CN115342862B - Industrial building stability detection device and detection method thereof - Google Patents

Abstract

The invention discloses an industrialized building stability detection device and a detection method thereof, wherein the industrialized building stability detection device comprises a limit seat which is arranged at one side of a detection beam frame; the detection seat is arranged above the detection beam frame, a mounting seat is arranged above the detection seat, and ultrasonic detection equipment, horizontal deformation detection equipment, industrial camera equipment and vertical deformation detection equipment are arranged above the mounting seat; the drive seat, it sets up the below of detecting the seat, the lower extreme of drive seat is provided with the rotation groove, the inside of rotation groove is provided with the gear, the inside of drive seat is provided with the second motor, the inside in U type groove is provided with the tooth row, the tooth row is connected with gear engagement, and this detection device can be according to the position of detection device's regulation according to the detection demand to can detect the multiple data performance of building structure's stability simultaneously, building stability detects more comprehensively, has improved building stability detection effect.

Description

Industrial building stability detection device and detection method thereof

Technical Field

The invention relates to the technical field of industrial building detection, in particular to an industrial building stability detection device and a detection method thereof.

Background

The industrial building refers to the process of converting the traditional building production mode into the industrial production mode, the basic connotation is that the environment-friendly development is taken as a concept, the technical progress is taken as a support, the information management is taken as a means, the industrial production mode is utilized, the whole process of design, development, production and management of engineering projects is formed into an integrated industrial chain, the building stability refers to the capability of structural members for resisting bending deformation and instability damage, and the structural members are related to the sectional shape, sectional area, anchoring mode and length of the structural members, so that the performance data of a building structure need to be detected by using a detection device in order to ensure the industrial building stability.

The utility model provides a China patent publication No. CN111649930A, the authorized bulletin day is 2020, 09 and 11 days, a steel construction building girder stability detection device and method of operation, including location chucking mechanism, the simulation frame, hold the box body, the position control frame, four deflection detection mechanism, a plurality of pressing mechanism, two climbing mechanism and tensile test mechanism, location chucking mechanism fixed mounting is in the inboard bottom that holds the box body, position control frame fixed mounting is in the bottom of two climbing mechanism, two tensile test mechanism fixed mounting is on the position control frame, this steel construction building girder stability detection device, through placing the simulation frame that installs the building girder in holding the box body, a plurality of pressing mechanism is exerted pressure to the multiple place of building girder on the simulation frame, exert the pulling force to the building girder on the simulation frame through tensile test mechanism, and then analyze the stability of building girder after the building girder is installed on the steel construction girder, the building girder limitation of having avoided analyzing.

The prior art solutions described above have the following drawbacks: building structure Liang Sisan distributes, can not be fine carry out stability detection to building structure roof beam, increases and detects interference error, and check out test set is single, can not detect the multiple item data of building structure roof beam stability simultaneously, and stability detection effect is not good, can not satisfy the user demand.

Disclosure of Invention

The invention aims to provide an industrialized building stability detection device and a detection method thereof, which are used for solving the problems that in the background technology, building structures Liang Sisan are distributed, stability detection can not be well carried out on building structure beams, detection interference errors are increased, detection equipment is single, multiple data of the stability of the building structure beams can not be detected at the same time, and the stability detection effect is poor.

In order to achieve the above purpose, the present invention provides the following technical solutions: an industrial building stability detection device comprises a detection beam frame;

The device comprises a detection beam frame, a limiting seat, a U-shaped fixing frame and a lifting column, wherein the limiting seat is arranged on one side of the detection beam frame and is connected with the detection beam frame through a screw, the U-shaped groove is formed in the detection beam frame, the lifting seat is arranged above the limiting seat, the hinged seat is arranged between the lifting seat and the limiting seat and is connected with the limiting seat through the screw, the lifting seat is rotationally connected with the hinged seat, the lifting column is arranged above the lifting seat, the U-shaped fixing frame is arranged above the lifting column, and the U-shaped fixing frame is connected with the lifting column through the screw;

