CN117255260B

CN117255260B - Intelligent monitoring system for construction site of building engineering

Info

Publication number: CN117255260B
Application number: CN202311541531.7A
Authority: CN
Inventors: 石达彪; 王红刚; 崔丽; 夏洪琴; 郝春松; 赵增; 杨博; 甘津兆; 康俊菲; 周丽; 崔海龙
Original assignee: Shenzhen Yuntu Huaxiang Technology Co ltd
Current assignee: Shenzhen Yuntu Huaxiang Technology Co ltd
Priority date: 2023-11-20
Filing date: 2023-11-20
Publication date: 2024-03-01
Anticipated expiration: 2043-11-20
Also published as: CN117255260A

Abstract

The invention relates to the technical field of building engineering monitoring systems and discloses a building engineering construction site intelligent monitoring system which comprises a bottom plate, a main rod, a first lifting rod, a first extending rod, a second lifting rod, a second extending rod, a third lifting rod, a third extending rod, a first side rod, a second side rod, a main guide rail, a first auxiliary guide rail, a second auxiliary guide rail, a first main monitor and a second main monitor, wherein the main rod is arranged at the position, close to the middle end, of the top of the bottom plate and connected through a bolt, the first lifting rod is arranged at the top of the main rod, and the first lifting rod is provided with the first extending rod.

Description

Intelligent monitoring system for construction site of building engineering

Technical Field

The invention relates to the technical field of building engineering monitoring systems, in particular to an intelligent monitoring system for a building engineering construction site.

Background

The building engineering is the project entity and the installation engineering of the current building construction engineering and the matched lines, pipelines and equipment, which are all technical works such as planning, investigation, design and construction, completion and the like, completed for newly-built, rebuilt or expanded building construction and auxiliary structure facilities, and also refers to the construction engineering of various houses and buildings, which is also called building workload, and the building engineering construction refers to the actual building construction process and preparation work according to the design drawing and related technical requirements after the building design is completed: before construction, a series of preparation works are needed, including project planning, design drawing review, construction scheme making, material and equipment purchasing and the like, and civil construction: the civil engineering is the foundation engineering of the building engineering, including foundation treatment, foundation construction, main body structure construction, etc. The construction process of civil engineering needs to carry out operations such as measurement, excavation, concrete pouring, scaffold erection and the like, and the construction process is installed: installation engineering refers to the installation of various devices and systems within a building, such as electrical systems, water supply and drainage systems, air conditioning systems, and the like. The installation engineering needs to carry out operations such as pipeline laying, equipment installation, line connection and the like according to design drawings, and indoor decoration: the interior decoration refers to decoration and fitment of the interior of a building, and comprises wall decoration, ground laying, ceiling installation, door and window installation and the like. The interior decoration needs to be constructed and installed by selecting decorative materials according to design requirements. Completion acceptance: after the construction of the building engineering is completed, completion acceptance is required. Completion acceptance includes checking and testing various engineering qualities of the building, ensuring compliance with design requirements and related standards, and simultaneously performing safety, fire protection and other checks.

When the construction engineering is constructed, the on-site monitoring system is mainly monitored by means of fixed installation of monitors, the monitoring strategy is extremely backward, and in the construction engineering, particularly a high-rise frame building is lacked, so that the monitoring system matched with the high-rise frame building correspondingly is developed, and the components of the monitoring system can be adjusted along with the change of the height of the high-rise frame building, so that the on-site monitoring system has very wide market prospect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent monitoring system for a construction site of a building engineering, which can increase the height of the monitoring system by increasing an extension rod when a high-rise frame building is gradually increased, and meanwhile, the intelligent monitoring system can maintain stable installation strength by depending on a wall surface connecting frame so as to adapt to the high-rise frame building with different heights, and when the intelligent monitoring system is installed, buried piles are driven into the ground through a broken cone, the connection effect of a device and the ground is enhanced, and the whole bottom support is maintained.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the intelligent monitoring system comprises a bottom plate, a main rod, a first lifting rod, a first extending rod, a second lifting rod, a second extending rod, a third lifting rod, a third extending rod, a first side rod, a second side rod, a main guide rail, a first auxiliary guide rail, a second auxiliary guide rail, a first main monitor and a second main monitor, wherein the main rod is arranged at the position, close to the middle end, of the top of the bottom plate and connected through a bolt, the first lifting rod is arranged at the top of the main rod, the first extending rod is arranged at the top of the first lifting rod, the front ends of the first extending rods are all provided with the main guide rail and are all connected through bolts, the first main monitor is arranged at the position, close to the top, of the main guide rail, the first main monitor is connected through a bolt, the second main monitor is arranged at the position, close to the bottom end, of the main guide rail, and the second main monitor is connected through a bolt;

