CN114623358B

CN114623358B - Building monitoring device based on BIM technique

Info

Publication number: CN114623358B
Application number: CN202210360964.1A
Authority: CN
Inventors: 王坚候; 陈昆鹏; 陈腾; 文坤波; 李琴
Original assignee: China Construction Third Bureau Group South China Co Ltd
Current assignee: China Construction Third Bureau Group South China Co Ltd
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2023-05-09
Anticipated expiration: 2042-04-07
Also published as: CN114623358A

Abstract

The invention discloses a building monitoring device based on BIM technology, which is characterized in that: the base surface mounting has the stand, and protection machanism is installed at the stand top, installs the monitor in the protection machanism, and protection machanism top is connected with the bracing piece, and the bracing piece top is connected with the baffle, and the baffle is equipped with the indent, installs solar panel in the indent, and solar panel's output electricity is connected with the battery, and the battery is installed in the stand, and the base bottom is equipped with the cavity, installs supporting mechanism in the cavity, and moving mechanism is installed at supporting mechanism's four sides to the base. According to the invention, the protection mechanism is arranged, so that the monitor is protected during moving and transporting or when not in use, the monitor is prevented from being knocked, the moving mechanism is arranged, the monitor is conveniently moved to other construction sites for monitoring, and the supporting mechanism is matched for use, so that the effect of stable support is achieved, and the phenomenon of sliding is prevented.

Description

Building monitoring device based on BIM technique

Technical Field

The invention belongs to the technical field of monitoring devices, and particularly relates to a building monitoring device based on a BIM technology.

Background

The BIM technology is a building information model, is a new tool for architecture, engineering and civil engineering, is a computer aided design mainly based on three-dimensional graphics, object guiding and architecture, and needs to monitor a building site in real time in the implementation process, and the BIM technology needs to be used as a building monitoring device.

Disclosure of Invention

In view of the above-mentioned problems with the background art, the present invention has as its object: aims at providing a building monitoring device based on BIM technology.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

building monitoring device based on BIM technique, its characterized in that: the surface of the base is provided with an upright post, the top of the upright post is provided with a protection mechanism, a monitor is arranged in the protection mechanism, the top of the protection mechanism is connected with a supporting rod, the top of the supporting rod is connected with a baffle plate, the baffle plate is provided with an inner groove, the solar panel is arranged in the inner groove, the output end of the solar panel is electrically connected with a storage battery, the storage battery is arranged in the upright post, a cavity is arranged at the bottom of the base, a supporting mechanism is arranged in the cavity, and the base is provided with a moving mechanism on four sides of the supporting mechanism;

the protection mechanism comprises a mounting frame which is arranged at the top of the upright post, wherein the mounting frame is a rectangular box body with openings on four sides which are hollowed in the inside, a lifting structure is arranged in the mounting frame, a first hinge seat is arranged on a periphery of the lifting structure, the first hinge seat is connected with a push rod, a second hinge seat is arranged on the other side of the push rod, the second hinge seat is connected with a protection plate, the protection plate is provided with a guide groove, a guide block is connected in the guide groove in a sliding manner, the guide block is fixedly connected with the second hinge seat, a monitor is arranged on one side of the protection plate, and the other side of the protection plate is hinged at the opening of the mounting frame;

the supporting mechanism comprises a double-thread screw rod arranged at the top of the inner side of the cavity, two sides of the double-thread screw rod are connected with bearing seats, the bearing seats are arranged in a base, one side of the double-thread screw rod is connected with a rotary table, the rotary table is provided with a containing groove, a rotating handle is hinged in the containing groove, two sides of the double-thread screw rod are connected with supporting nuts, the supporting nuts are connected with movable seats, a third hinging seat is arranged at the bottom of the movable seat, the third hinging seat is connected with a movable rod, a fourth hinging seat is connected with the other side of the movable rod, lifting plates are connected at the bottom of the fourth hinging seat at two sides, a plurality of supporting columns are uniformly arranged at the bottom of the lifting plates, and a plurality of supporting columns are connected with supporting plates;

the moving mechanism comprises a steering bearing arranged in the base, the steering bearing is connected with a damping mechanism, a pulley mounting seat is arranged at the bottom of the damping mechanism, and the pulley mounting seat is connected with a rubber bearing wheel.

