CN116295593A

CN116295593A - Measuring equipment based on building monitoring

Info

Publication number: CN116295593A
Application number: CN202310586486.0A
Authority: CN
Inventors: 张洪利; 张飞; 李安京
Original assignee: Linyi Hongji Engineering Testing Co ltd
Current assignee: Linyi Hongji Engineering Testing Co ltd
Priority date: 2023-05-24
Filing date: 2023-05-24
Publication date: 2023-06-23
Anticipated expiration: 2043-05-24
Also published as: CN116295593B

Abstract

The invention provides a measuring device based on building monitoring, which relates to the technical field of building monitoring and comprises: a base and a first detection portion; four rollers are mounted on the base and are all in contact with the ground. Because the left end of the two guide rods is welded and connected with the second drawing board, the second drawing board is in contact with the second drawing pen, the second electric telescopic rod is installed on the rectangular board, one end of the left side of the second electric telescopic rod is fixed on the first sliding seat, the second drawing board is in a rightward moving state when the second electric telescopic rod contracts, the second drawing pen can be prevented from drawing at the same position at the moment, the problem that when square upright posts in a building are monitored, the square upright posts have four surfaces in total, the common monitoring device needs to monitor one surface by one, the process wastes time, and the synchronous detection can be realized through a plurality of probes, but the equipment cost is increased; and when in monitoring, the deviation distance is required to be drawn independently, and the operation is complex.

Description

Measuring equipment based on building monitoring

Technical Field

The invention relates to the technical field of building monitoring, in particular to a measuring device based on building monitoring.

Background

The measuring device for building monitoring is a monitoring device for buildings, and after building construction is finished, building materials are required to be monitored, so that the influence on the use safety caused by bending of the building materials is avoided.

When monitoring square upright posts in a building, because the square upright posts have four surfaces, the common monitoring device needs to monitor the square upright posts one by one, and the process wastes time, and the synchronous detection can be realized through a plurality of probes, so that the equipment cost is increased; when in monitoring, the deviation distance is required to be drawn independently, and the operation is complicated.

Disclosure of Invention

In view of the above, the present invention provides a measuring apparatus based on building monitoring, which has a first monitoring portion and a second detecting portion, and by setting the first monitoring portion and the second detecting portion, detection of four faces can be achieved simultaneously, drawing of a deviation distance can be achieved while detection is performed, and a repeated drawing phenomenon can be avoided in the drawing process.

The invention is based on the purpose and efficacy of the measuring equipment for building monitoring, and is achieved by the following specific technical means:

the invention provides a measuring device based on building monitoring, which specifically comprises: a base and a first detection portion; four rollers are mounted on the base and are all in contact with the ground; the first detection part consists of two mounting blocks, a first sliding rod, a first sliding seat, a first drawing pen, a sliding block, a first drawing board, a first electric telescopic rod and a first spring rod, wherein the two mounting blocks are symmetrically welded on the base, the first sliding rod is welded on the two mounting blocks, the first sliding seat is connected on the first sliding rod in a sliding manner, and the first spring rod for resetting the first sliding seat to the right is arranged on one mounting block on the left side; the first drawing pen is arranged on the first sliding seat, the second detection part is also arranged on the first sliding seat, and when the drawing pen is used, the second detection part drives the first drawing pen to displace, so that detection marks can be realized.

Further, the second detection part comprises second slide bar, second slide holder, third slide bar, third slide holder, fourth slide bar, limiting plate, roller bearing, first driving motor, adjusting lever, limiting rod, threaded rod, second driving motor, guide bar, second drawing board, second electronic telescopic handle, second drawing pen and second spring rod, the welding has two second slide bars on the first slide holder, sliding connection has the second slide holder on the second slide bar, installs a second spring rod that is used for the second slide holder to reset forward on the first slide holder, and sliding connection has the third slide holder on the second slide holder top face welding has two third slide bars, and the welding has the fourth slide bar on the third slide holder, sliding connection has two limiting plates on the fourth slide bar.

Further, install first driving motor on the third sliding seat, install the adjusting lever in first driving motor's the axis of rotation, adjusting lever left side one end and right side one end respectively with two limiting plate threaded connection, the screw thread opposite direction of adjusting lever left side one end and right side one end, two limiting plates are synchronous reverse motion state when first driving motor rotates.

