CN216477307U - Underground water level monitoring tool for geological survey - Google Patents

Abstract

The utility model discloses an underground water level monitoring tool for geological exploration, which relates to the technical field of monitoring devices and comprises a base, wherein a through hole is formed in the base, a mounting frame is arranged on the base, a detector body is vertically and upwards slidably arranged on the mounting frame, a fixing device is arranged at the upper bottom of the base and comprises a plurality of threaded piles, connecting frames are fixedly connected to two sides of the bottom of the base, the threaded piles are symmetrically in threaded connection with the connecting frames, first conveying assemblies are arranged between the threaded piles on two sides, and a first driving motor is arranged on the second conveying assembly. Through the cooperation between base, mounting bracket, detection instrument body, fixing device, screw pile, link, first conveying subassembly, second conveying subassembly, the first driving motor, drive the synchronous rotation of a plurality of screw piles of both sides to play the fixed action to the base, improve the holistic stability of this monitoring tool.

Description

Underground water level monitoring tool for geological survey

Technical Field

The utility model relates to the technical field of monitoring devices, in particular to an underground water level monitoring tool for geological exploration.

Background

Geological exploration refers to investigation and research activities of surveying and detecting geology through various means and methods, determining a proper bearing stratum, determining a foundation type according to the foundation bearing capacity of the bearing stratum, and calculating foundation parameters. The method is characterized in that an industrially significant mineral deposit is found in mineral general investigation, mineral reserves and geological data required by mine construction design are provided for finding out the quality and quantity of the mineral and technical conditions of mining and utilization, investigation and research work is carried out on geological conditions such as rocks, strata, structures, minerals, hydrology and landforms in a certain area, the groundwater level refers to the elevation of the groundwater surface relative to a datum plane and can be divided into an initial water level, a stable water level, a rich water stage water level, a dry water stage water level, a pre-freezing water level and the like according to the drilling observation time, and a groundwater level monitoring tool is usually used during geological exploration operation.

The defects of the prior art are as follows: the stability of current ground water level monitoring instrument is not enough, when monitoring the operation, can receive the influence of upper portion human action or low rivers usually and appear the condition of rocking to influence the accuracy of monitoring data.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an underground water level monitoring tool for geological exploration, which is used for solving the defects in the prior art.

In order to achieve the above purpose, the utility model provides the following technical scheme: an underground water level monitoring tool for geological exploration comprises a base, wherein a through hole is formed in the base, the base is provided with a mounting rack, the mounting rack is vertically and upwards provided with a detector body in a sliding manner, the detecting instrument body penetrates through the through hole, a fixing device is arranged at the upper bottom of the base and comprises a plurality of threaded piles, a first conveying assembly and a second conveying assembly, the two sides of the bottom of the base are fixedly connected with connecting frames, a plurality of the threaded piles are symmetrically in threaded connection on the connecting frames, first conveying assemblies are arranged between the plurality of threaded piles on the two sides, the second conveying component is arranged between the two first conveying components, a first driving motor is arranged on the second conveying component, and the first driving motor drives the two first conveying assemblies to synchronously rotate through the second conveying assembly.

Further, first transmission assembly includes a plurality of first transmission chains, every all be provided with first transmission gear on the screw thread stake, first transmission chain sets up between a plurality of first transmission gears, every first transmission gear all with first transmission chain meshing.

Furthermore, the second transmission assembly comprises two second transmission gears, the two second transmission gears are respectively arranged on the threaded piles at two sides, the two second transmission gears are respectively positioned above the corresponding first transmission gears, a second transmission chain is meshed between the two second transmission gears, the first driving motor is installed on the base, a main gear is fixedly connected to a rotating shaft of the first driving motor, and the main gear is meshed with the second transmission chain.

Further, a driving plate is arranged on the mounting frame in a sliding mode, the detector body is installed on the driving plate, a driving mechanism is arranged between the driving plate and the mounting frame, and the driving mechanism is used for driving the driving plate to slide.

Further, actuating mechanism includes second driving motor, second driving motor installs on the mounting bracket, threaded connection has two drive lead screws on the drive plate, two be provided with a driving belt between the drive lead screw, two the bottom of drive lead screw is all rotated and is connected on the base, second driving motor and one of them drive lead screw fixed connection.

Furthermore, a hydraulic telescopic rod is arranged between the detecting instrument body and the driving plate.

Furthermore, a plurality of supporting legs are arranged on the bottom of the base, each supporting leg is provided with a moving wheel on the bottom, and the base is provided with a driving handle.

