CN212537270U

CN212537270U - Building monitoring device based on BIM technology

Info

Publication number: CN212537270U
Application number: CN202021165680.XU
Authority: CN
Inventors: 王剑阁; 尹祥宇; 贾麟; 储茂海; 刘镇武; 马振燕; 周圣淇; 王乾熙; 刘峻毅; 陈恩欣
Original assignee: Shandong Qingjian Intelligent Building Technology Co ltd
Current assignee: Shandong Qingjian Intelligent Building Technology Co ltd
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2021-02-12
Anticipated expiration: 2030-06-22

Abstract

The utility model relates to the BIM technical field, in particular to a building monitoring device based on the BIM technology, which comprises a containing box, supporting legs arranged below the containing box, a monitoring main body arranged on the containing box, a display screen, a driving component for driving the monitoring main body to rotate, and an adjusting component for adjusting the height of the monitoring main body, wherein the driving component comprises two round cavities correspondingly arranged on the top wall and the bottom wall of the containing box, bearings are respectively arranged in the two round cavities, and a driving pipe connected with the inner rings of the two bearings, a driving motor is arranged in the containing box, a driving gear is arranged on the driving motor, a driven gear is arranged on the driving pipe, the adjusting component comprises a telescopic pipe arranged in the driving pipe, a bearing plate is arranged at the top of the telescopic pipe, two threaded pipes are correspondingly arranged on the driving pipe, a jacking bolt is arranged in the threaded pipe, and a controller is also included, which, and the display screen can be adjusted in the vertical direction, so that the observation comfort of workers is improved.

Description

Building monitoring device based on BIM technology

Technical Field

The utility model belongs to the technical field of the BIM technique and specifically relates to building monitoring devices based on BIM technique.

Background

A building information model, BIM for short in English, is a novel process method for designing, constructing, operating, maintaining and managing projects, BIM is the integration of information and models, is used as the core of BIM technology implementation, takes a database for parametrically expressing engineering projects and functional attributes, takes a computer system as a technical support, takes a network as a data storage and interconnection platform, realizes data transmission along with the whole life cycle of a building, realizes a visual information model for supporting and sharing information for each participant of the projects, and has the advantages of visual and accurate expression, unified information linkage, high prevention and fidelity, simulation, optimization, sharing and the like in the BIM technology, for example, relevant personnel can compare a design model with a built entity during building construction and quality verification, the BIM model facilitates all project participants to know the overall progress of the project and enhances the protection consciousness of the finished product.

In the building construction process, for the smooth going on of guarantee construction safety and construction, often can set up corresponding construction monitoring device at the job site for carry out real-time monitoring to the work progress, this just needs the staff at the during operation, can only pass through the monitoring display, just can accomplish work. However, most of the current displays for detection are fixedly mounted and are not convenient to adjust, and workers need to monitor in real time and cannot leave the displays. And present camera also is mostly fixed mounting, can not adjust, just can not carry out omnidirectional control yet. Has certain use limitation.

Disclose building monitoring device based on BIM technique in the patent of notice No. CN207394242U, notice day 20180522, including the backup pad, the backup pad sets up for the level, and the loop bar of vertical direction is all installed to both sides in the backup pad, and the output of loop bar is equipped with the first telescopic link of vertical direction, and is equipped with locking device between first telescopic link and the loop bar, and the end welding of first telescopic link has the loading board of horizontal direction, and fixed mounting has the camera display screen on the loading board, one side fixed mounting that the cover was established has the mounting panel of vertical direction, and the one end and the backup pad of mounting panel are connected, and one side fixed mounting of mounting panel has the dead lever of horizontal direction.

In the above patent, the building model is observed by using the BIM host, and the building information is observed in real time by using the camera display screen on the spot. However, the display screen of the camera can only be lifted in the vertical direction, the camera cannot detect building information in all directions, and the problem of limited detection angle exists.

Disclosure of Invention

To the not enough of above-mentioned prior art, provide building monitoring devices based on BIM technique, it not only can realize the vertical direction of supervision main part and adjust, also can automatic circumference is adjusted, can realize diversified monitoring, need not manual intervention to also realized the vertical direction of display screen and adjusted, improved the travelling comfort that the workman observed.