Further, two the limiting plate inboard all rotates and is connected with a roller bearing, and two roller bearings all contact with the detection thing.

Further, a second drawing pen is arranged on the third sliding seat;

and the two limiting plates are inserted and fixed with a limiting rod through bolts, and the detection object is contacted with the outer walls of the limiting rod and the fourth sliding rod.

Further, the second driving motor is installed at second sliding seat top, installs the threaded rod in the axis of rotation of second driving motor, and threaded rod and third sliding seat threaded connection are when second driving motor rotates, are the perpendicular state of moving through the third sliding seat of threaded rod.

Further, a sliding block is connected to the base in a sliding manner, a first drawing board is arranged on the top end surface of the sliding block, and the first drawing board is in contact with the first drawing pen;

the base is provided with a first electric telescopic rod, one end of the rear side of the first electric telescopic rod is fixed on the sliding block, and the first drawing board is in a backward moving state when the first electric telescopic rod stretches.

Further, sliding connection has two guide bars on the first sliding seat, and two guide bar right sides are connected through a rectangular plate, and two guide bar left side one end all is drawn the board welding with the second and is linked to each other, and the board is drawn to the second and is drawn the pen contact with the second, installs the second electric telescopic handle on this rectangular plate, and second electric telescopic handle left side one end is fixed on first sliding seat, and the board is drawn to the second when the shrink of second electric telescopic handle is the state of moving to the right.

Further, install auxiliary part on the third sliding seat, auxiliary part comprises air supply pump and spray tube, and the air supply pump is fixed on the third sliding seat, is connected with the spray tube on the air supply pump, has offered the fumarole in linear array form on the spray tube, and the fumarole is faced with the left and right sides both ends of detecting the thing.

Further, the spray pipe is of a bendable structure.

The beneficial effects are that: according to the air supply pump, the auxiliary part is arranged, and the air spraying holes are aligned with the left end face and the right end face of the detection object, so that sundries on the left end face and the right end face of the detection object can be cleaned by air sprayed out of the spray pipe when the air supply pump works, and the detection precision is improved; because the spray pipe is of a bendable structure, when the spray pipe is bent during use, the cleaning of the front end face and the rear end face of the detection object can be realized.

Through the arrangement of the first detection part and the second detection part, synchronous detection of the front end face, the rear end face, the left end face and the right end face of the square upright post can be realized, at the moment, when the two limiting plates are contacted with a detected object at the moment after the positions of the two limiting plates are fixed, the third sliding seat is moved upwards at the moment, and at the moment, if the left end face and the right end face of the detected object are bent, the third sliding seat and the first sliding seat are driven to move, and at the moment, marking is carried out through a first drawing pen; when the first driving motor rotates, the two limiting plates are in a synchronous reverse motion state, so that the two limiting plates can be quickly contacted with a detection object, and the adjustment efficiency and the detection efficiency are improved; when the third sliding seat moves upwards, if the front end face and the rear end face of the detected object are bent, the third sliding seat and the second drawing pen are driven to move forwards and backwards, and front and rear detection of the detected object can be achieved; when the second driving motor rotates, the third sliding seat is in a vertical moving state through the threaded rod, and detection driving is completed at the moment.

The first drawing board is contacted with the first drawing pen at the moment through the expansion and contraction of the first electric expansion rod and the second electric expansion rod; when the first electric telescopic rod stretches, the first drawing board is in a backward moving state, and at the moment, the first drawing board can be ensured not to draw at one position; when the second electric telescopic rod is contracted, the second drawing board is in a rightward moving state, and at the moment, the second drawing pen can be prevented from drawing at the same position.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an isometric view of a measuring apparatus based on building monitoring according to the present invention.

Fig. 2 is a schematic diagram of a front view structure of a measuring apparatus based on building monitoring according to the present invention.

Fig. 3 is a schematic top view of the building monitoring based measuring device of the present invention.

Fig. 4 is a schematic diagram showing an isometric structure of a first detecting portion of the present invention.

Fig. 5 is a schematic diagram of the rotated isometric view of fig. 4 in accordance with the present invention.

FIG. 6 is a schematic diagram showing an isometric view of a second detecting portion of the present invention.

