CN115435717A

CN115435717A - Pile hole quality detection device for building supervision

Info

Publication number: CN115435717A
Application number: CN202211186668.0A
Authority: CN
Inventors: 刘永峰; 冯炳臻; 王国安; 刘青; 张倩; 曲晓东; 李坚; 胥松波
Original assignee: Qingdao Dongfang Supervision Co ltd
Current assignee: Qingdao Dongfang Supervision Co ltd
Priority date: 2022-09-27
Filing date: 2022-09-27
Publication date: 2022-12-06

Abstract

The invention provides a pile hole quality detection device for building supervision, which relates to the technical field of pile hole detection and comprises a fixed frame, wherein the fixed frame comprises a first limiting ring, a second limiting ring and a third limiting ring which are sequentially arranged at equal intervals from top to bottom, a driving assembly is arranged on one side of the fixed frame, a detection assembly is arranged in the fixed frame, the detection device is in communication connection with a control assembly, a detection module is arranged on the control assembly, the driving assembly is adopted to drive the detection assembly to move in a pile hole, a support does not need to be installed, and the detection assembly is hoisted by a winch, the use process is simple, meanwhile, after the detection assembly collects data in the pile hole, the data are processed to generate a pile hole model, and detected data are mapped on the pile hole model, so that a user can visually obtain information in the pile hole conveniently, and the problems that the operation process of the existing pile hole quality detection is complicated, and the user cannot conveniently and visually obtain the information in the pile hole are solved.

Description

Pile hole quality detection device for building supervision

Technical Field

The invention relates to the technical field of pile hole detection, in particular to a pile hole quality detection device for building supervision.

Background

In the building work progress, need detect the pore-forming quality in stake hole after the construction of stake hole is accomplished, detect through bored concrete pile aperture detecting system in the current testing process, in the testing process, need behind the installing support adjustment test head and the axiality in stake hole, the mode that adopts the capstan winch hoist and mount detects the stake hole with test head hoist and mount downthehole portion, whole operation process is not only loaded down with trivial details, the detection data that obtains simultaneously can not audio-visually demonstrate the user, be not convenient for the audio-visual information that acquires the downthehole portion of stake.

Disclosure of Invention

The embodiment of the invention provides a pile hole quality detection device for building supervision, which is characterized in that a driving assembly is adopted to drive a detection assembly to move in a pile hole, a support does not need to be installed, a winch is not adopted for hoisting, the use process is simple, meanwhile, the detection assembly processes data after acquiring the data in the pile hole to generate a pile hole model and maps the detected data on the pile hole model, a user can conveniently and visually acquire information in the pile hole, and the problems that the operation process is complicated in the existing pile hole forming quality detection, and the user can not conveniently and visually acquire the information in the pile hole are solved.

In view of the above problems, the technical solution proposed by the present invention is:

the utility model provides a building is managed with stake hole quality testing device, includes the mount, the mount includes first spacing ring, second spacing ring and the third spacing ring that top-down set up at an equal interval in proper order, first spacing ring the second spacing ring with the third spacing ring passes through dead lever fixed connection, mount one side is provided with drive assembly, the inside of mount is provided with determine module, determine device communication connection has control assembly, the last determine module that is provided with of control assembly.

In order to better realize the technical scheme of the invention, the following technical measures are also adopted.

Further, drive assembly includes mounting panel, slide bar, slider, electric putter, swing span, connecting rod, drive wheel, driving motor, pressure sensor and connecting plate, the both ends of mounting panel respectively with the mount is connected, the shape of mounting panel is the C font, the slot hole has been seted up to one side of installation version, the slide bar is installed in the opposite side of mounting panel, the slider with slide bar sliding connection, electric putter install in one side of installation version, electric putter's output shaft pass through the connecting plate with one side of slider is connected, the one end of swing span with the mount is articulated, the drive wheel sets up one side of the other end of swing span, driving motor installs the opposite side of the other end of swing span, just driving motor's output shaft link up the swing span with the axle center department of drive wheel is connected, driving motor's output shaft with the swing span rotates the junction and is provided with pressure sensor, the one end of connecting rod with the middle part of swing span is articulated, the other end of connecting rod with the opposite side of slider is articulated.

Further, the surface of the driving wheel is provided with a protruding part.