In order to solve the technical problem, the utility model adopts the technical proposal that the building monitoring device based on the BIM technology comprises a containing box, supporting legs arranged below the containing box, a monitoring main body and a display screen which are arranged on the containing box, and also comprises a driving component for driving the monitoring main body to rotate and an adjusting component for adjusting the height of the monitoring main body, wherein the driving component comprises two circular cavities which are correspondingly arranged on the top wall and the bottom wall of the containing box, bearings and a driving pipe which is connected with the inner rings of the two bearings are respectively arranged in the two circular cavities, a driving motor is arranged in the containing box, a driving gear is arranged on the driving motor, a driven gear which is matched with the driving gear is arranged on the driving pipe, the adjusting component comprises a telescopic pipe which is arranged in the driving pipe, a bearing plate for bearing the monitoring main body is arranged at the top of the telescopic pipe, and two thread cylinders are correspondingly arranged on the driving, the screw thread cylinder is internally provided with a puller bolt for pulling the telescopic pipe tightly and also comprises a controller.

Foretell building monitoring device based on BIM technique still includes the fine setting subassembly that is used for adjusting the display screen height, the fine setting subassembly includes that two correspondences locate the vertical plate that holds the roof portion surface to and locate the slide rail on two vertical plates respectively, be equipped with the slider with the slide rail adaptation on the slide rail, be equipped with the slide bar that is used for connecting the two between two sliders, be equipped with the fixed plate that is used for bearing the display at the slide bar top, be equipped with the hole site that allows the slide bar to pass through holding roof portion surface, be equipped with the bolt hole respectively at two vertical plate tops, and be used for the tight clamping bolt of slide bar clamp.

The building monitoring device based on the BIM technology is provided with a plurality of heat dissipation holes in the bottom wall of the containing box, and a heat dissipation fan is arranged in the containing box.

The building monitoring device based on the BIM technology further comprises a timer connected with the control signal, when the timer reaches preset time, the timer sends a signal to the controller, and the controller sends a starting signal to the driving motor.

The building monitoring device based on the BIM technology is characterized in that the outer wall of the containing box is provided with a solar cell panel, and a storage battery which is connected with the solar cell panel and used for supplying current to the driving motor, the controller, the cooling fan and the timer is arranged in the containing box.

The utility model discloses building monitoring devices based on BIM technique's beneficial effect is, its vertical direction that not only can realize the supervision main part is adjusted, also can automatic circumference is adjusted, can realize diversified monitoring, need not artificial intervention, and degree of automation is high to also realized the vertical direction of display screen and adjusted, improved the travelling comfort that the workman observed. Through setting up the louvre, and radiator fan can effectively realize holding the incasement high temperature, prevents to damage driving motor. The solar cell panel and the storage battery are arranged, so that the device does not receive the limitation of the position and the length of a power supply and an electric wire, and the construction cost can be effectively reduced.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a schematic structural diagram of a driving assembly;

FIG. 3 is a bottom view of the containment box;

fig. 4 is a schematic structural diagram of the connection between the solar cell panel and the accommodating box.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, 2, 3, 4, the building monitoring device based on BIM technology comprises a containing box 1, a supporting leg 2 arranged below the containing box, a monitoring body 3 arranged on the containing box, a display 4, a camera selectable for the monitoring body, a driving component for driving the monitoring body to rotate, an adjusting component for adjusting the height of the monitoring body, the driving component comprises two round cavities 16 correspondingly arranged on the top wall and the bottom wall of the containing box, bearings 22 arranged in the two round cavities, and a driving tube 5 connected with the two bearing inner rings, a driving motor 6 arranged in the containing box, a driving gear 7 arranged on the driving motor, a driven gear 8 arranged on the driving tube and matched with the driving gear, the adjusting component comprising a telescopic tube 9 arranged in the driving tube, a bearing plate 21 arranged on the top of the telescopic tube and used for bearing the monitoring body, the supervision main body and the bearing plate can be in threaded connection or bonded, two threaded cylinders 10 are correspondingly arranged on the driving pipe, and tightening bolts 11 used for tightening the telescopic pipes are arranged in the threaded cylinders.

