CN220357054U

CN220357054U - Groundwater quality of water monitoring devices

Info

Publication number: CN220357054U
Application number: CN202321864932.1U
Authority: CN
Inventors: 王承声; 李凯旋; 莫瑞丽
Original assignee: Haikou Juqin Surveying And Mapping Service Co ltd
Current assignee: Haikou Juqin Surveying And Mapping Service Co ltd
Priority date: 2023-07-14
Filing date: 2023-07-14
Publication date: 2024-01-16
Anticipated expiration: 2033-07-14

Abstract

The utility model provides an underground water quality monitoring device, which comprises a hollow pipe, a telescopic rod, a clamping mechanism, a lowering mechanism and a water quality monitoring mechanism, wherein the lowering mechanism comprises a first double-shaft motor, a winding rope and a lifting plate, the water quality monitoring mechanism comprises a display screen, a water quality monitoring probe, a water pump, a sample box, a sampling pipe and a telescopic pipe, the hollow pipe is erected on a well body, the clamping mechanism is positioned above a well wall and clamps the well wall by stretching the telescopic rod, the hollow pipe is firmly arranged on the well body, then the lifting plate can be lowered by the first double-shaft motor through the winding rope, after the lifting plate is filled with water, the water quality monitoring probe can monitor the water quality of well water in real time, meanwhile, the water pump can pump the well water into the sample box through the sampling pipe and the telescopic pipe, the water sample can be transported into a laboratory or other detection chambers for deep monitoring, and the hollow pipe can be positioned at the edge position of the well body due to the fact that the clamping mechanism is rotatable, and normal water taking is prevented from being influenced.

Description

Groundwater quality of water monitoring devices

Technical Field

The utility model relates to the technical field of water quality monitoring, in particular to an underground water quality monitoring device.

Background

Land water mainly includes groundwater and surface water, groundwater is as the name meaning underground water, the south groundwater resource of china is comparatively abundant, monitor the quality of water situation and the change trend of pollution, when carrying out groundwater's quality of water monitoring, generally need to carry out the well construction, nevertheless the well construction expense is higher, well body also can directly abandon after detecting, result in whole monitoring cost to improve, and in some rural areas, villages can excavate the well and take groundwater, groundwater's quality of water monitoring can be carried out from civil well, when carrying out quality of water monitoring, generally need to put monitoring facilities into the well and sample or real-time supervision, judge the quality of water situation of groundwater through the data of gathering, and after monitoring is accomplished, can withdraw monitoring facilities, avoid influencing villages's normal water, current quality of water monitoring facilities is mostly that the staff is through the rope down in the well, in the below in-process, monitoring facilities is easy to collide with well body inner wall and take place to damage, and in some rural areas, need to soak monitoring facilities in a long time in the well construction, on the one hand, the mounting bracket is required to take out in the well construction time, on the side of the long-term, the mounting bracket is required to be fixed in the water quality of water is difficult to be reached, on the other hand, the mounting bracket is required to be fixed to the quality of water is difficult to be moved to the mounting bracket, on the side of the monitoring is difficult to be used to the monitoring is, on the side of the monitoring is, on the mounting bracket is, the ordinary water quality of the quality of water is not influenced.

Disclosure of Invention

In view of the above, the utility model provides an underground water quality monitoring device which can be suitable for clamping and fixing different well walls to realize stable real-time monitoring and sampling of water quality.

The technical scheme of the utility model is realized as follows:

the underground water quality monitoring device comprises a hollow pipe, a telescopic rod, a clamping mechanism, a lowering mechanism and a water quality monitoring mechanism, wherein one end of the telescopic rod extends into the hollow pipe, and the clamping mechanism is rotatably arranged on the bottom surface of the other end of the telescopic rod; the winding mechanism comprises a first double-shaft motor, a winding rope and a lifting plate, wherein the first double-shaft motor is arranged on the bottom surface of the hollow pipe, one end of the winding rope is wound on an output shaft of the first double-shaft motor, and the other end of the winding rope is connected with the top surface of the lifting plate; the water quality monitoring mechanism comprises a display screen, a water quality monitoring probe, a water pump, a sample box, a sampling tube and a telescopic tube, wherein the water quality monitoring probe is arranged on the bottom surface of a lifting plate, the display screen is arranged on the top surface of the hollow tube and is in data connection with the water quality monitoring probe, the sample box is arranged on the top surface of the hollow tube, the water outlet end of the water pump is connected with the sample box, the sampling tube penetrates through the lifting plate, and the telescopic tube is connected with the top end of the sampling tube and the water inlet end of the water pump.