Further limited, the elevation structure is including installing the servo motor in the installing frame bottom, servo motor's power take off end is connected with the lead screw, the bearing is all installed to the upper and lower both sides of lead screw, the bearing is installed in the installing frame, the lead screw is connected with the nut, the nut is connected with the nut mount pad that is the rectangle setting, the even four sides at the nut mount pad of installing of first articulated seat. The lifting transmission effect is more stable due to the structural design.

Further defined, the stand top is equipped with and accomodates the groove, servo motor places in accomodating the inslot. The structural design has a protective effect on the servo motor.

Further limited, the damper comprises a steering column connected with a steering bearing, a buffer cavity is arranged in the steering column, a sliding plate is connected in the buffer cavity in a sliding mode, a sliding column is connected to the bottom of the sliding plate, the bottom of the sliding column penetrates through the steering column and extends to the lower side of the sliding column, the bottom of the sliding column is connected with a pulley mounting seat, a damper spring is connected to the bottom of the steering column, and the free end of the damper spring is mounted on the surface of the pulley mounting seat. Such structural design makes to have better shock attenuation effect when removing.

Further limited, rubber antiskid cover is installed to backup pad bottom, rubber antiskid cover's bottom is wave structure setting. Such a structural design increases the effect of fixing and preventing slipping.

Further defined, the base is provided with a turntable protection groove at a position corresponding to the turntable, and the turntable is installed in the turntable protection groove. Such structural design has played the effect of accomodating the protection to the carousel, prevents that the collision from leading to the carousel to appear damaging.

Further limited, the bracing piece sets up for integrated into one piece structure with the baffle, the bracing piece passes through the screw locking and installs at the top of installing frame. The structural design is convenient to produce and manufacture and convenient and quick to install and detach.

Further defined, the base is welded with the stand junction and has the enhancement seat. Such structural design improves the connection effect of base and stand.

Further defined, a charging interface is arranged on one side of the upright post, and the charging interface is electrically connected with the storage battery. Such structural design is convenient for charge to the battery in overcast and rainy weather.

Further limited, install the carrier plate in the cavity, the carrier plate is equipped with a plurality of through-holes, a plurality of install the uide bushing in the through-hole, support column slidable mounting is in the uide bushing. Such a structural design makes the sliding more stable.

The beneficial effects of the invention are as follows: according to the invention, the protection mechanism is arranged, so that the monitor is protected in the moving and transporting process or when not in use, the monitor is prevented from being knocked, the normal use of the monitor is influenced, the practicability is improved when the monitor is conveniently moved to other construction sites for monitoring through the moving mechanism, the supporting mechanism is used in a matched manner, the supporting mechanism has the effect of stably supporting when the monitor is moved to other construction sites for monitoring through the moving mechanism, the sliding phenomenon is prevented, and the monitoring effect of the monitor is improved.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic structural diagram of a building monitoring device based on BIM technology according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a building monitoring device based on BIM technology according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a moving mechanism of a building monitoring device based on BIM technology according to an embodiment of the present invention;

the main reference numerals are as follows:

base 1, cavity 101, column 2, protection mechanism 3, monitor 4, support rod 5, baffle 6, solar panel 7, battery 8, support mechanism 9, moving mechanism 10, mounting frame 11, lifting structure 12, first hinge base 13, push rod 14, second hinge base 15, protection plate 16, guide groove 161, guide block 17, double-headed screw 18, bearing housing 19, turntable 20, storage groove 21, rotary handle 22, support nut 23, movable base 24, third hinge base 25, movable rod 26, fourth hinge base 27, lifting plate 28, support column 29, support plate 30, steering bearing 31, damper mechanism 32, pulley mount 33, rubber load-bearing wheel 34, servo motor 35, screw rod 36, bearing 37, nut 38, nut mount 39, steering column 40, damper chamber 41, slide plate 42, slide column 43, damper spring 44, rubber anti-slip sleeve 45, reinforcement base 46, support plate 47, guide sleeve 48.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1-3, in the building monitoring device based on the BIM technology, a stand column 2 is arranged on the surface of a base 1, a protection mechanism 3 is arranged at the top of the stand column 2, a monitor 4 is arranged in the protection mechanism 3, a supporting rod 5 is connected to the top of the protection mechanism 3, a baffle 6 is connected to the top of the supporting rod 5, an inner groove is formed in the baffle 6, a solar panel 7 is arranged in the inner groove, a storage battery 8 is electrically connected to the output end of the solar panel 7, the storage battery 8 is arranged in the stand column 2, a cavity 101 is formed in the bottom of the base 1, a supporting mechanism 9 is arranged in the cavity 101, and a moving mechanism 10 is arranged on four sides of the supporting mechanism 9 on the base 1;