The detection seat is arranged above the detection beam frame, the mounting seat is arranged above the detection seat, ultrasonic detection equipment, horizontal deformation detection equipment, industrial camera equipment and vertical deformation detection equipment are arranged above the mounting seat, the ultrasonic detection equipment, the horizontal deformation detection equipment, the industrial camera equipment and the vertical deformation detection equipment are connected with the mounting seat through screws, a wireless data processor is arranged on one side of the detection seat, the wireless data processor is connected with the detection seat through screws, and the wireless data processor is electrically connected with the ultrasonic detection equipment, the horizontal deformation detection equipment, the industrial camera equipment and the vertical deformation detection equipment;

The driving seat, it sets up the below of detecting the seat, and the driving seat passes through screw connection with detecting the seat, the one end of driving seat extends to the inside in U type groove, the lower extreme of driving seat is provided with the rotation groove, the inside of rotation groove is provided with the gear, and the gear rotates with the driving seat to be connected, the inside of driving seat is provided with the second motor, and the second motor passes through screw connection with the driving seat, the output and the gear connection of second motor are integrated into one piece, the inside in U type groove is provided with the tooth row, and tooth row and detection roof beam frame set up as an organic whole structure, the tooth row is connected with gear engagement.

Preferably, splice grooves and splice blocks are respectively arranged at two ends of the detection beam frame, the splice grooves and the splice blocks are correspondingly arranged, and the splice blocks are connected with the detection beam frame through screws.

Preferably, the upper end of detecting the seat is provided with the third spout, the below of mount pad is provided with the slider, and the slider passes through screw connection with the mount pad, the one end of slider extends to the inside of third spout, and slider and detection seat sliding connection, one side of detecting the seat is provided with first motor, and first motor passes through screw connection with detecting the seat, the inside of third spout is provided with the threaded rod, and the threaded rod is connected as an organic whole structure with the output of first motor, threaded rod and slider threaded connection, and threaded rod and detection seat rotate to be connected.

Preferably, the inside of U type mount is provided with the grip block, the upper end of lift post is provided with first electric telescopic handle, and first electric telescopic handle passes through screw connection with the lift post, the flexible end and the grip block of first electric telescopic handle are connected as an organic wholely structure, and the flexible end and the U type mount sliding connection of first electric telescopic handle.

Preferably, the inside of lifting seat is provided with the lift chamber, and the one end of lifting column extends to the inside of lifting chamber, lifting column and lifting seat sliding connection, the inside of lifting chamber is provided with the electronic telescopic link of second, and the upper and lower both ends of the electronic telescopic link of second are all connected as an organic wholely structure with lifting seat and lifting column respectively, one side of spacing seat is provided with the spirit level, and spirit level and spacing seat pass through screw connection.

Preferably, the upper end of detecting the roof beam structure is provided with the recess, and the recess sets up the one end at detecting the roof beam structure, the inside of recess is provided with the screw hole, the below of detecting the roof beam structure contact department is provided with the connecting plate, and the connecting plate corresponds the setting with the recess, be provided with the locking bolt on the connecting plate, and the one end of locking bolt runs through the connecting plate and extends to the inside of screw hole, locking bolt and detecting roof beam structure threaded connection.

Preferably, the lateral wall of detecting the roof beam structure is last to be provided with first spout, the below of detecting the seat is provided with spacing slider, and spacing slider is provided with two, and detects the seat and pass through screw connection, two spacing slider's one end all extends to the inside of first spout, and spacing slider and detection roof beam structure sliding connection, the upper end of detecting the roof beam structure is provided with the second spout, the lower extreme of detecting the seat is provided with the ball, and ball and detection seat roll connection, the one end of ball extends to the inside of second spout, and ball and detection roof beam structure sliding connection.

The detection method of the industrial building stability detection device comprises the following steps:

step 1: inserting splicing blocks on the detection beam frames in alignment with the splicing grooves, splicing a plurality of detection beam frames into a sufficient length, and fixedly connecting the limiting seat with the detection beam frames;

step 2: the U-shaped fixing frame is buckled on the structural beam, the first electric telescopic rod is driven to drive the clamping plate to contact with the structural beam, and the detection device is fixed on the structural beam;

Step 3: driving a second electric telescopic rod to drive two ends of the detection device to lift, adjusting levelness of the detection device, and adjusting the detection device to be parallel to the structural beam;

