CN-121988551-A - Engineering supervision method based on BIM system

Abstract

The invention discloses an engineering supervision method based on a BIM system, which comprises a counterweight water tank, wherein a bearing rod is vertically arranged at the top of the counterweight water tank, a supporting and adjusting assembly is arranged on the bearing rod, a water spraying assembly is arranged on the outer side of the bearing rod, a mounting seat is arranged at the top of the bearing rod, a cleaning assembly is arranged on the outer side of the mounting seat, a cylindrical transparent protective shell is arranged above the mounting seat, a first electric push rod is vertically arranged at the top of the cylindrical transparent protective shell, a top mounting plate, a first motor, a connecting rod, a circular cleaning cylinder and an arc brush are arranged in the engineering supervision method based on the BIM system, when the strip-shaped brush and the cleaning plate are cleaned, the circular cleaning cylinder arranged at the bottom of the connecting rod is driven to be sleeved on the outer side of the cylindrical transparent protective shell in the downward moving process of the top mounting plate, and then the first motor is started to rotate so as to drive the circular cleaning cylinder arranged at the bottom of the top mounting plate.

Inventors

• XU DAHAI
• WENG YONGLI
• Pang Zaimin

Assignees

• 海南君佳项目管理有限公司

Dates

Publication Date

20260508

Application Date

20240306

Claims (10)

1. 1. The engineering supervision method based on the BIM system comprises a counterweight water tank (1) and is characterized in that a bearing rod (2) is vertically arranged at the top of the counterweight water tank (1), a supporting and adjusting assembly is arranged on the bearing rod (2), a water spraying assembly is arranged on the outer side of the bearing rod (2), a mounting seat (3) is arranged at the top of the bearing rod (2), a rotating assembly is arranged at the top of the mounting seat (3), a cleaning assembly is arranged on the outer side of the mounting seat (3), a cylindrical transparent protective shell (4) is arranged above the mounting seat (3), a control computer (20) is vertically arranged at the inner top of the cylindrical transparent protective shell (4), an engineering supervision body (21) is arranged at the bottom of the control computer (20), a first electric push rod (7) is vertically arranged at the top of the cylindrical transparent protective shell (4), and a brush cleaning assembly is arranged on the first electric push rod (7); The brush cleaning assembly comprises a top mounting plate (6), a first motor (8), a connecting rod (9), a circular cleaning cylinder (5) and an arc brush (30), wherein the first motor (8) is vertically mounted at the output end of the first electric push rod (7), the top mounting plate (6) is transversely mounted at the output end of the first motor (8), the connecting rods (9) are vertically mounted at the bottoms of the two ends of the top mounting plate (6), the circular cleaning cylinder (5) is arranged outside the first electric push rod (7), the top of the circular cleaning cylinder (5) is mounted at the bottom of the connecting rod (9), and the arc brush (30) is mounted at the outer side of the circular cleaning cylinder (5).
2. 2. The engineering supervision method based on the BIM system according to claim 1, wherein a first C-shaped groove (24) is formed in the top of the cylindrical transparent protective shell (4), and two first T-shaped blocks (23) are slidably installed in the first C-shaped groove (24).
3. 3. The engineering supervision method based on the BIM system according to claim 1, wherein the bottoms of two ends of the top mounting plate (6) are vertically provided with guide circular cylinders (16), the bottoms of the guide circular cylinders (16) are respectively inserted with guide circular columns (17) in a sliding mode, and the bottoms of the two guide circular columns (17) are respectively connected with the tops of the two first T-shaped blocks (23).
4. 4. The engineering supervision method based on the BIM system according to claim 1, wherein a plurality of second motors (18) are uniformly arranged on the inner wall of the circular cleaning cylinder (5), and fan blades (19) are arranged at the output end of each second motor (18).
5. 5. The engineering supervision method based on the BIM system according to claim 1, wherein the rotating assembly comprises a third motor (27), a second T-shaped block (28) and a second C-shaped groove (29), the third motor (27) is vertically installed at the top of the installation seat (3), the output end of the third motor (27) is connected with the bottom of the cylindrical transparent protective shell (4), a circle of second C-shaped groove (29) is formed at the top of the installation seat (3), a plurality of second T-shaped blocks (28) are slidably installed in the second C-shaped groove (29), and the tops of the second T-shaped blocks (28) are all connected to the bottom of the cylindrical transparent protective shell (4).
6. 6. The engineering supervision method based on the BIM system according to claim 1, wherein the cleaning assembly comprises a second electric push rod (11), a cleaning plate (10) and a strip brush (22), the second electric push rod (11) is transversely installed on the outer side of the installation seat (3), the cleaning plate (10) is vertically installed at the output end of the second electric push rod (11), and the strip brush (22) is installed on one side, close to the circular cleaning cylinder (5), of the cleaning plate (10).
7. 7. The engineering supervision method based on the BIM system according to claim 1, wherein two guide grooves (26) are transversely formed in the outer side of the installation seat (3), guide columns (12) are transversely inserted into each guide groove (26) in a sliding mode, and the end portions of the guide columns (12) are connected to the side walls of the cleaning plate (10).
8. 8. The engineering supervision method based on the BIM system as set forth in claim 1, wherein the supporting and adjusting assembly comprises an annular sliding sleeve (14), supporting legs (15), fixing screws (32) and fixing grooves (31), the annular sliding sleeve (14) is sleeved on the outer side of the bearing rod (2), the plurality of supporting legs (15) are rotatably arranged on the outer side of the annular sliding sleeve (14), the fixing screws (32) penetrate through transverse threads on the outer side of the annular sliding sleeve (14), the plurality of fixing grooves (31) are formed in the outer side of the bearing rod (2), and penetrating ends of the fixing screws (32) are inserted into the fixing grooves (31).
9. 9. The method for monitoring engineering based on BIM system as set forth in claim 6, wherein the water spraying assembly comprises a water collecting tank (13) and water spraying heads (25), a plurality of water spraying heads (25) are installed on the cleaning plate (10), the water collecting tank (13) is installed at the outer side of the bearing rod (2) close to the bottom, a water pump is installed in the water collecting tank (13), and the water pump is communicated with the water spraying heads (25) through a pipeline.
10. 10. A method for engineering supervision based on BIM system as claimed in any of the claims 1-9, The method is characterized by comprising the following steps of: step 1, layout: When the engineering supervision system is used, the engineering supervision system is arranged in a designated supervision area of a construction site, the support legs (15) rotatably arranged at the bottom of the annular sliding sleeve (14) are opened, then water is added into the counterweight water tank (1) to carry out counterweight, and then a proper amount of water is added into the water collecting tank (13). Step 2, building a BIM model: The control computer (20) is opened to be connected with the remote supervision terminal in real time in a wireless communication connection mode, the remote supervision terminal establishes a virtual building engineering three-dimensional model by controlling the engineering supervision body (21) in real time through the control computer (20), and the established BIM model is fed back to the remote supervision terminal. And 3, implementing cleaning function demonstration, namely controlling the third motor (27), the first electric push rod (7), the first motor (8) and the second electric push rod (11) to cooperatively work through a control computer (20).

