CN111412889A - Real-time monitoring device and method for building settlement - Google Patents

Abstract

The invention discloses a real-time building settlement monitoring device and a real-time building settlement monitoring method, relates to the technical field of building construction, and solves the problems that the existing real-time building settlement monitoring structure cannot adjust the deviation caused by settlement of the existing real-time building settlement monitoring structure, the monitoring structure is inaccurate, and the like. The utility model provides a building settlement real-time supervision device and method, includes the bottom sprag board, two stable supporting mechanism are all installed at the both ends of bottom sprag board, bottom positioning mechanism is installed to the lower terminal surface of bottom sprag board, protection machanism is installed to the up end of bottom sprag board, vertical retaining mechanism is installed to protection machanism's inboard, vertical retaining mechanism includes altitude mixture control board, altitude mixture control post is all installed at four end angles of terminal surface under the altitude mixture control board. According to the invention, the structure of the monitoring device is self-adjusted, so that the monitoring device can be kept in a vertical state all the time without being interfered by the outside, and the monitoring result is accurate.

Description

Real-time monitoring device and method for building settlement

Technical Field

The invention relates to the technical field of building construction, in particular to a real-time building settlement monitoring device and a method thereof.

Background

Along with the rapid development of social economy, the scale of buildings is larger and larger, the buildings can be settled before and after construction, the deep settlement observation can timely master the settlement size and the change rule thereof, many projects are provided with settlement observation, different observation methods are suitable for different project conditions, the foundation can be settled under the load action of the buildings, if the foundation settlement, especially differential settlement, exceeds the allowable range of the buildings, the normal use of the buildings is influenced, and the house is cracked and inclined, the roadbed is settled, the dam is collapsed and the like.

However, the existing real-time monitoring structure for building settlement cannot adjust the offset caused by settlement of the existing real-time monitoring structure, so that the monitoring structure is inaccurate; therefore, the existing requirements are not met, and a real-time building settlement monitoring device and a method thereof are provided.

Disclosure of Invention

The invention aims to provide a real-time building settlement monitoring device and a real-time building settlement monitoring method, which are used for solving the problems that the existing real-time building settlement monitoring structure proposed in the background technology cannot adjust the deviation caused by settlement of the structure, so that the monitoring structure is inaccurate and the like.

In order to achieve the purpose, the invention provides the following technical scheme: a real-time monitoring device for building settlement comprises a bottom supporting plate, two stable supporting mechanisms are respectively arranged at two ends of the bottom supporting plate, the lower end surface of the bottom supporting plate is provided with a bottom positioning mechanism, the upper end surface of the bottom supporting plate is provided with a protection mechanism, a vertical holding mechanism is arranged on the inner side of the protection mechanism and comprises a height adjusting plate, the four end angles of the lower end surface of the height adjusting plate are all provided with height adjusting columns, the outer sides of the bottom ends of the height adjusting columns are provided with fixed guide sleeves, the upper end surface of the height adjusting plate is provided with a display plate, one side of the display plate is provided with a limiting frame, a rotating block is arranged on the inner side of the upper end of the limiting frame, a vertical connecting rod is arranged on the inner side of the rotating block, the upper end of the vertical connecting rod is provided with a level gauge, and the bottom end of the vertical retaining mechanism is provided with a settlement detection mechanism;

subside detection mechanism and include protection installation shell, the control treater is installed to the inboard of protection installation shell, the battery is installed to the lower terminal surface of control treater, subside detection mechanism's lower terminal surface and install vertical adjustment mechanism, vertical adjustment mechanism is including connecting the dead lever, connect the outside of dead lever and install three balancing weight, one of them four connection push pedals are evenly installed in the outside of balancing weight, connect one side of push pedal and install the regulation taper rod, one of them the installation mount is installed in the outside of adjusting taper rod one end.

Preferably, stabilize supporting mechanism and include steady piece, angle adjusting rod, fixed thread bush and connection support, the fixed thread bush is installed to the inboard of connecting support one end, the angle adjusting rod is installed to the inboard of fixed thread bush, steady piece is installed in the outside of angle adjusting rod bottom.