Preferably, the clamping mechanism comprises a rotating plate, a second double-shaft motor, a screw rod and a clamping plate, wherein the top surface of the rotating plate is rotationally connected with the bottom surface of the telescopic rod, the second double-shaft motor is arranged on the bottom surface of the rotating plate, an output shaft of the second double-shaft motor is connected with the end part of the screw rod, a threaded hole is formed in the clamping plate, the screw rod is in threaded connection with the threaded hole, and the top surface of the clamping plate is in sliding connection with the bottom surface of the rotating plate.

Preferably, the top surface of the clamping plate is provided with a sliding block, the bottom surface of the rotating plate is provided with a sliding groove, and the sliding block is positioned in the sliding groove.

Preferably, the top surface of the rotating plate is provided with a T-shaped head, the bottom surface of the telescopic rod is provided with a T-shaped groove, and the T-shaped head is positioned in the T-shaped groove.

Preferably, the clamping mechanism further comprises a fixing plate and a bearing, the fixing plate is arranged on the bottom surface of the rotating plate, the bearing is arranged on the side wall of the fixing plate, and one end, far away from the second double-shaft motor, of the screw rod is connected with the bearing.

Preferably, the lifting plate is provided with a plurality of water permeable holes.

Preferably, the telescopic tube is a corrugated tube.

Compared with the prior art, the utility model has the beneficial effects that:

(1) after the hollow pipe is arranged above the well body, the position of the clamping mechanism can be adjusted, and the clamping mechanism is rotated, so that the clamping mechanism can clamp and fix well walls at different positions, the whole monitoring device can be stably arranged on the well body, and the risk of collision damage of monitoring equipment is reduced;

(2) can loosen the winding rope through first biax motor, make the lifter plate drive water quality monitoring probe descend to the water of well body in the back, water quality monitoring probe can gather the data in the water and carry out water quality monitoring, and when carrying out water quality monitoring, the water pump can also draw into the sample box with the partial water in the well body, realizes the sample, and the sample can be used for carrying out more standard detection in the laboratory.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only preferred embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an underground water quality monitoring device according to the present utility model;

FIG. 2 is a schematic diagram of a connection structure between a clamping mechanism and a telescopic rod of an underground water quality monitoring device according to the present utility model;

FIG. 3 is a schematic top view of a lifting plate of an underground water quality monitoring device according to the present utility model;

in the figure, 1 is a hollow pipe, 2 is a telescopic link, 3 is a first double-shaft motor, 4 is a winding rope, 5 is a lifting plate, 6 is a display screen, 7 is a water quality monitoring probe, 8 is a water pump, 9 is a sample box, 10 is a sampling pipe, 11 is a telescopic pipe, 12 is a rotating plate, 13 is a second double-shaft motor, 14 is a screw rod, 15 is a clamping plate, 16 is a threaded hole, 17 is a sliding block, 18 is a sliding groove, 19 is a T-shaped head, 20 is a T-shaped groove, 21 is a fixed plate, 22 is a bearing, and 23 is a water permeable hole.