Furthermore, the detection assembly comprises a shell, a first ultrasonic sensor, a second ultrasonic sensor, a fixed support, a first underwater acoustic transducer, an inclination angle sensor, a first controller and a power supply, wherein the shell is fixedly arranged inside the fixed support, the surface of the shell is provided with the first ultrasonic sensor, the fixed support is arranged inside the shell, the first underwater acoustic transducer, the inclination angle sensor, the first controller, the power supply and the second ultrasonic sensor are sequentially arranged on the fixed support, the working ends of the second ultrasonic sensor and the first underwater acoustic transducer are communicated with the shell and are in contact with the outside of the shell, and the power supply is used for providing electric energy required by the work of the first ultrasonic sensor, the second ultrasonic sensor, the first underwater acoustic transducer, the inclination angle sensor and the first controller.

Further, a signal input end of the first controller is in communication connection with signal output ends of the tilt sensor, the pressure sensor, the first ultrasonic sensor and the second ultrasonic sensor, respectively, and a signal output end of the controller is in communication connection with signal input ends of the driving motor, the electric push rod and the first underwater acoustic transducer.

Further, the control assembly comprises a second controller, a second underwater acoustic transducer and a display, the second underwater acoustic transducer is arranged inside the pile hole, a signal input end of the second underwater acoustic transducer is in communication connection with a signal output end of the first underwater acoustic transducer, a signal output end of the second underwater acoustic transducer is in communication connection with a signal input end of the second controller, and a signal output end of the second controller is in communication connection with a signal input end of the display.

Further, the detection module is arranged on the second controller and comprises a data acquisition unit, a pile hole model generation unit and a data analysis mapping unit;

the data acquisition unit is used for acquiring data acquired by the first ultrasonic sensor and the second ultrasonic sensor;

the pile hole model generating unit is used for generating a pile hole model according to the data acquired by the data acquisition unit;

and the data analysis and mapping unit is used for analyzing the data acquired by the data acquisition unit and mapping the analyzed data to the corresponding position of the pile hole model generated by the pile hole model generation unit.

Furthermore, the number of the driving assemblies is six, three driving assemblies are used as one group, and the two driving assemblies are arranged in a mirror image mode.

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

1. through adopting drive assembly drive determine module at the internal motion in stake hole, do not need the installing support and adopt the capstan winch hoist and mount, the use is simple, has solved the loaded down with trivial details problem of operation process that the pore-forming quality in current stake hole detected the existence.

2. Meanwhile, the detection assembly processes the data after acquiring the data in the pile hole to generate the pile hole model and maps the detected data on the pile hole model, so that a user can conveniently and visually acquire the information in the pile hole, and the problem that the user cannot conveniently and visually acquire the information in the pile hole in the existing pile hole forming quality detection is solved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

FIG. 1 is a schematic structural diagram of a pile hole quality detecting device for building supervision, which is disclosed by an embodiment of the invention and does not include a control component part;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of a partial structure of a driving assembly according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a detecting assembly according to an embodiment of the disclosure;

FIG. 5 is a schematic cross-sectional view of a detecting assembly according to an embodiment of the disclosure;

FIG. 6 is a communication block diagram of a pile hole quality inspection device for building supervision according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a detection module according to an embodiment of the present invention.

Reference numerals: 1. a fixed mount; 11. a first limit ring; 12. a second stop collar; 13. a third limit ring; 14. fixing the rod; 2. a drive assembly; 21. mounting a plate; 211. a long hole; 22. a slide bar; 23. a slider; 24. an electric push rod; 25. a swing frame; 26. a connecting rod; 27. a drive wheel; 28. a drive motor; 29. a pressure sensor; 210. a connecting plate; 3. a detection component; 31. a housing; 32. a first ultrasonic sensor; 33. a second ultrasonic sensor; 34. fixing a bracket; 35. a first underwater acoustic transducer; 36. a tilt sensor; 37. a first controller; 38. a power source; 4. a control component; 41. a second controller; 42. a second underwater acoustic transducer; 43. a display; 5. a detection module; 51. a data acquisition unit; 52. a pile hole model generating unit; 53. and a data analysis mapping unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to the attached drawings 1-7, the pile hole quality detection device for building supervision comprises a fixing frame 1, wherein the fixing frame 1 comprises a first limiting ring 11, a second limiting ring 12 and a third limiting ring 13 which are sequentially arranged from top to bottom at equal intervals, the first limiting ring 11, the second limiting ring 12 and the third limiting ring 13 are fixedly connected through a fixing rod 14, a driving assembly 2 is arranged on one side of the fixing frame 1, a detection assembly 3 is arranged in the fixing frame 1, the detection device is in communication connection with a control assembly 4, and a detection module 5 is arranged on the control assembly 4.

