CN109740219B - Hyperboloid glass curtain wall pre-assembling system based on BIM - Google Patents

Abstract

The invention relates to a hyperboloid glass curtain wall pre-assembling system based on BIM, which relates to the technical field of building information model information and solves the problems that when a processed curtain wall component is installed on site, the curtain wall component cannot be installed due to production errors, assembling angles and the like or does not meet design requirements, so that the curtain wall component needs to be returned to a processing plant for improvement, thereby causing economic loss and construction period delay. The invention has the effect of solving the problem of high field installation difficulty of the hyperboloid glass curtain wall.

Description

Hyperboloid glass curtain wall pre-assembling system based on BIM

Technical Field

The invention relates to the technical field of building information model information, in particular to a hyperboloid glass curtain wall pre-assembling system based on BIM.

Background

The glass curtain wall is divided into a frame supporting glass curtain wall, a point supporting glass curtain wall and a unit glass curtain wall.

The frame supporting glass curtain wall is a glass curtain wall with the periphery of a glass panel supported by a metal frame.

The point support glass curtain wall is a glass curtain wall composed of a glass panel, a point support device and a support structure. The support structure is in the form of glass rib support, single section steel or steel pipe support, truss support and tension rod cable system support structure.

The unitized curtain wall is a building curtain wall which is made up by using various wall weights and supporting frames and can be directly mounted on main body structure.

In modern building design, architects pursue new, odd and special artistic effects of building appearance, and building facades with a plurality of three-dimensional free-form surface shapes appear. The basic expression method is to use the special-shaped glass curtain wall and express the special-shaped glass curtain wall through the change form of the curved surface of the panel, which brings great difficulty to the manufacturing and installation of the hyperboloid glass curtain wall. When the processed curtain wall component is installed on site, the curtain wall component cannot be installed due to production errors, assembly angles and the like or does not meet design requirements, so that the curtain wall component needs to be modified and improved after being returned to a processing plant, economic loss and construction period delay are caused, and there is room for improvement.

Disclosure of Invention

The invention aims to provide a BIM-based hyperboloid glass curtain wall preassembling system which has the effect of solving the problem of high field installation difficulty of a hyperboloid glass curtain wall.

The above object of the present invention is achieved by the following technical solutions:

the system comprises a central processing unit, a conversion device for converting a two-dimensional drawing of the hyperboloid glass curtain wall into a three-dimensional panoramic model, and a glass curtain wall component three-dimensional model information database for storing information conditions of the glass curtain wall component three-dimensional model converted by the conversion device, wherein the information conditions of the glass curtain wall component three-dimensional model are defined to comprise material, specification, size, elevation, angle, node practice and detail construction information of the glass component;

the BIM-based hyperboloid glass curtain wall pre-assembly system also comprises a production device for producing the hyperboloid glass curtain wall based on the three-dimensional model generated by the conversion device, a three-dimensional panoramic data acquisition device for acquiring real-time processing on-site three-dimensional panoramic data of the hyperboloid glass curtain wall, and a processing device;

if the information gap between the three-dimensional panoramic data acquired by the three-dimensional panoramic data acquisition device and the three-dimensional model data constructed by the glass curtain wall and called in the three-dimensional model information database of the glass curtain wall component exceeds the preset range of the central processing unit, the central processing unit starts the processing device to process until the information gap is restored to be within the preset range of the central processing unit.

Through adopting above-mentioned technical scheme, can carry out actual hyperboloid glass curtain wall production based on the two-dimensional drawing of hyperboloid glass curtain wall through conversion equipment, glass curtain wall component three-dimensional model information database, apparatus for producing's setting to carry out real-time comparison through three-dimensional panorama data acquisition device, glass curtain wall component three-dimensional model information database to the three-dimensional model of actual production hyperboloid glass curtain wall and hyperboloid glass curtain wall, also can process through corresponding processingequipment under the great circumstances of comparison gap, make actual production's hyperboloid glass curtain wall accord with actual requirement.

The invention is further provided with: the system also comprises a responsible person mobile phone number database and a short message notification module, wherein the responsible person mobile phone number database stores responsible person mobile phones numbers corresponding to the production devices;

if the central processing unit starts the processing device to process and cannot recover the information gap to the range preset by the central processing unit within the preset time of the central processing unit, the central processing unit calls the mobile phone number of the corresponding responsible person in the mobile phone number database of the responsible person and notifies the corresponding responsible person through the short message notification module.

