CN115354703B

CN115354703B - Building engineering side slope displacement monitoring devices

Info

Publication number: CN115354703B
Application number: CN202211164870.3A
Authority: CN
Inventors: 廖振天; 周运福; 黄佳铸; 王有宁; 黄子湘; 梁桂丹; 吴名扬; 梁清潭; 左述明; 蒙霞; 陆启平; 张东江
Original assignee: Guangxi South China Geotechnical Engineering Group Co ltd
Current assignee: Guangxi South China Geotechnical Engineering Group Co ltd
Priority date: 2022-09-23
Filing date: 2022-09-23
Publication date: 2023-09-19
Anticipated expiration: 2042-09-23
Also published as: CN115354703A

Abstract

The utility model discloses a building engineering slope displacement monitoring device, which relates to the technical field of slope monitoring and comprises a monitoring fixed frame, wherein a camera body is arranged outside the monitoring fixed frame through a wire, a fixed frame plate is arranged at the bottom end of the camera body through a bolt, and a storage battery is arranged at the left side of the bottom end inside the monitoring fixed frame through a bolt. The utility model starts the on-site warning mechanism through the on-site positioning mechanism and gives out loud sounds, so that constructors working nearby can be reminded of the displacement of the side slope at the position, the constructors are prevented from being timely found out when the side slope is displaced, the constructors are prevented from being involved and injured, the protectiveness to the constructors nearby is improved, the function of positioning and warning can be achieved through the loud sounds, the constructors nearby can be reminded of the displacement of the side slope to tell the staff to process, and the constructors can also guide when arriving at the site, so that the rapidness of the process is improved.

Description

Building engineering side slope displacement monitoring devices

Technical Field

The utility model relates to the technical field of slope monitoring, in particular to a slope displacement monitoring device for construction engineering.

Background

In a building site or the periphery thereof, due to an artificial side slope formed by excavation or filling construction of buildings and municipal works and a natural side slope which has an influence on safety or stability of the buildings, the side slope is often faced with side slope problems in construction of house construction engineering, road engineering, mining engineering, hydraulic engineering and the like, deformation of the side slope can occur under the conditions of self-weight acting force, external load, rainfall and the like, the existing side slope is monitored by adopting a remote camera in the monitoring process, but in the working process of the monitoring by the camera, if the side slope is displaced and then found by workers, the delay can not find problems at the first time, the side slope is in an inclined structure, the whole side slope can not be monitored in real time, the severity of side slope displacement can be caused if the upper end or the lower end is displaced, if the side slope displacement is caused, the side slope displacement is relatively complex in the processing, the position of the displacement can not be found at the first time if the on site is processed, the error time can be found, the displacement range can be caused, and the delay time of the construction can be increased, and the delay time of the post processing can be prolonged.

Disclosure of Invention

The utility model aims to provide a slope displacement monitoring device for construction engineering, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the side slope displacement monitoring device for the building engineering comprises a monitoring fixed frame, wherein a camera body is arranged outside the monitoring fixed frame through a wire, a fixed frame plate is arranged at the bottom end of the camera body through a bolt, and a storage battery is arranged at the left side of the bottom end inside the monitoring fixed frame through a bolt;

the displacement monitoring trigger mechanism is movably arranged at the lower end of the right side of the monitoring fixed frame, the displacement monitoring trigger mechanism comprises a movable contact plate, a silica gel folding sleeve, a triggering fixed frame, a movable trigger rod, a mounting spring, a movable touch plate, a starting guide block, a signal transmitter and a communicating guide block, the movable contact plate is movably arranged at the lower end of the right side of the outer part of the monitoring fixed frame, the silica gel folding sleeve is arranged around the right side of the outer part of the monitoring fixed frame and at the lower end of the right side of the inner part of the movable contact plate through bolts, the triggering fixed frame is arranged at the lower end of the right side of the inner part of the monitoring fixed frame through bolts, the front side and the rear side of the lower end of the right side of the triggering fixed frame are movably provided with the movable trigger rod, the right side of the movable trigger rod is connected with one side of the movable contact plate through bolts, the left side end of the movable trigger rod is positioned at the inner part of the triggering fixed frame through bolts, the movable contact plate is arranged at the movable contact plate, the upper end of the right side of the movable contact plate and the lower end of the inner part of the monitoring fixed frame through bolts, the transmission spring is arranged around the lower end of the right side of the inner part of the monitoring fixed frame and the right side of the inner part of the silica gel folding sleeve through bolts, the signal transmitter is electrically connected with the signal transmitter and the two sides of the electric guide block through bolts, and the signal transmitter is electrically connected with the two side of the electric guide blocks through the electric conductors, and the electric connector is electrically connected with the electric connector at the two sides of the inner side of the electric connector through the side of the electric connector, and the electric connector through the electric connector, and the electric connector is electrically connected with the front side of the electric connector and the electric connector through the electric connector and the electric connector respectively;

the displacement reinforcing mechanism is movably mounted inside the monitoring fixed frame and comprises an electric push rod, a movable fixed plate, a stable sliding rod, a sealing folding sleeve and a fixed inserting rod, the electric push rod is mounted at the upper end inside the monitoring fixed frame through bolts, the electric push rod is electrically connected with a storage battery through wires, the movable fixed plate is mounted at the bottom end of the electric push rod through bolts, the stable sliding holes are formed in four corners of the movable fixed plate, the stable sliding rod is movably mounted inside the stable sliding holes, the bottom end of the stable sliding rod is connected with the bottom inside the monitoring fixed frame through bolts, the fixed inserting rod is mounted at the bottom end of the middle of the bottom end of the movable fixed plate, a movable through hole is formed in the relative position of the bottom end of the monitoring fixed frame and the fixed inserting rod, the sealing folding sleeve is mounted at the periphery of the bottom inside the bottom of the monitoring fixed frame, and the fixed inserting rod is located inside the sealing folding sleeve;