Preferably, the bottom positioning mechanism comprises a fixed annular frame, a depth adjusting sleeve and a fixed anti-slip cone, four fixed anti-slip cones are installed on the outer side of the fixed annular frame, and the depth adjusting sleeve is installed on the outer side of the fixed anti-slip cone.

Preferably, the protection mechanism includes protection box, side lug, warning light and solar panel, the side lug is all installed to the both sides of protection box, the warning light is installed to the up end of protection box, solar panel is installed to one side of warning light.

Preferably, the bottom of altitude mixture control post is fixed in the inboard of fixed guide sleeve upper end through threaded connection, the upper end of altitude mixture control post extends to the inboard at four end angles of altitude mixture control board, spacing welded fastening is at the up end of altitude mixture control board, the inboard of spacing upper end is provided with the arc wall, the turning block sets up the inboard at the arc wall, vertical connecting rod passes through threaded connection and fixes the inboard at the turning block, the lower terminal surface at the spirit level is fixed through the locating pin connection in the upper end of vertical connecting rod.

Preferably, the vertical connecting rod is fixed through being connected the apron with the protection installation shell, the battery passes through the bolted connection to be fixed in the inboard of protection installation shell, the both sides of battery are provided with computer data acquisition chip and computer data processing chip respectively, control processor includes computer and wireless transmitter, control processor passes through the wire with the battery and is connected.

Preferably, the bottom welded fastening who connects the dead lever is at the up end of installation mount, the outside of balancing weight is provided with four draw-in grooves, connect the push pedal and set up the inboard at the draw-in groove, connect the push pedal and pass through the regulation taper rod with the installation mount and be connected, the regulation taper rod passes through threaded connection and fixes the inboard at four end angles of installation mount.

Compared with the prior art, the real-time building settlement monitoring device has the beneficial effects that:

the invention can meet the zero setting operation under different use conditions by adjusting the balancing weight, and the level meter is driven to rotate at the inner side of the limiting frame by the rotating block, so that the level meter can be always in a horizontal state in any direction, the monitoring accuracy is further improved, the external interference is reduced, the integral protection is high, the service cycle is long, and the maintenance trouble is reduced.

A method of monitoring, characterized by: the monitoring method comprises the following steps:

(A) the whole body is moved to a proper position through the side lifting lugs, the bottom supporting plate is in a preliminary horizontal state through adjustment of the stabilizing and supporting mechanisms, specifically, the height of the angle adjusting rod is adjusted on the inner side of the fixed threaded sleeve through the rotation angle adjusting rod, the bottom end of the angle adjusting rod rotates in an angle on the inner side of the stabilizing block, and the whole body can be adapted to various terrains through the four stabilizing and supporting mechanisms;

(B) the height of the fixed anti-slip cone is adjusted by rotating the depth adjusting sleeve, so that the fixed anti-slip cone is integrally fixed to prevent slipping and deviation, and the angle of the solar panel is adjusted according to the installation position, so that the solar panel can be conveniently subjected to photoelectric conversion operation;

(C) the leveling instrument is connected and fixed at the upper end of the vertical connecting rod through the positioning pin, so that the leveling instrument can freely rotate in the horizontal direction, the adjusting taper rod is rotated according to the display value of the leveling instrument, one end of the adjusting taper rod is pushed to move by the connecting and fixing frame, and then the balancing weight outside the connecting and fixing rod is moved;

(D) when the display structure of the level meter is completely in a horizontal state at any angle, the zero setting operation is completed, the vertical connecting rod and the sedimentation detection mechanism are both in a vertical state, and when the whole body is interfered by the outside to cause the deviation between the protection mechanism and the vertical holding mechanism, the sedimentation detection mechanism can still be always in the vertical state;

(E) carry out the switch-on of wire with battery and control processor and display panel for can monitor the settlement of building in real time through the control processor, carry out the replenishment of electric quantity through solar panel to the battery, can keep long-term monitoring work.

Preferably, the inner sides of the storage battery and the control processor are provided with heat insulation plates, and the outer side of the protection installation shell is provided with heat dissipation holes.

Preferably, the upper end face of the height adjusting plate is provided with a guide hole, and the size of the guide hole is larger than the offset of the vertical connecting rod.