the novel monitor is characterized in that a first stabilizer bar is arranged on the outer wall of the main monitor and is connected through welding, a first mounting frame is arranged at the left end of the stabilizer bar and is connected through welding, a second mounting frame is arranged at the right end of the stabilizer bar and is connected through welding, a first auxiliary monitor is arranged at the front end of the first mounting frame and is connected through a bolt, and a second auxiliary monitor is arranged at the front end of the second mounting frame and is connected through a bolt.

The side position rod is arranged at the top of the bottom plate near the left end and is connected through a bolt, the side position rod is arranged at the top of the side position rod and is provided with a lifting rod II, an extension rod II is arranged at the top of the lifting rod II, an auxiliary guide rail I is arranged at the front end of the extension rod II and is connected through a bolt, a side position rod II is arranged at the top of the bottom plate near the right end and is connected through a bolt, a lifting rod III is arranged at the top of the side position rod, an extension rod III is arranged at the top of the lifting rod III, an auxiliary guide rail II is arranged at the front end of the lifting rod III and is connected through a bolt, an auxiliary guide rail I is inserted into a connecting installation frame I near the top of the auxiliary guide rail I, an auxiliary guide rail II is inserted into the connecting installation frame II near the top of the auxiliary guide rail II, and an auxiliary guide rail II is inserted into the bottom of the auxiliary guide rail II near the bottom of the auxiliary guide rail II.

Preferably, the stabilizer is arranged on the outer wall of the main monitor II and is connected through welding, the mounting frame III is arranged at the left end of the stabilizer, the stabilizer is connected through welding, the mounting frame IV is arranged at the right end of the stabilizer, the stabilizer is connected through welding, the auxiliary monitor III is arranged at the front end of the mounting frame III and is connected through bolts, and the auxiliary monitor IV is arranged at the front end of the mounting frame IV and is connected through bolts.

Preferably, a first reinforcing hoop is welded at the position, close to the top, of the main rod, the first reinforcing hoop is connected with a first overhead rod through a bolt, a second reinforcing hoop is welded at the position, close to the top, of the first overhead rod, and the second reinforcing hoop is connected with a first extension rod through a bolt.

Preferably, a third reinforcing hoop is welded at the position, close to the top, of the first side rod, the third reinforcing hoop is connected with a second overhead rod through a bolt, a fourth reinforcing hoop is welded at the position, close to the top, of the second overhead rod, and the fourth reinforcing hoop is connected with a second extension rod through a bolt.

Preferably, a reinforcing hoop five is welded at the position, close to the top, of the side position rod II, the top of the reinforcing hoop five is connected with a lifting rod III through a bolt, a reinforcing hoop six is welded at the position, close to the top, of the lifting rod III, and the top of the reinforcing hoop six is connected with an extension rod III through a bolt.

Preferably, the rear side of the main rod, the rear side of the lifting rod and the rear side of the extension rod are provided with a first wall connecting frame and are all connected through bolts, the rear side of the side position rod, the rear side of the lifting rod and the rear side of the extension rod are all provided with a second wall connecting frame and are all connected through bolts, and the rear side of the side position rod, the rear side of the lifting rod and the rear side of the extension rod are all provided with a third wall connecting frame and are all connected through bolts.

Preferably, the corner reinforcing blocks are arranged at the corners of the periphery of the bottom plate and are connected through welding, buried piles are welded at the bottoms of the corner reinforcing blocks, and broken cones are welded at the bottoms of the buried piles.