Through adopting above-mentioned technical scheme, can inform in the responsible person in the form of SMS under the condition that processing apparatus can't reduce the gap through the setting of responsible person's phone number database, SMS notification module.

The invention is further provided with: the processing problem database is used for storing the processing problems that the processing device can not reduce the information gap between the hyperboloid glass curtain wall information produced by the production device and the three-dimensional model data constructed by the glass curtain wall;

if the central processing unit starts the processing device to process and cannot restore the information gap to the range preset by the central processing unit within the preset time of the central processing unit, the central processing unit calls the processing problems in the processing problem database and loads the processing problems in the short messages sent to corresponding responsible persons.

By adopting the technical scheme, the processing problems can be timely notified to the corresponding responsible person when the processing device can not reduce the information gap indeed through the setting of the processing problem database and the central processing unit.

The invention is further provided with: the system also comprises professional modification equipment for modifying the hyperboloid glass curtain wall with problems to the qualified hyperboloid glass curtain wall, a professional modification equipment information database for modifying the average time of the hyperboloid glass curtain wall by the professional modification equipment, a transportation speed database for storing the average speed of transporting the hyperboloid glass curtain wall, a route planning device and a time calculation module;

if the central processing unit starts the processing device to process and cannot restore the information gap to the range preset by the central processing unit within the preset time of the central processing unit, the central processing unit calls the position of the special modification equipment in the information database of the special modification equipment to serve as an end point, the position of the preset production equipment serves as a starting point, all routes are planned through the route planning device, the shortest route is selected, the length of the shortest route serves as a dividend, the transportation speed called in the transportation speed database serves as a divisor, the transportation time of the glass curtain wall is calculated, and meanwhile, the central processing unit calls the average modification time of the special modification equipment in the information database of the special modification equipment, and the sum of the transportation time of the glass curtain wall and the average modification time of the special modification equipment serves as the time required for maintaining the glass curtain wall;

meanwhile, the central processing unit is based on the first total time of the production device for producing the hyperboloid glass curtain wall as the re-production time of the hyperboloid glass curtain wall;

the CPU takes a scheme with shorter time in maintenance time of the hyperboloid glass curtain wall and production time of the hyperboloid glass curtain wall as a determination scheme, and loads the scheme into a short message sent to a corresponding responsible person.

By adopting the technical scheme, the required time when the hyperboloid glass curtain wall needs to be specially modified can be calculated through the special modification equipment information database, the transportation speed database, the route planning device and the time calculation module, and compared with the time when the hyperboloid glass curtain wall is produced again by the production device, the scheme with shorter relative time between the two is selected.

The invention is further provided with: the system also comprises a hyperboloid glass curtain wall shipment time database storing hyperboloid glass curtain wall shipment time, a modification cost database storing modification cost of the hyperboloid glass curtain wall and a hyperboloid glass curtain wall production cost database storing cost required by production equipment for producing the hyperboloid glass curtain wall;

the central processing unit invokes the hyperboloid glass curtain wall shipment time in the hyperboloid glass shipment time database, and simultaneously invokes the time for confirming that the hyperboloid glass curtain wall cannot be processed by the processing device by the central processing unit, and calculates the residual time;

if the maintenance time of the hyperboloid glass curtain wall and the production time of the hyperboloid glass curtain wall are smaller than the remaining time, the central processing unit calls the modification cost in the modification cost database, and meanwhile calls the production cost of the time required by the hyperboloid glass curtain wall in the production cost database of the hyperboloid glass curtain wall, and the central processing unit takes the smaller one of the modification cost and the production cost as a matched scheme and loads the matched scheme into a short message sent to a responsible person.

By adopting the technical scheme, the time for producing the hyperboloid glass curtain wall again or whether the hyperboloid glass curtain wall meets the time requirement or not can be indirectly determined through the shipment time database of the hyperboloid glass curtain wall, and corresponding cost is determined through the cost database and the modification cost database required by the production of the hyperboloid glass curtain wall under the condition of meeting the time requirement, so that the central processing unit can finish the process in a time period and simultaneously select a scheme with less cost.

The invention is further provided with: the system also comprises a voice notification module;

and the central processing unit starts the short message notification module to notify the responsible person and synchronously starts the voice notification module to perform voice notification.

Through adopting above-mentioned technical scheme, through the setting of voice notification module, can carry out voice notification through voice notification module when the short message notification module carries out the short message notification to better suggestion is to corresponding responsible man.