Step 4: the first motor is started to drive the threaded rod to rotate, the threaded rod is in threaded connection with the sliding block, the sliding block is driven to move along the threaded rod along with the rotation of the threaded rod, the sliding block is fixedly connected with the mounting seat, the moving sliding block synchronously drives the mounting seat to move, and one of ultrasonic detection equipment, horizontal deformation detection equipment, industrial camera equipment or vertical deformation detection equipment is moved to the position right below the structural beam;

Step 5: the second motor is started to drive the gear to rotate, the gear is meshed with the gear row in the U-shaped groove and is connected with the detection seat to form an integral structure, the detection seat is driven to move along the gear row along with the rotation of the gear, then the detection seat is driven to move along the U-shaped groove, the detection equipment is moved along the structural beam to detect, the detection data is processed by the wireless data processor, the detection data can be uploaded, and the position of the detection equipment is changed to detect multiple data on the structural beam.

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

1. The device is provided with the ultrasonic detection equipment, the horizontal deformation detection equipment, the industrial camera equipment, the vertical deformation detection equipment and the first motor, wherein the ultrasonic detection equipment can detect the internal performance of the structural beam, the horizontal deformation detection equipment and the vertical deformation detection equipment can detect the external shape of the structural beam, the industrial camera equipment can shoot and identify the surface of the structural beam, the connection part of the structural beam can be better detected, the mounting seat is driven to move under the action of the first motor, the positions of the ultrasonic detection equipment, the horizontal deformation detection equipment, the industrial camera equipment and the vertical deformation detection equipment can be adjusted, and multiple data of the structural beam can be measured simultaneously;

2. According to the device, the splicing blocks are inserted in alignment with the splicing grooves through the arrangement of the splicing grooves, the splicing blocks and the connecting plates, so that a plurality of detection beam frames can be spliced into a whole, the connecting plates can play a limiting role on the spliced detection beam frames, and the length of the detection beam can be adjusted according to detection requirements;

3. according to the device, through the arrangement of the second motor, the gear and the gear row, the second motor drives the gear to rotate, the gear is in meshed connection with the gear row, and the detection structure is driven to move along the U-shaped groove along with the rotation of the gear, so that the detection mechanism detects along the structural beam;

4. According to the device, through the arrangement of the U-shaped fixing frame, the clamping plate and the first electric telescopic rod, the U-shaped fixing frame can buckle the detection device on the structural beam, the first electric telescopic rod drives the clamping plate to lift, the clamping plate is contacted with the structural beam, and the detection device can be fixedly arranged on the structural beam, so that the stability of a detection process is ensured;

5. According to the device, through the arrangement of the second electric telescopic rod and the level gauge, the second electric telescopic rod drives the limiting seat to lift and adjust the heights of the two ends of the detection device, so that the levelness of the detection device is adjusted, the level gauge can measure the levelness of the detection device, the detection device and the structural beam are in a parallel state, and the structural beam can be better detected;

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a diagram of the connection relationship between the detecting beam frames according to the present invention;

FIG. 3 is a block diagram of a fastening structure of the present invention;

FIG. 4 is a diagram showing the connection relationship between the inspection seat and the inspection beam and the mounting seat according to the present invention;

fig. 5 is an enlarged view of a portion of area a of fig. 4 in accordance with the present invention.

In the figure: 1. detecting a beam frame; 2. a limit seat; 3. a lifting seat; 4. lifting columns; 5. a U-shaped fixing frame; 6. a clamping plate; 7. a detection seat; 8. a U-shaped groove; 9. a driving seat; 10. a level gauge; 11. a limit sliding block; 12. a first chute; 13. a second chute; 14. a mounting base; 15. an ultrasonic detection device; 16. a horizontal deformation detection device; 17. an industrial camera device; 18. a vertical deformation detection device; 19. a wireless data processor; 20. a splice groove; 21. splicing blocks; 22. a tooth row; 23. a groove; 24. a threaded hole; 25. a connecting plate; 26. a locking bolt; 27. a first electric telescopic rod; 28. a lifting cavity; 29. a second electric telescopic rod; 30. a first motor; 31. a slide block; 32. a second motor; 33. a gear; 34. a threaded rod; 35. a rotating groove; 36. a hinged support; 37. a ball; 38. and a third chute.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present invention is provided: an industrialized building stability detection device comprises a detection beam frame 1;

