water source, the L-shaped water guide pipes can be effectively opened and closed to perform the water source sampling work in areas with different depths, the operating efficiency is high, has improved the sample accuracy degree of water source sample.

Description

Hydrogeology reconnaissance water source sampling test device

Technical Field

The utility model belongs to the technical field of hydrogeological exploration equipment, and particularly relates to a hydrogeological exploration water source sampling and detecting device.

Background

In the process of building construction, use and exploitation utilization of water resources, water temperature geological exploration work needs to be carried out on an appointed area, hydrogeological conditions of the appointed area are found out through hydrogeological exploration, detection data are researched, reasonable exploitation utilization of the water resources is achieved, and a basis is provided for construction, so that normal engineering construction is guaranteed.

SUMMERY OF THE UTILITY MODEL

At present generally be artifical handheld sampling tube and carry out the sample work at water source, the water source sample of taking out is poured into and is detected test tube inside, still or add reagent and accomplish detection achievement, when carrying out sample work in the region to the different degree of depth in water source, need change the sampling tube of length adaptation, the operating efficiency is reduced, inconvenient water source that carries out the different degree of depth carries out sample detection work, and the work of opening and shutting of sampling tube can't effectually carry out, water source sample and the inconsistent condition of degree of depth appear easily during the sample, detection effect and precision have been reduced. The utility model provides a hydrogeological prospecting water source sampling detection device, which has the characteristics of high operation efficiency, high detection effect and high precision, and can effectively open and close a sampling tube and perform water source sampling work in different depth areas of a water source.

The utility model provides the following technical scheme: the device comprises a holding barrel for holding a worker, wherein a water inlet conical head used for mounting parts and extending into the water is arranged below the holding barrel, the bottom of the holding barrel and the top of the water inlet conical head are fixedly provided with a telescopic connecting rod used for connecting the holding barrel and the water inlet conical head, a sampling assembly used for collecting a water source sample is fixedly arranged inside the water inlet conical head, and the top of the sampling assembly is fixedly provided with a holding rod which extends upwards to the outside of the holding barrel and is used for holding the worker.

Five water leakage holes which are distributed in an annular shape and used for introducing a water source into the sampling assembly are formed in the top of the outer wall of the water inlet conical head.

Wherein, sampling component includes sampler barrel, roof and L shape leading water pipe, the sampler barrel sets firmly the holding rod bottom is used for gathering the water source sample, the sampler barrel block is connected go into inside the water cone head, just the sampler barrel with go into clearance fit between the water cone head.

The top plate is fixedly arranged at the top of the sampling cylinder and used for connecting the water inlet conical head and plugging the water leakage hole, the top plate is connected with the water inlet conical head in a clamping manner, and the top plate is in interference fit with the water inlet conical head.

The L-shaped water conduit is fixedly arranged at the top of the sampling cylinder and is used for being connected with the top plate, and the inlet end of the L-shaped water conduit is fixedly arranged in the top plate and is used for leading out a water source entering the water leakage hole.

The sampling tube comprises a sampling tube body, L-shaped water guide pipes, sampling holes and sampling tubes, wherein the number of the L-shaped water guide pipes is five, five L-shaped water guide pipes are annularly distributed at the top of the sampling tube, and the five L-shaped water guide pipes correspond to the five water leakage holes.

The number of the telescopic connecting rods is four, and the telescopic connecting rods are distributed in a cross shape.

The outer wall of the holding rod is connected with a floating block floating on the water surface in a sliding mode, the outer wall of the holding rod is fixedly provided with a graduated scale, and the graduated scale is located on the inner side of the floating block and used for displaying the height of the liquid level of the floating block.

The utility model has the beneficial effects that:

1. according to the utility model, the holding cylinder and the water inlet conical head are connected together through four telescopic connecting rods distributed in a cross shape, the overall length of the device can be adjusted through the telescopic connecting rods, the sampling assembly is clamped inside the water inlet conical head, the sampling assembly can downwards extend into different areas in a water source through the overall length of the adjusting device, the operation is simple, the overall length of the device can be conveniently adjusted so as to perform sampling work at different depths of the water source, the applicability is strong, the sampling detection effect is improved, parts can be reset after the work is completed, and the device can be conveniently stored and moved.

2. According to the utility model, the sampling assembly consists of the sampling cylinder, the top plate and five L-shaped water guide pipes which are communicated with the top plate and the sampling cylinder, after the sampling assembly moves downwards to a specified depth, the inlet ends of the five L-shaped water guide pipes can be slowly overlapped with five water leakage holes on the water inlet conical head by rotating the holding rod connected to the top of the sampling cylinder, so that the water source collection work is completed, after the collection is completed, the holding rod is rotated again to enable the top plate to re-plug the five water leakage holes, the water source is isolated, the water source sampling work is completed, the operation is simple, the water source sampling work is convenient to carry out, the L-shaped water guide pipes can be effectively opened and closed, the water source sampling work in different depth areas of the water source can be carried out, the operation efficiency is high, the sampling accuracy of a water source sample is improved, and the detection effect and the detection accuracy are ensured.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic cross-sectional view of the front view of the present invention;

FIG. 2 is a schematic sectional view of the water inlet cone head and the sampling assembly of the present invention from above;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic structural diagram of a sampling assembly according to the present invention.