The invention provides an intelligent monitoring system for a construction site of a building engineering. The beneficial effects are as follows:

(1) The intelligent monitoring system for the construction site of the building engineering is characterized in that a bottom plate is arranged on the ground of the building engineering during operation and is attached to the outer surface of a high-rise frame building, a main moving path is formed by a main rod I, a lifting rod I and an extension rod I, and a main guide rail is arranged; the driver II can drive the main monitor II to move up and down, the mounting frame III and the mounting frame IV are arranged at the two ends of the corresponding stabilizing rod II, the rear end of the mounting frame III depends on the auxiliary guide rail I, the side position rod I, the lifting rod II and the extension rod II provide mounting paths for the auxiliary guide rail II and keep stable support, the rear end of the mounting frame IV depends on the auxiliary guide rail II, the side position rod II, the lifting rod III and the extension rod III provide mounting paths for the auxiliary guide rail II and keep stable support, therefore, the auxiliary monitor III and the auxiliary monitor IV can move up and down along with the main monitor II, after the height of a high-rise frame building is changed, the corresponding adjustment is performed, the reinforcing hoops I and the reinforcing hoops II are arranged in the connecting area, the mutual stability of the main rod, the lifting rod I and the extension rod I can be improved, the side position rod I, the lifting rod II and the extension rod II can be lifted by arranging the reinforcing hoop III and the reinforcing hoop IV in the connecting area, the side position rod II, the lifting rod III and the extension rod III can be lifted by arranging the reinforcing hoop IV and the reinforcing hoop VI in the connecting area, the wall connecting frame I, the wall connecting frame II and the wall connecting frame III respectively correspond to connecting components of three paths and a wall, after a plurality of wall connecting frames are connected with the wall, when a high-rise frame building is gradually heightened, the height of the monitoring system can be heightened by adding the extension rod, and meanwhile, the stable installation strength is kept by depending on the wall connecting frames so as to adapt to high-rise frame buildings with different heights, buried piles are driven into the ground through broken insertion cones during installation, the connecting effect of the device and the ground is enhanced, and the whole bottom support is kept.

Drawings

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

FIG. 2 is a schematic diagram of a single monitor set distribution in accordance with the present invention;

FIG. 3 is an enlarged schematic view of an extension rod of the present invention;

FIG. 4 is a schematic diagram of multiple monitor sets according to the present invention;

FIG. 5 is a schematic view of a three-way guide rail of the present invention;

FIG. 6 is a rail removal frame status view of the present invention;

FIG. 7 is a three-way frame dispersion schematic of the present invention;

FIG. 8 is a schematic view of the present invention and wall mounting;

FIG. 9 is a bottom area block diagram of the present invention;

fig. 10 is a diagram showing the construction of two areas of the main monitor according to the present invention.

In the figure: 1. a bottom plate; 2. a main rod; 3. lifting the first rod; 4. extension rod one; 5. a main guide rail; 6. a first driver; 7. a main monitor I; 8. a second driver; 9. a main monitor II; 10. a stabilizer bar I; 11. a first mounting frame; 12. an auxiliary monitor I; 13. a second mounting frame; 14. an auxiliary monitor II; 15. a stabilizer bar II; 16. a third mounting frame; 17. an auxiliary monitor III; 18. a mounting rack IV; 19. an auxiliary monitor IV; 20. a first side position rod; 21. a second lifting rod; 22. extension rod II; 23. an auxiliary guide rail I; 24. a second side position rod; 25. a third lifting rod; 26. extension rod III; 27. an auxiliary guide rail II; 28. reinforcing the first hoop; 29. reinforcing the second hoop; 30. reinforcing hoops III; 31. reinforcing hoops IV; 32. reinforcing hoops V; 33. reinforcing hoops six; 34. a first wall surface connecting frame; 35. a second wall surface connecting frame; 36. a wall surface connecting frame III; 37. corner reinforcing blocks; 38. burying a ground pile; 39. and (5) breaking into a cone.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, an embodiment of the present invention provides a technical solution: an intelligent monitoring system for construction site of building engineering comprises a bottom plate 1, a main rod 2, a first lifting rod 3, a first extending rod 4, a second lifting rod 21, a second extending rod 22, a third lifting rod 25, a third extending rod 26, a first side rod 20, a second side rod 24, a main guide rail 5, a first auxiliary guide rail 23, a second auxiliary guide rail 27, a first main monitor 7 and a second main monitor 9, when the building engineering is constructed, the on-site monitoring system is monitored by means of fixed installation of the monitors, the monitoring strategy is very backward, and in the building engineering, particularly in the high-rise frame building, the corresponding monitoring system matched with the high-rise frame building is cut off, so that a monitoring system assembly can be adjusted to have very wide market prospect along with the height change in the high-rise frame building is developed, the main rod 2 is arranged at the position, close to the middle end, of the top of the bottom plate 1 and is connected through a bolt, the first lifting rod 3 is arranged at the top of the main rod 2, the first extending rod 4 is arranged at the top of the first lifting rod 3, the front ends of the first lifting rod 3 and the front ends of the first extending rod 4 are respectively provided with a main guide rail 5 and are connected through bolts, the position, close to the top end, of the main guide rail 5 is provided with a first driver 6, the front end of the first driver 6 is provided with a first main monitor 7 and is connected through bolts, the position, close to the bottom end, of the main guide rail 5 is provided with a second driver 8, the front end of the second driver 8 is provided with a second main monitor 9 and is connected through bolts, the bottom plate 1 is arranged on the ground of a building engineering and is attached to the appearance of a high-rise frame building during operation, the first lifting rod 2, the first lifting rod 3 and the first extending rod 4 form a main moving path because the main guide rail 5 is arranged, thus, the first driver 6 and the second driver 8 can move up and down on the surface of the main guide rail 5;