The limiting seat 2 is arranged on one side of the detection beam frame 1, the limiting seat 2 is connected with the detection beam frame 1 through a screw, a U-shaped groove 8 is formed in the detection beam frame 1, a lifting seat 3 is arranged above the limiting seat 2, a hinge seat 36 is arranged between the lifting seat 3 and the limiting seat 2, the hinge seat 36 is connected with the limiting seat 2 through a screw, the lifting seat 3 is rotationally connected with the hinge seat 36, a lifting column 4 is arranged above the lifting seat 3, a U-shaped fixing frame 5 is arranged above the lifting column 4, the U-shaped fixing frame 5 is connected with the lifting column 4 through a screw, and the U-shaped fixing frame 5 is buckled on the structural beam, so that the detection device is convenient to fixedly mount;

The detection seat 7 is arranged above the detection beam frame 1, the installation seat 14 is arranged above the detection seat 7, the ultrasonic detection device 15, the horizontal deformation detection device 16, the industrial camera device 17 and the vertical deformation detection device 18 are arranged above the installation seat 14, the ultrasonic detection device 15, the horizontal deformation detection device 16, the industrial camera device 17 and the vertical deformation detection device 18 are connected with the installation seat 14 through screws, one side of the detection seat 7 is provided with the wireless data processor 19, the wireless data processor 19 is connected with the detection seat 7 through screws, the wireless data processor 19 is electrically connected with the ultrasonic detection device 15, the horizontal deformation detection device 16, the industrial camera device 17 and the vertical deformation detection device 18, the ultrasonic detection device 15 can measure the performance structure inside the structural beam, the horizontal deformation detection device 16 and the vertical deformation detection device 18 can detect the deformation amount of the outer surface of the structural beam, the industrial camera device 17 can shoot the surface of the structural beam, so that whether flaws exist on the surface of the structural beam or not can be detected, and the wireless data processor 19 can process detection data and upload the data;

The drive seat 9, it sets up in the below that detects seat 7, and drive seat 9 passes through screw connection with detecting seat 7, the one end of drive seat 9 extends to the inside of U type groove 8, the lower extreme of drive seat 9 is provided with rotary groove 35, the inside of rotary groove 35 is provided with gear 33, and gear 33 and drive seat 9 rotate and be connected, the inside of drive seat 9 is provided with second motor 32, and second motor 32 passes through screw connection with drive seat 9, the output and the gear 33 of second motor 32 are connected as an organic whole structure, the inside of U type groove 8 is provided with tooth row 22, and tooth row 22 and detection roof beam structure 1 set up as an organic whole structure, tooth row 22 and gear 33 meshing are connected, second motor 32 drives gear 33 rotation, detect seat 7 along detection roof beam structure 1 removal along with the rotation of gear 33, make check out test set detects the structural beam automatically.

Referring to fig. 2, splice grooves 20 and splice blocks 21 are respectively provided at two ends of the detection beam 1, the splice grooves 20 are correspondingly provided with the splice blocks 21, the splice blocks 21 are connected with the detection beam 1 through screws, a plurality of detection beam 1 can be spliced into a whole by inserting the splice blocks 21 into the splice grooves 20, and the length of the detection device is adjusted to meet the detection requirements of the beams with different sizes.

Referring to fig. 4 and 5, a third sliding groove 38 is provided at the upper end of the detecting seat 7, a sliding block 31 is provided under the mounting seat 14, the sliding block 31 is connected with the mounting seat 14 through a screw, one end of the sliding block 31 extends to the inside of the third sliding groove 38, the sliding block 31 is slidably connected with the detecting seat 7, a first motor 30 is provided at one side of the detecting seat 7, the first motor 30 is connected with the detecting seat 7 through a screw, a threaded rod 34 is provided in the inside of the third sliding groove 38, the threaded rod 34 is connected with the output end of the first motor 30 into an integral structure, the threaded rod 34 is in threaded connection with the sliding block 31, the threaded rod 34 is rotationally connected with the detecting seat 7, the threaded rod 34 is driven to rotate through the first motor 30, the mounting seat 14 is driven to move along the third sliding groove 38 along with the rotation of the threaded rod 34, the positions of the ultrasonic detecting device 15, the horizontal deformation detecting device 16, the industrial camera device 17 and the vertical deformation detecting device 18 can be adjusted, the detecting device is moved to the position right below the structural beam to be detected, and the structural beam can be detected better.