Compared with the prior art, the utility model has the beneficial effects that: the base, the mounting bracket, the detection instrument body, fixing device, the screw pile, the link, first conveying subassembly, second conveying subassembly, cooperation between the first driving motor, first driving motor axis of rotation rotates and drives the master gear and rotate and drive second conveying chain and rotate, and then drive two synchronous rotations of second conveying gear, and then drive two screw piles that two second conveying gear belonged to and rotate, and then drive the first conveying gear rotation on two screw piles, and then drive all the other first conveying gear rotations, and then drive a plurality of screw piles of both sides and rotate in step, make screw pile bottom rotate to soil horizon, thereby play the fixed action to the base, improve the holistic stability of this monitoring tool.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic diagram of an overall structure provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of an overall front view structure according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a mounting rack according to an embodiment of the present invention;

fig. 4 is a schematic partial structural view of a mounting frame according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a fixing device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a first transmission assembly and a second transmission assembly according to an embodiment of the present invention.

Description of reference numerals: 1. a base; 2. a mounting frame; 3. a detector body; 4. a through hole; 5. a fixing device; 6. a connecting frame; 7. a screw pile; 8. a first transfer assembly; 801. a first transmission gear; 802. a first conveyor chain; 9. a second transfer assembly; 901. a main gear; 902. a second transmission gear; 903. a second conveyor chain; 10. a first drive motor; 11. a drive plate; 12. a hydraulic telescopic rod; 13. a drive mechanism; 1301. a second drive motor; 1302. driving the screw rod; 1303. a drive belt; 16. a drive handle; 17. supporting legs; 18. the wheel is moved.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

Referring to fig. 1-6, an underground water level monitoring tool for geological exploration according to an embodiment of the present invention includes a base 1, a through hole 4 is formed on the base 1, a mounting frame 2 is disposed on the base 1, a detector body 3 is vertically and upwardly slidably disposed on the mounting frame 2, the detector body 3 penetrates through the through hole 4, a fixing device 5 is disposed at the upper bottom of the base 1, the fixing device 5 includes a plurality of screw piles 7, first conveying component 8 and second conveying component 9, the equal fixedly connected with link 6 in 1 bottom both sides of base, a plurality of screw thread piles 7 are symmetrical state threaded connection on link 6, it all has first conveying component 8 to set up between a plurality of screw thread piles 7 in both sides, second conveying component 9 is provided with between two first conveying component 8, be provided with a first driving motor 10 on the second conveying component 9, first driving motor 10 drives two first conveying component 8 synchronous rotations through second conveying component 9.

Specifically, the underground water level monitoring tool for geological exploration comprises a base 1, a detector body 3 is vertically and downwards arranged on a mounting frame 2 in a sliding mode, the detector body 3 slides on the mounting frame 2, so that the underground water level is explored, and a through hole 4 is formed in the base 1, so that the detector body 3 can conveniently slide downwards; the fixing device 5 is arranged on the bottom of the base 1 in a sliding mode, and plays a role in fixing the underground water level monitoring tool during exploration operation, wherein the fixing device 5 comprises a plurality of threaded piles 7, connecting frames 6 are arranged on two sides of the bottom of the base 1, and the threaded piles 7 are symmetrically arranged and are in threaded connection with the two connecting frames 6, so that the base 1 is fixed more stably; a first conveying assembly 8 is respectively arranged between the plurality of threaded piles 7 on the two sides of the base 1, and the plurality of threaded piles 7 are driven to synchronously rotate through the conveying of the first conveying assembly 8, so that the base 1 is fixed; be provided with a second conveying subassembly 9 between two first conveying subassemblies 8, be provided with a first driving motor 10 on the second conveying subassembly 9, first driving motor 10 drive second conveying subassembly 9 rotates, drives two first conveying subassemblies 8 synchronous rotations through second conveying subassembly 9, and then drives a plurality of screw thread piles 7 synchronous rotations, plays the fixed action to base 1, improves work efficiency, and is effectual.

The first transmission assembly 8 comprises a plurality of first transmission chains 802, each threaded pile 7 is provided with a first transmission gear 801, the first transmission chains 802 are arranged among the plurality of first transmission gears 801, and each first transmission gear 801 is meshed with the first transmission chains 802.

Preferably, all be provided with first transmission gear 801 on every screw pile 7, be provided with first transmission chain 802 between a plurality of first transmission gear 801, every first transmission gear 801 all meshes with first transmission chain 802, just can drive first transmission chain 802 and rotate when one of them first transmission gear 801 rotates this moment, and then drive all the other first transmission gear 801 rotations, and then drive a plurality of screw piles 7 synchronous rotation, two first transmission assembly 8's structure and theory of operation are unanimous, another is so not being repeated here.