the on-site positioning mechanism is arranged on the left side of the upper end inside the monitoring fixed frame, the monitoring fixed frame comprises a mounting frame head, an on-site warning mechanism, a movable triggering mechanism, a movable shielding mechanism, a positioning balloon, a pushing ring, a pushing spring and a connecting pull rope, the mounting frame head is arranged on the upper end of the left side inside the monitoring fixed frame through bolts, the positioning balloon is arranged on the left side inside the mounting frame head, a fiber layer is fixedly arranged around the positioning balloon, the connecting pull rope is arranged on the right side of the positioning balloon and the right side inside the mounting frame head, the pushing ring is movably arranged in the middle of the inner cavity of the mounting frame head, the pushing spring is arranged around the right side of the pushing ring and the right side inside the mounting frame head, and the pushing ring is of a circular ring structure;

the movable trigger mechanism comprises a limit notch, a movable top block, a movable barrel, a connecting elastic rope and a reset spring, wherein the movable barrel is arranged on the right side of the middle of the bottom end of the installation frame head through a bolt, the limit notch is formed in the middle of the bottom end of the pushing ring, a connecting port is formed in the bottom end of the installation frame head right below the limit notch, the movable top block is movably arranged in the limit notch and the connecting port, the connecting elastic rope is arranged in the middle of the bottom end of the movable top block, the connecting elastic rope penetrates through the movable barrel at one end far away from the movable top block and is connected with the middle of the left side of the movable fixed plate, and the reset spring is arranged at the bottom end of the movable top block and the bottom end inside the movable barrel;

the movable shielding mechanism comprises an electromagnetic block, a movable through groove, a movable baffle and a collecting notch, wherein the movable through groove is formed in the upper end of the left side of the monitoring fixed frame and positioned at the relative position of the mounting frame head, the collecting notch is formed in the bottom end of the inside of the movable through groove, the movable baffle is movably mounted in the inside of the movable through groove, the bottom end of the movable baffle is positioned at the upper end of the inside of the collecting notch, the electromagnetic block is mounted at the upper end of the inside of the movable through groove and positioned at the relative position of the movable baffle, the two sides of the communication guide blocks are respectively electrically connected with the storage battery and the electromagnetic block through wires, and the electromagnetic block is electrically connected with the storage battery through wires;

the on-site warning mechanism comprises a moving cylinder, a moving top block, a warning air bag, a conveying through hole and a warning whistle head, wherein the moving cylinder is arranged at the left side of the bottom end of the mounting frame head through bolts, the moving top block is movably arranged at the right side of the inside of the moving cylinder, the upper end of the moving top block is connected with the middle part of the lower end of the left side of the pushing ring through bolts, the moving through grooves are formed in the left side of the bottom end of the mounting frame head and the upper end of the inside of the moving cylinder, the warning air bag is arranged at the left side of the moving top block and the left side of the inside of the moving cylinder, the warning whistle head is arranged at the left lower end of the left side of the monitoring frame, the conveying through hole is formed in the middle of the inside of the monitoring frame, the bottom end of the conveying through hole is connected with the warning whistle head, and the right side of the upper end of the conveying through hole is connected with the left side of the warning air bag.

Preferably, the inside upper end right side movable mounting of fixed frame of monitoring has unexpected trigger mechanism, unexpected trigger mechanism includes touch switch, trigger frame, activity kicking ball and connecting spring, trigger frame passes through the bolt mounting and is monitored the inside upper end right side of fixed frame, trigger frame inner chamber middle part movable mounting has the activity kicking ball, install connecting spring through the bolt between activity kicking ball upper end and lower extreme and the inside of trigger frame, trigger frame inner chamber mid-mounting all around has touch switch, touch switch passes through wire and battery electric connection.

Preferably, the anti unexpected strengthening mechanism of battery upper end mid-mounting, anti unexpected strengthening mechanism includes mount, small-size electric telescopic handle, carriage board, consolidates a section of thick bamboo, removes the slider, removes the spout and consolidates the top ring, battery upper end mid-mounting has the connector lug, install the reinforcing ring board all around the connector lug bottom, the inside left side middle part of monitoring fixed frame has the mount through the bolt mounting, the mount is keeping away from the one side of monitoring fixed frame and is passing through the bolt mounting small-size electric telescopic handle, small-size electric telescopic handle pass through wire respectively with battery and touch switch electric connection, battery upper end just is located the connecting wire head externally mounted and has a reinforcement section of thick bamboo, the inside movable mounting of reinforcement section of thick bamboo has a reinforcement top ring, small-size electric telescopic handle bottom and reinforcement top ring upper end are passed through the bolt mounting and are removed the carriage board, the outside is equipped with the removal slider all around through the bolt mounting, the inside lower extreme all around of reinforcement section of thick bamboo has been seted up and has removed the spout, the slider is keeping away from the one end of consolidating the top ring and is moving the inside swing joint.