Compared with the prior art, the monitoring method has the beneficial effects that:

according to the monitoring method, after the zero setting operation is carried out on the counterweight structure, the automatic leveling operation can be carried out under any use condition, the trouble of subsequent maintenance and repair caused by external interference is avoided, the stability of the detection structure can be kept, and the monitoring result is accurate.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a bottom view of the present invention in its entirety;

FIG. 3 is a schematic view of a partial cross-sectional structure of the stabilizing support mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of the present invention;

FIG. 5 is a schematic view, partially in section, of the vertical retention mechanism of the present invention;

FIG. 6 is a schematic view of a vertical adjustment mechanism of the present invention in partial cross-section.

In the figure: 1. a bottom support plate; 2. a stable support mechanism; 201. a stabilizing block; 202. an angle adjusting rod; 203. fixing the threaded sleeve; 204. connecting a support; 3. a bottom positioning mechanism; 301. fixing the annular frame; 302. a depth adjusting sleeve; 303. fixing an anti-skid cone; 4. a protection mechanism; 401. a protective box body; 402. side lifting lugs; 403. a warning light; 404. a solar panel; 5. a vertical holding mechanism; 501. a height adjustment plate; 502. a height adjustment post; 503. fixing a guide sleeve; 504. a display panel; 505. a limiting frame; 506. a level gauge; 507. rotating the block; 508. a vertical connecting rod; 6. a settlement detection mechanism; 601. a protective mounting shell; 602. a storage battery; 603. a control processor; 604. connecting the cover plate; 7. a vertical adjustment mechanism; 701. connecting a fixed rod; 702. mounting a fixed frame; 703. a balancing weight; 704. connecting a push plate; 705. and adjusting the taper rod.

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 fig. 1 to 6, an embodiment of the present invention includes: a real-time building settlement monitoring device comprises a bottom supporting plate 1, two stable supporting mechanisms 2 are respectively arranged at two ends of the bottom supporting plate 1, a bottom positioning mechanism 3 is arranged on the lower end face of the bottom supporting plate 1, a protection mechanism 4 is arranged on the upper end face of the bottom supporting plate 1, the monitoring structure can be well protected through the protection mechanism 4, external interference is reduced, a vertical retaining mechanism 5 is arranged on the inner side of the protection mechanism 4, the vertical retaining mechanism 5 comprises a height adjusting plate 501, height adjusting columns 502 are respectively arranged at four end angles of the lower end face of the height adjusting plate 501, a fixed guide sleeve 503 is arranged on the outer side of the bottom ends of the height adjusting columns 502, a display plate 504 is arranged on the upper end face of the height adjusting plate 501, a limiting frame 505 is arranged on one side of the display plate 504, a rotating block 507 is arranged on the inner side of the upper end, the vertical connecting rod 508 can be kept in a vertical state all the time, the vertical connecting rod 508 is installed on the inner side of the rotating block 507, the level meter 506 is installed at the upper end of the vertical connecting rod 508, and the settlement detection mechanism 6 is installed at the bottom end of the vertical holding mechanism 5;

subside detection mechanism 6 including protection installation shell 601, control processor 603 is installed to the inboard of protection installation shell 601, battery 602 is installed to the lower terminal surface of control processor 603, vertical adjustment mechanism 7 is installed to the lower terminal surface of subside detection mechanism 6, vertical adjustment mechanism 7 is including connecting dead lever 701, three balancing weight 703 is installed in the outside of connecting dead lever 701, through the regulation to balancing weight 703, can carry out the horizontal zero setting operation to monitoring structures, facilitate the use, four connection push pedal 704 are evenly installed in the outside of one of them balancing weight 703, adjust taper rod 705 is installed to one side of connecting push pedal 704, installation mount 702 is installed in the outside of one of them regulation taper rod 705 one end, through carrying out the self-control to monitoring devices's structure, can not keep vertical state all the time by external disturbance, the monitoring result is accurate.

Further, the stabilizing and supporting mechanism 2 comprises a stabilizing block 201, an angle adjusting rod 202, a fixed threaded sleeve 203 and a connecting support 204, the fixed threaded sleeve 203 is installed on the inner side of one end of the connecting support 204, the angle adjusting rod 202 is installed on the inner side of the fixed threaded sleeve 203, the stabilizing block 201 is installed on the outer side of the bottom end of the angle adjusting rod 202, and the stabilizing and supporting mechanism 2 can be used for primarily leveling and assisting in supporting the whole structure.

