CN117147220B - Groundwater sampling device for ecological protection monitoring - Google Patents

Abstract

The invention relates to the field of groundwater sampling, and discloses groundwater sampling equipment for ecological protection monitoring, which comprises a storage box, wherein a follow-up mechanism is arranged in the storage box, and a storage mechanism positioned in the storage box is arranged on one side of the follow-up mechanism; the winder is connected with one end of the follow-up mechanism, and is wound with a binding pipe; the actuating mechanism is connected to the bottom of the constraint pipe and used for moving and collecting, the position of the actuating mechanism can be determined, samples of different levels can be further determined, and meanwhile, the temperature can be kept during sampling of a water body through storage of the containing cavity, errors of later detection are reduced, and accuracy of data is further guaranteed.

Description

Groundwater sampling device for ecological protection monitoring

Technical Field

The invention relates to the field of groundwater sampling, in particular to groundwater sampling equipment for ecological protection monitoring.

Background

With the development of economy and the progress of society, the scale of cities is larger and larger, and in groundwater detection treatment, accurate monitoring of groundwater quality is of great importance for pollution site investigation, environmental risk management and performance evaluation of a repair system. The quality of groundwater may be affected by local soil matrix and complex factors introduced during drilling, and thus groundwater needs to be sampled, groundwater quality is continuously monitored to treat groundwater pollution, and corresponding requirements for ensuring ecological protection are met.

The existing sampling device generally absorbs water through an external pump body, and meanwhile, the water quality of different layers cannot be well sampled independently, so that the water quality of different depths cannot be well known, and the accuracy of data is affected.

Disclosure of Invention

In order to solve the technical problem of inaccurate sampling, the invention provides groundwater sampling equipment for ecological protection monitoring.

The invention is realized by adopting the following technical scheme: groundwater sampling device for ecological protection monitoring includes: the storage box is internally provided with a follow-up mechanism, and one side of the follow-up mechanism is provided with a storage mechanism positioned in the storage box; the winder is connected with one end of the follow-up mechanism, and is wound with a binding pipe; and the actuating mechanism is connected to the bottom of the constraint tube and is used for moving and collecting.

As a further improvement of the above, the follower mechanism includes: the first motor is fixedly connected in the storage box, the output end of the first motor is connected with a first gearbox, the output end of the first gearbox is in transmission connection with a first transmission assembly and a driving shaft, and one end of the first transmission assembly is in transmission connection with the storage mechanism; the rotary plate is rotatably connected to the top of the storage box, the middle of the rotary plate is fixedly connected with the driving shaft, and a plurality of telescopic rods are rotatably connected to the rotary plate; the quantitative plate is rotationally connected to the output end of the telescopic rod, a moving plate is sleeved on the quantitative plate in a sliding manner, and the moving plate is rotationally connected with the coiler.

As a further improvement of the above, the storage mechanism includes: the rotating box is in transmission connection with the output end of the first transmission component and is fixedly connected with the storage box; the accommodating cavity is arranged on the rotary box, and the top of the accommodating cavity is provided with a turning cover which is rotationally connected with the rotary box; the heating pipe is arranged at the periphery of the accommodating cavity and is connected with the rotating box; the connecting box is arranged in the rotating box, the top of the connecting box is connected with a serial pipe, one side of the connecting box is rotationally connected with a stabilizing ring, and one side of the stabilizing ring is fixedly connected with a conducting pipe; the nitrogen box is fixedly connected in the storage box and is connected with one end of the guide pipe.

As a further improvement of the scheme, one side of the movable plate is fixedly connected with a driver, the output end of the driver is in transmission connection with the winding device, and one end of the winding device is connected with a drainage tube through a quick connector.

As a further improvement of the above, the actuator includes: the top of the advancing cylinder is connected with an electromagnetic adsorption mechanism, and the middle of the electromagnetic adsorption mechanism is fixedly connected with a guide pipe connected with a constraint pipe; the separation box is fixedly connected to the bottom of the advancing barrel and is connected with the collecting unit; the transmission unit is fixedly connected to the separation box, and the output end of the transmission unit is in transmission connection with a driving wheel; and the shield inlet unit is rotatably sleeved at the bottom end of the advancing barrel and is meshed with the outer wall of the driving wheel.