Preferably, the movable sliding chute and the movable sliding block are in a convex structure in overlook, the periphery of the outer part of the movable sliding block and the periphery of the inner part of the movable sliding chute are polished, the upper end of the fixed frame plate is provided with a protective shielding through bolts, and the front side of the monitoring fixed frame is provided with a frame plate through bolts.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, when a loose position occurs on the side slope, a displacement monitoring trigger mechanism is triggered, the situation that the side slope is displaced is told to a worker for timely treatment at the first time, meanwhile, the position of the displaced side slope is detected by a camera body remotely, further determination is made, the situation of false triggering is prevented, the reliability in the monitoring process can be improved through double monitoring, the situation that any position on the side slope is accidentally displaced in the monitoring process can be alerted at the first time, the delay in the treatment process when displacement occurs is reduced, the problem that the problem cannot be found at the first time when accident occurs is prevented, the optimal treatment time is missed, the problem that the displacement is involved is caused to be larger is solved, the displacement reinforcing mechanism is started to reinforce the monitoring fixed frame, the firmness of the monitoring fixed frame in intercepting the side slope displacement is increased, the service life of the monitoring fixed frame is prolonged, the situation that the monitoring fixed frame is offset and damaged is prevented from being caused by overlarge impact force received by the monitoring fixed frame in the process of intercepting, and the monitoring fixed frame in the later period can not be continuously replaced, and the monitoring cost is increased;

2. according to the utility model, the movable shielding mechanism is started through the displacement monitoring triggering mechanism, the movable triggering mechanism is triggered through the displacement reinforcing mechanism, the on-site positioning mechanism is started through the movable triggering mechanism, so that a striking effect can be increased, when a worker arrives at a site for processing, the position where the displacement occurs can be found at first time, and the worker can process in time, the rapidness in processing is improved, when the side slope is displaced, the worker arrives at a place where the displacement occurs in the process of the on-site, the place where the displacement occurs cannot be found at first time, the time for processing the displacement is delayed, the scope and the severity of the displacement are enlarged, and the on-site positioning mechanism is started, and a loud sound is made, so that the side slope at the position can be reminded of the worker working nearby, the side slope is displaced, the situation that the worker is involved in the nearby construction is injured when the side slope is displaced is required to be prevented, the protectiveness to the nearby worker is increased, the worker can be reminded of the fact that the worker is offset to process the side slope by the loud sound, and the worker can be reminded of the fact that the worker is displaced in the process the place when the side slope is fast;

3. according to the utility model, the accidental triggering mechanism is triggered when the fixed frame is monitored to work, the accidental reinforcing mechanism is started through the accidental triggering mechanism, the firmness of the connecting lug when the connecting lug is impacted in the using process is increased through extrusion fixing of the reinforcing ring plate, the accidental resistance of the storage battery and the connecting lug is increased, the reliability and the guarantee performance of the circuit in the fixed frame are increased when the circuit in the fixed frame is monitored to be used, the situation that the connecting lug and the storage battery are loosened and fall off due to overlarge impact force or the overlong impact is caused when the circuit in the fixed frame is used for a long time is prevented, the circuit in the fixed frame cannot work normally when the circuit in the fixed frame is monitored, the accident resistance is reduced, the accident cannot be normally worked when the accident is encountered, if the circuit is not processed in time in the fault period, the displacement cannot be processed in time, and the severity of the accident caused by displacement is increased.

Drawings

FIG. 1 is a schematic view of a structure for providing an overall perspective view according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram illustrating a cross-sectional view of an inner portion of a monitor fixing frame according to an embodiment of the present utility model;

FIG. 3 is a block diagram of a displacement monitoring trigger mechanism provided by an embodiment of the present utility model;

FIG. 4 is a block diagram of a field positioning mechanism provided by an embodiment of the present utility model;

FIG. 5 is a block diagram of an anti-accident reinforcement mechanism provided by an embodiment of the present utility model;

fig. 6 is an enlarged view of the structure of fig. 4 a according to an embodiment of the present utility model.

In the figure: 1. monitoring a fixed frame; 2. a displacement monitoring trigger mechanism; 201. a movable contact plate; 202. a silica gel folding sleeve; 203. triggering a fixed frame; 204. a movable trigger lever; 205. installing a spring; 206. a movable touch plate; 207. starting a guide block; 208. a signal transmitter; 209. a communicating guide block; 3. a displacement reinforcing mechanism; 301. an electric push rod; 302. a movable fixing plate; 303. a stabilizing slide bar; 304. sealing the folding sleeve; 305. fixing the inserted link; 4. an accidental triggering mechanism; 401. a touch switch; 402. a trigger frame; 403. a movable top ball; 404. a connecting spring; 5. a field positioning mechanism; 501. installing a frame head; 502. positioning a balloon; 503. pushing the ring; 504. a pushing spring; 505. connecting a pull rope; 6. a site warning mechanism; 601. a moving cylinder; 602. moving the top block; 603. a warning air bag; 604. a conveying through hole; 605. warning whistle head; 7. a movable shielding mechanism; 701. an electromagnetic block; 702. a movable through groove; 703. a movable baffle; 704. a collection slot; 8. an anti-accident reinforcement mechanism; 801. a fixing frame; 802. a small electric telescopic rod; 803. a movable frame plate; 804. a reinforcement cylinder; 805. moving the slide block; 806. moving the chute; 807. reinforcing a top ring; 9. a movement triggering mechanism; 901. a limit notch; 902. a movable top block; 903. a movable cylinder; 904. connecting a spring rope; 905. a return spring; 10. fixing the frame plate; 11. a camera body; 12. a protective shield; 13. a storage battery; 14. connecting the connector lug; 15. and reinforcing the annular plate.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a building engineering side slope displacement monitoring devices, includes monitor fixed frame 1, monitors the outside of fixed frame 1 and installs camera body 11 through the wire, and camera body 11 bottom is through the bolt-mounted fixed frame board 10, monitors the inside bottom left side of fixed frame 1 and installs battery 13 through the bolt;