the protection mechanism 3 comprises a mounting frame 11 mounted on the top of the upright post 2, the mounting frame 11 is a rectangular box body with openings on four sides hollowed in the inside, a lifting structure 12 is mounted in the mounting frame 11, a first hinge seat 13 is mounted on the periphery of the lifting structure 12, a push rod 14 is connected to the first hinge seat 13, a second hinge seat 15 is mounted on the other side of the push rod 14, a protection plate 16 is connected to the second hinge seat 15, a guide groove 161 is formed in the protection plate 16, a guide block 17 is slidably connected in the guide groove 161, the guide block 17 is fixedly connected with the second hinge seat 15, a monitor 4 is mounted on one side of the protection plate 16, and the other side of the protection plate 16 is hinged to the opening of the mounting frame 11;

the supporting mechanism 9 comprises a double-thread screw rod 18 arranged at the top of the inner side of the cavity 101, two sides of the double-thread screw rod 18 are connected with bearing seats 19, the bearing seats 19 are arranged in the base 1, one side of the double-thread screw rod 18 is connected with a rotary table 20, the rotary table 20 is provided with a containing groove 21, a rotary handle 22 is hinged in the containing groove 21, two sides of the double-thread screw rod 18 are connected with supporting nuts 23, the supporting nuts 23 are connected with movable seats 24, a third hinging seat 25 is arranged at the bottom of the movable seats 24, the third hinging seat 25 is connected with a movable rod 26, the other side of the movable rod 26 is connected with a fourth hinging seat 27, the bottoms of the fourth hinging seats 27 at the two sides are connected with lifting plates 28, a plurality of supporting columns 29 are uniformly arranged at the bottoms of the lifting plates 28, and the bottoms of the supporting columns 29 are connected with supporting plates 30;

the moving mechanism 10 comprises a steering bearing 31 arranged in the base 1, the steering bearing 31 is connected with a damping mechanism 32, a pulley mounting seat 33 is arranged at the bottom of the damping mechanism 32, and the pulley mounting seat 33 is connected with a rubber bearing wheel 34.

In this embodiment, when in use, by pushing the upright post 2, the upright post 2 pushes the base 1, the base 1 drives the moving mechanism 10 to move in position, the moving mechanism 10 can make the rubber bearing wheel 34 more stable in moving through the damping mechanism 32 when working, prevent the shake from influencing the monitor 4, and after moving to the designated position, rotate the rotating handle 22, make the rotating handle 22 drive the turntable 20, the turntable 20 drives the double-headed screw 18 to rotate, make the double-headed screw 18 drive the supporting nuts 23 on both sides to move towards the middle, make the supporting nuts 23 drive the movable seat 24, the movable seat 24 pushes the third hinge seat 25, the third hinge seat 25 pushes the movable rod 26, the movable rod 26 pushes the fourth hinge seat 27, make the fourth hinge seat 27 push the lifting plate 28, the lifting plate 28 pushes the supporting column 29 downwards, make the supporting column 29 push the supporting plate 30 to contact with the ground, increase the friction, thereby make the base 1 can fix, finally, start through controlling the lifting structure 12, make the lifting structure 12 drive the first hinge seat 13 to move upwards, make the first hinge seat 13 push the push rod 14, the push rod 14 push the second hinge seat 15 push the protecting plate 15 to push the protecting plate 16 to move towards the middle, and finally make the second hinge seat 15 push the protecting plate 16 to move out of the monitor frame 11 along the guide frame 11, thereby the monitor, and finally make the guide frame 11 move the protecting plate 11 to move the monitor, and the monitor frame 11, thereby the monitor 11, and the monitor and the guide frame.

Preferably, the lifting structure 12 comprises a servo motor 35 arranged at the bottom of the mounting frame 11, a screw rod 36 is connected to the power output end of the servo motor 35, bearings 37 are arranged on the upper side and the lower side of the screw rod 36, the bearings 37 are arranged in the mounting frame 11, the screw rod 36 is connected with a nut 38, the nut 38 is connected with a nut mounting seat 39 which is rectangular, and the first hinging seat 13 is uniformly arranged on four sides of the nut mounting seat 39. The lifting transmission effect is more stable due to the structural design. In practice, other structural shapes of the lifting structure 12 may be considered as the case may be.