Fig. 7 is a schematic diagram of the rotated isometric view of fig. 6 in accordance with the present invention.

Fig. 8 is a schematic diagram of an isometric view of an auxiliary portion of the present invention.

List of icons: 1. a base; 2. a first detection section; 201. a mounting block; 202. a first slide bar; 203. a first sliding seat; 204. a first drawing pen; 205. a sliding block; 206. a first drawing board; 207. a first electric telescopic rod; 208. a first spring lever; 3. a second detection section; 301. a second slide bar; 302. a second sliding seat; 303. a third slide bar; 304. a third sliding seat; 305. a fourth slide bar; 306. a limiting plate; 307. a roller; 308. a first driving motor; 309. an adjusting lever; 310. a limit rod; 311. a threaded rod; 312. a second driving motor; 313. a guide rod; 314. a second drawing board; 315. a second electric telescopic rod; 316. a second drawing pen; 317. a second spring rod; 4. an auxiliary portion; 401. an air supply pump; 402. a spray pipe.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Examples: please refer to fig. 1 to 8:

the invention provides a measuring device based on building monitoring, comprising: a base 1 and a first detecting portion 2;

four rollers are arranged on the base 1 and are all in contact with the ground;

the first detection part 2 consists of two installation blocks 201, a first sliding rod 202, a first sliding seat 203, a first drawing pen 204, a sliding block 205, a first drawing board 206, a first electric telescopic rod 207 and a first spring rod 208, wherein the two installation blocks 201 are symmetrically welded on the base 1, the first sliding rod 202 is welded on the two installation blocks 201, the first sliding seat 203 is connected on the first sliding rod 202 in a sliding way, and the first spring rod 208 for rightwards resetting the first sliding seat 203 is arranged on one installation block 201 on the left side;

the first drawing pen 204 is installed on the first sliding seat 203, the second detection part 3 is also installed on the first sliding seat 203, and when the drawing pen is used, the second detection part 3 drives the first drawing pen 204 to displace, so that detection marks can be realized.

The second detection portion 3 is composed of a second sliding rod 301, a second sliding seat 302, a third sliding rod 303, a third sliding seat 304, a fourth sliding rod 305, a limiting plate 306, a roller 307, a first driving motor 308, an adjusting rod 309, a limiting rod 310, a threaded rod 311, a second driving motor 312, a guide rod 313, a second drawing plate 314, a second electric telescopic rod 315, a second drawing pen 316 and a second spring rod 317, two second sliding rods 301 are welded on the first sliding seat 203, a second sliding seat 302 is connected on the second sliding rod 301 in a sliding manner, a second spring rod 317 for the second sliding seat 302 to reset forward is installed on the first sliding seat 203, two third sliding rods 303 are welded on the top end surface of the second sliding seat 302, a third sliding seat 304 is connected on the two third sliding rods 303 in a sliding manner, at this time, two limiting plates 306 are welded on the fourth sliding rods 305 in a sliding manner, when the positions of the two limiting plates 306 are fixed, and when the two limiting plates 306 are bent, the two limiting plates 306 are in contact with the first sliding seat 203, and the two sliding seats are driven by the second sliding seat 204 to move upwards, and the first sliding seat 203 is detected to move upwards if the two sliding seats are bent, and the second sliding seat 204 is moved upwards.

Wherein, install first driving motor 308 on the third sliding seat 304, install adjusting lever 309 in the axis of rotation of first driving motor 308, adjusting lever 309 left side one end and right side one end respectively with two limiting plate 306 threaded connection, the screw thread opposite direction of adjusting lever 309 left side one end and right side one end, two limiting plate 306 are synchronous reverse motion state when first driving motor 308 rotates, can realize that two limiting plate 306 contact with the detection object fast this moment, improved adjustment efficiency and detection efficiency.

Wherein, the inner sides of the two limiting plates 306 are both rotatably connected with a roller 307, and the two rollers 307 are both contacted with the detection object, so that friction can be reduced at this time, and the detection accuracy is improved.