Detailed Description

For a better understanding of the technical content of the present utility model, a specific example is provided below, and the present utility model is further described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the underground water quality monitoring device provided by the utility model comprises a hollow pipe 1, a telescopic rod 2, a clamping mechanism, a lowering mechanism and a water quality monitoring mechanism, wherein one end of the telescopic rod 2 extends into the hollow pipe 1, and the clamping mechanism is rotatably arranged on the bottom surface of the other end of the telescopic rod 2; the lowering mechanism comprises a first double-shaft motor 3, a winding rope 4 and a lifting plate 5, wherein the first double-shaft motor 3 is arranged on the bottom surface of the hollow tube 1, one end of the winding rope 4 is wound on an output shaft of the first double-shaft motor 3, and the other end of the winding rope is connected with the top surface of the lifting plate 5; the water quality monitoring mechanism comprises a display screen 6, a water quality monitoring probe 7, a water pump 8, a sample box 9, a sampling tube 10 and a telescopic tube 11, wherein the water quality monitoring probe 7 is arranged on the bottom surface of a lifting plate 5, the display screen 6 is arranged on the top surface of the hollow tube 1 and is in data connection with the water quality monitoring probe 7, the sample box 9 is arranged on the top surface of the hollow tube 1, the water outlet end of the water pump 8 is connected with the sample box 9, the sampling tube 10 penetrates through the lifting plate 5, and the telescopic tube 11 is connected with the top end of the sampling tube 10 and the water inlet end of the water pump 8.

The utility model relates to an underground water quality monitoring device, which is used for being installed at a civil water well to monitor water quality, after a hollow pipe 1 is placed above the water well, telescopic rods 2 on two sides are pulled to enable a clamping mechanism to be positioned at the well wall of the water well, after the clamping mechanism is rotated, the clamping mechanism can be clamped on the well wall, at the moment, the integral fixation of the hollow pipe 1 can be realized, then a first double-shaft motor 3 is started, the first double-shaft motor 3 can be used for lowering a winding rope 4, a lifting plate 5 is lowered in the water well, finally the lifting plate 5 can be immersed in water of the water well, a water quality monitoring probe 7 is arranged on the bottom surface of the lifting plate 5, the acquired data can be acquired in real time and are transmitted to a display screen 6 for display, in addition, water in the water well can be conveyed to a sample box 9 through a water pump 8 arranged, then workers can be transferred to a laboratory to monitor water quality, through the setting of the clamping mechanism, the water sample can be suitable for use of the water well with different wall thickness, and the water quality monitoring device can be used in the water well at the same time, the water quality monitoring position can be still occupied by the water quality monitoring device, and the water quality of the water well can be normally located at the deep-well.

Preferably, the clamping mechanism comprises a rotating plate 12, a second double-shaft motor 13, a screw rod 14 and a clamping plate 15, wherein the top surface of the rotating plate 12 is rotationally connected with the bottom surface of the telescopic rod 2, the second double-shaft motor 13 is arranged on the bottom surface of the rotating plate 12, an output shaft of the second double-shaft motor is connected with the end part of the screw rod 14, a threaded hole 16 is formed in the clamping plate 15, the screw rod 14 is in threaded connection with the threaded hole 16, and the top surface of the clamping plate 15 is in sliding connection with the bottom surface of the rotating plate 12.

The second double-shaft motor 13 can drive the screw rod 14 to rotate, and as the threaded hole 16 of the clamping plate 15 is in threaded connection with the screw rod 14, the top of the clamping plate 15 is in sliding connection with the bottom surface of the rotating plate 12, the clamping plate 15 can convert the rotation motion of the screw rod 14 into linear motion, so that the distance between the clamping plates 15 on two sides of the second double-shaft motor 13 can be adjusted, after a well wall is placed between the clamping plates 15, the clamping plate 15 is driven to move towards the well wall, and finally the clamping plate 15 can clamp and fix the inner side and the outer side of the well wall.

Preferably, the top surface of the clamping plate 15 is provided with a sliding block 17, the bottom surface of the rotating plate 12 is provided with a sliding groove 18, and the sliding block 17 is positioned in the sliding groove 18.

When the clamping plate 15 moves, the sliding block 17 at the top of the clamping plate can move along the sliding groove 18, and the sliding block 17 and the sliding groove 18 can limit the movement of the clamping plate 15, so that the clamping plate 15 can normally move horizontally.

Preferably, the top surface of the rotating plate 12 is provided with a T-shaped head 19, the bottom surface of the telescopic rod 2 is provided with a T-shaped groove 20, and the T-shaped head 19 is positioned in the T-shaped groove 20.