The invention is further provided with: the voice notification module is a voice alarm.

By adopting the technical scheme, as the voice notification module is a voice alarm, the corresponding cost can be reduced while voice prompt is realized.

The invention is further provided with: the short message notification module is a short message alarm.

By adopting the technical scheme, as the short message notification module is a short message alarm, the corresponding cost can be reduced while the short message is realized.

In summary, the beneficial technical effects of the invention are as follows: the three-dimensional model information database of the glass curtain wall component, the conversion device and the production device are combined, the production can be carried out based on the information of the required hyperboloid glass curtain wall, and the processing device can be started to complete processing when problems occur.

Drawings

FIG. 1 is a system block diagram I of a BIM-based hyperboloid glass curtain wall preassembling system of the present invention.

FIG. 2 is a second system block diagram of the BIM-based hyperboloid glass curtain wall preassembling system of the present invention.

In the figure, 1, a central processing unit; 2. a conversion device; 3. a three-dimensional model information database of the glass curtain wall component; 4. a production device; 5. a three-dimensional panoramic data acquisition device; 6. a processing device; 7. the system is responsible for a human phone number database; 8. a short message notification module; 9. a processing problem database; 10. professional modification equipment information database; 11. a transportation speed database; 12. route planning means; 13. a time calculation module; 14. a hyperboloid glass curtain wall shipment time database; 15. modifying a fee database; 16. a database of cost required for hyperboloid glass curtain wall production; 17. and a voice notification module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the pre-assembly system for the hyperboloid glass curtain wall based on the BIM disclosed by the invention comprises a central processing unit 1, a conversion device 2 for converting a two-dimensional drawing of the hyperboloid glass curtain wall into a three-dimensional panoramic model, and a three-dimensional model information database 3 for storing information conditions of the three-dimensional model of the glass curtain wall member converted by the conversion device 2, wherein the information conditions for defining the three-dimensional model of the glass curtain wall member comprise materials, specifications, sizes, elevation, angles, node practice and detailed construction information of the glass member.

The pre-assembly system of the hyperboloid glass curtain wall based on the BIM further comprises a production device 4 for producing the hyperboloid glass curtain wall based on the three-dimensional model generated by the conversion device, a three-dimensional panoramic data acquisition device 5 for acquiring real-time processing on-site three-dimensional panoramic data of the hyperboloid glass curtain wall, and a processing device 6.

The hyperboloid glass curtain wall processing and perfecting process based on the technical characteristics is as follows: if the information gap between the three-dimensional panoramic data acquired by the three-dimensional panoramic data acquisition device 5 and the three-dimensional model data of the glass curtain wall construction retrieved in the three-dimensional model information database 3 of the glass curtain wall component exceeds the preset range of the central processor 1, the central processor 1 starts the processing device 6 to process until the information gap is restored to be within the preset range of the central processor 1.

Further considering that when the hyperboloid glass curtain wall with problems cannot be perfected, the BIM-based hyperboloid glass curtain wall preassembling system further comprises a responsible person mobile phone number database 7 for storing the responsible person mobile phone numbers corresponding to the production device 4 and a short message notification module 8, wherein the short message notification module 8 is a short message alarm.

The specific process for realizing the notification based on the technical characteristics is as follows: if the central processing unit 1 starts the processing device 6 to process and cannot restore the information gap to the range preset by the central processing unit 1 within the preset time of the central processing unit 1, the central processing unit 1 invokes the mobile phone number of the corresponding responsible person in the mobile phone number database 7 of the responsible person and notifies the corresponding responsible person through the short message notification module 8.

In addition, in order to ensure that the existing problems can be timely notified to the corresponding responsible person when the hyperboloid glass curtain wall cannot be perfected.

The hyperboloid glass curtain wall pre-assembling system based on BIM further comprises a processing problem database 9 for storing processing problems that the processing device 6 can not reduce the information gap between the hyperboloid glass curtain wall information produced by the production device 4 and the glass curtain wall construction three-dimensional model data.

If the central processing unit 1 starts the processing device 6 to process, and the information gap cannot be restored to the range preset by the central processing unit 1 within the preset time of the central processing unit 1, the central processing unit 1 retrieves the processing problem in the processing problem database 9 and loads the processing problem in the short message sent to the corresponding responsible person.