the outer wall of the main monitor I7 is provided with a stabilizer bar I10 and is connected through welding, the left end of the stabilizer bar I10 is provided with a mounting frame I11 and is connected through welding, the right end of the stabilizer bar I10 is provided with a mounting frame II 13 and is connected through welding, the front end of the mounting frame I11 is provided with an auxiliary monitor I12 and is connected through a bolt, and the front end of the mounting frame II 13 is provided with an auxiliary monitor II 14 and is connected through a bolt; the outer wall of the main monitor II 9 is provided with a stabilizer bar II 15 which is connected through welding, the left end of the stabilizer bar II 15 is provided with a mounting frame III 16 which is connected through welding, the right end of the stabilizer bar II 15 is provided with a mounting frame IV 18 which is connected through welding, the front end of the mounting frame III 16 is provided with an auxiliary monitor III 17 which is connected through a bolt, the front end of the mounting frame IV 18 is provided with an auxiliary monitor IV 19 which is connected through a bolt, a side bar I20 which is arranged at the top of the bottom plate 1 near the left end and is connected through a bolt is arranged at the top of the side bar I20, the top of the side bar I20 is provided with a lifting bar II 21, the top of the lifting bar II 21 is provided with an extension bar II 22, the front ends of the lifting rods II 21 and the front ends of the extension rods II 22 are respectively provided with an auxiliary guide rail I23 which are connected through bolts, a side position rod II 24 which is arranged at the position, close to the right end, of the top of the bottom plate 1 is connected through bolts, a lifting rod III 25 is arranged at the top of the side position rod II 24, an extension rod III 26 is arranged at the top of the lifting rod III 25, auxiliary guide rails II 27 which are connected through bolts are respectively arranged at the front ends of the lifting rod III 25 and the front ends of the extension rods III 26, the first auxiliary guide rail 23 is close to the top and is inserted into the first connecting installation frame 11, the first auxiliary guide rail 23 is close to the bottom and is inserted into the third connecting installation frame 16, the second auxiliary guide rail 27 is close to the top and is inserted into the second connecting installation frame 13, and the second auxiliary guide rail 27 is close to the bottom and is inserted into the fourth connecting installation frame 18;

the first driver 6 can drive the first main monitor 7 to move up and down, the first mounting frame 11 and the second mounting frame 13 are arranged at the two ends of the corresponding first stabilizer bar 10, the rear end of the first mounting frame 11 supports the first auxiliary guide rail 23, the first side bar 20, the second lifting bar 21 and the second extension bar 22 provide mounting paths for the first auxiliary guide rail 23 and keep stable support, the rear end of the second mounting frame 13 supports the second auxiliary guide rail 27, the second side bar 24, the third lifting bar 25 and the third extension bar 26 provide mounting paths for the second auxiliary guide rail 27 and keep stable support, and therefore the first auxiliary monitor 12 and the second auxiliary monitor 14 can move up and down along with the first main monitor 7, and after the height of a high-rise frame building is changed, the second side bar and the third auxiliary monitor 14 are correspondingly adjusted; the driver II 8 can drive the main monitor II 9 to move up and down, the mounting frame III 16 and the mounting frame IV 18 are arranged at the two ends of the corresponding stabilizer bar II 15, the rear end of the mounting frame III 16 supports the auxiliary guide rail I23, the side position bar I20, the lifting bar II 21 and the extension bar II 22 provide mounting paths for the auxiliary guide rail II 27 and keep stable support, the rear end of the mounting frame IV 18 supports the auxiliary guide rail II 27, the side position bar II 24, the lifting bar III 25 and the extension bar III 26 provide mounting paths for the auxiliary guide rail II 27 and keep stable support, and therefore the auxiliary monitor III 17 and the auxiliary monitor IV 19 can move up and down along with the main monitor II 9, and the height of a high-rise frame building is correspondingly adjusted after being changed.