Preferably, the top of the upright post 2 is provided with a storage groove, and the servo motor 35 is placed in the storage groove. Such a structural design provides a protective effect to the servo motor 35. In practice, other mounting and placement configurations of the servo motor 35 may be considered as the case may be.

Preferably, the damping mechanism 32 comprises a steering column 40 connected with the steering bearing 31, a damping cavity 41 is arranged in the steering column 40, a sliding plate 42 is connected in the damping cavity 41 in a sliding manner, a sliding column 43 is connected at the bottom of the sliding plate 42, the bottom of the sliding column 43 penetrates through the steering column 40 and extends to the lower side of the sliding column, the bottom of the sliding column 43 is connected with the pulley mounting seat 33, a damping spring 44 is connected at the bottom of the steering column 40, and the free end of the damping spring 44 is mounted on the surface of the pulley mounting seat 33. Such structural design makes to have better shock attenuation effect when removing. In practice, other structural shapes of the damper mechanism 32 may be considered as the case may be.

Preferably, the rubber anti-skid sleeve 45 is arranged at the bottom of the supporting plate 30, and the bottom of the rubber anti-skid sleeve 45 is in a wavy structure. Such a structural design increases the effect of fixing and preventing slipping. In practice, other fixed skid-resistant structural shapes of the support plate 30 may also be considered as the case may be.

Preferably, the base 1 is provided with a turntable protection groove corresponding to the turntable 20, and the turntable 20 is installed in the turntable protection groove. Such structural design has played the effect of accomodating the protection to carousel 20, prevents that the collision from leading to carousel 20 to appear damaging. In practice, other shapes of the housing protection structure of the turntable 20 may be considered according to the specific circumstances.

Preferably, the supporting rod 5 and the baffle 6 are integrally formed, and the supporting rod 5 is locked and installed at the top of the installation frame 11 through screws. The structural design is convenient to produce and manufacture and convenient and quick to install and detach. In practice, other mounting structure shapes of the support rod 5 and the baffle 6 may be considered according to the specific circumstances.

Preferably, the connection between the base 1 and the upright 2 is welded with a reinforcing seat 46. Such a structural design improves the connection effect of the base 1 and the upright 2. In practice, other connection structure shapes of the base 1 and the upright 2 may be considered according to the specific circumstances.

Preferably, a charging interface is arranged on one side of the upright post 2, and the charging interface is electrically connected with the storage battery 8. Such a design facilitates charging of the battery 8 during overcast and rainy days. In practice, other charging configurations of the battery 8 may be considered as the case may be.

Preferably, the cavity 101 is provided with a carrier plate 47, the carrier plate 47 is provided with a plurality of through holes, the through holes are provided with guide sleeves 48, and the support columns 29 are slidably arranged in the guide sleeves 48. Such a structural design makes the sliding more stable. In practice, other guiding and sliding structural shapes of the support column 29 may be considered as the case may be.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims of this invention, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the invention disclosed herein.

Claims

1. Building monitoring device based on BIM technique, its characterized in that: the solar energy monitoring device comprises a base (1), a stand column (2) is arranged on the surface of the base (1), a protection mechanism (3) is arranged at the top of the stand column (2), a monitor (4) is arranged in the protection mechanism (3), a supporting rod (5) is connected to the top of the protection mechanism (3), a baffle (6) is connected to the top of the supporting rod (5), an inner groove is formed in the baffle (6), a solar panel (7) is arranged in the inner groove, a storage battery (8) is electrically connected to the output end of the solar panel (7), the storage battery (8) is arranged in the stand column (2), a cavity (101) is formed in the bottom of the base (1), a supporting mechanism (9) is arranged in the cavity (101), and a moving mechanism (10) is arranged on four sides of the supporting mechanism (9) of the base (1);

the protection mechanism (3) comprises a mounting frame (11) mounted at the top of the upright post (2), the mounting frame (11) is a rectangular box body with openings at the four sides of the interior of the mounting frame (11), a lifting structure (12) is mounted in the mounting frame (11), a first hinging seat (13) is mounted on the periphery of the lifting structure (12), the first hinging seat (13) is connected with a push rod (14), a second hinging seat (15) is mounted on the other side of the push rod (14), the second hinging seat (15) is connected with a protection plate (16), the protection plate (16) is provided with a guide groove (161), a guide block (17) is connected in the guide groove (161) in a sliding manner, the guide block (17) is fixedly connected with the second hinging seat (15), one side of the protection plate (16) is mounted on the monitor (4), and the other side of the protection plate (16) is hinged at the opening of the mounting frame (11).