As shown in fig. 2, further considering whether the problem occurred in the hyperboloid glass curtain wall can not be modified again or modified professionally by a professional modifying device, the BIM-based pre-assembling system for the hyperboloid glass curtain wall further comprises a professional modifying device for modifying the hyperboloid glass curtain wall with the problem to a qualified hyperboloid glass curtain wall, a professional modifying device information database 10 where the professional modifying device is located and the average time of the hyperboloid glass curtain wall is modified by the professional modifying device, a transportation speed database 11 for transporting the average speed of the hyperboloid glass curtain wall, a route planning device 12 and a time calculating module 13.

The selection process based on the technical characteristics is as follows: if the central processing unit 1 starts the processing device 6 to process and cannot restore the information gap to the range preset by the central processing unit 1 within the preset time of the central processing unit 1, the central processing unit 1 calls the position of the special modification equipment in the special modification equipment information database 10 as an end point, takes the position of the preset production equipment as a starting point, plans all routes through the route planning device 12 and selects the shortest route, calculates the transportation time of the glass curtain wall by taking the length of the shortest route as a dividend and the transportation speed called in the transportation speed database 11 as a divisor, and meanwhile, the central processing unit 1 calls the average modification time of the special modification equipment in the special modification equipment information database 10 and takes the sum of the transportation time of the glass curtain wall and the average modification time of the special modification equipment as the time required for maintaining the glass curtain wall; meanwhile, the central processing unit 1 takes the first total time of producing the hyperboloid glass curtain wall based on the production device 4 as the re-production time of the hyperboloid glass curtain wall.

The central processing unit 1 takes a scheme with shorter time in maintenance time of the hyperboloid glass curtain wall and production time of the hyperboloid glass curtain wall as a determination scheme, and loads the scheme into a short message sent to a corresponding responsible person.

Further considering that when both schemes can be completed within the shipment time, the hyperboloid glass curtain wall preassembling system based on BIM also comprises a hyperboloid glass curtain wall shipment time database 14 storing hyperboloid glass curtain wall shipment time, a modification cost database 15 storing modification cost of the hyperboloid glass curtain wall, a hyperboloid glass curtain wall production required cost database 16 storing cost required for producing the hyperboloid glass curtain wall by production equipment, and a voice notification module 17 which is a voice alarm.

The comparison process of the specific cost is as follows: the central processing unit 1 invokes the hyperboloid glass curtain wall shipment time in the hyperboloid glass shipment time database 14, and simultaneously invokes the time for confirming that the hyperboloid glass curtain wall can not be processed by the processing device 6 by the central processing unit 1, and calculates the residual time; if the maintenance time of the hyperboloid glass curtain wall and the re-production time of the hyperboloid glass curtain wall are smaller than the remaining time, the central processing unit 1 invokes the modification cost in the modification cost database 15, and invokes the production cost of the time required for producing the hyperboloid glass curtain wall in the hyperboloid glass curtain wall production cost database 16, and the central processing unit 1 takes the scheme matched with the smaller one of the modification cost and the production cost as a confirmation scheme and loads the scheme into the short message sent to the responsible person.

Further, in order to avoid that the short message notification module 8 cannot perform timely notification, the hyperboloid glass curtain wall further comprises a voice notification module 17; the central processing unit 1 starts the short message notification module 8 to notify the responsible person and synchronously starts the voice notification module 17 to perform voice notification.

The implementation principle of the embodiment is as follows:

the three-dimensional model information database 3 and the production device 4 of the glass curtain wall component can be produced based on a two-dimensional graph of the glass curtain wall through the central processing unit 1, the conversion device 2 and the production device 4, and when a problem occurs, the corresponding processing modification is carried out through the central processing unit 1 and the processing device 6, and corresponding responsible persons can be timely notified through the responsible person number database 7, the short message notification module 8 and the processing problem database 9.