Referring to fig. 1 and 3, a clamping plate 6 is disposed in the U-shaped fixing frame 5, a first electric telescopic rod 27 is disposed at an upper end of the lifting column 4, the first electric telescopic rod 27 is connected with the lifting column 4 through a screw, a telescopic end of the first electric telescopic rod 27 is connected with the clamping plate 6 into an integral structure, the telescopic end of the first electric telescopic rod 27 is slidably connected with the U-shaped fixing frame 5, the clamping plate 6 is driven to lift through the first electric telescopic rod 27, the clamping plate 6 is contacted with a structural beam, and a detection device is fixed on the structural beam.

Referring to fig. 3, a lifting cavity 28 is provided in the lifting seat 3, one end of the lifting column 4 extends to the inside of the lifting cavity 28, the lifting column 4 is slidably connected with the lifting seat 3, a second electric telescopic rod 29 is provided in the lifting cavity 28, the upper end and the lower end of the second electric telescopic rod 29 are respectively connected with the lifting seat 3 and the lifting column 4 into an integrated structure, a level gauge 10 is provided on one side of the limit seat 2, the level gauge 10 is connected with the limit seat 2 through screws, the limit seat 2 is driven to lift through the second electric telescopic rod 29, the heights of two ends of the detection device are indirectly adjusted, the levelness of the detection device is adjusted, the detection device is adjusted to be parallel to the structural beam, and the structural beam can be better detected.

Referring to fig. 2, the upper end of the detection beam 1 is provided with a groove 23, the groove 23 is arranged at one end of the detection beam 1, a threaded hole 24 is formed in the groove 23, a connecting plate 25 is arranged below the contact position of the detection beam 1, the connecting plate 25 is correspondingly arranged with the groove 23, a locking bolt 26 is arranged on the connecting plate 25, one end of the locking bolt 26 penetrates through the connecting plate 25 and extends to the inside of the threaded hole 24, the locking bolt 26 is in threaded connection with the detection beam 1, the connected detection beam 1 can be limited through the connecting plate 25, and the firmness of the connector of the detection beam 1 is improved.

Referring to fig. 1 and 4, a first chute 12 is disposed on a side wall of the detection beam 1, a limit slide 11 is disposed below the detection seat 7, two limit slide 11 are disposed, the limit slide 11 is connected with the detection seat 7 through screws, one ends of the two limit slide 11 extend to the inside of the first chute 12, the limit slide 11 is slidably connected with the detection beam 1, a second chute 13 is disposed at an upper end of the detection beam 1, a ball 37 is disposed at a lower end of the detection seat 7, the ball 37 is in rolling connection with the detection seat 7, one end of the ball 37 extends to the inside of the second chute 13, the ball 37 is slidably connected with the detection beam 1, the movable detection seat 7 can be guided and limited through the limit slide 11 and the first chute 12, and the movement resistance of the detection seat 7 can be reduced by the ball 37 and the second chute 13, so that the movement stability of the detection seat 7 is improved.

The detection method of the industrial building stability detection device comprises the following steps:

Step 1: inserting splicing blocks 21 on the detection beam frames 1 in alignment with the splicing grooves 20, splicing a plurality of detection beam frames 1 into a sufficient length, and fixedly connecting the limiting seat 2 with the detection beam frames 1;

step 2: the U-shaped fixing frame 5 is buckled on the structural beam, the first electric telescopic rod 27 is driven to drive the clamping plate 6 to contact with the structural beam, and the detection device is fixed on the structural beam;

step 3: driving the second electric telescopic rod 29 to drive the two ends of the detection device to lift, adjusting the levelness of the detection device, and adjusting the detection device to be parallel to the structural beam;