Wherein, the third sliding seat 304 is installed with a second drawing pen 316;

the two limiting plates 306 are inserted and fixed with the limiting rod 310 through bolts, the detected object is in contact with the outer walls of the limiting rod 310 and the fourth sliding rod 305, when the third sliding seat 304 moves upwards, if the front end face and the rear end face of the detected object are bent, the third sliding seat 304 and the second drawing pen 316 are driven to move forwards and backwards, and at the moment, the detection of the front face and the rear face of the detected object can be realized.

The second driving motor 312 is mounted on the top of the second sliding seat 302, the threaded rod 311 is mounted on the rotating shaft of the second driving motor 312, the threaded rod 311 is in threaded connection with the third sliding seat 304, and when the second driving motor 312 rotates, the third sliding seat 304 is in a vertical moving state through the threaded rod 311, and detection driving is completed at this time.

Wherein, a sliding block 205 is slidingly connected on the base 1, a first drawing board 206 is mounted on the top end surface of the sliding block 205, and the first drawing board 206 is contacted with the first drawing pen 204;

the base 1 is provided with a first electric telescopic rod 207, one end of the rear side of the first electric telescopic rod 207 is fixed on the sliding block 205, and the first drawing board 206 is in a backward moving state when the first electric telescopic rod 207 is extended, so that the first drawing board 206 can be ensured not to draw in one position.

Wherein, sliding connection has two guide bars 313 on the first sliding seat 203, two guide bars 313 right side is connected through a rectangular plate, two guide bars 313 left side one end all with the second drawing board 314 welding link to each other, the second drawing board 314 and second drawing pen 316 contact, install second electric telescopic handle 315 on this rectangular plate, second electric telescopic handle 315 left side one end is fixed on first sliding seat 203, second drawing board 314 is right movable state when the shrink of second electric telescopic handle 315, can avoid the second drawing pen 316 to draw in same position this moment.

Wherein, install auxiliary part 4 on the third sliding seat 304, auxiliary part 4 comprises air pump 401 and spray tube 402, and air pump 401 is fixed on the third sliding seat 304, is connected with spray tube 402 on the air pump 401, has offered the fumarole in the form of linear array on the spray tube 402, and the fumarole is right with the left and right sides both ends face of detection thing, and the clearance of debris on the both ends face about the detection thing can be realized to the air of spray tube 402 department spun air when air pump 401 during operation, has improved detection precision this moment.

The spray pipe 402 is of a bendable structure, and when the spray pipe 402 is bent during use, cleaning of front and rear end surfaces of a detected object can be achieved.

Specific use and action of the embodiment:

when the device is used, the first driving motor 308 is controlled to rotate, two rollers 307 are guaranteed to be in contact with the left end face and the right end face of the square upright to be detected, the position of the base 1 is adjusted, the fourth sliding rod 305 is guaranteed to be in contact with the rear end face of the square upright, the limiting rods 310 are arranged on the two limiting plates 306, and the limiting rods 310 are guaranteed to be in contact with the front end faces of the square upright; then, the spout 402 is bent;