The first reinforcing hoop 28 is welded at the position, close to the top, of the main rod 2, the first reinforcing hoop 28 is connected with the first overhead rod 3 through bolts, the second reinforcing hoop 29 is welded at the position, close to the top, of the first overhead rod 3, the first reinforcing hoop 29 is connected with the first extension rod 4 through bolts, and the first reinforcing hoop 28 and the second reinforcing hoop 29 are deployed in a connecting area to improve the mutual stability of the main rod 2, the first overhead rod 3 and the first extension rod 4.

The side position rod I20 is welded with the reinforcing hoop III 30 near the top, the top of the reinforcing hoop III 30 is connected with the lifting rod II 21 through a bolt, the top of the lifting rod II 21 is welded with the reinforcing hoop IV 31 near the top, the top of the reinforcing hoop IV 31 is connected with the extension rod II 22 through a bolt, and the mutual stability of the side position rod I20, the lifting rod II 21 and the extension rod II 22 can be improved by arranging the reinforcing hoop III 30 and the reinforcing hoop IV 31 in a connecting area.

The side position rod II 24 is welded with the reinforcing hoop III 32 near the top, the top of the reinforcing hoop III 32 is connected with the lifting rod III 25 through a bolt, the top of the lifting rod III 25 is welded with the reinforcing hoop III 33 near the top, the top of the reinforcing hoop III 33 is connected with the extension rod III 26 through a bolt, and the mutual stability of the side position rod II 24, the lifting rod III 25 and the extension rod III 26 can be improved by deploying the reinforcing hoop III 32 and the reinforcing hoop III 33 in a connecting area.

The rear side of the main rod 2, the rear side of the lifting rod 3 and the rear side of the extension rod 4 are respectively provided with a wall connecting frame 34 and are connected through bolts, the rear side of the side position rod 20, the rear side of the lifting rod 21 and the rear side of the extension rod 22 are respectively provided with a wall connecting frame 35 and are connected through bolts, the rear side of the side position rod 24, the rear side of the lifting rod 25 and the rear side of the extension rod 26 are respectively provided with a wall connecting frame 36 and are connected through bolts, the first wall connecting frame 34, the second wall connecting frame 35 and the third wall connecting frame 36 correspond to connecting assemblies of three paths and walls respectively, when a plurality of wall connecting frames are connected with the walls, and when a high-rise frame building is gradually increased, the height of the monitoring system can be increased by adding the extension rod, and meanwhile, the stable installation strength is kept by depending on the wall connecting frames so as to adapt to the high-rise frame building with different heights.

The corner reinforcing blocks 37 are arranged at the corners of the periphery of the bottom plate 1 and are connected through welding, buried piles 38 are welded at the bottoms of the corner reinforcing blocks 37, broken cones 39 are welded at the bottoms of the buried piles 38, the strength of the corners of the bottom plate 1 is increased by the corner reinforcing blocks 37, the buried piles 38 are driven into the ground through the broken cones 39 when the bottom plate is installed, the connection effect of the device and the ground is enhanced, and the whole bottom support is maintained.