Further, bottom positioning mechanism 3 includes fixed annular frame 301, degree of depth adjusting sleeve 302 and fixed anti-skidding awl 303, and four fixed anti-skidding awl 303 are installed to the outside of fixed annular frame 301, and degree of depth adjusting sleeve 302 is installed to the outside of fixed anti-skidding awl 303, can fix whole through bottom positioning mechanism 3, prevent to take place to slide and skew.

Further, protection machanism 4 includes protection box 401, side lug 402, warning light 403 and solar panel 404, and side lug 402 is all installed to protection box 401's both sides, and warning light 403 is installed to protection box 401's up end, and solar panel 404 is installed to one side of warning light 403, can carry out fine protection to the monitoring structure through protection machanism 4, reduces external interference.

Further, the bottom of altitude mixture control post 502 is fixed in the inboard of fixed guide sleeve 503 upper end through threaded connection, the upper end of altitude mixture control post 502 extends to the inboard of the four end angles of altitude mixture control plate 501, spacing 505 welded fastening is at the up end of altitude mixture control plate 501, the inboard of spacing 505 upper end is provided with the arc wall, turning block 507 sets up the inboard at the arc wall, vertical connecting rod 508 passes through threaded connection and fixes the inboard at turning block 507, the lower terminal surface at spirit level 506 is fixed through the locating pin connection in the upper end of vertical connecting rod 508, rotate in the inboard of spacing 505 through turning block 507, can keep vertical state with vertical connecting rod 508 all the time.

Further, the vertical connecting rod 508 is fixedly connected with the protective mounting shell 601 through the connecting cover plate 604, the storage battery 602 is fixedly connected with the inner side of the protective mounting shell 601 through screws, a computer data acquisition chip and a computer data processing chip are respectively arranged on two sides of the storage battery 602, the control processor 603 comprises a computer and a wireless transmitter, the control processor 603 is connected with the storage battery 602 through a wire, and the settlement of the building can be monitored in real time through the control processor 603.

Further, the bottom welded fastening who connects dead lever 701 is at the up end of installation mount 702, and the outside of balancing weight 703 is provided with four draw-in grooves, connects push pedal 704 and sets up the inboard at the draw-in groove, connects push pedal 704 and installation mount 702 and is connected through adjusting taper rod 705, adjusts taper rod 705 and fixes the inboard at four end angles of installation mount 702 through threaded connection, through the regulation to balancing weight 703, can carry out the horizontal zero setting operation to monitoring structure, facilitates the use.

A method of monitoring, characterized by: the monitoring method comprises the following steps:

(A) the whole body is moved to a proper position through the side lifting lug 402, the bottom supporting plate 1 is in a preliminary horizontal state through adjusting the stabilizing and supporting mechanisms 2, specifically, the height of the angle adjusting rod 202 is adjusted on the inner side of the fixed threaded sleeve 203 through the rotating angle adjusting rod 202, the bottom end of the angle adjusting rod 202 rotates in an angle on the inner side of the stabilizing block 201, and the whole body can be adapted to various terrains through the four stabilizing and supporting mechanisms 2;

(B) the height of the fixed anti-slip cone 303 is adjusted on the outer side of the fixed anti-slip cone 303 by rotating the depth adjusting sleeve 302, so that the fixed anti-slip cone 303 is integrally fixed to prevent slipping and deviation, the angle of the solar panel 404 is adjusted according to the installation position, and the solar panel 404 can be subjected to photoelectric conversion operation conveniently;

(C) the level meter 506 is fixedly connected to the upper end of the vertical connecting rod 508 through a positioning pin, so that the level meter 506 can freely rotate in the horizontal direction, the adjusting conical rod 705 is rotated according to the display value of the level meter 506, one end of the adjusting conical rod 705 pushes the connecting push plate 704 to move through the mounting and fixing frame 702, the balancing weight 703 outside the connecting and fixing rod 701 is moved, the four adjusting conical rods 705 are arranged, the balancing weight 703 can be adjusted in any direction, in the process of offsetting the balancing weight 703, the settlement detection mechanism 6 and the vertical adjusting mechanism 7 drive the vertical connecting rod 508 and the rotating block 507 to rotate in an angle on the inner side of the limiting frame 505, and the level meter 506 can be driven to perform leveling operation;