The embodiment of the invention is also realized by the following technical scheme.

Referring to fig. 1-3 and 4, in the embodiment of the present invention, the driving assembly 2 includes a mounting plate 21, a sliding rod 22, a sliding block 23, an electric push rod 24, a swing frame 25, a connecting rod 26, a driving wheel 27, a driving motor 28, a pressure sensor 29 and a connecting plate 210, two ends of the mounting plate 21 are respectively connected to the fixing frame 1, the mounting plate 21 is C-shaped, one side of the mounting plate is provided with a long hole 211, the sliding rod 22 is mounted on the other side of the mounting plate 21, the sliding block 23 is slidably connected to the sliding rod 22, the electric push rod 24 is mounted on one side of the mounting plate, an output shaft of the electric push rod 24 is connected to one side of the sliding block 23 through the connecting plate 210, one end of the swing frame 25 is hinged to the fixing frame 1, the driving wheel 27 is disposed on one side of the other end of the swing frame 25, the driving motor 28 is mounted on the other side of the other end of the swing frame 25, the output shaft of the driving motor 28 is connected to an axial center of the driving wheel 27 through the swing frame 25, the pressure sensor 29 is disposed at a position where the output shaft of the driving motor 28 is rotatably connected to the swing frame 25, one end of the connecting rod 26 is hinged to the middle of the swing frame 25, and the other end of the connecting rod 26 is hinged to the other side of the sliding block 23.

It should be noted that slurry still remains inside the pile hole after the construction is completed, the electric push rod 24, the driving motor 28, the pressure sensor 29, the first ultrasonic sensor 32 and the second ultrasonic sensor 33 are all waterproof, a protrusion is provided on the surface of the driving wheel 27 for enhancing the friction force between the driving wheel 27 and the inside of the pile hole, and the threshold value of the pressure sensor 29 is set in the first controller 37, and is not limited in detail here. In the process of driving the detection component 3 to move in the pile hole by the driving component 2, the first controller 37 collects data of the pressure sensor 29 in real time, the telescopic length of the output shaft of the electric push rod 24 is controlled, the pressure of the driving wheel 27 on the inner wall of the pile hole is adjusted, the data of the pressure sensor 29 is consistent with the threshold value of the set pressure sensor 29, the pressure of the driving wheel 27 on the inner wall of the pile hole is kept, the driving component 2 drives the detection component 3 to move up and down in the pile hole to detect the inside of the pile hole, the number of the driving components 2 is six, the three driving components are in one group, the two groups of driving components 2 are arranged in a mirror image mode and used for enhancing the stability of the driving component 2, the first controller 37 obtains the real-time position of the pile hole quality detection device in the pile hole according to the data collected by the second ultrasonic sensor 33, the movement of the pile hole quality detection device is driven according to the position of the pile hole quality detection device, the depth of the pile hole is obtained at the hole opening of the pile hole, and the first controller 37 obtains the current position at different depths by the second ultrasonic sensor 33.

Referring to fig. 1-2 and 4-6, in the embodiment of the present invention, the detecting assembly 3 includes a housing 31, a first ultrasonic sensor 32, a second ultrasonic sensor 33, a fixing bracket 34, a first underwater acoustic transducer 35, a tilt sensor 36, a first controller 37, and a power supply 38, the housing 31 is fixedly disposed inside the fixing bracket 1, the first ultrasonic sensor 32 is disposed on a surface of the housing 31, the fixing bracket 34 is disposed inside the housing 31, the first underwater acoustic transducer 35, the tilt sensor 36, the first controller 37, the power supply 38, and the second ultrasonic sensor 33 are sequentially disposed on the fixing bracket 34, working ends of the second ultrasonic sensor 33 and the first underwater acoustic transducer 35 both penetrate through the housing 31 to contact with an outside of the housing 31, and the power supply 38 is used for providing electric energy required by operations of the first ultrasonic sensor 32, the second ultrasonic sensor 33, the first underwater acoustic transducer 35, the tilt sensor 36, and the first controller 37.

