CN114838694A - Method for measuring data of field construction monitoring hole - Google Patents

Abstract

The invention discloses a method for measuring data of a field construction monitoring hole, which is applied to the field of seismic exploration and comprises the following steps: copying data; (ii) installing a hole monitoring instrument, and powering on; (iii) copying the data to a bore monitor; (iv) measuring monitoring hole information; (v) completion of measurement of one monitoring hole; (vi) finding the next monitoring hole; (vii) after all monitoring holes are detected, storing data and reporting the situation; the invention utilizes the motor to replace manual mechanical operation, utilizes intelligent data information acquisition to replace manual reading and measurement, utilizes data comparison to replace manual arrangement comparison, can effectively monitor the coordinate information of the formed hole, determines the position of the formed hole, provides the coordinates of the monitoring hole for hole monitoring personnel, is convenient to find the position of the monitoring hole, effectively solves the eight problems in the background technology, has easy and labor-saving whole hole monitoring process, accurate and comprehensive data, timely feedback, effectively improves the production efficiency and saves the cost.

Description

Method for measuring data of field construction monitoring hole

Technical Field

The invention relates to the field of seismic exploration, in particular to a method for measuring data of a field construction monitoring hole.

Background

In the process of seismic exploration field construction, the accuracy of field data acquisition is ensured by the pore-forming depth, the terrains and media with different pore-forming depths are designed to be slightly different, generally from several meters to tens of meters, and a monitoring hole group is arranged for ensuring the accuracy of data acquisition. The monitoring group member needs to check the depth and coordinates of the finished drill hole according to the design, generally only monitors the hole depth, and also needs to check the coordinates of the hole and monitor the geological structure of the hole by using a probe under special conditions.

The current hole monitoring steps and modes are as follows: monitoring hole group member obtains the paper data (common is the table) such as the coordinate data and design hole depth of concrete needs monitoring hole from technical group before the work out, monitors the position of hole mark number and finds out specific hole as required after arriving at the field, adopts the rope that marks the scale to tie the plumb bob and hangs down in the hole, estimates the hole depth roughly according to the scale on the rope.

In order to facilitate carrying and using of the rope with the depth of the measuring hole, I-shaped bobbins are used in some cases, and the measuring rope is simply wound by a wood chip in some cases. In order to improve the working efficiency, the hanging hammer is generally automatically slid down from the spool or the wood chip by the gravity of the hanging hammer when being put down, and the operation is repeated after the hanging hammer is manually wound on the spool or the wood chip for one circle after reading.

The following eight problems exist in the above-described monitoring process: firstly, the reading is inaccurate, and the data can be read only according to the estimation of 1 meter, 5 meters and 10 meters; secondly, the problem that scales on the lifting rope are easy to damage due to the fact that the measuring rope is slowly lowered and pulled up, the measuring tool is inaccurate and the like is caused, and hands of hole monitoring personnel can be scratched due to the fact that the measuring rope is lowered too fast; thirdly, when the ropes are wound on the thread spool and the wood chip, the arms of the hole monitoring personnel repeatedly wind, so that the working efficiency is low when the arms are tired; fourthly, only the hole depth can be monitored, and the coordinate position of the hole cannot be monitored; fifthly, in areas with complex construction environments, monitoring information is not convenient for monitoring personnel to record, if one person monitors the area, the monitoring tool needs to be put down, the recorded data record is drawn out, and then the monitoring tool is taken up, so that the working procedure is complicated, unsafe and low in efficiency; if the two persons are in one group, the working procedure is reduced, but the labor cost is increased correspondingly. Sixthly, the field environment is complex, sometimes the monitoring hole is in a half slope or low-lying place, the mark of the ground surface monitoring hole can be damaged due to weather reasons such as rain, strong wind and the like, and the monitoring hole personnel are not easy to find the position of the hole. Seventhly, when the coordinates of the formed holes or the geological structure of the observation holes need to be monitored, professional personnel need to use a professional tool for operation, and labor cost is increased; and eighthly, manually recorded data needs to be sorted and checked, because the hole monitoring information is paper field record, the hole monitoring personnel need to sort the data and then transfer the data to technical group personnel to be compared with design information, and then the data can be fed back to the punching group for rectification, and the data sorting and information comparison also are delicate work, so that the working links and labor capacity are increased, the communication feedback time among all working groups is prolonged, and the working efficiency is low.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method for measuring data of a field construction monitoring hole, which is simple to operate and convenient to use, realizes intelligent display and storage of monitoring hole information, ensures accurate data quality, has high working efficiency and can better serve field monitoring hole personnel.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the invention comprises the following steps: copying data: the monitoring personnel uses a USB flash disk or a memory card to copy the coordinate data of the monitoring hole from the technical group; (ii) installing a hole monitoring instrument, and powering on: after the monitoring site is reached, fixedly installing a hole monitoring instrument, aligning the hanging hammer to a monitoring hole to be detected, opening the protective cover and starting up the machine for supplying power; (iii) copying the data to a porosimeter: copying data in the USB flash disk or the memory card to a hole monitoring instrument, and calling out the hole number of a monitoring hole to be detected; (iv) measuring monitoring hole information: operating the monitoring button to measure the depth and coordinate information of the monitoring hole, and recording the depth and coordinate information in the USB flash disk or the memory card; (v) one monitor hole measurement completed: after the measurement is finished, operating a recovery button and returning the hanging hammer; (vi) finding the next monitoring hole: covering the protective cover, carrying up the strap, searching the next monitoring hole, and repeating the step (iv) and the step (v) to complete the detection of the monitoring hole; (vii) save data, report status: after all the monitoring holes are detected, the monitoring information data exchange technology group is guided into data analysis software for analysis and storage, information feedback is carried out on the monitoring information data exchange technology group and the monitoring information data exchange technology group, and relevant conditions are reported to the leader.