Step 4: starting the first motor 30 to drive the threaded rod 34 to rotate, wherein the threaded rod 34 is in threaded connection with the sliding block 31, the sliding block 31 is driven to move along the threaded rod 34 along with the rotation of the threaded rod 34, the sliding block 31 is fixedly connected with the mounting seat 14, and the moving sliding block 31 synchronously drives the mounting seat 14 to move, so that one of the ultrasonic detection equipment 15, the horizontal deformation detection equipment 16, the industrial camera equipment 17 or the vertical deformation detection equipment 18 is moved to the position right below the structural beam;

Step 5: the second motor 32 is started to drive the gear 33 to rotate, the gear 33 is meshed with the tooth row 22 in the U-shaped groove 8, the gear 33 driving structure is connected with the detection seat 7 into an integral structure, the detection seat 7 is driven to move along the tooth row 22 along with the rotation of the gear 33, then the detection seat 7 is driven to move along the U-shaped groove 8, the detection equipment is moved along the structural beam to detect, the detection data is processed by the wireless data processor 19, the detection data can be uploaded, the position of the detection equipment is changed, and multiple data detection is carried out on the structural beam.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An industrial building stability detection device, including detecting roof beam structure (1), its characterized in that:

The device comprises a limiting seat (2), a U-shaped groove (8) is formed in the detecting beam frame (1), the limiting seat (2) is arranged on one side of the detecting beam frame (1) and connected with the detecting beam frame (1) through screws, a lifting seat (3) is arranged above the limiting seat (2), a hinged seat (36) is arranged between the lifting seat (3) and the limiting seat (2), the hinged seat (36) is connected with the limiting seat (2) through screws, the lifting seat (3) is connected with the hinged seat (36) in a rotating mode, a lifting column (4) is arranged above the lifting seat (3), a U-shaped fixing frame (5) is arranged above the lifting column (4), and the U-shaped fixing frame (5) is connected with the lifting column (4) through screws;

The detection seat (7) is arranged above the detection beam frame (1), the mounting seat (14) is arranged above the detection seat (7), the ultrasonic detection equipment (15), the horizontal deformation detection equipment (16), the industrial camera equipment (17) and the vertical deformation detection equipment (18) are arranged above the mounting seat (14), the ultrasonic detection equipment (15), the horizontal deformation detection equipment (16), the industrial camera equipment (17) and the vertical deformation detection equipment (18) are connected with the mounting seat (14) through screws, a wireless data processor (19) is arranged on one side of the detection seat (7), the wireless data processor (19) is connected with the detection seat (7) through screws, and the wireless data processor (19) is electrically connected with the ultrasonic detection equipment (15), the horizontal deformation detection equipment (16), the industrial camera equipment (17) and the vertical deformation detection equipment (18);

The driving seat (9), it sets up the below of detecting seat (7), and driving seat (9) pass through screw connection with detecting seat (7), the one end of driving seat (9) extends to the inside of U type groove (8), the lower extreme of driving seat (9) is provided with rotates groove (35), the inside of rotating groove (35) is provided with gear (33), and gear (33) are connected with driving seat (9) rotation, the inside of driving seat (9) is provided with second motor (32), and second motor (32) pass through screw connection with driving seat (9), the output and the gear (33) of second motor (32) are connected as an organic whole structure, the inside of U type groove (8) is provided with tooth row (22), and tooth row (22) and detection roof beam frame (1) set up to an organic whole structure, tooth row (22) are connected with gear (33) meshing.

2. An industrial building stability detection device according to claim 1, wherein: the two ends of the detection beam frame (1) are respectively provided with a splicing groove (20) and a splicing block (21), the splicing grooves (20) are correspondingly arranged with the splicing blocks (21), and the splicing blocks (21) are connected with the detection beam frame (1) through screws.

3. An industrial building stability detection device according to claim 2, wherein: the upper end of detection seat (7) is provided with third spout (38), the below of mount pad (14) is provided with slider (31), and slider (31) pass through screw connection with mount pad (14), the one end of slider (31) extends to the inside of third spout (38), and slider (31) and detection seat (7) sliding connection, one side of detection seat (7) is provided with first motor (30), and first motor (30) and detection seat (7) pass through screw connection, the inside of third spout (38) is provided with threaded rod (34), and threaded rod (34) are connected as an organic whole structure with the output of first motor (30), threaded rod (34) and slider (31) threaded connection, and threaded rod (34) and detection seat (7) swivelling joint.