In the figure: 1. a barrel is held; 2. a water inlet conical head; 21. a water leakage hole; 3. a telescopic connecting rod; 4. a sampling assembly; 41. a sampling tube; 42. a top plate; 43. an L-shaped water conduit; 5. a holding rod; 51. floating blocks; 52. a graduated scale.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: including being used for the workman to grip a section of thick bamboo 1, hold a 1 below of section of thick bamboo and have and be used for the installation part and stretch into underwater income conical head 2, hold a 1 bottom of section of thick bamboo and go into to be set firmly between conical head 2 tops and be used for connecting and hold a section of thick bamboo 1 and go into flexible connecting rod 3 of conical head 2, go into that conical head 2 inside sets firmly the sampling subassembly 4 that is used for gathering the water source sample, sampling subassembly 4 top sets firmly upwards stretches out to holding a 1 outside and be used for the holding rod 5 that the workman gripped.

In this embodiment: hold a section of thick bamboo 1 and go into to be connected with four telescopic link 3 that are the cross and distribute between the conical head 2, four telescopic link 3 will hold a section of thick bamboo 1 and go into the conical head 2 and link together, the fastness of holding a section of thick bamboo 1 and going into between the conical head 2 and the stability when using has been improved, the clearance has between four telescopic link 3, when the device stretches into the aquatic, water can flow in the clearance between telescopic link 3, the circulation work of water has been realized, the cooperation is gone into conical head 2 and can improve the smoothness nature that the device removed in the aquatic.

The holding cylinder 1 and the water inlet conical head 2 can adjust the whole length of the device through the telescopic connecting rod 3, so as to change the position of the sampling component 4 clamped inside the water inlet conical head 2, thereby facilitating the adjustment of the whole length of the device and the position adjustment work of the sampling component 4, the working efficiency is high, through the whole length of the adjusting device, the water inlet conical head 2 can drive the sampling component 4 to downwards enter different areas in a water source in the water source, so as to perform the sampling work of different depths of the water source, the operation is simple, the sampling work of different depths of the water source is convenient to perform, the applicability is strong, the detection work is performed by collecting the water source samples of different depths of the water source, the sampling detection effect is improved, after the work is completed, the water inlet conical head 2 stands on the ground, then the holding cylinder 1 can be pressed downwards to complete the reset work, and the device returns to the original size, the device is convenient to store and move.

Sampling component 4 is by sampler barrel 41, roof 42 and five L shape leading water pipes 43 are constituteed, the top at sampler barrel 41 is fixed to roof 42, five L shape leading water pipes 43 are installed between the top of sampler barrel 41 and the inner wall of roof 42, and L shape leading water pipe 43 intercommunication sampler barrel 41 and roof 42, the holistic structural strength of sampling component 4 is high, sampler barrel 41 and roof 42 can all be blocked into inside the conical head 2 that entries, interference fit between roof 42 and the conical head 2 that entries, the fastness of sampling component 4 integral erection in the conical head 2 that entries has been improved, clearance fit between sampler barrel 41 and the conical head 2 that entries, the whole fluency when taking out from the conical head 2 that entries of sampling component 4 has been improved.

Five water leakage holes 21 which are distributed in an annular shape and correspond to the five L-shaped water guide pipes 43 are formed in the top of the outer wall of the water inlet conical head 2, after the sampling assembly 4 is installed in the water inlet conical head 2, the five L-shaped water guide pipes 43 and the five water leakage holes 21 are staggered mutually, the five water leakage holes 21 are blocked by the top plate 42, the situation that water automatically penetrates through the water leakage holes 21 and the L-shaped water guide pipes 43 and enters the sampling cylinder 41 when the device moves in water can be prevented, the holding rod 5 with the top end extending upwards to the upper part of the holding cylinder 1 is installed in the center of the top of the sampling cylinder 41, when the device is used, a worker holds the holding rod 5 and pushes the holding rod 5 downwards to enable the sampling assembly 4 and the water inlet conical head 2 to move downwards in water, the holding rod 5 is arranged to facilitate the force application of the worker, the movement work of the sampling assembly 4 and the water inlet conical head 2 is facilitated, after the sampling assembly 4 reaches a specified depth, the holding rod 5 can be rotated to simultaneously rotate the sampling cylinder 41 and the top plate 42 in the water inlet conical head 2, so that the inlet ends of the five L-shaped water guide pipes 43 are slowly overlapped with the five water leakage holes 21, at the moment, water can penetrate through the water leakage holes 21 and the L-shaped water guide pipes 43 and downwards enter the sampling cylinder 41 to finish the collection work of a water source, after the collection of the water source sample is finished, the holding rod 5 is continuously rotated to ensure that the top plate 42 plugs the five water leakage holes 21 again to cut off the water source, the sampling work of the water source is finished, the operation is simple, the sampling work of the water source is convenient, the operation efficiency is high, a worker can realize the overlapping and plugging work between the five L-shaped water guide pipes 43 and the five water leakage holes 21 by rotating the holding rod 5 to finish the collection and the cutting off work of the water source, the L-shaped water guide pipes 43 can be effectively opened and closed to sample water source samples in areas with different depths, and the occurrence of inconsistent water source samples and sampling depths is reduced, the sampling accuracy of the water source sample is improved, and the subsequent detection effect and precision are improved.