The invention is further improved in that: and (iv) a camera is arranged on the drop hammer, in the step (iv), the detection button is pressed down, and an image of the drop hammer reaching the environment and shot by the camera is displayed on the display screen and recorded in the flash disk or the memory card.

The invention is further improved in that: the monitoring instrument in the step (ii) comprises a monitoring unit arranged in the body and a control unit connected with the monitoring unit, wherein the monitoring unit comprises a hanging hammer corresponding to a hole formed in the bottom plate and a rotating shaft connected with the hanging hammer through a steel wire rope, the rotating shaft is connected with a motor arranged on the bottom plate, the control unit comprises a controller and a position sensor arranged on the hanging hammer, the position sensor is electrically connected with the input end of the controller, and the output end of the controller is electrically connected with the motor.

The invention is further improved in that: the top of body is equipped with display screen and operating panel, last shift knob, the monitoring button of being equipped with of operating panel is retrieved the button, is looked for the hole key, compass, speaker, USB interface and numeric keyboard, shift knob, monitoring button, retrieve the button, look for the hole key, compass, USB interface and numeric keyboard and the input electricity of controller are connected, the output of controller is connected with display screen, speaker electricity respectively.

The invention is further improved in that: and (ii) pressing a switch button in the step (ii), and supplying power to the controller by a power supply arranged on the bottom plate of the body.

The invention is further improved in that: the controller is arranged on the body below the operation panel, a GPS locator electrically connected with the input end of the controller is arranged on the controller, and the GPS locator is arranged above the hanging hammer.

The invention is further improved in that: and (iv) pressing down the monitoring button, enabling the motor to rotate positively to drive the rotating shaft to rotate positively, enabling the steel wire rope to be lowered into the well hole along with the hanging hammer until the bottom of the hole, displaying the depth information of the monitoring hole on the display screen, and recording the depth information in the USB flash disk or the memory card.

The invention is further improved in that: and (vi) pressing a hole finding key, and finding the position of the next hole according to the voice prompt of the loudspeaker.

The invention is further improved in that: the foldable support legs are fixedly arranged at the bottom of the body, and the top of the body is movably connected with the protective cover.

The invention is further improved in that: the braces are arranged on the body.

Due to the adoption of the technical scheme, the invention has the beneficial effects that:

according to the invention, manual mechanical operation is replaced by the motor, manual reading and measurement are replaced by intelligent data information acquisition, manual sorting and comparison are replaced by data comparison, the coordinate information of the formed hole can be effectively monitored, the position of the punched hole is determined, the coordinates of the monitoring hole are provided for hole monitoring personnel, the position of the monitoring hole is convenient to search, and eight problems in the background art can be effectively solved.