(D) when the level meter 506 indicates that the structure is completely in a horizontal state at any angle, namely, the zero setting operation is completed, the vertical connecting rod 508 and the sedimentation detection mechanism 6 are both in a vertical state, and when the whole body is interfered by the outside to cause the deviation between the protection mechanism 4 and the vertical holding mechanism 5, the sedimentation detection mechanism 6 can still be always in the vertical state;

(E) the storage battery 602 is connected with the control processor 603 and the display panel 504 through wires, so that the settlement of the building can be monitored in real time through the control processor 603, and the solar panel 404 supplements the electric quantity of the storage battery 602, so that long-term monitoring work can be kept.

Further, the inner sides of the storage battery 602 and the control processor 603 are provided with heat insulation plates, the outer side of the protective mounting shell 601 is provided with heat dissipation holes, and the stability of the structure operation is ensured by performing timely heat dissipation treatment on the control processor 603.

Further, height-adjustment plate 501's up end is provided with the guiding hole, and the size of guiding hole is greater than vertical connecting rod 508's offset, is convenient for can not receive the restriction of guiding hole when vertical connecting rod 508 carries out the skew of angle for height-adjustment plate 501.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A building settlement real-time monitoring device, includes bottom sprag board (1), its characterized in that: two stable supporting mechanisms (2) are installed at two ends of the bottom supporting plate (1), a bottom positioning mechanism (3) is installed on the lower end face of the bottom supporting plate (1), a protection mechanism (4) is installed on the upper end face of the bottom supporting plate (1), a vertical retaining mechanism (5) is installed on the inner side of the protection mechanism (4), the vertical retaining mechanism (5) comprises a height adjusting plate (501), height adjusting columns (502) are installed on four end angles of the lower end face of the height adjusting plate (501), a fixed guide sleeve (503) is installed on the outer side of the bottom end of each height adjusting column (502), a display plate (504) is installed on the upper end face of each height adjusting plate (501), a limiting frame (505) is installed on one side of the display plate (504), a rotating block (507) is installed on the inner side of the upper end of the limiting frame (505), and a vertical connecting rod (508) is, a level meter (506) is installed at the upper end of the vertical connecting rod (508), and a settlement detection mechanism (6) is installed at the bottom end of the vertical holding mechanism (5);

subside detection mechanism (6) including protection installation shell (601), control processor (603) are installed to the inboard of protection installation shell (601), battery (602) are installed to the lower terminal surface of control processor (603), vertical adjustment mechanism (7) are installed to the lower terminal surface of subsiding detection mechanism (6), vertical adjustment mechanism (7) are including connecting dead lever (701), three balancing weight (703), one of them are installed in the outside of connecting dead lever (701) four connection push pedals (704) are evenly installed in the outside of balancing weight (703), adjust taper rod (705) are installed to one side of connecting push pedal (704), one of them install installation mount (702) in the outside of adjusting taper rod (705) one end.

2. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: stabilize supporting mechanism (2) including steady piece (201), angle adjusting rod (202), fixed thread bush (203) and connection support (204), fixed thread bush (203) are installed to the inboard of connecting support (204) one end, angle adjusting rod (202) are installed to the inboard of fixed thread bush (203), steady piece (201) are installed in the outside of angle adjusting rod (202) bottom.

3. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: bottom positioning mechanism (3) are including fixed ring shape frame (301), degree of depth adjusting collar (302) and fixed anti-skidding awl (303), four fixed anti-skidding awl (303) are installed in the outside of fixed ring shape frame (301), degree of depth adjusting collar (302) are installed in the outside of fixed anti-skidding awl (303).

4. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: protection machanism (4) are including protection box (401), side lug (402), warning light (403) and solar panel (404), side lug (402) are all installed to the both sides of protection box (401), warning light (403) are installed to the up end of protection box (401), solar panel (404) are installed to one side of warning light (403).

5. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: the bottom of altitude mixture control post (502) is fixed in the inboard of fixed guide sleeve (503) upper end through threaded connection, the upper end of altitude mixture control post (502) extends to the inboard of four end angles of altitude mixture control plate (501), spacing (505) welded fastening is at the up end of altitude mixture control plate (501), the inboard of spacing (505) upper end is provided with the arc wall, turning block (507) set up the inboard at the arc wall, vertical connecting rod (508) are fixed in the inboard of turning block (507) through threaded connection, the lower terminal surface at spirit level (506) is fixed through the locating pin connection in the upper end of vertical connecting rod (508).

6. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: vertical connecting rod (508) are connected fixedly through connecting apron (604) with protection installation shell (601), battery (602) pass through the bolted connection to be fixed in the inboard of protection installation shell (601), the both sides of battery (602) are provided with computer data acquisition chip and computer data processing chip respectively, control processor (603) include computer and wireless transmitter, control processor (603) pass through the wire with battery (602) and are connected.

7. The building settlement real-time monitoring device and the method thereof according to claim 1, wherein: the bottom end of the connecting fixing rod (701) is welded and fixed on the upper end face of the mounting fixing frame (702), four clamping grooves are formed in the outer side of the counterweight block (703), the connecting push plate (704) is arranged on the inner side of each clamping groove, the connecting push plate (704) is connected with the mounting fixing frame (702) through an adjusting conical rod (705), and the adjusting conical rod (705) is fixed on the inner sides of four end angles of the mounting fixing frame (702) through threaded connection.

8. A method of monitoring, characterized by: the monitoring method comprises the following steps:

(A) the whole body is moved to a proper position through the side lifting lug (402), the bottom supporting plate (1) is in a primary horizontal state through adjusting the stabilizing and supporting mechanism (2), specifically, the height of the angle adjusting rod (202) is adjusted on the inner side of the fixed threaded sleeve (203) through the rotating angle adjusting rod (202), the bottom end of the angle adjusting rod (202) rotates in an angle on the inner side of the stabilizing block (201), and the whole body can be adapted to various terrains through the four stabilizing and supporting mechanisms (2);

(B) the height of the fixed anti-skid cone (303) is adjusted by rotating the depth adjusting sleeve (302), so that the fixed anti-skid cone (303) is integrally fixed to prevent sliding and deviation, the angle of the solar panel (404) is adjusted according to the installation position, and the solar panel (404) can be conveniently subjected to photoelectric conversion operation;

(C) the level meter (506) is connected and fixed at the upper end of the vertical connecting rod (508) through a positioning pin, so that the level meter (506) can freely rotate in the horizontal direction, rotating the adjusting taper rod (705) according to the display value of the level meter (506), so that one end of the adjusting taper rod (705) pushes the connecting push plate (704) to move through the mounting fixing frame (702), furthermore, the four adjusting taper rods (705) are arranged for moving the balancing weight (703) at the outer side of the connecting and fixing rod (701), which can adjust the balancing weight (703) in any direction, in the process of offsetting the balancing weight (703), the settlement detection mechanism (6) and the vertical adjusting mechanism (7) drive the vertical connecting rod (508) and the rotating block (507) to rotate at an angle on the inner side of the limiting frame (505), so that the leveling instrument (506) can be driven to perform leveling operation;

(D) when the level meter (506) displays that the structure is completely in a horizontal state at any angle, namely zero setting operation is completed, the vertical connecting rod (508) and the sedimentation detection mechanism (6) are both in a vertical state, and when the whole body is interfered by the outside to cause the deviation between the protection mechanism (4) and the vertical holding mechanism (5), the sedimentation detection mechanism (6) can still be always in the vertical state;

(E) the storage battery (602) is connected with the control processor (603) and the display panel (504) through wires, so that the settlement of a building can be monitored in real time through the control processor (603), and the storage battery (602) is supplemented with electric quantity through the solar panel (404), so that long-term monitoring work can be kept.

9. The monitoring method according to claim 8, wherein: the inner sides of the storage battery (602) and the control processor (603) are provided with heat insulation plates, and the outer side of the protective mounting shell (601) is provided with heat dissipation holes.

10. The monitoring method according to claim 8, wherein: the upper end face of the height adjusting plate (501) is provided with a guide hole, and the size of the guide hole is larger than the offset of the vertical connecting rod (508).

Images