The second transmission assembly 9 includes two second transmission gears 902, the two second transmission gears 902 are respectively disposed on the threaded piles 7 on two sides, the two second transmission gears 902 are both located above the corresponding first transmission gear 801, a second transmission chain 903 is engaged between the two second transmission gears 902, the first driving motor 10 is installed on the base 1, a main gear 901 is fixedly connected to a rotating shaft of the first driving motor 10, and the main gear 901 is engaged with the second transmission chain 903.

Preferably, the second transmission assembly 9 includes two second transmission gears 902, wherein the two second transmission gears 902 are disposed on the threaded studs 7 at two sides of the bottom of the base 1, wherein preferably disposed on the two threaded studs 7 symmetrically disposed, and the two second transmission gears 902 are both located above the corresponding first transmission gear 801, so that the first transmission assembly 8 and the second transmission assembly 9 do not interfere with each other when operating, a second transmission chain 903 is engaged on the two second transmission gears 902, and the main gear 901 on the rotating shaft of the first driving motor 10 is engaged with the second transmission chain 903; when the monitoring tool is used, the first driving motor 10 is started, the rotating shaft of the first driving motor 10 rotates to drive the main gear 901 to rotate, the main gear 901 rotates to drive the second transmission chain 903 to rotate, and then the two second transmission gears 902 are driven to synchronously rotate, and then the two threaded piles 7 where the two second transmission gears 902 are located are driven to rotate, and then the first transmission gears 801 on the two threaded piles 7 are driven to rotate, when the first transmission gears 801 rotate, the first transmission chains 802 can be driven to rotate, and then the other first transmission gears 801 are driven to rotate, and then the threaded piles 7 on two sides are driven to synchronously rotate, so that the bottoms of the threaded piles 7 rotate to the soil layer, thereby fixing the base 1 and improving the overall stability of the monitoring tool.

A driving plate 11 is arranged on the mounting frame 2 in a sliding mode, the detector body 3 is installed on the driving plate 11, a driving mechanism 13 is arranged between the driving plate 11 and the mounting frame 2, and the driving mechanism 13 is used for driving the driving plate 11 to slide.

Preferably, the detecting instrument body 3 is mounted on the driving plate 11, the driving plate 11 is slidably disposed on the mounting frame 2, and a driving mechanism 13 is mounted on the mounting frame 2 for driving the driving plate 11 to slide, so as to drive the detecting instrument body 3 to slide, thereby facilitating the monitoring of the ground water level.

The driving mechanism 13 comprises a second driving motor 1301, the second driving motor 1301 is installed on the installation frame 2, the driving plate 11 is in threaded connection with two driving screws 1302, a transmission belt 1303 is arranged between the two driving screws 1302, the bottoms of the two driving screws 1302 are rotatably connected to the base 1, and the second driving motor 1301 is fixedly connected with one of the driving screws 1302.

Preferably, the driving mechanism 13 comprises a second driving motor 1301, wherein the second driving motor 1301 is mounted on the mounting frame 2, two driving screw rods 1302 are connected to the driving plate 11 in a threaded manner, the driving plate 11 is driven to slide by the rotation of the two driving screw rods 1302, a second driving motor 1301 is fixedly connected with one of the driving screw rods 1302, when the detecting instrument body 3 is required to perform detecting operation, the second driving motor 1301 is started, the second driving motor 1301 rotates the shaft to drive one of the driving screw rods 1302 to rotate, thereby driving the transmission belt 1303 to rotate and further driving the other driving screw rod 1302 to rotate, thereby driving the driving plate 11 to slide downwards to perform the detection operation, the driving plate 11 is arranged on the mounting frame 2 in a sliding way, and the two driving screws 1302 drive the driving plate 11, so that the stability of the monitoring tool in working is further improved.

A hydraulic telescopic rod 12 is arranged between the detecting instrument body 3 and the driving plate 11.

Preferably, a hydraulic telescopic rod 12 is arranged between the detecting instrument body 3 and the driving plate 11, so that the detection depth of the detecting instrument body 3 is further improved.

A plurality of supporting legs 17 are arranged at the bottom of the base 1, a moving wheel 18 is arranged at the bottom of each supporting leg 17, and a driving handle 16 is arranged on the base 1.

Preferably, the moving wheel 18 is arranged at the bottom of the supporting leg 17 to facilitate the moving of the monitoring tool, and the driving handle 16 is arranged on the base 1 to further improve the practicability of the monitoring device.