The invention also provides a practical multifunctional hole monitoring instrument which is simple in operation, convenient to use and reliable in hole forming monitoring data, is small in size, light in weight, convenient to carry, time-saving and labor-saving, and can better serve field hole monitoring personnel. Its reading accuracy is high, and whole prison hole measurement process has realized intelligent control, and work efficiency is high, and work quality is guaranteed, and compass and speaker's setting does not divide sleet or strong wind weather, and it is fast, efficient to look for the hole. Under the complex geological condition, on the premise of ensuring the safety of hole monitoring personnel, various data can be accurately measured, the labor waste is reduced, and the production cost is reduced.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic top view of the present invention without the protective cover;

fig. 3 is a schematic structural diagram of the working principle of the controller of the present invention.

Wherein, 1, a display screen; 2. a protective cover; 3. an operation panel; 3-1, a switch button; 3-2, a monitoring button; 3-3, a recovery button; 3-4, finding a hole key; 3-5, a compass; 3-6, a loudspeaker; 3-7, USB interface; 3-8, a numeric keyboard; 4. A body; 5. a wire rope; 6. a rotating shaft; 7. a harness; 8. hanging a hammer; 9. a support leg; 10. a base plate; 11. a motor; 12. a power source; 13. a controller; 14. a GPS locator; 15. a camera; 16. a position sensor.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

a method for measuring data of field construction monitoring holes comprises the following steps:

copying data: the monitoring personnel uses a USB flash disk or a memory card to copy the coordinate data of the monitoring hole from the technical group;

(ii) installing a hole monitoring instrument, and powering on: after the monitoring device arrives at a monitoring place, the monitoring device is placed above the monitoring hole, the hanging hammer 8 is aligned with the monitoring hole below the monitoring hole, then the supporting legs 9 are released to enable the supporting body 4 to support the monitoring device, after the monitoring device is placed flatly and stably, the protective cover 2 is opened, the switch button 3-1 is pressed, the power supply 12 supplies power to the controller 13, the motor 11, the display screen 1 and other electric equipment, the display screen 1 displays starting information, and the monitoring device is in a standby state.

(iii) copying the data to a porosimeter: the USB flash disk or the memory card is inserted into a USB interface 3-7 of the hole monitoring instrument, and the number of a hole to be monitored is called by a numeric keyboard 3-8.

(iv) measuring monitoring hole information: and pressing a monitoring button 3-2, measuring the depth and coordinate information of the monitoring hole, and recording the depth and coordinate information in the USB flash disk or the memory card. As shown in fig. 3, when the monitor button 3-2 is pressed, the controller 13 receives the information that the monitor button 3-2 is turned on, the controller 13 sends out a command through the output end of the controller 13 after analysis and judgment, the motor 11 is started, the motor 11 rotates forwards to drive the rotating shaft 6 to rotate forwards and the steel wire rope 5 is put down from the rotating shaft 6, the hanging hammer 8 drives the steel wire rope 5 which is put down to descend along the monitoring hole under the action of gravity, until the steel wire rope descends to the bottom of the monitoring hole, the output end of the controller 13 sends out a command, the motor 11 rotates forwards and backwards rapidly and reversely continuously for two times to enable the steel wire rope 5 to be quickly and automatically put down and recovered in a short distance, the hanging hammer 8 is driven to carry out two times of tests of impacting the bottom of the hole, and after the steel wire rope cannot descend continuously, the position sensor 16 on the hanging hammer 8 transmits the detected position information to the controller 13, and the controller 13 analyzes and judges the information and then the output end of the controller 13 sends a command to the motor 11 to stop the forward rotation after the power is cut off. Meanwhile, the position information measured by the position sensor 16 on the drop hammer 8, that is, the depth information of the hole is displayed on the display screen 1 and recorded in the flash disk or the memory card, but the depth information of the hole can also be accurately calculated through the rotating speed and the forward rotation time of the motor 11 and displayed on the display screen 1 and recorded in the flash disk or the memory card. At the same time, the equipment can send out a completion information prompt of dropping.