the displacement monitoring trigger mechanism 2, the displacement monitoring trigger mechanism 2 is movably arranged at the lower right side of the monitoring fixed frame 1, the displacement monitoring trigger mechanism 2 comprises a movable contact plate 201, a silica gel folding sleeve 202, a triggering fixed frame 203, a movable trigger rod 204, a mounting spring 205, a movable contact plate 206, a starting guide block 207, a signal transmitter 208 and a communicating guide block 209, the movable contact plate 201 is movably arranged at the lower right side outside the monitoring fixed frame 1, the silica gel folding sleeve 202 is arranged at the periphery of the right side outside the monitoring fixed frame 1 and at one side of the movable contact plate 201 through bolts, the triggering fixed frame 203 is arranged at the lower right side inside the monitoring fixed frame 1 through bolts, the movable trigger rod 204 is movably arranged at the front side and the rear side of the lower right side of the triggering fixed frame 203, the right side end of the movable trigger rod 204 is connected with one side of the movable contact plate 201 through bolts, a movable through hole is formed in the right side of the monitoring fixed frame 1 and positioned at the relative position of the movable trigger rod 204, a movable touch plate 206 is arranged at the left side end of the movable trigger rod 204 in the triggering fixed frame 203 through bolts, a plurality of mounting springs 205 are arranged between the upper end and the lower end of the right side of the movable touch plate 206 and the lower end of the right side in the monitoring fixed frame 1, a signal transmitter 208 is arranged at the left side of the upper end of the triggering fixed frame 203 through bolts, the signal transmitter 208 is in wireless connection with an external remote control center, the signal transmitter 208 is electrically connected with a storage battery 13 through a wire, a starting guide block 207 is arranged at the middle part of the left side of the movable touch plate 206 and the left side in the triggering fixed frame 203, the starting guide blocks 207 at the two sides are respectively electrically connected with the signal transmitter 208, an electric push rod guide block 301 and the storage battery 13 through wires, a communication guide block 209 is arranged at the middle part of the right side upper end of the movable touch plate 206 and the upper end in the triggering fixed frame 203 through bolts, the two side communicating guide blocks 209 are connected;

the displacement reinforcing mechanism 3, the inside movable mounting of displacement reinforcing mechanism 3 is inside monitoring fixed frame 1, displacement reinforcing mechanism 3 includes electric putter 301, movable fixed plate 302, stable slide bar 303, sealed folding cover 304 and fixed inserted bar 305, electric putter 301 passes through the bolt to be installed in the inside upper end of monitoring fixed frame 1, electric putter 301 passes through wire and battery 13 electric connection, movable fixed plate 302 is installed through the bolt to electric putter 301 bottom, stable slide holes have all been seted up in movable fixed plate 302 four corners department, and stable slide hole is inside all movable mounting has stable slide bar 303, stable slide bar 303 bottom passes through the bolt and is connected with the inside bottom of monitoring fixed frame 1, fixed inserted bar 305 is installed to movable fixed plate 302 bottom middle part bottom, the movable through-hole has been seted up to the relative position that is located fixed inserted bar 305, sealed folding cover 304 is installed with the inside bottom of monitoring fixed frame 1 around the middle part bottom of movable fixed plate 302, fixed inserted bar 305 is located inside sealed folding cover 304;

the on-site positioning mechanism 5 is arranged on the left side of the upper end inside the monitoring fixed frame 1, the monitoring fixed frame 1 comprises a mounting frame head 501, an on-site warning mechanism 6, a movable triggering mechanism 9, a movable shielding mechanism 7, a positioning balloon 502, a pushing ring 503, a pushing spring 504 and a connecting pull rope 505, the mounting frame head 501 is arranged on the upper end of the left side inside the monitoring fixed frame 1 through bolts, the positioning balloon 502 is arranged on the left side inside the mounting frame head 501, a fiber layer is fixedly arranged around the positioning balloon 502, the connecting pull rope 505 is arranged on the right side of the positioning balloon 502 and the right side inside the mounting frame head 501, the pushing ring 503 is movably arranged in the middle of the inner cavity of the mounting frame head 501, the periphery of the right side of the pushing ring 503 and the right side inside the mounting frame head 501 are provided with the pushing spring 504, and the pushing ring 503 is in a circular ring structure;

the movable triggering mechanism 9 comprises a limit notch 901, a movable top block 902, a movable barrel 903, a connecting elastic rope 904 and a reset spring 905, wherein the movable barrel 903 is arranged on the right side of the middle of the bottom end of the installation frame head 501 through bolts, the limit notch 901 is formed in the middle of the bottom end of the pushing ring 503, a connecting port is formed right below the limit notch 901 at the bottom end of the installation frame head 501, the movable top block 902 is movably arranged in the limit notch 901 and the connecting port, the connecting elastic rope 904 is arranged in the middle of the bottom end of the movable top block 902, one end of the connecting elastic rope 904 far away from the movable top block 902 passes through the movable barrel 903 and is connected with the middle of the left side of the movable fixed plate 302, and the reset spring 905 is arranged at the bottom end of the movable top block 902 and the bottom end inside the movable barrel 903;

the movable shielding mechanism 7 comprises an electromagnetic block 701, a movable through groove 702, a movable baffle 703 and a collecting notch 704, wherein the movable through groove 702 is formed in the upper end of the left side of the fixed frame 1 and positioned at the relative position of the mounting frame head 501, the collecting notch 704 is formed in the bottom end of the inside of the movable through groove 702, the movable baffle 703 is movably mounted in the movable through groove 702, the bottom end of the movable baffle 703 is positioned at the upper end of the inside of the collecting notch 704, the electromagnetic block 701 is mounted in the upper end of the inside of the movable through groove 702 and positioned at the relative position of the movable baffle 703, the two-side communicating guide blocks 209 are respectively electrically connected with the storage battery 13 and the electromagnetic block 701 through wires, and the electromagnetic block 701 is electrically connected with the storage battery 13 through wires;