The supporting mechanism (9) comprises a double-thread screw rod (18) arranged at the top of the inner side of the cavity (101), bearing seats (19) are connected to two sides of the double-thread screw rod (18), the bearing seats (19) are arranged in the base (1), one side of the double-thread screw rod (18) is connected with a rotary table (20), the rotary table (20) is provided with a containing groove (21), a rotary handle (22) is hinged in the containing groove (21), supporting nuts (23) are connected to two sides of the double-thread screw rod (18), the supporting nuts (23) are connected with movable bases (24), third hinging bases (25) are arranged at the bottoms of the movable bases (24), the third hinging bases (25) are connected with movable rods (26), the other sides of the movable rods (26) are connected with fourth hinging bases (27), the bottoms of the fourth hinging bases (27) are connected with lifting plates (28), a plurality of supporting columns (29) are uniformly arranged at the bottoms of the lifting plates (28), and the bottoms of the supporting columns (29) are connected with supporting plates (30).

The moving mechanism (10) comprises a steering bearing (31) arranged in the base (1), the steering bearing (31) is connected with a damping mechanism (32), a pulley mounting seat (33) is arranged at the bottom of the damping mechanism (32), and the pulley mounting seat (33) is connected with a rubber bearing wheel (34).

2. A building monitoring device based on BIM technology according to claim 1, wherein: the lifting structure (12) comprises a servo motor (35) arranged at the bottom of the mounting frame (11), a screw rod (36) is connected to the power output end of the servo motor (35), bearings (37) are arranged on the upper side and the lower side of the screw rod (36), the bearings (37) are arranged in the mounting frame (11), nuts (38) are connected to the screw rod (36), nut mounting bases (39) which are rectangular are connected to the nuts (38), and the first hinge bases (13) are uniformly arranged on the four sides of the nut mounting bases (39).

3. A building monitoring device based on BIM technology according to claim 2, wherein: the top of the upright post (2) is provided with a storage groove, and the servo motor (35) is placed in the storage groove.

4. A building monitoring device based on BIM technology according to claim 3, wherein: the damping mechanism (32) comprises a steering column (40) connected with a steering bearing (31), a damping cavity (41) is formed in the steering column (40), a sliding plate (42) is connected in the damping cavity (41) in a sliding mode, a sliding column (43) is connected to the bottom of the sliding plate (42), the bottom of the sliding column (43) penetrates through the steering column (40) and extends to the lower side of the sliding column, the bottom of the sliding column (43) is connected with a pulley mounting seat (33), a damping spring (44) is connected to the bottom of the steering column (40), and the free end of the damping spring (44) is mounted on the surface of the pulley mounting seat (33).

5. The building monitoring device based on BIM technology according to claim 4, wherein: rubber antiskid sleeve (45) is installed to backup pad (30) bottom, the bottom of rubber antiskid sleeve (45) is wave structure setting.

6. The building monitoring device based on BIM technology according to claim 5, wherein: the base (1) is provided with a turntable protection groove at a position corresponding to the turntable (20), and the turntable (20) is arranged in the turntable protection groove.

7. The building monitoring device based on BIM technology according to claim 6, wherein: the support rod (5) and the baffle (6) are arranged in an integrated structure, and the support rod (5) is locked and installed at the top of the installation frame (11) through screws.

8. The building monitoring device based on BIM technology according to claim 7, wherein: a reinforcing seat (46) is welded at the joint of the base (1) and the upright post (2).

9. The building monitoring device based on BIM technology according to claim 8, wherein: one side of the upright post (2) is provided with a charging interface, and the charging interface is electrically connected with a storage battery (8).

10. The building monitoring device based on BIM technology according to claim 9, wherein: the cavity (101) is internally provided with a bearing plate (47), the bearing plate (47) is provided with a plurality of through holes, a plurality of guide sleeves (48) are arranged in the through holes, and the support columns (29) are slidably arranged in the guide sleeves (48).