CN217442520U - High efficiency is depth measuring device for geological exploration - Google Patents

Abstract

The utility model discloses a high efficiency is depth measuring device for geological exploration belongs to geological exploration technical field. The utility model provides a high efficiency is degree of depth measuring device for geological exploration, includes the backup pad, the backup pad lower extreme articulates there is the support column, the one end that the support column was kept away from to the backup pad is equipped with the regulating part that is used for adjusting the device levelness, the backup pad outside is equipped with the spirit level, the backup pad upper end is equipped with the measuring part that is used for measuring the depth of investigation, and its advantage of depth measuring device for local geological exploration lies in, through the levelness of regulating part adjustment the device, and then improves measured data's accuracy.

Description

High efficiency is depth measuring device for geological exploration

Technical Field

The utility model belongs to the technical field of geological exploration, especially, high efficiency is depth measuring device for geological exploration.

Background

The long-term observation work of going on time variation process such as the stress strain of geological phenomena, ground soil body and groundwater is in order to master its dynamic change law, the prediction development trend, judge the harm degree that probably produces to take corresponding safeguard procedures, guarantee the safety of people's lives and property and building, because the geological surface is the unevenness mostly, the state that can appear inclining on the geological surface is placed to current geological depth measuring equipment, and then influences the accuracy of measured data.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: a high efficiency depth measuring device for geological exploration is provided to solve the above problems existing in the prior art.

The technical scheme is as follows: the utility model provides a high efficiency is degree of depth measuring device for geological exploration, includes the backup pad, the backup pad lower extreme articulates there is the support column, the one end that the support column was kept away from to the backup pad is equipped with the regulating part that is used for adjusting the device levelness, the backup pad outside is equipped with the spirit level, the backup pad upper end is equipped with the measuring part that is used for measuring the depth of investigation.

Through the technical scheme: when the device was placed subaerial, the support column supported the device with the regulating part, when the device took place to incline, adjusted the height of backup pad one end through the regulating part, because the backup pad is articulated together with the support column, when the one end of backup pad was carried out altitude mixture control, driven the hinged end rotation of backup pad and support column, observed numerical value on the spirit level this moment, when numerical value on the spirit level zero return, the device was placed at the horizontality this moment, and then improved measured data's accuracy.

In a further embodiment, the adjusting part comprises an installation box placed on the ground, a driving part for driving the adjusting part is arranged in the installation box, a driven gear is meshed on the driving part, a threaded rod is clamped in the driven gear, a sleeve pipe is in threaded connection with the outer side of the threaded rod, one end of the sleeve pipe, which is far away from the driven gear, extends out of the installation box, the extending end of the sleeve pipe is fixedly installed at the lower end of the supporting plate, a fixed plate is rotatably installed at the outer side, which is close to the driven gear, of the threaded rod, the outer side of the fixed plate is fixedly installed on the inner wall of the installation box, the driving part drives the driven gear to rotate, the driven gear drives the threaded rod to rotate, the sleeve pipe slides on the threaded rod by rotation of the threaded rod, and then the height of one end of the supporting plate is adjusted, because the supporting plate and the supporting column are hinged together, when the height of one end of the supporting plate is adjusted, the drive the hinged end of backup pad and support column rotates, observes this moment numerical value on the spirit level, works as numerical value zero return on the spirit level, and the device is placed at the horizontality, and then improves measured data's accuracy.

In a further embodiment, the driving piece includes fixed mounting the gear motor on the installation incasement wall, gear motor's output joint has the transmission shaft, gear motor's one end rotation that the transmission shaft was kept away from is installed on the inner wall of installation case, transmission shaft outside joint has the driving gear, the driving gear is in the same place with driven gear meshing, gear motor drives the transmission shaft and rotates, the transmission shaft drives the driving gear and rotates, and then the drive the regulating part.

In a further embodiment, a guide member for guiding the sliding of the adjusting member is provided on the outer side of the fixing plate, for guiding the sliding of the adjusting member.

In a further embodiment, the guide part comprises a guide post fixedly mounted on the fixed plate, one end of the guide post, far away from the fixed plate, is fixedly mounted on the inner wall of the mounting box, a guide plate is connected to the outer side of the guide post in a sliding manner, one end of the guide plate, far away from the guide post, is fixedly mounted on the outer side of the sleeve, and the adjusting part drives the guide plate to slide on the guide post when sliding, so that the stability of the adjusting part when sliding is improved.

In a further embodiment, the measuring part comprises a hydraulic rod fixedly mounted on the upper end of the supporting plate, measuring lines are arranged on the hydraulic rod, a hydraulic cylinder is connected to the outer side of the hydraulic rod in a sliding mode, a mounting plate is fixedly mounted on the upper end of the hydraulic cylinder, a servo motor is arranged on the upper end of the mounting plate, a drill rod is arranged at the output end of the servo motor, the servo motor drives the drill rod to rotate, the hydraulic rod slides inside the hydraulic cylinder, the drill rod is driven to conduct exploration measurement downwards, and the geological depth of exploration is checked through the length of the measuring lines covered by the hydraulic cylinder for conducting exploration depth measurement.