the on-site warning mechanism 6 comprises a moving cylinder 601, a moving top block 602, a warning air bag 603, a conveying through hole 604 and a warning whistle head 605, the moving cylinder 601 is mounted on the left side of the bottom end of the mounting frame head 501 through bolts, the moving top block 602 is movably mounted on the right side inside the moving cylinder 601, the upper end of the moving top block 602 is connected with the middle of the lower end of the left side of the pushing ring 503 through bolts, the moving through grooves are formed in the left side of the bottom end of the mounting frame head 501 and the upper end inside the moving cylinder 601, the warning air bag 603 is mounted on the left side of the moving top block 602 and the left side inside the moving cylinder 601, the warning whistle head 605 is mounted on the left side lower end of the monitoring fixed frame 1 through bolts, the conveying through hole 604 is formed in the middle of the left side inside of the monitoring fixed frame 1, the bottom end of the conveying through hole 604 is connected with the warning whistle head 605, and the right side of the upper end of the conveying through hole 604 is connected with the left side of the warning air bag 603.

The right side of the inner upper end of the monitoring fixed frame 1 is movably provided with an accidental triggering mechanism 4, the accidental triggering mechanism 4 comprises a touch switch 401, a triggering frame 402, a movable top ball 403 and a connecting spring 404, the triggering frame 402 is arranged on the right side of the inner upper end of the monitoring fixed frame 1 through bolts, the middle part of the inner cavity of the triggering frame 402 is movably provided with the movable top ball 403, the connecting spring 404 is arranged between the upper end and the lower end of the movable top ball 403 and the inner part of the triggering frame 402 through bolts, the middle part around the inner cavity of the triggering frame 402 is provided with a touch switch 401, the touch switch 401 is electrically connected with a storage battery 13 through a lead, thus, in the process of monitoring the work of the fixed frame 1, the triggering frame 402 can vibrate when being impacted by the outside, and the movable top ball 403 is driven to vibrate in the triggering frame 402 through the connecting spring 404, and the movable top ball 403 is contacted with the touch switch 401 when the radian of vibration is overlarge;

the anti-accident reinforcing mechanism 8 is arranged in the middle of the upper end of the storage battery 13, the anti-accident reinforcing mechanism 8 comprises a fixed frame 801, a small electric telescopic rod 802, a movable frame plate 803, a reinforcing cylinder 804, a movable sliding block 805, a movable sliding groove 806 and a reinforcing top ring 807, a connecting lug 14 is arranged in the middle of the upper end of the storage battery 13, a reinforcing ring plate 15 is arranged around the bottom end of the connecting lug 14, the fixed frame 801 is arranged in the middle of the left side inside the monitoring fixed frame 1 through bolts, the small electric telescopic rod 802 is arranged on one side far away from the monitoring fixed frame 1 through bolts in the fixed frame 801, the small electric telescopic rod 802 is respectively electrically connected with the storage battery 13 and the touch switch 401 through wires, the reinforcing cylinder 804 is arranged at the upper end of the storage battery 13 and outside the connecting lug 14, the reinforcing top ring 807 is movably arranged inside the reinforcing cylinder 804, the movable frame plate 803 is arranged at the bottom end of the small electric telescopic rod 802 and the upper end of the reinforcing top ring 807 through bolts, the movable sliding blocks 805 are arranged around the outside of the reinforcing top ring 807 through bolts, the movable sliding grooves 806 are formed in the lower end of the periphery inside the reinforcing cylinder 804, the movable sliding blocks 805 are movably connected with the inside of the movable sliding grooves 806 at one end far away from the reinforcing top ring 807, thus the small electric telescopic rods 802 are started through the touch switches 401, the movable frame plates 803 are driven to move downwards through the small electric telescopic rods 802, the reinforcing top ring 807 is driven to move downwards, when the reinforcing top ring 807 moves downwards, the movable sliding blocks 805 are driven to slide in the inside of the movable sliding grooves 806, the stability of the reinforcing top ring 807 in the moving process is improved through the cooperation of the movable sliding blocks 805 and the movable sliding grooves 806, the condition that the reinforcing top ring 807 is deviated in the moving process is prevented, the upper ends of the reinforcing top ring 807 and the reinforcing ring plates 15 are contacted and extruded, and the reinforcing top ring plates 15 are fixed through extrusion, increasing the firmness of the connecting lug 14 when encountering impact in the using process, the capacity of resisting accidents when the storage battery 13 and the connecting lug 14 are used is increased, the reliability and the guarantee performance of the internal circuit of the monitoring fixed frame 1 are increased, the situation that the connecting lug 14 and the storage battery 13 are loosened and fall off due to overlarge impact force or overlarge impact force caused by long-time work in the using process is prevented, the internal circuit of the monitoring fixed frame 1 cannot work normally, the capacity of resisting accidents is reduced, the abnormal work can not be realized once the unexpected situation is encountered, if the displacement is not processed in time in the fault period, the serious of accidents caused by displacement is increased;

the movable sliding groove 806 and the movable sliding block 805 are in a convex structure in a overlook mode, the periphery of the outer portion of the movable sliding block 805 and the periphery of the inner portion of the movable sliding groove 806 are polished, the upper end of the fixed frame plate 10 is provided with the protective shielding 12 through bolts, the front side of the fixed frame 1 is monitored, the frame plate is arranged on the front side of the fixed frame 1 through bolts, and therefore the camera body 11 is protected through the protective shielding 12, and the protection capability of the camera body 11 is improved.