Working principle: the base plate 1 is arranged on the ground of a building engineering when in operation and is attached to the outer surface of a high-rise frame building, the main rod 2, the first lifting rod 3 and the first extension rod 4 form a main moving path, and because the main guide rail 5 is arranged, the first driver 6 and the second driver 8 can move up and down on the surface of the main guide rail 5, the first driver 6 can drive the first main monitor 7 to move up and down, the first mounting bracket 11 and the second mounting bracket 13 are arranged at the two ends of the corresponding stabilizer rod 10, the rear end of the first mounting bracket 11 supports the first auxiliary guide rail 23, the side rod 20, the second lifting rod 21 and the second extension rod 22 provide a mounting path for the first auxiliary guide rail 23 and keep stable support, the rear end of the second mounting bracket 13 supports the second auxiliary guide rail 27, the second side rod 24, the third lifting rod 25 and the third extension rod 26 provide a mounting path for the second auxiliary guide rail 27 and keep stable support, and therefore the first auxiliary monitor 12 and the second auxiliary monitor 14 can move up and down along with the first main monitor 7, and the second auxiliary monitor 14 can correspondingly adjust after the height of the high-rise frame building is changed; the driver II 8 can drive the main monitor II 9 to move up and down, the mounting frame III 16 and the mounting frame IV 18 are arranged at the two ends of the corresponding stabilizing rod II 15, the rear end of the mounting frame III 16 supports the auxiliary guide rail I23, the side rod I20, the lifting rod II 21 and the extension rod II 22 provide mounting paths for the auxiliary guide rail II 27 and keep stable support, the rear end of the mounting frame IV 18 supports the auxiliary guide rail II 27, the side rod II 24, the lifting rod III 25 and the extension rod III 26 provide mounting paths for the auxiliary guide rail II 27 and keep stable support, therefore, the auxiliary monitor III 17 and the auxiliary monitor IV 19 can move up and down along with the main monitor II 9, after the height of a high-rise frame building is changed, the reinforcing hoops I28 and the reinforcing hoops II 29 are arranged in a connecting area to improve the mutual stability of the main rod 2, the lifting rod I3 and the extension rod I4, the side rod I20, the lifting rod II 21 and the extension rod II 22 can be lifted by arranging the reinforcing hoops III 30 and the reinforcing hoops IV 31 in the connecting area, the side rod II 24, the lifting rod III 25 and the extension rod III 26 can be lifted by arranging the reinforcing hoops V32 and the reinforcing hoops VI 33 in the connecting area, the wall connecting frame I34, the wall connecting frame II 35 and the wall connecting frame III 36 respectively correspond to three connecting assemblies of paths and walls, when a plurality of wall connecting frames are connected with the walls, when a high-rise frame building is gradually increased, the height of the monitoring system can be increased by increasing the extension rods, meanwhile, the stable installation strength is kept by depending on the wall connecting frames, so as to adapt to the high-rise frame building with different heights, the buried piles 38 are driven into the ground through the broken-in cones 39 when the high-rise frame building is installed, and the connecting effect of the device and the ground is enhanced, maintaining the overall bottom support.

The invention comprises the following steps: 1. a bottom plate; 2. a main rod; 3. lifting the first rod; 4. extension rod one; 5. a main guide rail; 6. a first driver; 7. a main monitor I; 8. a second driver; 9. a main monitor II; 10. a stabilizer bar I; 11. a first mounting frame; 12. an auxiliary monitor I; 13. a second mounting frame; 14. an auxiliary monitor II; 15. a stabilizer bar II; 16. a third mounting frame; 17. an auxiliary monitor III; 18. a mounting rack IV; 19. an auxiliary monitor IV; 20. a first side position rod; 21. a second lifting rod; 22. extension rod II; 23. an auxiliary guide rail I; 24. a second side position rod; 25. a third lifting rod; 26. extension rod III; 27. an auxiliary guide rail II; 28. reinforcing the first hoop; 29. reinforcing the second hoop; 30. reinforcing hoops III; 31. reinforcing hoops IV; 32. reinforcing hoops V; 33. reinforcing hoops six; 34. a first wall surface connecting frame; 35. a second wall surface connecting frame; 36. a wall surface connecting frame III; 37. corner reinforcing blocks; 38. burying a ground pile; 39. the invention solves the problems that when a construction engineering is constructed, a field monitoring system is monitored by means of fixed installation of monitors, the monitoring strategy is very backward, in particular to a high-rise frame building, and the corresponding monitoring system matched with the high-rise frame building is cut off, so that the high-rise frame building can be developed.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides a building engineering job site intelligent monitoring system, includes bottom plate (1), mobile jib (2), overhead pole one (3), extension pole one (4), overhead pole two (21), extension pole two (22), overhead pole three (25), extension pole three (26), side position pole one (20), side position pole two (24), leading rail (5), leading rail one (23), leading rail two (27), leading monitor one (7) and leading monitor two (9), its characterized in that: the device is characterized in that a main rod (2) is arranged at the top of the bottom plate (1) close to the middle end and is connected through a bolt, a first lifting rod (3) is arranged at the top of the main rod (2), a first extension rod (4) is arranged at the top of the first lifting rod (3), a main guide rail (5) is arranged at the front end of the first extension rod (4) and is connected through a bolt, a first driver (6) is arranged at the position, close to the top, of the main guide rail (5), a first main monitor (7) is arranged at the front end of the first driver (6) and is connected through a bolt, a second driver (8) is arranged at the position, close to the bottom, of the main guide rail (5), and a second main monitor (9) is arranged at the front end of the second driver (8) and is connected through a bolt;