As a further improvement of the above, the collecting unit includes: the collecting cylinder is sleeved in the advancing cylinder in a sliding way, and the bottom of the collecting cylinder is adsorbed with a first spring fixedly connected with the separation box; the follow-up pipe is fixedly connected to the bottom of the collecting cylinder, and an inlaid pipe fixedly connected with the separate box is sleeved on the outer wall of the follow-up pipe in a sliding manner; the contact tube is fixedly connected to the bottom of the follow-up tube, the outer wall of the contact tube is clamped with a clamping sleeve, the bottom side of the clamping sleeve is fixedly connected with a functional frame, one side of the functional frame is fixedly connected with a second spring, the other end of the second spring is fixedly connected with a sealing plate bonded with the embedded tube, and one side of the sealing plate is fixedly connected with a guide sleeve which is in sliding sleeve connection with the functional frame; a protective film disposed on the advancing cone; and the contact block is fixedly connected to the collecting cylinder.

As a further improvement of the above, the transmission unit includes: the mounting cylinder is fixedly connected to the separation box, a second motor is fixedly connected to the inside of the mounting cylinder, and a second gearbox is fixedly connected to the output end of the second motor; the second transmission assembly is in transmission connection with the output end of the second gearbox, a driving pipe is in transmission connection with the second transmission assembly, and one end of the driving pipe is in transmission connection with a contact pipe connected with the guide pipe; the driving ring is fixedly sleeved on the outer wall of the contact tube, and one side of the driving ring is fixedly connected with a contact block which is contacted with the contact block; the functional plate is fixedly connected with the mounting cylinder and is rotationally connected with the driving pipe, and a conducting channel communicated with the driving pipe is arranged in the functional plate; the functional pipe, its one end is linked together with leading to the passageway, and the other end intercommunication has pump body case drive case, pump body case drive case internal rotation is connected with the drive pipe of being connected with gearbox two transmission, gearbox two's outer wall fixedly connected with is located the drive piece of drive case, be connected with the control pipe on separator box and the drive case.

As a further improvement of the above solution, the shield-in unit includes: the separating box is rotationally connected with the advancing cylinder and is meshed with the outer wall of the driving wheel; the advancing cone is fixedly connected to the bottom of the separation box, a plurality of transparent plates are connected to the advancing cone, and a first sensor is arranged in the tip of the advancing cone; the protection box is fixedly connected in the advancing cone, and a plurality of detectors II are fixedly connected in the protection box.

As a further improvement of the scheme, the outer wall of the guide tube is fixedly connected with a blade, the electromagnetic adsorption mechanism is reinforced and fixed with the advancing barrel through a bolt, the belt tube is connected with an electric brush, and the advancing cone adopts a conical structure.

As a further improvement of the scheme, a first detector is fixedly connected in the storage box, a maintenance door is arranged on one side of the storage box, and an operating rod is arranged on the turning-up cover.

Compared with the prior art, the invention has the beneficial effects that:

1. through the work of constraint pipe, can confirm actuating mechanism's position, and then confirm the sample of different levels, likewise, accomodate through holding the chamber, can guarantee the maintenance of temperature when taking a sample to the water, reduce the error that later stage detected, further guarantee the accuracy of data.

2. Through the drive of motor two, the cooperation of other mechanisms realizes stable advancing and multiple sampling, and work such as drive case simultaneously can draw water to the bottom, reduces the interference of peer-to-peer water quality such as earlier stage upper strata, further guarantees the accuracy of sample.

Drawings

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

FIG. 2 is a schematic left-hand cross-sectional view of the present invention;

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

FIG. 4 is a schematic diagram of an actuator in front cross-section;

FIG. 5 is a schematic left-hand cross-sectional view of an actuator;

FIG. 6 is an enlarged schematic view of the structure of FIG. 1A;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2B;

FIG. 8 is an enlarged schematic view of FIG. 3C;

fig. 9 is a schematic top cross-sectional view of an actuator.