Specifically, the first ultrasonic sensor 32 is configured to output ultrasonic waves to the inner wall of the pile hole and receive reflected ultrasonic waves, and collect data inside the pile hole, the second ultrasonic sensor 33 is configured to output ultrasonic waves to the bottom of the inner wall of the pile hole and receive reflected ultrasonic waves, and collect data at the bottom of the inner wall of the pile hole, the tilt sensor 36 is configured to detect a tilt angle of the pile hole quality detection device, and the first underwater acoustic transducer 35 is configured to send detected data to the second underwater acoustic transducer.

Referring to fig. 1-7, in the embodiment of the present invention, the control assembly 4 includes a second controller 41, a second underwater acoustic transducer 42 and a display 43, the second underwater acoustic transducer 42 is disposed inside the pile hole, specifically, the second underwater acoustic transducer 42 is disposed in the mud inside the pile hole, the second underwater acoustic transducer 42 may be floated or hung above the pile hole, the second underwater acoustic transducer 42 is not sunk, the position where the second underwater acoustic transducer is disposed in the mud is not specifically set, the position where the second underwater acoustic transducer is disposed in the mud does not affect the work, the signal input end of the second underwater acoustic transducer 42 is communicatively connected to the signal output end of the first underwater acoustic transducer 35, the signal output end of the second underwater acoustic transducer 42 is communicatively connected to the signal input end of the second controller 41, the signal output end of the second controller 41 is communicatively connected to the signal input end of the display 43, the signal input end of the first controller 37 is communicatively connected to the signal output ends of the tilt sensor 36, the pressure sensor 29, the first ultrasonic sensor 32 and the second ultrasonic sensor 33, and the signal output end of the controller is communicatively connected to the driving motor 28 and the electric push rod 24 and the signal input end of the first underwater acoustic transducer 35.

Referring to fig. 1 to 7, in the embodiment of the present invention, the detection module 5 is disposed on the second controller 41, and the detection module 5 includes a data acquisition unit 51, a pile hole model generation unit 52, and a data analysis mapping unit 53;

the data acquisition unit 51 is used for acquiring data acquired by the first ultrasonic sensor 32 and the second ultrasonic sensor 33;

specifically, after the first ultrasonic sensor 32 and the second ultrasonic sensor 33 acquire the data of the pile hole, the data is sent to the second underwater acoustic transducer 42 through the first underwater acoustic transducer 35, the second underwater acoustic transducer 42 sends the data to the second controller 41, and the data acquisition unit 51 acquires the data acquired by the first ultrasonic sensor 32 and the second ultrasonic sensor 33.

The pile hole model generating unit 52 is configured to generate a pile hole model according to the data acquired by the data acquiring unit 51;

specifically, the pile hole model generating unit 52 obtains the diameter of the pile hole and the perpendicularity of the pile hole from the data acquired by the first ultrasonic sensor 32 and the second ultrasonic sensor 33, obtains the depth of the pile hole from the data acquired by the first ultrasonic sensor 32, and constructs the pile hole model of the pile hole according to the depth of the pile hole, the diameter of the pile hole, and the perpendicularity of the pile hole acquired by the second ultrasonic sensor 33.

The data analysis and mapping unit 53 is configured to map the data obtained by the analysis to the corresponding position of the pile hole model generated by the pile hole model generating unit 52 after analyzing the data obtained by the data acquiring unit 51.

Specifically, the data analysis and mapping unit 53 analyzes the data acquired by the first ultrasonic sensor 32 and the second ultrasonic sensor 33, analyzes the first ultrasonic sensor 32 to obtain an ultrasonic image on the inner wall of the pile hole, and maps the ultrasonic image obtained by the analysis onto the pile hole model, where it is noted that this process is performed in real time, that is, in the process of generating the pile hole model, according to the real-time data acquired by the pile hole quality detection device at the real-time position inside the pile hole, the data analysis and mapping unit 53 performs real-time mapping on the data after analyzing the data onto the pile hole model, analyzes the second ultrasonic sensor 33 to obtain an ultrasonic image of the bottom of the pile hole, obtains the data of the sludge at the bottom of the pile hole, and maps the data of the sludge onto the pile hole model, and meanwhile, the data analysis and mapping unit 53 is further used for analyzing the ultrasonic image, and marks abnormal regions on the ultrasonic image in a circular wire frame marking manner, such as defects like cracks, and is further used for displaying the aperture data of the pile hole, depth data of the pile hole, perpendicularity data of the pile hole, and the sludge data of the pile hole bottom model 43.