Working principle: in the utility model, when monitoring a slope, a monitoring fixed frame 1 is directly and fixedly arranged at the lower end of the slope, a camera body 11 is arranged at the upper end of the slope through a fixed frame plate 10, a movable contact plate 201 faces the upper end of the slope, if the slope is loose, loose and rolling solids are intercepted through the movable contact plate 201, when the solids are intercepted, the movable contact plate 201 is pressed and drives a movable trigger rod 204 to move, the inside of the monitoring fixed frame 1 is protected through a silica gel folding sleeve 202, liquid water used in rainy days is prevented from flowing into the monitoring fixed frame 1 from a gap between the movable trigger rod 204 and the outside of the monitoring fixed frame 1, the condition of leakage short circuit in the monitoring fixed frame 1 is prevented, and when the movable trigger rod 204 moves to one side of the monitoring fixed frame 1, the movable touch plate 206 is driven to move to stretch the mounting spring 205, the movable touch plate 206 and the movable touch plate 201 can be reset through the stretched mounting spring 205 in the later period, the monitoring work can be carried out again, the two side starting guide blocks 207 are contacted and the two side communicating guide blocks 209 are separated through the movement of the movable touch plate 206, the starting signal transmitter 208 transmits a signal to the external remote control center, the situation of displacement of the slope is told to a worker in the first time, meanwhile, the position of displacement is detected remotely through the camera body 11, further determination is carried out, the false triggering is prevented, the reliability in the monitoring process can be improved through double monitoring, and the alarm can be carried out in the first time regardless of the situation of accidental displacement of any position on the slope in the monitoring process, the delay in the treatment process when displacement occurs is reduced, so that the problem cannot be found in the first time when accidents occur is prevented, the optimal treatment time is missed, and the larger problem that displacement is involved is caused;

when the starting guide blocks 207 on two sides are contacted, the electric push rod 301 is started to drive the movable fixed plate 302 to move downwards, the movable fixed plate 302 drives the fixed inserting rod 305 to move downwards, the movable fixed plate 302 drives the stable sliding hole to slide outside the stable sliding rod 303 when moving, the stability of the movable fixed plate 302 and the fixed inserting rod 305 during moving is increased through the matched use of the stable sliding rod 303 and the stable sliding hole, the fixed inserting rod 305 is prevented from shifting during moving, the sealing effect is achieved through the sealing folding sleeve 304, the outside liquid water moving through hole is prevented from running into the monitoring fixed frame 1, when the bottom end of the fixed inserting rod 305 penetrates through the moving through hole to be inserted into the ground, the firmness of the monitoring fixed frame 1 during monitoring on slope displacement interception is increased, the service life of the monitoring fixed frame 1 is prolonged through the reinforcement of the monitoring fixed frame 1, the impact force received by the monitoring fixed frame 1 is prevented from being too large during interception, the condition that the monitoring fixed frame 1 shifts and is damaged is prevented, the monitoring work cannot be continued in the later period, and the cost of the monitoring is increased by replacement;

after the connecting guide blocks 209 on two sides are separated, the circuit of the electromagnetic block 701 is directly disconnected, so that the electromagnetic block 701 loses magnetism, the movable baffle 703 loses constraint force, the movable baffle 703 moves into the collection notch 704 through the weight of the movable baffle 703, no shielding exists in the movable through groove 702, when the movable fixing plate 302 moves downwards, the connecting elastic rope 904 is driven to move downwards, the movable jacking block 902 is driven to move downwards through the connecting elastic rope 904 and extrude the reset spring 905, the movable jacking block 902 can be driven to reset through the reset spring 905 after extrusion in the later stage, when the movable jacking block 902 moves downwards, the upper end of the movable jacking block 902 is separated from the inside of the limiting notch 901, the constraint force of the push ring 503 is lost, and the push ring 503 is pushed to move to the left side in the mounting frame head 501 through the push spring 504 in a compressed state, the positioning balloon 502 is directly moved to the outside of the monitoring fixed frame 1 through the movable through groove 702 by the movement of the pushing ring 503, the striking effect can be increased through the positioning balloon 502, when a worker arrives at the site for processing, the position where the displacement occurs can be found at the first time, the displacement is timely processed, the rapidness in processing is improved, when the side slope is displaced, the situation where the displacement occurs can not be found at the first time when the worker arrives at the site for processing due to the complex site environment of construction is prevented, the time for processing the displacement is delayed, the displacement range and the severity are enlarged, and when the pushing ring 503 moves to the left side inside the mounting frame head 501, the moving top block 602 is pushed to move to the left side inside the moving cylinder 601, the warning air bag 603 is extruded, the air is extruded into the inside of the warning whistle head 605 through the conveying through hole 604, the side slope of the nearby constructor is reminded to displace, the side slope at the nearby constructor is required to be timely far away, when the side slope is prevented from displacing, the nearby constructor is prevented from being timely found, the constructor is prevented from being involved with injury, the protectiveness of the nearby constructor is improved, the surrounding constructor can be reminded to deflect through the loud sound to play a role of positioning and warning, the nearby constructor is reminded to tell the worker to process the side slope, the worker can also guide the side slope when arriving at the scene, and the rapidness of the process is improved;