Main symbol description:

01. a storage box; 02. a nitrogen tank; 03. a rotating plate; 04. a telescopic rod; 05. a metering plate; 06. a moving plate; 07. a winder; 08. a tie-down tube; 09. an actuator; 10. a first detector; 11. turning up the cover; 12. a receiving chamber; 13. a communication box; 14. heating pipes; 15. a rotating box; 16. a first transmission component; 17. a first motor; 18. a first gearbox; 19. a stabilizing ring; 20. a conduit; 21. an electromagnetic adsorption mechanism; 22. a contact tube; 23. a driving ring; 24. a second motor; 25. a second gearbox; 26. a follow-up tube; 27. embedding a pipe; 28. a separation box; 29. advancing the cone; 30. a second detector; 31. a transparent plate; 32. a protection box; 33. a driving wheel; 34. a protective film; 35. a belt tube; 36. a drive box; 37. a separate tank; 38. a first spring; 39. a collection cylinder; 40. advancing the cylinder; 41. a paddle; 42. a contact tube; 43. a functional rack; 44. a second spring; 45. a clamping sleeve; 46. a guide sleeve; 47. a sealing plate; 48. a driver; 49. a contact block; 50. a functional tube; 51. a control tube; 52. a driving tube; 53. a transmission assembly II; 54. a guide channel; 55. a function board; 56. a mounting cylinder; 57. a drive shaft.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Examples

With reference to figures 1-9 of the drawings,

groundwater sampling device for ecological protection monitoring includes:

the storage box 01 is internally provided with a follow-up mechanism, one side of the follow-up mechanism is provided with a storage mechanism positioned in the storage box 01, the storage box 01 is limited, meanwhile, a plurality of execution mechanisms 09 are stored through the storage mechanism, and meanwhile, the execution mechanisms 09 in the working process are driven by the follow-up mechanism to move to a certain position, a coiler 07 is connected to one end of the follow-up mechanism, a constraint pipe 08 is wound on the coiler, the coiler 07 winds the constraint pipe 08, the constraint pipe 08 limits and recovers the execution mechanisms 09, and the execution mechanisms 09 are connected to the bottom of the constraint pipe 08 and used for moving and collecting.

The follower mechanism includes: the first motor 17 is fixedly connected in the accommodating box 01, the output end of the first motor is connected with the first gearbox 18, the output end of the first gearbox 18 is in transmission connection with the first transmission component 16 and the driving shaft 57, one end of the first transmission component 16 is in transmission connection with the storage mechanism, the first motor 17 provides torque and then transmits the torque to the first transmission component 16 and the driving shaft 57 through the change of the first gearbox 18, the first motor 03 is rotationally connected to the top of the accommodating box 01, the middle of the first motor is fixedly connected with the driving shaft 57, a plurality of telescopic rods 04 are rotationally connected to the first motor, the first motor is driven by the driving shaft 57 to respectively enable the two rotating plates 03 to rotate, meanwhile, the first motor is matched with the movement of the movable plate 06 on the fixed plate 05 to realize angle adjustment, the fixed plate 05 is rotationally connected to the output end of the telescopic rods 04, the movable plate 06 is slidingly sleeved on the first motor 06 is rotationally connected with the winding device 07, the telescopic rods 04 adjust the height of the fixed plate 05, and the movable plate 06 can move on the fixed plate 05 to realize distance adjustment.

The storage mechanism includes: the rotary box 15 is in transmission connection with the output end of the first transmission component 16 and is fixedly connected with the storage box 01;

the holding cavity 12 is arranged on the rotating box 15, the top of the holding cavity is provided with the turning-up cover 11 which is rotationally connected with the rotating box 15, the rotating box 15 is integrally packaged, meanwhile, the holding cavity 12 is used for holding the executing mechanism 09, the heating pipe 14 is arranged on the periphery of the holding cavity 12 and is connected with the rotating box 15, the heating pipe 14 can be used for auxiliary heating, the executing mechanism 09 in the holding cavity 12 keeps relatively stable temperature, the communicating box 13 is arranged in the rotating box 15, the top of the communicating box 13 is connected with a series-connection pipe, one side of the communicating box 13 is rotationally connected with the stabilizing ring 19, one side of the stabilizing ring 19 is fixedly connected with the conducting pipe 20, liquid nitrogen is arranged in the nitrogen box 02, and the executing mechanism 09 is at certain low temperature through the conducting pipe 20 and the conducting box 13, the temperature is adjusted by matching with the heating pipe 14, and the nitrogen box 02 is fixedly connected in the holding box 01 and is connected with one end of the conducting pipe 20.