Has the advantages that: when the device takes place the slope, adjust the height of backup pad one end through the regulating part, because backup pad and support column are articulated together, when the one end of backup pad was carried out altitude mixture control, drive the hinged end rotation of backup pad and support column, observe numerical value on the spirit level this moment, numerical value zero time on the spirit level, the device was placed at the horizontality this moment, and then improved measured data's accuracy.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a structural sectional view of the present invention;

fig. 3 is a schematic structural diagram of the slide plate and the second motor of the present invention.

The reference signs are: 1. installing a box; 2. a support plate; 3. a hydraulic lever; 4. measuring a line; 5. a hydraulic cylinder; 6. mounting a plate; 7. a servo motor; 8. a drill stem; 9. a level gauge; 10. a support pillar; 11. a sleeve; 12. a reduction motor; 13. a drive shaft; 14. a driving gear; 15. a driven gear; 16. a threaded rod; 17. a fixing plate; 18. a guide plate; 19. and a guide post.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

As shown in figures 1 to 3, the high-efficiency depth measuring device for geological exploration comprises a supporting plate 2, a supporting column 10 is hinged at the lower end of the supporting plate 2, an adjusting piece for adjusting the levelness of the device is arranged at one end of the supporting plate 2 far away from the supporting column 10, a level gauge 9 is arranged at the outer side of the supporting plate 2, a measuring piece for measuring the exploration depth is arranged at the upper end of the supporting plate 2, when the device is inclined, the height of one end of the supporting plate 2 is adjusted through the adjusting piece, and because the supporting plate 2 is hinged with the supporting column 10, when one end of the supporting plate 2 is adjusted in height, the hinged end of the supporting plate 2 and the supporting column 10 is driven to rotate, at the moment, the numerical value on the level gauge 9 is observed, when the value on the level gauge 9 is zero, the device is placed in a horizontal state, and the accuracy of measured data is further improved.

Referring to fig. 2 and 3, the adjusting member includes an installation box 1 placed on the ground, a driving member for driving the adjusting member is disposed inside the installation box 1, a driven gear 15 is engaged with the driving member, a threaded rod 16 is clamped inside the driven gear 15, a sleeve 11 is connected to the outer side of the threaded rod 16 in a threaded manner, one end of the sleeve 11, which is far away from the driven gear 15, extends out of the installation box 1, an extending end of the sleeve 11 is fixedly mounted at the lower end of the supporting plate 2, a fixing plate 17 is rotatably mounted at the outer side of the threaded rod 16, which is close to the driven gear 15, the outer side of the fixing plate 17 is fixedly mounted on the inner wall of the installation box 1, the driven gear 15 is driven by the driving member to rotate while driving the threaded rod 16 to rotate, the sleeve 11 slides on the threaded rod 16 while the threaded rod 16 rotates, so as to further adjust the height of one end of the supporting plate 2, and simultaneously drive the hinged end of the supporting plate 2 and the supporting column 10 to rotate, at the moment, the numerical value on the level gauge 9 is observed, and when the numerical value on the level gauge 9 returns to zero, the device is placed in a horizontal state, so that the accuracy of measured data is improved.

As shown in fig. 2 and 3, the driving member includes a speed reduction motor 12 fixedly installed on the inner wall of the installation box 1, an output end of the speed reduction motor 12 is connected with a transmission shaft 13 in a clamping manner, one end of the transmission shaft 13 far away from the speed reduction motor 12 is rotated and installed on the inner wall of the installation box 1, a driving gear 14 is connected with the outer side of the transmission shaft 13 in a clamping manner, the driving gear 14 is meshed with a driven gear 15, the speed reduction motor 12 drives the transmission shaft 13 to rotate, and the transmission shaft 13 drives the driving gear 14 to rotate when rotating for driving the adjusting member.

As shown in fig. 2 and 3, the outer side of the fixed plate 17 is provided with a guide for guiding the sliding of the adjusting member.

As shown in fig. 2, the guiding element includes a guiding post 19 fixedly mounted on the fixing plate 17, one end of the guiding post 19 far away from the fixing plate 17 is fixedly mounted on the inner wall of the mounting box 1, a guiding plate 18 is connected to the outer side of the guiding post 19 in a sliding manner, one end of the guiding plate 18 far away from the guiding post 19 is fixedly mounted on the outer side of the sleeve 11, and the adjusting element drives the guiding plate 18 to slide on the guiding post 19 while sliding, so that the stability of the adjusting element during sliding is improved.