meanwhile, in the process of monitoring the work of the fixed frame 1, the trigger frame 402 is vibrated when being impacted by the outside, the movable top ball 403 is driven to vibrate in the trigger frame 402 through the connecting spring 404, when the radian of vibration is overlarge, the movable top ball is contacted with the touch switch 401, the small-sized electric telescopic rod 802 is started through the touch switch 401, the movable frame plate 803 is driven to move downwards through the small-sized electric telescopic rod 802, the reinforced top ring 807 is driven to move downwards, when the reinforced top ring 807 moves downwards, the movable sliding blocks 805 are driven to slide in the movable sliding grooves 806, the stability of the reinforced top ring 807 in the moving process is improved through the cooperation of the movable sliding blocks 805 and the movable sliding grooves 806, the condition that the reinforced top ring 807 deflects in the moving process is prevented, the reinforced top ring 807 contacts with the upper end of the reinforced ring plate 15 to be extruded, through the extrusion fixed to the reinforcing ring plate 15, increase the fastness of connecting lug 14 when meetting the striking in the use, then can increase the unexpected ability of resistance when battery 13 and connecting lug 14 use, and reliability and guarantee nature when increasing the inside circuit of monitoring fixed frame 1, prevent in the in-process of using, the impact that monitoring fixed frame 1 received is too big, perhaps the long-time work receives the striking too much, make the condition that takes place not hard up to drop between connecting lug 14 and the battery 13, and make the inside circuit of monitoring fixed frame 1 can not normally work, the ability of resisting unexpected has been reduced, whenever meet unexpected condition and just unable normal work, if do not in time handle during the trouble, take place the displacement and get timely handling, the severity of taking place the displacement and causing the accident has been increased.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a building engineering side slope displacement monitoring devices, includes fixed frame (1) of monitoring, camera body (11) are installed through the wire to fixed frame (1) outside of monitoring, fixed frame board (10) are installed through the bolt in camera body (11) bottom, battery (13) are installed through the bolt in the inside bottom left side of fixed frame (1) of monitoring, its characterized in that:

displacement monitoring trigger mechanism (2), displacement monitoring trigger mechanism (2) movable mounting is in monitoring fixed frame (1) right side lower extreme, displacement monitoring trigger mechanism (2) are including movable contact plate (201) and silica gel folding sleeve (202), trigger fixed frame (203), movable trigger lever (204), installation spring (205), movable contact plate (206), start guide block (207), signal transmitter (208) and intercommunication guide block (209), movable contact plate (201) are installed to monitoring fixed frame (1) outside right side lower extreme movable mounting, around the outside right side of monitoring fixed frame (1) and movable contact plate (201) one side all around through bolt installation silica gel folding sleeve (202), trigger fixed frame (203) are installed inside right side lower extreme at monitoring fixed frame (1) through the bolt, trigger fixed frame (203) right side lower extreme front side and rear side all movable mounting have movable trigger lever (204), movable trigger lever (204) right side end is connected with movable contact plate (201) one side through the bolt, monitoring fixed frame (1) right side and movable trigger lever (204) are located movable contact plate (204) relative position through bolt (204) setting up the inside trigger lever (204), a plurality of mounting springs (205) are mounted between the upper end and the lower end of the right side of the movable touch plate (206) and the lower end of the right side of the inside of the monitoring fixed frame (1), a signal transmitter (208) is mounted on the left side of the upper end of the triggering fixed frame (203) through bolts, the signal transmitter (208) is connected with an external remote control center through wireless, the signal transmitter (208) is electrically connected with a storage battery (13) through wires, a starting guide block (207) is mounted on the middle part of the left side of the movable touch plate (206) and the left side of the inside of the triggering fixed frame (203), the starting guide blocks (207) on two sides are electrically connected with the signal transmitter (208), an electric push rod (301) and the storage battery (13) through wires respectively, a communication guide block (209) is mounted on the middle part of the right side of the movable touch plate (206) and the upper end of the inside of the triggering fixed frame (203) through bolts, and the two sides of the communication guide block (209) are connected with each other;

the displacement reinforcing mechanism (3), inside movable mounting of displacement reinforcing mechanism (3) is inside monitoring fixed frame (1), displacement reinforcing mechanism (3) include electric putter (301), movable fixed plate (302), stable slide bar (303), sealed folding sleeve (304) and fixed inserted bar (305), electric putter (301) are installed at the inside upper end of monitoring fixed frame (1) through the bolt, electric putter (301) are through wire and battery (13) electric connection, movable fixed plate (302) are installed through the bolt to electric putter (301) bottom, stable slide hole has all been seted up in movable fixed plate (302) four corners department, and inside movable mounting of stable slide bar (303), stable slide bar (303) bottom is connected with the inside bottom of monitoring fixed frame (1) through the bolt, fixed inserted bar (305) are installed to movable fixed plate (302) bottom middle part bottom, the relative position that is located fixed rod (305) bottom and is equipped with the removal through opening, movable fixed plate (302) bottom and inside folding sleeve (305) are located inside sealing sleeve (305) are all around fixed in the inside sealing sleeve (1);

the on-site positioning mechanism (5), on-site positioning mechanism (5) is installed on the left side of the inner upper end of the monitoring fixed frame (1), the monitoring fixed frame (1) comprises a mounting frame head (501), an on-site warning mechanism (6), a movable triggering mechanism (9), a movable shielding mechanism (7), a positioning balloon (502), a pushing ring (503), a pushing spring (504) and a connecting pull rope (505), the mounting frame head (501) is installed on the left upper end of the inner side of the monitoring fixed frame (1) through bolts, a positioning balloon (502) is placed on the left side of the inner side of the mounting frame head (501), a fiber layer is fixedly installed around the positioning balloon (502), a connecting pull rope (505) is installed on the right side of the positioning balloon (502) and the right side of the inner side of the mounting frame head (501), a pushing ring (503) is movably installed in the middle of an inner cavity of the mounting frame head (501), the right side of the pushing ring (503) and the right side of the mounting frame head pushing spring (504) are in a circular ring structure;