As shown in fig. 1, in order to accurately measure coordinate information of a monitoring hole, a GPS locator 14 is arranged above a hanging hammer 8, the hanging hammer 8 corresponds to the monitoring hole, the GPS locator 14 is integrally arranged with a controller 13, the controller 13 is arranged on a body 4 below an operation panel 3, and the GPS locator 14 is electrically connected with an input end of the controller 13. In this way, the coordinate information of the monitoring hole is displayed on the display screen 1 in real time through the controller 13 and recorded in the flash disk or the memory card, and thus, the depth and the coordinate information of the monitoring hole are displayed on the display screen 1 and recorded in the flash disk or the memory card.

In the measuring process, if the geological structure of the measuring hole needs to be analyzed, a camera 15 is required to be arranged on the hanging hammer 8, the camera 15 is a high-definition camera, the camera 15 is electrically connected with the input end of the controller, therefore, when the monitoring button 3-2 is pressed, an image of the environment where the hanging hammer 8 reaches the environment and shot by the camera 15 can be displayed on the display screen 1 in real time, the display information of the display screen 1 can be observed on site, and meanwhile, related pictures and data are stored in a flash disk or a memory card. The camera 15 set up the geological structure that can directly watch the pore-forming to shoot into the photo or video and save the geological structure of pore-forming, the more audio-visual analysis geological structure information of the technical staff of being convenient for, be convenient for adjust construction technology and judge the construction method, made things convenient for work.

(v) one monitor hole measurement completed: after the measurement is finished, operating the recovery button 3-3, and returning the hanging hammer 8; the recovery button 3-1 is pressed, the output end of the controller 13 sends a command to the motor 11 to rotate reversely after receiving the information, the rotating shaft 6 rotates reversely to wind the steel wire rope 5 on the rotating shaft 6, meanwhile, the steel wire rope 5 drives the hanging hammer 8 to ascend, the controller 13 commands the motor 11 to stop rotating reversely until the position sensor 16 detects that the hanging hammer 8 resets, the completion information prompt of 'dropping' is sent again, and at this time, the information monitoring of one hole is completed.

(vi) look for the next monitoring hole: and (3) after the measurement of one monitoring hole is finished, covering the protective cover 2, folding the supporting legs 9, carrying the braces 7 up, searching for the next hole, and repeating the step (iv) and the step (v) to finish the detection of the monitoring holes until the measurement of the depth information and the coordinate position of all the monitoring holes is finished.

If the next hole cannot be found, the hole finding key 3-4 is clicked, the controller 13 judges the direction and the distance of the next hole according to the positioning information of the GPS locator 14 and the indication of the compass 3-5 based on the position coordinates of the previous hole, and the monitor is helped to find the next hole as soon as possible under the guidance of the loudspeaker 3-6. When the controller 13 indicates that the power is insufficient, the standby battery needs to be replaced in time to meet the power consumption requirement of the equipment. If rainy or snowy weather occurs, a waterproof protective cover can be covered on the body 4 to protect the equipment.

After the measurement work of all the monitoring holes is finished, the long-time pressing of the switch button 3-1 is carried out, the power is turned off, the protective cover 2 is covered, and the outer wall of the body 4 is cleaned to finish the work of one day.

(vii) save data, report status: after all the monitoring holes are detected, the receiver imports the monitoring information data to the data analysis software for analysis and storage, feeds back information with the hole forming group, and reports relevant conditions to the leader.

As shown in fig. 1 to 3, the monitoring instrument includes a monitoring unit disposed in the body 4 and a control unit connected to the monitoring unit. The body 4 is made of plastic or other light materials, the weight is light, the size is small, the body is firm and durable, and the straps 7 on the body 4 are convenient to carry and do not consume physical strength, so that the portable electric heating water heater is suitable for field workers to use.

The monitoring unit comprises a hanging hammer 8 and a rotating shaft 6 connected with the hanging hammer 8 through a steel wire rope 5, the hanging hammer 8 corresponds to a hole formed in a bottom plate 10, the rotating shaft 6 rotates to place the hanging hammer 8 into the bottom of a monitoring hole through the hole formed in the bottom plate 10 through the steel wire rope 5 for measurement, or the hanging hammer 8 is lifted from the bottom of the monitoring hole through the hole formed in the bottom plate 10 to be reset in the body 4. The hanging weight 8 is provided with a position sensor 16 for measuring the position of the hanging weight 8. The control unit comprises a controller 13 and a position sensor 16 arranged on the hanging hammer 8, the position sensor 16 is electrically connected with the input end of the controller 13, the controller 13 is a single chip microcomputer, a chip or a PLC unit with an intelligent control function, and a control program can be written according to requirements for use. The output end of the controller 13 is electrically connected with the motor 11. The position sensor 16 is arranged to measure the position information of the hanging hammer 8 in real time and display the position information on the display screen 1 in real time.