The concrete working principle is that the pile hole quality detection device is placed in a pile hole, after a driving wheel 27 is in contact with the inner wall of the pile hole, a pressure sensor 29 acquires the pressure of the driving wheel 27 on the inner wall of the pile hole, a first controller 37 adjusts the length of the output end of an electric push rod 24 to adjust the pressure of the driving wheel 27 on the inner wall of the pile hole, the first controller 37 controls a driving motor 28 to drive all the driving wheels 27 to rotate anticlockwise, the rotating directions of all the driving wheels 27 are consistent, the driving wheel 27 drives a fixing frame 1 and a detection assembly 3 to move towards the bottom of the inner wall of the pile hole, a first ultrasonic sensor 32 and a second ultrasonic sensor 33 acquire data pieces in the pile hole, the acquired data are sent to the first controller 37 and then sent to a second underwater acoustic transducer 42 through a first underwater acoustic transducer 35, the second underwater acoustic transducer 42 sends the data to a second controller 41 pieces for analysis processing, after the data acquisition unit 51 in the detection module 5 arranged on the second control acquires data acquired by the first ultrasonic sensor 32 and the second ultrasonic sensor 33, the pile hole model generation unit 52 generates a pile hole model according to the data acquired by the data acquisition unit 51, the data analysis mapping unit 53 is used for mapping the data acquired by the data acquisition unit 51 to the corresponding position of the pile hole model generated by the pile hole model generation unit 52 after analyzing the data acquired by the data acquisition unit 51, the display 43 displays the pile hole model, after the pile hole quality detection device reaches the bottom of the pile hole, the first controller 37 controls the driving motor 28 to drive all the driving wheels 27 to rotate clockwise, the rotation directions of all the driving wheels 27 are consistent, the driving wheels 27 drive the fixing frame 1 and the detection component 3 to move towards the upper part of the inner wall of the pile hole, the user recovers, and the user can intuitively acquire the information of the pile hole by observing the pile hole model in the display 43, need not installing support and adjustment and detect the axiality of head and stake hole, also need not adopt the mode of capstan winch hoist and mount to detect the head hoist and mount stake downthehole portion and detect the stake hole, the pore-forming quality of having solved current stake hole detects the operation process that exists loaded down with trivial details, the audio-visual problem of information of acquireing stake downthehole portion of not being convenient for the user.

It should be noted that the specific model specifications of the electric push rod 24, the driving motor 28, the pressure sensor 29, the first ultrasonic sensor 32, the second ultrasonic sensor 33, the first underwater acoustic transducer 35, the second underwater acoustic transducer, the tilt sensor 36, the first controller 37, the second controller 41 and the power supply 38 need to be determined according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, and therefore, detailed description is omitted.

The power supply and the principle of the electric push rod 24, the driving motor 28, the pressure sensor 29, the first ultrasonic sensor 32, the second ultrasonic sensor 33, the first underwater acoustic transducer 35, the second underwater acoustic transducer, the tilt sensor 36, the first controller 37, the second controller 41 and the power source 38 are clear to those skilled in the art and will not be described in detail herein.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides a building is managed with stake hole quality detection device which characterized in that includes: the fixing frame (1), the fixing frame (1) includes first spacing ring (11), second spacing ring (12) and third spacing ring (13) that top-down set up in order at equal intervals, first spacing ring (11), second spacing ring (12) and third spacing ring (13) pass through dead lever (14) fixed connection, fixing frame (1) one side is provided with drive assembly (2), the inside of fixing frame (1) is provided with determine module (3), detection device communication connection has control assembly (4), be provided with detection module (5) on control assembly (4).