As figure 2, the measuring part includes hydraulic stem 3 of fixed mounting in backup pad 2 upper end, be equipped with measure line 4 on hydraulic stem 3, 3 outside sideslip of hydraulic stem is connected with pneumatic cylinder 5, 5 upper end fixed mounting of pneumatic cylinder have mounting panel 6, 6 upper ends of mounting panel are equipped with servo motor 7, 7 outputs of servo motor are equipped with drilling rod 8, it rotates to drive drilling rod 8 through servo motor 7, simultaneously hydraulic stem 3 slides in 5 insides of pneumatic cylinder, and then drive drilling rod 8 and survey and measure down, the geology degree of depth of exploration is calculated to the length that covers measure line 4 through pneumatic cylinder 5 this moment, be used for surveying the degree of depth and measuring.

The working principle is as follows: when the device inclines, the speed reducing motor 12 is started, the speed reducing motor 12 drives the transmission shaft 13 to rotate, the transmission shaft 13 drives the driving gear 14 to rotate while rotating, the driven gear 15 drives the threaded rod 16 to rotate while rotating, the threaded rod 16 enables the sleeve 11 to slide on the threaded rod 16 while rotating, and then the height of one end of the supporting plate 2 is adjusted, because the supporting plate 2 and the supporting column 10 are hinged together, when the height of one end of the supporting plate 2 is adjusted, the hinged end of the supporting plate 2 and the supporting column 10 is driven to rotate, at the moment, the numerical value on the level instrument 9 is observed, when the numerical value on the level instrument 9 returns to zero, the device is placed in a horizontal state, and then the accuracy of measured data is improved, the drilling rod 8 is driven to rotate by the servo motor 7, and meanwhile, the hydraulic rod 3 slides in the hydraulic cylinder 5, and then the drilling rod 8 is driven to move downwards for exploration measurement, and calculating the geological depth measurement data of exploration by covering the length of the measuring line 4 by the hydraulic cylinder 5.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical solutions of the present invention can be subjected to various equivalent transformations within the scope of the technical idea of the present invention, and these equivalent transformations all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a high efficiency is degree of depth measuring device for geological exploration, includes backup pad (2), its characterized in that, backup pad (2) lower extreme articulates there is support column (10), the one end that support column (10) were kept away from in backup pad (2) is equipped with the regulating part that is used for adjusting the device levelness, backup pad (2) outside is equipped with spirit level (9), backup pad (2) upper end is equipped with the measuring part that is used for measuring the survey degree of depth.

2. The depth measuring device for high-efficiency geological exploration is characterized in that the adjusting part comprises an installation box (1) placed on the ground, a driving part used for driving the adjusting part is arranged inside the installation box (1), a driven gear (15) is meshed on the driving part, a threaded rod (16) is clamped inside the driven gear (15), a sleeve (11) is in threaded connection with the outer side of the threaded rod (16), one end, far away from the driven gear (15), of the sleeve (11) extends out of the installation box (1), the extending end of the sleeve (11) is fixedly installed at the lower end of the supporting plate (2), a fixing plate (17) is rotatably installed on the outer side, close to the driven gear (15), of the threaded rod (16), and the outer side of the fixing plate (17) is fixedly installed on the inner wall of the installation box (1).

3. The depth measuring device for high-efficiency geological exploration according to claim 2, wherein the driving piece comprises a speed reducing motor (12) fixedly installed on the inner wall of the installation box (1), the output end of the speed reducing motor (12) is clamped with a transmission shaft (13), one end, far away from the speed reducing motor (12), of the transmission shaft (13) is rotatably installed on the inner wall of the installation box (1), a driving gear (14) is clamped on the outer side of the transmission shaft (13), and the driving gear (14) is meshed with a driven gear (15).

4. The apparatus for measuring the depth of geological exploration with high efficiency according to claim 2, wherein the outer side of the fixed plate (17) is provided with a guide for guiding the sliding of the adjustment member.

5. A high efficiency depth measuring device for geological exploration according to claim 4, characterized in that the guiding element comprises a guiding column (19) fixedly mounted on the fixing plate (17), one end of the guiding column (19) far away from the fixing plate (17) is fixedly mounted on the inner wall of the installation box (1), a guiding plate (18) is slidably connected to the outer side of the guiding column (19), and one end of the guiding plate (18) far away from the guiding column (19) is fixedly mounted on the outer side of the casing (11).

6. The depth measuring device for high-efficiency geological exploration according to claim 1, characterized in that the measuring part comprises a hydraulic rod (3) fixedly mounted at the upper end of the supporting plate (2), a measuring line (4) is arranged on the hydraulic rod (3), a hydraulic cylinder (5) is connected outside the hydraulic rod (3) in a sliding manner, a mounting plate (6) is fixedly mounted at the upper end of the hydraulic cylinder (5), a servo motor (7) is arranged at the upper end of the mounting plate (6), and a drill rod (8) is arranged at the output end of the servo motor (7).

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