simultaneously, the second driving motor 312, the first electric telescopic rod 207, the second spring rod 317 and the air supply pump 401 are started, at this time, the third sliding seat 304 moves upwards, at this time, the first sliding seat 203 and the second sliding seat 302 are subjected to position change under the extrusion of the bending part of the square upright post, at this time, since the second detecting part 3 is composed of the second sliding rod 301, the second sliding seat 302, the third sliding rod 303, the third sliding seat 304, the fourth sliding rod 305, the limiting plate 306, the roller 307, the first driving motor 308, the adjusting rod 309, the limiting rod 310, the threaded rod 311, the second driving motor 312, the guiding rod 313, the second drawing plate 314, the second electric telescopic rod 315, the second drawing pen 316 and the second spring rod 317, the first sliding seat 203 is welded with the two second sliding rods 301, the second sliding rod 301 is connected with the second sliding seat 302 in a sliding manner, the first sliding seat 203 is provided with a second spring rod 317 for the second sliding seat 302 to reset forwards, the top end surfaces of the second sliding seat 302 are welded with two third sliding rods 303, the two third sliding rods 303 are connected with a third sliding seat 304 in a sliding manner, the third sliding seat 304 is welded with a fourth sliding rod 305, the fourth sliding rod 305 is connected with two limiting plates 306 in a sliding manner, when the two limiting plates 306 are fixed, the two limiting plates 306 are contacted with a detected object at the moment, the third sliding seat 304 is moved upwards at the moment, and if the left end surface and the right end surface of the detected object are bent at the moment, the third sliding seat 304 and the first sliding seat 203 are driven to move, and at the moment, the first drawing pen 204 is used for marking; because the first driving motor 308 is installed on the third sliding seat 304, the rotating shaft of the first driving motor 308 is provided with the adjusting rod 309, the left end and the right end of the adjusting rod 309 are respectively in threaded connection with the two limiting plates 306, the threaded directions of the left end and the right end of the adjusting rod 309 are opposite, and when the first driving motor 308 rotates, the two limiting plates 306 are in a synchronous and reverse motion state, so that the two limiting plates 306 can be in contact with a detected object quickly, and the adjusting efficiency and the detecting efficiency are improved; because the inner sides of the two limiting plates 306 are rotationally connected with the rolling shafts 307, the two rolling shafts 307 are contacted with the detection object, friction can be reduced at the moment, and the detection precision is improved; the third sliding seat 304 is provided with a second drawing pen 316; the two limiting plates 306 are inserted and fixed with a limiting rod 310 through bolts, the detected object is in contact with the outer walls of the limiting rod 310 and the fourth sliding rod 305, when the third sliding seat 304 moves upwards, if the front end face and the rear end face of the detected object are bent at this time, the third sliding seat 304 and the second drawing pen 316 are driven to move forwards and backwards, and at this time, the front and rear detection of the detected object can be realized; because the second driving motor 312 is installed at the top of the second sliding seat 302, the threaded rod 311 is installed on the rotating shaft of the second driving motor 312, the threaded rod 311 is in threaded connection with the third sliding seat 304, and when the second driving motor 312 rotates, the third sliding seat 304 is in a vertical moving state through the threaded rod 311, and detection driving is completed at this time;

meanwhile, as the base 1 is slidably connected with a sliding block 205, a first drawing board 206 is mounted on the top end surface of the sliding block 205, and the first drawing board 206 is in contact with the first drawing pen 204; the base 1 is provided with a first electric telescopic rod 207, one end of the rear side of the first electric telescopic rod 207 is fixed on the sliding block 205, and when the first electric telescopic rod 207 stretches, the first drawing board 206 is in a backward moving state, so that the first drawing board 206 can be ensured not to draw at one position; because the first sliding seat 203 is slidably connected with the two guide rods 313, the right sides of the two guide rods 313 are connected through a rectangular plate, one end of the left side of each guide rod 313 is welded with the second drawing plate 314, the second drawing plate 314 is contacted with the second drawing pen 316, the second electric telescopic rod 315 is mounted on the rectangular plate, one end of the left side of the second electric telescopic rod 315 is fixed on the first sliding seat 203, and when the second electric telescopic rod 315 contracts, the second drawing plate 314 is in a rightward moving state, and at the moment, the second drawing pen 316 can be prevented from drawing at the same position;

meanwhile, as the auxiliary part 4 is arranged on the third sliding seat 304, the auxiliary part 4 consists of the air supply pump 401 and the spray pipe 402, the air supply pump 401 is fixed on the third sliding seat 304, the spray pipe 402 is connected to the air supply pump 401, the spray pipe 402 is provided with the air injection holes in a linear array shape, the air injection holes are aligned to the left end face and the right end face of the detected object, and when the air supply pump 401 works, the air injected from the spray pipe 402 can clean sundries on the left end face and the right end face of the detected object, so that the detection precision is improved; because the spray pipe 402 is of a bendable structure, when the spray pipe 402 is bent during use, the cleaning of the front end face and the rear end face of the detected object can be realized.

Claims

1. Measuring equipment based on building monitoring, characterized by comprising: a base (1) and a first detection portion (2); four rollers are mounted on the base (1), and are all in contact with the ground; the first detection part (2) consists of two mounting blocks (201), a first sliding rod (202), a first sliding seat (203), a first drawing pen (204), a sliding block (205), a first drawing plate (206), a first electric telescopic rod (207) and a first spring rod (208), wherein the two mounting blocks (201) are symmetrically welded on the base (1), the first sliding rod (202) is welded on the two mounting blocks (201), the first sliding seat (203) is connected on the first sliding rod (202) in a sliding way, and the first spring rod (208) for rightwards resetting the first sliding seat (203) is arranged on one mounting block (201) on the left side; the first drawing pen (204) is arranged on the first sliding seat (203), and the second detection part (3) is also arranged on the first sliding seat (203).