One side fixedly connected with driver 48 of movable plate 06, the output of driver 48 is connected with the transmission of reeler 07, and the one end of reeler 07 is connected with the drainage tube through the quick-operation joint, and driver 48 carries out the transmission of moment for reeler 07 can rotate, and the drainage tube can be with water drainage elsewhere.

The actuator 09 includes: the forward cylinder 40, the top is connected with electromagnetic adsorption mechanism 21, the middle fixedly connected with of electromagnetic adsorption mechanism 21 is connected with the stand pipe that is connected with constraint pipe 08, forward cylinder 40 is injectd, it attracts fixedly with electromagnetic adsorption mechanism 21 each other, the stand pipe is connected and leads, separate box 37, its fixed connection is in the bottom of forward cylinder 40, be connected with the collection unit on it, separate box 37 keeps apart and struts, drive unit, its fixed connection is on separate box 37, its output transmission is connected with action wheel 33, drive unit carries out the transmission of moment, shield advance the unit, it rotates the cover and establishes in the bottom of forward cylinder 40, and it meshes with the outer wall of action wheel 33 and be connected, shield advance the certain barrier that the unit was broken and realize advancing.

The collection unit includes: the collecting cylinder 39 is sleeved in the advancing cylinder 40 in a sliding way, the bottom of the collecting cylinder 39 is adsorbed with a first spring 38 fixedly connected with the separating box 37, the collecting cylinder 39 is in vacuum arrangement, the first spring 38 provides resilience force, the follower pipe 26 is fixedly connected with the bottom of the collecting cylinder 39, the outer wall of the follower pipe is sleeved with an embedded pipe 27 fixedly connected with the separating box 37 in a sliding way, the follower pipe 26 and the embedded pipe 27 are matched with each other to realize a closed conduction environment, the contact pipe 42 is fixedly connected with the bottom of the follower pipe 26, the outer wall of the contact pipe is clamped with a clamping sleeve 45, the bottom side of the clamping sleeve 45 is fixedly connected with a functional frame 43, the second spring 44 is fixedly connected to one side of the functional frame 43, the sealing plate 47 adhered to the inlaid pipe 27 is fixedly connected to the other end of the second spring 44, the guide sleeve 46 sleeved with the functional frame 43 in a sliding manner is fixedly connected to one side of the sealing plate 47, the contact pipe 42 is contacted with the clamping sleeve 45, the clamping sleeve 45 is enabled to move in the moving process of the follow-up pipe 26, the sealing plate 47 is further contacted, the sealing plate 47 is enabled to descend, the adhesion is overcome, the protective film 34 is further broken, the sealing plate 47 enters the advancing cone 29 to be conducted, the protective film 34 is arranged on the advancing cone 29, and the contact block 49 is fixedly connected to the collecting cylinder 39.