the movable trigger mechanism (9) comprises a limit notch (901), a movable top block (902), a movable barrel (903), a connecting elastic rope (904) and a reset spring (905), wherein the movable barrel (903) is arranged on the right side of the middle of the bottom end of the installation frame head (501) through a bolt, the limit notch (901) is arranged in the middle of the bottom end of the pushing ring (503), a connecting port is arranged right below the limit notch (901) at the bottom end of the installation frame head (501), the movable top block (902) is movably arranged in the limit notch (901) and the connecting port, the connecting elastic rope (904) is arranged in the middle of the bottom end of the movable top block (902), one end far away from the movable top block (902) penetrates through the movable barrel (903) and is connected with the middle of the left side of the movable fixed plate (302), and the reset spring (905) is arranged at the bottom end of the movable top block (902) and the bottom end in the movable barrel (903);

the movable shielding mechanism (7) comprises an electromagnetic block (701), a movable through groove (702), a movable baffle (703) and a collecting notch (704), wherein the movable through groove (702) is formed in the upper end of the left side of the monitoring fixed frame (1) and located at the relative position of the mounting frame head (501), the collecting notch (704) is formed in the bottom end of the inside of the movable through groove (702), the movable baffle (703) is movably mounted in the movable through groove (702), the bottom end of the movable baffle (703) is located at the upper end of the inside of the collecting notch (704), the electromagnetic block (701) is mounted at the upper end of the inside of the movable through groove (702) and located at the relative position of the movable baffle (703), the two sides of the communication guide block (209) are respectively electrically connected with the storage battery (13) and the electromagnetic block (701) through wires, and the electromagnetic block (701) is electrically connected with the storage battery (13) through wires;

the on-site warning mechanism (6) comprises a moving cylinder (601), a moving top block (602), a warning air bag (603), a conveying through hole (604) and a warning whistle head (605), the moving cylinder (601) is mounted on the left side of the bottom end of the mounting frame head (501) through bolts, the moving top block (602) is movably mounted on the right side of the inside of the moving cylinder (601), the upper end of the moving top block (602) is connected with the middle part of the left lower end of the pushing ring (503) through bolts, a moving through groove is formed in the left side of the bottom end of the mounting frame head (501) and the upper end of the inside of the moving cylinder (601), the warning air bag (603) is mounted on the left side of the moving top block (602) and the left side of the inside of the moving cylinder (601), the conveying through hole (604) is formed in the middle of the left side of the inside of the monitoring frame head (1), the bottom end of the conveying through hole (604) is connected with the warning head (605), and the right side of the conveying through hole (604) is connected with the left side of the warning air bag (603).

2. The construction slope displacement monitoring device according to claim 1, wherein: the intelligent monitoring device is characterized in that an accidental triggering mechanism (4) is movably mounted on the right side of the upper end inside the monitoring fixed frame (1), the accidental triggering mechanism (4) comprises a touch switch (401), a triggering frame (402), a movable top ball (403) and a connecting spring (404), the triggering frame (402) is mounted on the right side of the upper end inside the monitoring fixed frame (1) through bolts, the movable top ball (403) is movably mounted in the middle of the inner cavity of the triggering frame (402), the connecting spring (404) is mounted between the upper end and the lower end of the movable top ball (403) and the inside of the triggering frame (402) through bolts, the touch switch (401) is mounted in the middle of the periphery of the inner cavity of the triggering frame (402), and the touch switch (401) is electrically connected with a storage battery (13) through wires.

3. The construction slope displacement monitoring device according to claim 2, wherein: the anti-accident reinforcing mechanism (8) is arranged at the middle part of the upper end of the storage battery (13), the anti-accident reinforcing mechanism (8) comprises a fixed frame (801), a small electric telescopic rod (802), a moving frame plate (803), a reinforcing cylinder (804), a moving sliding block (805), a moving sliding groove (806) and a reinforcing top ring (807), a connecting lug (14) is arranged at the middle part of the upper end of the storage battery (13), a reinforcing annular plate (15) is arranged at the periphery of the bottom end of the connecting lug (14), the fixed frame (801) is arranged at the middle part of the left side inside the monitoring fixed frame (1) through bolts, the small electric telescopic rod (802) is arranged at one side far away from the monitoring fixed frame (1) through bolts, the small electric telescopic rod (802) is respectively electrically connected with the storage battery (13) and the touch switch (401) through wires, the reinforcing cylinder (804) is arranged at the upper end of the storage battery (13) and is arranged at the outer part of the connecting lug (14), the reinforcing top ring (807) is movably arranged in the reinforcing cylinder (804), the fixing top ring (807) is arranged at the inner part of the small electric telescopic rod (802), the bottom end of the small electric telescopic rod (802) and the upper end of the monitoring fixed top ring (1) is arranged at the outer part through the moving sliding block (807) through bolts (803), the lower end around the inside of the reinforcement cylinder (804) is provided with a movable chute (806), and one end of the movable sliding block (805) far away from the reinforcement top ring (807) is movably connected with the inside of the movable chute (806).

4. A construction slope displacement monitoring device according to claim 3, wherein: the movable sliding chute (806) and the movable sliding block (805) are in a convex structure in overlook mode, polishing treatment is conducted on the periphery of the outer portion of the movable sliding block (805) and the periphery of the inner portion of the movable sliding chute (806), a protective shielding plate (12) is mounted at the upper end of the fixed frame plate (10) through bolts, and a frame plate is mounted at the front side of the monitoring fixed frame (1) through bolts.