2. The building monitoring-based measurement apparatus of claim 1, wherein: the second detection part (3) comprises a second sliding rod (301), a second sliding seat (302), a third sliding rod (303), a third sliding seat (304), a fourth sliding rod (305), a limiting plate (306), a roller (307), a first driving motor (308), an adjusting rod (309), a limiting rod (310), a threaded rod (311), a second driving motor (312), a guide rod (313), a second drawing plate (314), a second electric telescopic rod (315), a second drawing pen (316) and a second spring rod (317), two second sliding rods (301) are welded on the first sliding seat (203), a second sliding seat (302) is connected to the second sliding rod (301) in a sliding manner, two third sliding rods (303) are welded on the top end surface of the second sliding seat (302), a third sliding seat (304) is connected to the two third sliding rods (303) in a sliding manner, and two limiting plates (306) are welded on the fourth sliding seat (203).

3. The building monitoring-based measurement apparatus of claim 2, wherein: the third sliding seat (304) is provided with a first driving motor (308), the rotating shaft of the first driving motor (308) is provided with an adjusting rod (309), the left side end and the right side end of the adjusting rod (309) are respectively in threaded connection with the two limiting plates (306), the threaded directions of the left side end and the right side end of the adjusting rod (309) are opposite, and when the first driving motor (308) rotates, the two limiting plates (306) are in synchronous reverse motion states.

4. A building monitoring based measurement device according to claim 3, wherein: the inner sides of the two limiting plates (306) are rotatably connected with a roller (307), and the two rollers (307) are contacted with the detection object.

5. The building monitoring-based measurement apparatus of claim 2, wherein: the third sliding seat (304) is provided with a second drawing pen (316);

and two limiting plates (306) are inserted and fixed with a limiting rod (310) through bolts, and the detected object is contacted with the outer walls of the limiting rod (310) and the fourth sliding rod (305).

6. The building monitoring-based measurement apparatus of claim 2, wherein: the second driving motor (312) is installed at the top of the second sliding seat (302), the threaded rod (311) is installed on the rotating shaft of the second driving motor (312), the threaded rod (311) is in threaded connection with the third sliding seat (304), and when the second driving motor (312) rotates, the third sliding seat (304) is in a vertical moving state through the threaded rod (311).

7. The building monitoring-based measurement apparatus of claim 1, wherein: a sliding block (205) is connected to the base (1) in a sliding manner, a first drawing board (206) is arranged on the top end surface of the sliding block (205), and the first drawing board (206) is contacted with a first drawing pen (204);

the base (1) is provided with a first electric telescopic rod (207), one end of the rear side of the first electric telescopic rod (207) is fixed on the sliding block (205), and the first drawing board (206) is in a backward moving state when the first electric telescopic rod (207) stretches.

8. The building monitoring-based measurement apparatus of claim 2, wherein: two guide rods (313) are connected to the first sliding seat (203) in a sliding mode, the right sides of the two guide rods (313) are connected through a rectangular plate, one end of the left side of each guide rod (313) is connected with a second drawing plate (314) in a welding mode, the second drawing plates (314) are in contact with a second drawing pen (316), a second electric telescopic rod (315) is installed on the rectangular plate, one end of the left side of each second electric telescopic rod (315) is fixed to the first sliding seat (203), and when the second electric telescopic rod (315) is contracted, the second drawing plates (314) are in a rightward moving state.

9. The building monitoring-based measurement apparatus of claim 2, wherein: the auxiliary part (4) is installed on the third sliding seat (304), the auxiliary part (4) is composed of an air supply pump (401) and a spray pipe (402), the air supply pump (401) is fixed on the third sliding seat (304), the spray pipe (402) is connected to the air supply pump (401), air spraying holes are formed in the spray pipe (402) in a linear array shape, and the air spraying holes are aligned with the left end face and the right end face of a detected object.

10. The building monitoring based measurement apparatus of claim 9, wherein: the spout (402) is of a flexible construction.