the novel intelligent monitoring device is characterized in that a first stabilizer bar (10) is arranged on the outer wall of the first main monitor (7) and is connected through welding, a first mounting frame (11) is arranged at the left end of the first stabilizer bar (10) and is connected through welding, a second mounting frame (13) is arranged at the right end of the first stabilizer bar (10) and is connected through welding, an auxiliary monitor (12) is arranged at the front end of the first mounting frame (11) and is connected through a bolt, and an auxiliary monitor (14) is arranged at the front end of the second mounting frame (13) and is connected through a bolt;

the side position rod is arranged at the top of the bottom plate (1) and is close to the left end and connected through a bolt, the side position rod is arranged at the top of the side position rod (20) and is provided with a lifting rod II (21), an extension rod II (22) is arranged at the top of the lifting rod II (21), an auxiliary guide rail I (23) is arranged at the front end of the extension rod II (22) and is connected through a bolt, the side position rod II (24) is arranged at the top of the bottom plate (1) and is close to the right end and is connected through a bolt, an extension rod III (26) is arranged at the top of the side position rod II (24), an extension rod III (25) is arranged at the top of the lifting rod III (25), an auxiliary guide rail II (27) is arranged at the front end of the extension rod III (26) and is connected through a bolt, an auxiliary guide rail I (23) is close to the top of the auxiliary guide rail II (11), an auxiliary guide rail I (23) is close to the top of the auxiliary guide rail II (27) and is close to the auxiliary guide rail II (27) and is connected with the auxiliary guide rail II (27) and is close to the top of the auxiliary guide rail II (18).

2. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: be located main monitor two (9) outer wall is provided with stabilizer bar two (15) and is connected through the welding, stabilizer bar two (15) left end is provided with mounting bracket three (16) and is connected through the welding, stabilizer bar two (15) right-hand member is provided with mounting bracket four (18) and is connected through the welding, mounting bracket three (16) front end is provided with supplementary monitor three (17) and is connected through the bolt, mounting bracket four (18) front end is provided with supplementary monitor four (19) and is connected through the bolt.

3. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: the reinforced hoop I (28) is welded at the position, close to the top, of the main rod (2), the reinforced hoop I (28) is connected with the overhead rod I (3) through bolts, the reinforced hoop II (29) is welded at the position, close to the top, of the overhead rod I (3), and the reinforced hoop II (29) is connected with the extension rod I (4) through bolts.

4. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: the side position rod I (20) is welded with a reinforcing hoop III (30) near the top, the top of the reinforcing hoop III (30) is connected with a lifting rod II (21) through a bolt, the side position rod II (21) is welded with a reinforcing hoop IV (31) near the top, and the top of the reinforcing hoop IV (31) is connected with an extension rod II (22) through a bolt.

5. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: the side rod II (24) is welded with a reinforcing hoop III (32) near the top, the top of the reinforcing hoop III (32) is connected with a lifting rod III (25) through a bolt, the lifting rod III (25) is welded with a reinforcing hoop six (33) near the top, and the top of the reinforcing hoop six (33) is connected with an extension rod III (26) through a bolt.

6. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: the novel lifting device comprises a main rod (2), a lifting rod I (3), an extension rod I (4), a wall connecting frame I (34) and bolts, wherein the wall connecting frame I (34) is arranged on the rear side of the lifting rod I (4), the wall connecting frame II (35) is arranged on the rear side of the lifting rod II (21), the wall connecting frame II (35) is arranged on the rear side of the extension rod II (22) and connected through the bolts, and the wall connecting frame III (36) is arranged on the rear side of the lifting rod II (24) and the rear side of the extension rod III (26) and connected through the bolts.

7. The intelligent monitoring system for a construction site of a building engineering according to claim 1, wherein: the corner reinforcing blocks (37) are arranged at the corners of the periphery of the bottom plate (1) and are connected through welding, buried piles (38) are welded at the bottoms of the corner reinforcing blocks (37), and broken cones (39) are welded at the bottoms of the buried piles (38).