The transmission unit includes: the mounting cylinder 56 is fixedly connected to the separation box 37, the motor II 24 is fixedly connected to the inside of the mounting cylinder, the output end of the motor II 24 is fixedly connected to the gearbox II 25, corresponding torque is generated through the transmission of the motor II 24 and the speed change of the gearbox II 25, the transmission component II 53 is in transmission connection with the output end of the gearbox II 25, the transmission component II is connected with the driving tube 52 in transmission, one end of the driving tube 52 is connected with the contact tube 22 connected with the guide tube in transmission, the torque is transmitted to the driving tube 52 through the transmission component II 53, the driving tube 52 is enabled to rotate, the further rotation is achieved through the contact tube 22 and the guide tube, the driving ring 23 is fixedly sleeved on the outer wall of the contact tube 22, one side of the driving ring 23 is fixedly connected with the contact block contacted with the contact block 49, and the rotation is achieved along with the rotation of the contact tube 22, the contact block is further contacted with the contact block 49 to force the forward cylinder 40 to descend so as to realize functional operation, the functional plate 55 is fixedly connected with the mounting cylinder 56 and is rotationally connected with the driving pipe 52, a conducting channel 54 communicated with the driving pipe 52 is arranged in the functional plate, the conduction between the functional pipe 50 and the driving pipe 52 is realized through the conducting channel 54 in the functional plate 55, the conduction between the water bottom and the outside is further realized, one end of the functional pipe 50 is communicated with the conducting channel 54, the other end of the functional pipe 50 is communicated with the pump body box driving box 36, the driving pipe 35 in transmission connection with the gearbox two 25 is rotationally connected in the pump body box driving box 36, the driving piece positioned in the driving box 36 is fixedly connected with the outer wall of the gearbox two 25, the separation box 28 and the driving box 36 are connected with the conduction of the control pipe 51, and then the functional pipe 50 is entered after passing through the driving box 36 so as to realize integral conduction.

The shield in unit includes: the separating box 28 is rotationally connected with the advancing barrel 40, and is meshed with the outer wall of the driving wheel 33, the separating box 28 is connected for synchronous rotation, the advancing cone 29 is fixedly connected to the bottom of the separating box 28, a plurality of transparent plates 31 are connected to the separating box, a first sensor is arranged in the tip of the advancing cone 29, the advancing cone 29 rotates along with the rotation of the separating box 28 to crush obstacles at the front end, the transparent plates 31 realize light transmission, the second detector 30 in the protecting box 32 realizes data acquisition, the protecting box 32 is fixedly connected to the advancing cone 29, and a plurality of second detectors 30 are fixedly connected to the inside of the protecting box 32.

The outer wall fixedly connected with paddle 41 of stand pipe, electromagnetic adsorption mechanism 21 strengthens fixedly through bolt and a section of thick bamboo 40 that advances, is connected with the brush on the belt tube 35, advances awl 29 and adopts the toper structure, and paddle 41 carries out the thrust of downward movement, and fixedly connected with detector one 10 in the containing box 01, one side of containing box 01 is provided with the maintenance door, turns up and sets up control lever detector one 10 and carries out inside detection on the lid 11, and the maintenance door is convenient detects inside.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims (6)

1. Groundwater sampling device for ecological protection monitoring, its characterized in that includes:

the storage box is internally provided with a follow-up mechanism, and one side of the follow-up mechanism is provided with a storage mechanism positioned in the storage box;

the winder is connected with one end of the follow-up mechanism, and is wound with a binding pipe;

the actuating mechanism is connected to the bottom of the constraint pipe and is used for moving and collecting;

the actuator comprises:

the top of the advancing cylinder is connected with an electromagnetic adsorption mechanism, and the middle of the electromagnetic adsorption mechanism is fixedly connected with a guide pipe connected with a constraint pipe;

the separation box is fixedly connected to the bottom of the advancing barrel and is connected with the collecting unit;

the transmission unit is fixedly connected to the separation box, and the output end of the transmission unit is in transmission connection with a driving wheel;

the shield inlet unit is rotatably sleeved at the bottom end of the advancing barrel and is meshed with the outer wall of the driving wheel;

the collecting unit includes:

the collecting cylinder is sleeved in the advancing cylinder in a sliding way, and the bottom of the collecting cylinder is adsorbed with a first spring fixedly connected with the separation box;

the follow-up pipe is fixedly connected to the bottom of the collecting cylinder, and an inlaid pipe fixedly connected with the separate box is sleeved on the outer wall of the follow-up pipe in a sliding manner;