The working principle is as follows: when the monitoring device is used, firstly, the driving handle 16 is matched, the monitoring tool is moved to a preset position, the first driving motor 10 is started, the rotating shaft of the first driving motor 10 rotates to drive the main gear 901 to rotate, the main gear 901 rotates to drive the second transmission chain 903 to rotate, and then the two second transmission gears 902 are driven to synchronously rotate, and then the two threaded piles 7 where the two second transmission gears 902 are located are driven to rotate, so that the first transmission gears 801 on the two threaded piles 7 are driven to rotate, when the first transmission gears 801 rotate, the first transmission chains 802 are driven to rotate, and then the rest first transmission gears 801 are driven to rotate, so that the plurality of threaded piles 7 on the two sides are driven to synchronously rotate, a fixing effect is achieved on the base 1, and the overall stability of the monitoring tool is improved; then the second driving motor 1301, the second driving motor 1301 rotation axis rotate and then drive one of them drive lead screw 1302 and rotate, and then drive driving belt 1303 and rotate, and then drive another drive lead screw 1302 and rotate, and then drive plate 11 and slide downwards, survey the operation, utilize hydraulic telescoping rod 12 to control the detection degree of depth of detection instrument body 3 at last, improve this monitoring devices's practicality.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the utility model.

Claims (7)

1. The utility model provides a geological survey is with ground water level monitoring instrument, includes base (1), through-hole (4), its characterized in that have been seted up on base (1): a mounting frame (2) is arranged on the base (1), a detector body (3) is vertically and upwards slidably arranged on the mounting frame (2), and the detector body (3) penetrates through the through hole (4);

the fixing device (5) is arranged at the upper bottom of the base (1), the fixing device (5) comprises a plurality of threaded piles (7), a first conveying assembly (8) and a second conveying assembly (9), connecting frames (6) are fixedly connected to two sides of the bottom of the base (1), and the threaded piles (7) are symmetrically in threaded connection with the connecting frames (6);

a first conveying assembly (8) is arranged between a plurality of threaded piles (7) on two sides, and a second conveying assembly (9) is arranged between the two first conveying assemblies (8);

the second conveying assembly (9) is provided with a first driving motor (10), and the first driving motor (10) drives the two first conveying assemblies (8) to synchronously rotate through the second conveying assembly (9).

2. The groundwater level monitoring tool for geological exploration according to claim 1, wherein: first transmission assembly (8) include a plurality of first transmission chain (802), every all be provided with first transmission gear (801) on screw pile (7), first transmission chain (802) set up between a plurality of first transmission gear (801), every first transmission gear (801) all meshes with first transmission chain (802).

3. The groundwater level monitoring tool for geological exploration according to claim 2, wherein: the second transmission assembly (9) comprises two second transmission gears (902), the two second transmission gears (902) are respectively arranged on the threaded piles (7) on two sides, and the two second transmission gears (902) are both positioned above the corresponding first transmission gears (801);

a second transmission chain (903) is meshed between the two second transmission gears (902), the first driving motor (10) is installed on the base (1), a main gear (901) is fixedly connected to a rotating shaft of the first driving motor (10), and the main gear (901) is meshed with the second transmission chain (903).

4. The groundwater level monitoring tool for geological exploration according to claim 1, wherein: the detection instrument is characterized in that a drive plate (11) is arranged on the mounting frame (2) in a sliding mode, the detection instrument body (3) is installed on the drive plate (11), a driving mechanism (13) is arranged between the drive plate (11) and the mounting frame (2), and the driving mechanism (13) is used for driving the drive plate (11) to slide.

5. A groundwater level monitoring tool for geological exploration according to claim 4, wherein: the driving mechanism (13) comprises a second driving motor (1301), the second driving motor (1301) is installed on the installation frame (2), the driving plate (11) is connected with two driving screw rods (1302) in a threaded mode, a transmission belt (1303) is arranged between the two driving screw rods (1302), the bottoms of the two driving screw rods (1302) are connected to the base (1) in a rotating mode, and the second driving motor (1301) is fixedly connected with one of the driving screw rods (1302).

6. The groundwater level monitoring tool for geological exploration according to claim 1, wherein: a hydraulic telescopic rod (12) is arranged between the detecting instrument body (3) and the driving plate (11).

7. The groundwater level monitoring tool for geological exploration according to claim 1, wherein: the base is characterized in that a plurality of supporting legs (17) are arranged on the bottom of the base (1), each supporting leg (17) is provided with a moving wheel (18) on the bottom, and the base (1) is provided with a driving handle (16).

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