After the sample work was accomplished, upwards pulling holding rod 5 can be with the whole 2 inside taking out of income water cone head of sample subassembly 4, then can pour the water source sample in the sample section of thick bamboo 41 inside the detection test tube, carry out the detection achievement of water source sample, convenient to use.

5 outer wall sliding connection of holding rod has floating block 51, at the sampling in-process, floating block 51 floats on the surface of water all the time, the scale 52 of installing on the 5 outer walls of holding rod is located the inboard of floating block 51, the device is when getting into under water downwards, floating block 51 can change the position in the scale 52 outside, the workman is through the scale mark of observing floating block 51 position department, can learn the device depth that gets into the aquatic downwards to carry out the regional water source sample work of the different degree of depth in water source.

The working principle and the using process of the utility model are as follows: when the sampling device works, a worker holds the holding barrel 1 to place the water inlet conical head 2 into water downwards, holds the holding rod 5 and presses the holding rod 5 downwards to enable the water inlet conical head 2 to drive the sampling assembly 4 to move downwards in the water, the worker knows the depth of the sampling assembly 4 entering the water downwards by observing the scale mark at the position of the floating block 51, after the sampling assembly 4 reaches the specified depth, the holding rod 5 is rotated to enable the inlet ends of the five L-shaped water guide pipes 43 to be overlapped with the five water leakage holes 21 slowly, water passes through the water leakage holes 21 and the L-shaped water guide pipes 43 to enter the sampling barrel 41 downwards to finish the collection work of a water source, after the collection is finished, the holding rod 5 is continuously rotated to enable the top plate 42 to plug the five water leakage holes 21 again to cut off the water source to finish the sampling work of the water source, then the holding rod 5 is pulled upwards to enable the sampling assembly 4 and the water inlet conical head 2 to move upwards, and after the water inlet conical head 2 is reset, the holding rod 5 is pulled upwards to take out the sampling component 4 from the interior of the water inlet cone head 2, and then the water source sample is poured out from the sampling cylinder 41 to the interior of the detection test tube, so that the detection work of the water source sample is carried out.

Claims (8)

1. The utility model provides a hydrogeology reconnaissance water source sample detection device which characterized in that: the device comprises a holding barrel for holding a worker, wherein a water inlet conical head used for mounting parts and extending into the water is arranged below the holding barrel, the bottom of the holding barrel and the top of the water inlet conical head are fixedly provided with a telescopic connecting rod used for connecting the holding barrel and the water inlet conical head, a sampling assembly used for collecting a water source sample is fixedly arranged inside the water inlet conical head, and the top of the sampling assembly is fixedly provided with a holding rod which extends upwards to the outside of the holding barrel and is used for holding the worker.

2. The hydrogeological survey water source sampling detection device of claim 1, wherein: five water leakage holes which are distributed annularly and are used for introducing a water source into the sampling assembly are formed in the top of the outer wall of the water inlet conical head.

3. The hydrogeological survey water source sampling detection device of claim 2, characterized in that: the sampling subassembly includes sampler barrel, roof and L shape leading water pipe, the sampler barrel sets firmly the holding rod bottom is used for gathering the water source sample, the sampler barrel block is connected go into inside the water cone, just the sampler barrel with clearance fit between the water cone of income.

4. The hydrogeological survey water source sampling detection device of claim 3, wherein: the top plate is fixedly arranged at the top of the sampling cylinder and used for connecting the water inlet conical head and plugging the water leakage hole, the top plate is connected with the water inlet conical head in a clamping manner, and the top plate is in interference fit with the water inlet conical head.

5. The hydrogeological survey water source sampling detection device of claim 3, wherein: the L-shaped water conduit is fixedly arranged at the top of the sampling cylinder and used for being connected with the top plate, and the inlet end of the L-shaped water conduit is fixedly arranged in the top plate and used for leading out a water source entering the water leakage hole.

6. The hydrogeological survey water source sampling detection device of claim 3, wherein: the sampling device is characterized in that the number of the L-shaped water guide pipes is five, five L-shaped water guide pipes are annularly distributed at the top of the sampling cylinder, and five L-shaped water guide pipes correspond to five water leakage holes.

7. The hydrogeological survey water source sampling detection device of claim 1, wherein: the quantity of flexible connecting rod is four, four flexible connecting rod is the cross distribution.

8. The hydrogeological survey water source sampling detection device of claim 1, wherein: the outer wall of the holding rod is connected with a floating block floating on the water surface in a sliding mode, the outer wall of the holding rod is fixedly provided with a graduated scale, and the graduated scale is located on the inner side of the floating block and used for displaying the height of the liquid level of the floating block.

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