Still including being used for adjusting the fine setting subassembly of display screen height, the fine setting subassembly includes that two correspondences locate the vertical plate 12 that holds the roof portion surface, and locate slide rail 13 on two vertical plates respectively, be equipped with the slider with the slide rail adaptation on the slide rail, be equipped with the slide bar 14 that is used for connecting the two between two sliders, be equipped with the fixed plate 15 that is used for bearing the display at the slide bar top, the fixed plate can adopt spiro union or bonding with the display, be equipped with the hole site 17 that allows the slide bar to pass through holding roof portion surface, be equipped with the bolt hole respectively at two vertical plate tops, and be used for the tight clamping bolt 18 of slide bar clamp.

The bottom wall of the containing box is provided with a plurality of heat dissipation holes 19, and a heat dissipation fan is arranged in the containing box. Can set up temperature sensor in holding the case, when the temperature rose to preset temperature, temperature sensor sent signal to controller, and the controller sends start signal to radiator fan, and when the temperature reduced to preset temperature, temperature sensor sent signal to controller, and the controller sends shut-off signal to radiator fan, further improves the automation of this device.

The controller is connected with the control signal, and when the timer reaches preset time, the controller sends a starting signal to the driving motor. For example, a timer can be set to send a signal to the controller every 5 minutes, and the controller receives the timer signal and sends a starting signal to the driving motor to rotate the monitoring body by 90 degrees, so that automatic rotation monitoring is realized. The drive motor can be a servo motor, and the controller is a PLC.

The outer wall of the containing box is provided with a solar cell panel 20, and a storage battery which is connected with the solar cell panel and is used for supplying current to the driving motor, the controller, the cooling fan and the timer is arranged in the containing box.

The outer wall of the containing box is provided with a box door hinged with the containing box, so that the driving motor is convenient to maintain.

During the use, will supervise the main part and pass through the wire and switch-on with the converter, the switch-on, when construction, the signal that the converter was come with the video transmission is converted, then transmits the signal for the display screen through handling, and the staff looks over through the display screen whether the site operation is unanimous with BIM building model, carries out real-time supervision to the construction.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims

1. Building monitoring devices based on BIM technique, its characterized in that: comprises a containing box, supporting legs arranged below the containing box, a monitoring main body arranged on the containing box, a display screen and a driving component used for driving the monitoring main body to rotate, the adjusting component is used for adjusting the height of the monitoring main body, the driving component comprises two round cavities which are correspondingly arranged on the top wall and the bottom wall of the containing box, the two circular cavities are respectively provided with a bearing and a driving pipe connected with the inner rings of the two bearings, a driving motor is arranged in the containing box, a driving gear is arranged on the driving motor, a driven gear matched with the driving gear is arranged on the driving pipe, the adjusting component comprises an extension pipe arranged in the driving pipe, the top of the telescopic pipe is provided with a bearing plate for bearing the supervision main body, the driving pipe is correspondingly provided with two threaded cylinders, and the threaded cylinders are internally provided with tightening bolts for tightening the telescopic pipe.

2. The BIM technology-based building monitoring device as claimed in claim 1, further comprising a fine adjustment assembly for adjusting the height of the display screen, wherein the fine adjustment assembly comprises two longitudinal plates correspondingly disposed on the top surface of the accommodating box, and slide rails respectively disposed on the two longitudinal plates, slide blocks adapted to the slide rails are disposed on the slide rails, a slide bar for connecting the two slide blocks is disposed between the two slide blocks, a fixing plate for bearing the display is disposed on the top of the slide bar, hole sites for allowing the slide bar to pass through are disposed on the top surface of the accommodating box, bolt holes are disposed on the tops of the two longitudinal plates, and clamping bolts are disposed on the tops of the two longitudinal plates for clamping the slide bar.

3. The BIM technology-based building monitoring device as claimed in claim 2, wherein a plurality of heat dissipation holes are formed in the bottom wall of the accommodating case, and a heat dissipation fan is provided in the accommodating case.

4. The BIM technology-based building monitoring device as claimed in claim 3, further comprising a timer connected to the control signal, and when the timer reaches a preset time, the timer sends a signal to the controller, and the controller sends a start signal to the driving motor.

5. The BIM technology-based building monitoring device as claimed in claim 4, wherein a solar panel is provided on an outer wall of the accommodating box, and a storage battery connected to the solar panel for supplying current to the driving motor, the controller, the cooling fan and the timer is provided in the accommodating box.