the contact tube is fixedly connected to the bottom of the follow-up tube, the outer wall of the contact tube is clamped with a clamping sleeve, the bottom side of the clamping sleeve is fixedly connected with a functional frame, one side of the functional frame is fixedly connected with a second spring, the other end of the second spring is fixedly connected with a sealing plate bonded with the embedded tube, and one side of the sealing plate is fixedly connected with a guide sleeve which is in sliding sleeve connection with the functional frame;

a protective film disposed on the advancing cone;

the contact block is fixedly connected to the collecting cylinder;

the shield-in unit comprises:

the separating box is rotationally connected with the advancing cylinder and is meshed with the outer wall of the driving wheel;

the advancing cone is fixedly connected to the bottom of the separation box, a plurality of transparent plates are connected to the advancing cone, and a first sensor is arranged in the tip of the advancing cone;

the protection box is fixedly connected in the advancing cone, and a plurality of detectors II are fixedly connected in the protection box;

the transmission unit includes:

the mounting cylinder is fixedly connected to the separation box, a second motor is fixedly connected to the inside of the mounting cylinder, and a second gearbox is fixedly connected to the output end of the second motor;

the second transmission assembly is in transmission connection with the output end of the second gearbox, a driving pipe is in transmission connection with the second transmission assembly, and one end of the driving pipe is in transmission connection with a contact pipe connected with the guide pipe;

the driving ring is fixedly sleeved on the outer wall of the contact tube, and one side of the driving ring is fixedly connected with a contact block which is contacted with the contact block;

the functional plate is fixedly connected with the mounting cylinder and is rotationally connected with the driving pipe, and a conducting channel communicated with the driving pipe is arranged in the functional plate;

the functional pipe, its one end is linked together with leading to the passageway, and the other end intercommunication has pump body case drive case, pump body case drive case internal rotation is connected with the drive pipe of being connected with gearbox two transmission, gearbox two's outer wall fixedly connected with is located the drive piece of drive case, be connected with the control pipe on separator box and the drive case.

2. The groundwater sampling device for ecological protection monitoring as defined in claim 1, wherein said follower means comprises:

the first motor is fixedly connected in the storage box, the output end of the first motor is connected with a first gearbox, the output end of the first gearbox is in transmission connection with a first transmission assembly and a driving shaft, and one end of the first transmission assembly is in transmission connection with the storage mechanism;

the rotary plate is rotatably connected to the top of the storage box, the middle of the rotary plate is fixedly connected with the driving shaft, and a plurality of telescopic rods are rotatably connected to the rotary plate;

the quantitative plate is rotationally connected to the output end of the telescopic rod, a moving plate is sleeved on the quantitative plate in a sliding manner, and the moving plate is rotationally connected with the coiler.

3. The groundwater sampling device for ecological protection monitoring according to claim 1, wherein the storage mechanism comprises:

the rotating box is in transmission connection with the output end of the first transmission component and is fixedly connected with the storage box;

the accommodating cavity is arranged on the rotary box, and the top of the accommodating cavity is provided with a turning cover which is rotationally connected with the rotary box;

the heating pipe is arranged at the periphery of the accommodating cavity and is connected with the rotating box;

the connecting box is arranged in the rotating box, the top of the connecting box is connected with a serial pipe, one side of the connecting box is rotationally connected with a stabilizing ring, and one side of the stabilizing ring is fixedly connected with a conducting pipe;

the nitrogen box is fixedly connected in the storage box and is connected with one end of the guide pipe.

4. The groundwater sampling device for ecological protection and monitoring according to claim 2, wherein a driver is fixedly connected to one side of the moving plate, an output end of the driver is in transmission connection with a winding device, and one end of the winding device is connected with a drainage tube through a quick connector.

5. The groundwater sampling device for ecological protection and monitoring according to claim 1, wherein the outer wall of the guide pipe is fixedly connected with a blade, the electromagnetic adsorption mechanism is reinforced and fixed with the advancing barrel through a bolt, the driving pipe is connected with an electric brush, and the advancing cone adopts a conical structure.

6. The groundwater sampling device for ecological protection and monitoring according to claim 3, wherein the first detector is fixedly connected in the storage box, a maintenance door is arranged on one side of the storage box, and a control rod is arranged on the turning-up cover.