2. The pile hole quality detecting device for building supervision according to claim 1, characterized in that: the driving assembly (2) comprises a mounting plate (21), a sliding rod (22), a sliding block (23), an electric push rod (24), a swing frame (25), a connecting rod (26), a driving wheel (27), a driving motor (28), a pressure sensor (29) and a connecting plate (210), two ends of the mounting plate (21) are respectively connected with the fixing frame (1), the mounting plate (21) is C-shaped, a long hole (211) is formed in one side of the mounting plate, the sliding rod (22) is mounted on the other side of the mounting plate (21), the sliding block (23) is in sliding connection with the sliding rod (22), the electric push rod (24) is mounted on one side of the mounting plate, an output shaft of the electric push rod (24) is connected with one side of the sliding block (23) through the connecting plate (210), one end of the swing frame (25) is hinged to the fixing frame (1), the driving wheel (27) is arranged on one side of the other end of the swing frame (25), the driving motor (28) is mounted on the other side of the other end of the swing frame (25), the driving motor (28) penetrates through the position where the swing frame (25) is connected with the output shaft (29), and the shaft (29) is connected with the pressure sensor (29), one end of the connecting rod (26) is hinged with the middle part of the swinging frame (25), and the other end of the connecting rod (26) is hinged with the other side of the sliding block (23).

3. The pile hole quality detecting device for building supervision according to claim 2, characterized in that: the surface of the driving wheel (27) is provided with a protruding part.

4. The pile hole quality detection device for building supervision according to claim 2, characterized in that: the detection assembly (3) comprises a shell (31), a first ultrasonic sensor (32), a second ultrasonic sensor (33), a fixed support (34), a first underwater acoustic transducer (35), an inclination angle sensor (36), a first controller (37) and a power supply (38), wherein the shell (31) is fixedly arranged in the fixed support (1), the first ultrasonic sensor (32) is arranged on the surface of the shell (31), the fixed support (34) is arranged in the shell (31), the first underwater acoustic transducer (35), the inclination angle sensor (36), the first controller (37), the power supply (38) and the second ultrasonic sensor (33) are sequentially arranged on the fixed support (34), the working ends of the second ultrasonic sensor (33) and the first underwater acoustic transducer (35) penetrate through the shell (31) to be in contact with the outer portion of the shell (31), and the power supply (38) is used for providing electric energy required by the first ultrasonic sensor (32), the second ultrasonic sensor (33), the first underwater acoustic transducer (35), the inclination angle sensor (36) and the first ultrasonic sensor (37).

5. The pile hole quality detecting device for building supervision according to claim 4, characterized in that: the signal input end of the first controller (37) is respectively in communication connection with the signal output ends of the inclination angle sensor (36), the pressure sensor (29), the first ultrasonic sensor (32) and the second ultrasonic sensor (33), and the signal output end of the controller is in communication connection with the signal input ends of the driving motor (28), the electric push rod (24) and the first underwater acoustic transducer (35).

6. The pile hole quality detecting device for building supervision according to claim 4, characterized in that: the control assembly (4) comprises a second controller (41), a second underwater acoustic transducer (42) and a display (43), the second underwater acoustic transducer (42) is arranged inside the pile hole, the signal input end of the second underwater acoustic transducer (42) is in communication connection with the signal output end of the first underwater acoustic transducer (35), the signal output end of the second underwater acoustic transducer (42) is in communication connection with the signal input end of the second controller (41), and the signal output end of the second controller (41) is in communication connection with the signal input end of the display (43).

7. The pile hole quality detecting device for building supervision according to claim 6, characterized in that: the detection module (5) is arranged on the second controller (41), and the detection module (5) comprises a data acquisition unit (51), a pile hole model generation unit (52) and a data analysis mapping unit (53);

the data acquisition unit (51) is used for acquiring data acquired by the first ultrasonic sensor (32) and the second ultrasonic sensor (33);

the pile hole model generating unit (52) is used for generating a pile hole model according to the data acquired by the data acquisition unit (51);

the data analysis and mapping unit (53) is used for analyzing the data acquired by the data acquisition unit (51) and mapping the analyzed data to the corresponding position of the pile hole model generated by the pile hole model generation unit (52).

8. The pile hole quality detection device for building supervision according to claim 2, characterized in that: the number of the driving assemblies (2) is six, the driving assemblies are three and are used as one group, and the driving assemblies (2) are arranged in a mirror image mode.