As shown in fig. 1, a motor 11 and a power supply 12 are arranged on the bottom plate 10, the motor 11 is connected with a rotating shaft 6, the rotating shaft 6 is connected with a hanging hammer 8 through a steel wire rope 5, the motor 11, the power supply 12 and the hanging hammer 8 are all arranged at the bottom of the hole monitoring instrument, the weight of the bottom of the hole monitoring instrument is increased, the center of gravity of the hole monitoring instrument moves downwards, and the hole monitoring instrument is convenient to place in a balanced manner. The motor 11 positively rotates to drive the rotating shaft 6 to positively rotate the steel wire rope 5 to be lowered from the rotating shaft 6, the hanging hammer 8 is slowly sent into the bottom of the monitoring hole, the motor 11 reversely rotates the rotating shaft 6, the lowered steel wire rope 5 is wound on the rotating shaft 6, and the hanging hammer 8 at the bottom of the monitoring hole is slowly lifted into the body 4. The power supply 12 is connected with the switch button 3-1 to supply power for the hole monitoring instrument.

The top of the body 4 is provided with a display screen 1 and an operation panel 3, as shown in figure 2, the operation panel 3 is provided with a switch button 3-1, a monitoring button 3-2, a recovery button 3-3, a hole finding key 3-4, a compass 3-5, a loudspeaker 3-6, a USB interface 3-7 and a numeric keypad 3-8, as shown in figure 3, the switch button 3-1, the monitoring button 3-2, the recovery button 3-3, the hole finding key 3-4, the compass 3-5, the USB interface 3-7 and the numeric keypad 3-8 are all electrically connected with an input end of a controller 13, and an output end of the controller 13 is respectively electrically connected with the display screen 1 and the loudspeaker 3-6.

As shown in fig. 1, the bottom of the body 4 is provided with the supporting legs 9, the supporting legs 9 are foldable, after information monitoring of one hole is completed, the supporting legs 9 are folded to be convenient to carry, and when monitoring is needed, the supporting legs 9 are extended to be used for supporting the body 4 to enable the bottom plate 10 to be far away from the ground, so that the motor 11 and the power supply 12 on the bottom plate 10 are prevented from being too close to the ground to be affected with damp, and normal operation of the device is prevented from being affected. The top of the body 4 is provided with a protective cover 2 movably connected with the body 4, when the device works, the protective cover 2 is opened, and the protective cover 2 is covered after measurement is finished, so that the device plays a role in protecting the display screen 1 and the operation panel 3.

And (4) well maintaining and charging the hole monitoring instrument by hole monitoring personnel, and preparing for work on the next day. The implementation of the hole monitoring instrument successfully solves eight problems mentioned in the background technology, simplifies the hole monitoring steps, has accurate well depth data reading, high accuracy, accurate hole finding and greatly improved working efficiency, and lays a solid foundation for the implementation of the next work by using high-quality hole monitoring data. The whole hole monitoring process is easy and labor-saving, data are accurate and comprehensive, feedback is timely, production efficiency is effectively improved, and cost is saved.

Finally, it should be noted that: the above examples are merely illustrative for clearly illustrating the present invention and are in no way to be construed as limiting the embodiments. It will be apparent to those skilled in the art that many more modifications and variations than mentioned above are possible in light of the above teaching, and it is not intended to be exhaustive or to limit all embodiments to the precise form disclosed, and all changes and modifications that are obvious are intended to fall within the scope of the invention.