Because the hollow pipe 1 can not be installed in the center of the well body, the rotating plate 12 is arranged to be rotatable, when the rotating plate 12 rotates, the T-shaped head 19 can rotate in the T-shaped groove 20, and the rotating plate 12 drives the clamping plate 15 to rotate, so that the clamping plate 15 is tangential to the inner wall and the outer wall of the well body, and the well body can be clamped and fixed better.

Preferably, the clamping mechanism further comprises a fixing plate 21 and a bearing 22, the fixing plate 21 is arranged on the bottom surface of the rotating plate 12, the bearing 22 is arranged on the side wall of the fixing plate 21, and one end, far away from the second biaxial motor 13, of the screw rod 14 is connected with the bearing 22.

The screw 14 can be rotated under the support of the bearing 22 when driven by the first biaxial motor 3.

Preferably, the lifting plate 5 is provided with a plurality of water permeable holes 23.

When the lifting plate 5 descends into the water of the well, the water can pass through the water permeable holes 23, so that the resistance of the lifting plate 5 when entering the water is reduced.

Preferably, the telescopic tube 11 is a bellows.

When lifting plate 5 goes up and down, flexible pipe 11 can stretch out and draw back, avoids hindering the lift to lifting plate 5, and when water pump 8 draws water, well water can be carried sample box 9 through sampling tube 10 and the flexible pipe 11 of extension.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims

1. The underground water quality monitoring device is characterized by comprising a hollow pipe, a telescopic rod, a clamping mechanism, a lowering mechanism and a water quality monitoring mechanism, wherein one end of the telescopic rod extends into the hollow pipe, and the clamping mechanism is rotatably arranged on the bottom surface of the other end of the telescopic rod; the winding mechanism comprises a first double-shaft motor, a winding rope and a lifting plate, wherein the first double-shaft motor is arranged on the bottom surface of the hollow pipe, one end of the winding rope is wound on an output shaft of the first double-shaft motor, and the other end of the winding rope is connected with the top surface of the lifting plate; the water quality monitoring mechanism comprises a display screen, a water quality monitoring probe, a water pump, a sample box, a sampling tube and a telescopic tube, wherein the water quality monitoring probe is arranged on the bottom surface of a lifting plate, the display screen is arranged on the top surface of the hollow tube and is in data connection with the water quality monitoring probe, the sample box is arranged on the top surface of the hollow tube, the water outlet end of the water pump is connected with the sample box, the sampling tube penetrates through the lifting plate, and the telescopic tube is connected with the top end of the sampling tube and the water inlet end of the water pump.

2. The underground water quality monitoring device according to claim 1, wherein the clamping mechanism comprises a rotating plate, a second double-shaft motor, a screw rod and a clamping plate, the top surface of the rotating plate is rotationally connected with the bottom surface of the telescopic rod, the second double-shaft motor is arranged on the bottom surface of the rotating plate, an output shaft of the second double-shaft motor is connected with the end part of the screw rod, a threaded hole is formed in the clamping plate, the screw rod is in threaded connection with the threaded hole, and the top surface of the clamping plate is in sliding connection with the bottom surface of the rotating plate.

3. The groundwater quality monitoring device according to claim 2, wherein the top surface of the clamping plate is provided with a sliding block, the bottom surface of the rotating plate is provided with a sliding groove, and the sliding block is located in the sliding groove.

4. The underground water quality monitoring device according to claim 2, wherein the top surface of the rotating plate is provided with a T-shaped head, the bottom surface of the telescopic rod is provided with a T-shaped groove, and the T-shaped head is positioned in the T-shaped groove.

5. The groundwater quality monitoring device according to claim 2, wherein the clamping mechanism further comprises a fixing plate and a bearing, the fixing plate is arranged on the bottom surface of the rotating plate, the bearing is arranged on the side wall of the fixing plate, and one end of the screw rod, which is far away from the second double-shaft motor, is connected with the bearing.

6. The groundwater quality monitoring device according to claim 1, wherein the lifting plate is provided with a plurality of water permeable holes.

7. The groundwater quality monitoring device of claim 1, wherein the bellows is a bellows.