4. An industrial building stability detection device according to claim 3, wherein: the inside of U type mount (5) is provided with grip block (6), the upper end of lift post (4) is provided with first electric telescopic handle (27), and first electric telescopic handle (27) pass through screw connection with lift post (4), the flexible end and the grip block (6) of first electric telescopic handle (27) are connected as an organic whole structure, and the flexible end and the U type mount (5) sliding connection of first electric telescopic handle (27).

5. The industrial building stability detection device of claim 4, wherein: the inside of lift seat (3) is provided with lift chamber (28), and the one end of lift post (4) extends to the inside of lift chamber (28), lift post (4) and lift seat (3) sliding connection, the inside of lift chamber (28) is provided with second electric telescopic handle (29), and the upper and lower both ends of second electric telescopic handle (29) are connected as an organic whole structure with lift seat (3) and lift post (4) respectively, one side of spacing seat (2) is provided with spirit level (10), and spirit level (10) and spacing seat (2) pass through screw connection.

6. An industrial building stability detection device according to claim 1, wherein: the upper end of detecting beam frame (1) is provided with recess (23), and recess (23) set up the one end at detecting beam frame (1), the inside of recess (23) is provided with screw hole (24), the below of detecting beam frame (1) contact department is provided with connecting plate (25), and connecting plate (25) correspond the setting with recess (23), be provided with locking bolt (26) on connecting plate (25), and the one end of locking bolt (26) runs through connecting plate (25) and extends to the inside of screw hole (24), locking bolt (26) and detecting beam frame (1) threaded connection.

7. An industrial building stability detection device according to claim 1, wherein: the utility model discloses a detection roof beam structure, including detection roof beam structure (1), detection seat (7), ball (37) and detection seat (7), be provided with first spout (12) on the lateral wall of detection roof beam structure (1), the below of detection seat (7) is provided with spacing slider (11), and spacing slider (11) are provided with two, and spacing slider (11) all extend to the inside of first spout (12) with detection seat (7) through the screw connection, and spacing slider (11) and detection roof beam structure (1) sliding connection, the upper end of detection roof beam structure (1) is provided with second spout (13), the lower extreme of detection seat (7) is provided with ball (37), and ball (37) and detection seat (7) rolling connection, the one end of ball (37) extends to the inside of second spout (13), and ball (37) and detection roof beam structure (1) sliding connection.

8. The detection method based on the industrial building stability detection device of claim 5 is characterized in that: the method comprises the following steps:

step 1: inserting splicing blocks (21) on the detection beam frames (1) in alignment with the splicing grooves (20), splicing a plurality of detection beam frames (1) into a sufficient length, and fixedly connecting the limiting seat (2) with the detection beam frames (1);

Step 2: the U-shaped fixing frame (5) is buckled on the structural beam, the first electric telescopic rod (27) is driven to drive the clamping plate (6) to contact with the structural beam, and the detection device is fixed on the structural beam;

step 3: driving a second electric telescopic rod (29) to drive two ends of the detection device to lift, adjusting levelness of the detection device, and adjusting the detection device to be parallel to the structural beam;

Step 4: starting a first motor (30) to drive a threaded rod (34) to rotate, enabling the threaded rod (34) to be in threaded connection with a sliding block (31), driving the sliding block (31) to move along the threaded rod (34) along with the rotation of the threaded rod (34), enabling the sliding block (31) to be fixedly connected with a mounting seat (14), enabling the moving sliding block (31) to synchronously drive the mounting seat (14) to move, and enabling one of ultrasonic detection equipment (15), horizontal deformation detection equipment (16), industrial camera equipment (17) or vertical deformation detection equipment (18) to move to the position right below a structural beam;

Step 5: the second motor (32) is started to drive the gear (33) to rotate, the gear (33) is meshed with the tooth row (22) in the U-shaped groove (8), the gear (33) driving structure is connected with the detection seat (7) into an integrated structure, the detection seat (7) is driven to move along the tooth row (22) along with the rotation of the gear (33), then the detection seat (7) is driven to move along the U-shaped groove (8), the detection equipment is moved along the structural beam to detect, the detection data is processed by the wireless data processor (19), the detection data can be uploaded, and the position of the detection equipment is changed to detect multiple data of the structural beam.