Claims (10)

1. A method for measuring data of field construction monitoring holes is characterized by comprising the following steps:

copying data: the monitoring personnel uses a USB flash disk or a memory card to copy the coordinate data of the monitoring hole from the technical group;

(ii) installing a hole monitoring instrument, and powering on: after the monitoring site is reached, fixedly installing a hole monitoring instrument, aligning a hanging hammer (8) to a monitoring hole to be detected, opening a protective cover (2) and starting up for power supply;

(iii) copying the data to a porosimeter: copying data in the USB flash disk or the memory card to a hole monitoring instrument, and calling out the hole number of a monitoring hole to be detected;

(iv) measuring monitoring hole information: operating a monitoring button (3-2) to measure the depth and coordinate information of the monitoring hole and recording the depth and coordinate information in a flash disk or a memory card;

(v) one monitor hole measurement completed: after the measurement is finished, operating a recovery button (3-3) and returning the hanging hammer (8);

(vi) finding the next monitoring hole: covering the protective cover (2), lifting the strap (7), searching the next monitoring hole, and repeating the step (iv) and the step (v) to complete detection of the monitoring hole;

(vii) save data, report status: after all the monitoring holes are detected, the monitoring information data exchange technology group is guided into data analysis software for analysis and storage, information feedback is carried out on the monitoring information data exchange technology group and the monitoring information data exchange technology group, and relevant conditions are reported to the leader.

2. The method for measuring the data of the field construction monitoring hole as claimed in claim 1, wherein the method comprises the following steps: and a camera (15) is arranged on the hanging hammer (8), in the step (iv), the detection button (3-2) is pressed down, and an image of the environment where the hanging hammer (8) reaches is displayed on the display screen (1) and is shot by the camera (15), and is recorded in a flash disk or a memory card.

3. The method for measuring the data of the field construction monitoring hole according to claim 1, characterized in that: the hole monitoring instrument in the step (ii) comprises a monitoring unit arranged in a body (4) and a control unit connected with the monitoring unit, wherein the monitoring unit comprises a hanging hammer (8) corresponding to a hole formed in a bottom plate (10) and a rotating shaft (6) connected with the hanging hammer (8) through a steel wire rope (5), the rotating shaft (6) is connected with a motor (11) arranged on the bottom plate (10), the control unit comprises a controller (13) and a position sensor (16) arranged on the hanging hammer (8), the position sensor (16) is electrically connected with the input end of the controller (13), and the output end of the controller (13) is electrically connected with the motor (11).

4. The method for measuring data of the field construction monitoring hole as claimed in claim 3, wherein the method comprises the following steps: the top of the body (4) is provided with a display screen (1) and an operation panel (3), the operating panel (3) is provided with a switch button (3-1), a monitoring button (3-2), a recovery button (3-3), a hole finding key (3-4), a compass (3-5), a loudspeaker (3-6), a USB interface (3-7) and a numeric keyboard (3-8), the switch button (3-1), the monitoring button (3-2), the recovery button (3-3), the hole finding key (3-4), the compass (3-5), the USB interface (3-7) and the digital keyboard (3-8) are all electrically connected with the input end of the controller (13), the output end of the controller (13) is respectively and electrically connected with the display screen (1) and the loudspeakers (3-6).

5. The method for measuring the data of the field construction monitoring hole as claimed in claim 4, wherein the method comprises the following steps: in the step (ii), the switch button (3-1) is pressed, and the power supply (12) arranged on the bottom plate (10) of the body (4) supplies power to the controller (13).

6. The method for measuring the data of the field construction monitoring hole as claimed in claim 4, wherein the method comprises the following steps: the controller (13) is arranged on the body (4) below the operation panel (3), the controller (13) is provided with a GPS locator (14) electrically connected with an input end of the controller (13), and the GPS locator (14) is arranged above the drop hammer (8).

7. The method for measuring the data of the field construction monitoring hole as claimed in claim 1, wherein the method comprises the following steps: in the step (iv), the monitoring button (3-2) is pressed down, the motor (11) rotates forward to drive the rotating shaft (6) to rotate forward, the steel wire rope (5) is lowered into the well hole along with the hanging hammer (8) until the bottom of the hole, and the depth information of the monitoring hole is displayed on the display screen (1) and recorded in the USB flash disk or the memory card.

8. The method for measuring the data of the field construction monitoring hole as claimed in claim 1, wherein the method comprises the following steps: and in the step (vi), the hole finding key (3-4) is pressed, and the position of the next hole is found according to the voice prompt of the loudspeaker (3-6).

9. The method for measuring the data of the field construction monitoring hole as claimed in claim 8, wherein the method comprises the following steps: the foldable support legs (9) are fixedly arranged at the bottom of the body (4), and the top of the body (4) is movably connected with the protective cover (2).

10. The measurement method according to any one of claims 1 to 9, characterized in that: the straps (7) are arranged on the body (4).

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