Description

Engineering supervision method based on BIM system Technical Field The invention relates to the technical field of engineering supervision, in particular to an engineering supervision method based on a BIM system. Background The project supervision refers to the commission of the supervision unit with relevant qualification by the first party, and represents a specialized service activity of monitoring the project construction of the second party by the first party according to the project construction files approved by the country, laws and regulations related to the project construction, the project construction supervision contracts and other project construction contracts. During construction of engineering projects, supervision personnel are required to go to the site to conduct supervision so as to timely process each transaction in the construction process and ensure safe and smooth progress of the engineering, but when the engineering projects are constructed on site, the supervision personnel cannot monitor the site daily, so that the progress of the engineering is not facilitated, and therefore, a remote monitoring device for supervision of the construction engineering is required, supervision of the construction site by the supervision personnel is facilitated, the use is facilitated, and a better remote monitoring effect is achieved. Chinese patent with publication number CN212916778U discloses a supervision and monitoring device, including setting up in subaerial support column, the one end that the support column kept away from ground is provided with the dust proof case, the dust proof case is transparent toughened glass case, install the camera through the supporting shoe in the dust proof case, the terminal surface that the dust proof case is close to the camera control end sets up to the clean face, the clean face outside of dust proof case is provided with clean subassembly, the one end that the support column was kept away from to the dust proof case is provided with the mounting bracket, be provided with the piece that sprays that is used for spraying the clean face of dust proof case on the mounting bracket. The application has the effects of improving the definition of the monitoring end of the camera and reducing the workload of manual maintenance. The cleaning device has the following defects that the cleaning surface of the dust box is sprayed by opening the spraying piece, then the cleaning assembly is started to brush the cleaning surface of the dust box, and the whole process is performed with brushing in the spraying process, so that dust attached to the cleaning surface of the dust box can be cleaned, but in the long-time use process, certain dust and dirt can be produced on the brush, and the polluted brush cannot ensure effective cleaning of the dust box. Disclosure of Invention The invention aims to provide an engineering supervision method based on a BIM system, which aims to solve the problem that dust and dirt are generated in the long-time use process of the hairbrush provided in the background art. The technical scheme includes that the engineering supervision method based on the BIM system comprises a counterweight water tank, wherein a bearing rod is vertically arranged at the top of the counterweight water tank, a supporting and adjusting assembly is arranged on the bearing rod, a water spraying assembly is arranged on the outer side of the bearing rod, a mounting seat is arranged at the top of the bearing rod, a rotating assembly is arranged at the top of the mounting seat, a cleaning assembly is arranged on the outer side of the mounting seat, a cylindrical transparent protective shell is arranged above the mounting seat, a control computer is vertically arranged at the inner top of the cylindrical transparent protective shell, an engineering supervision body is arranged at the bottom of the control computer, a first electric push rod is vertically arranged at the top of the cylindrical transparent protective shell, and a brush cleaning assembly is arranged on the first electric push rod; The brush cleaning assembly comprises a top mounting plate, a first motor, a connecting rod, a circular cleaning cylinder and an arc brush, wherein the first motor is vertically mounted at the output end of the first electric push rod, the top mounting plate is transversely mounted at the output end of the first motor, the connecting rods are vertically mounted at the bottoms of two ends of the top mounting plate, the circular cleaning cylinder is arranged outside the first electric push rod, the top of the circular cleaning cylinder is mounted at the bottom of the connecting rod, and the arc brush is mounted outside the circular cleaning cylinder. Through adopting above-mentioned technical scheme, realized clearing up the bar brush on the clearance board. As a further scheme of the invention, a first C-shaped groove is formed in the top of the cylindrical transparent protective