In addition, through the professional modification equipment information database 10, the transportation speed database 11, the route planning device 12, the time calculation module 13, the hyperboloid glass curtain wall shipment time database 14, the modification cost database 15 and the cost database required by hyperboloid production, the modification of the hyperboloid glass curtain wall can be performed by selecting a proper scheme based on actual needs.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (4)

1. BIM-based hyperboloid glass curtain wall pre-assembly system comprises a central processing unit (1), and is characterized in that: the system further comprises a conversion device (2) for converting the two-dimensional drawing of the hyperboloid glass curtain wall to form a three-dimensional panoramic model, and a glass curtain wall component three-dimensional model information database (3) for storing the information condition of the three-dimensional model of the glass curtain wall component converted by the conversion device (2), wherein the information condition of the three-dimensional model of the glass curtain wall component is defined to comprise the material quality, specification, size, elevation, angle, node practice and detail construction information of the glass component;

the BIM-based hyperboloid glass curtain wall pre-assembly system also comprises a production device (4) for producing the hyperboloid glass curtain wall based on the three-dimensional model generated by the conversion device, a three-dimensional panoramic data acquisition device (5) for acquiring real-time processing on-site three-dimensional panoramic data of the hyperboloid glass curtain wall, and a processing device (6);

if the three-dimensional panoramic data acquired by the three-dimensional panoramic data acquisition device (5) and the three-dimensional model data of the glass curtain wall construction retrieved in the three-dimensional model information database (3) of the glass curtain wall component are compared, and the information gap is beyond the range preset by the central processing unit (1), the central processing unit (1) starts the processing device (6) to process until the information gap is restored to be within the range preset by the central processing unit (1);

the hyperboloid glass curtain wall pre-assembly system based on BIM also comprises a responsible person phone number database (7) and a short message notification module (8) which store the responsible person phone numbers corresponding to the production device (4);

if the central processing unit (1) starts the processing device (6) to process, and the information gap cannot be restored to be within the range preset by the central processing unit (1) within the preset time of the central processing unit (1), the central processing unit (1) calls the mobile phone number of the corresponding responsible person in the responsible person mobile phone number database (7) and notifies the corresponding responsible person through the short message notification module (8);

the BIM-based hyperboloid glass curtain wall pre-assembly system also comprises a processing problem database (9) for storing the processing problems that the processing device (6) can not reduce the information gap between the hyperboloid glass curtain wall information produced by the production device (4) and the glass curtain wall construction three-dimensional model data;

if the central processing unit (1) starts the processing device (6) to process, and the information gap cannot be restored to be within the range preset by the central processing unit (1) within the preset time of the central processing unit (1), the central processing unit (1) calls the processing problems in the processing problem database (9) and loads the processing problems in the short messages sent to corresponding responsible persons;

the pre-assembly system of the hyperboloid glass curtain wall based on BIM also comprises a professional modification device information database (10) which stores professional modification devices for modifying the hyperboloid glass curtain wall with problems to a qualified hyperboloid glass curtain wall, positions of the professional modification devices and average time of the hyperboloid glass curtain wall modified by the professional modification devices, a transportation speed database (11) which stores average speed of transportation of the hyperboloid glass curtain wall, a route planning device (12) and a time calculation module (13);

if the central processing unit (1) starts the processing device (6) to process, the information gap cannot be restored to the preset range of the central processing unit (1) within the preset time of the central processing unit (1), the central processing unit (1) calls the position of the special modification equipment in the special modification equipment information database (10) as an end point, the position of the preset production equipment is taken as a starting point, all routes are planned through the route planning device (12) and the shortest route is selected, the length of the shortest route is taken as a dividend, the transportation speed called in the transportation speed database (11) is taken as a divisor, the transportation time of the glass curtain wall is calculated, and meanwhile, the central processing unit (1) calls the average modification time of the special modification equipment in the special modification equipment information database (10), and the sum of the transportation time of the glass curtain wall and the average modification time of the special modification equipment is taken as the maintenance time of the glass curtain wall;

meanwhile, the central processing unit (1) uses the first total time of the production of the hyperboloid glass curtain wall based on the production device (4) as the re-production time of the hyperboloid glass curtain wall;

the central processing unit (1) takes a scheme with shorter time in maintenance time of the hyperboloid glass curtain wall and production time of the hyperboloid glass curtain wall again as a determination scheme, and loads the scheme into a short message sent to a corresponding responsible person;

the system also comprises a hyperboloid glass curtain wall shipment time database (14) which stores the hyperboloid glass curtain wall shipment time, a modification cost database (15) which stores the modification cost of the hyperboloid glass curtain wall, and a hyperboloid glass curtain wall production cost database (16) which stores the cost required by production equipment for producing the hyperboloid glass curtain wall;

the central processing unit (1) invokes the hyperboloid glass curtain wall shipment time in the hyperboloid glass shipment time database (14), and simultaneously invokes the time for confirming that the hyperboloid glass curtain wall cannot be processed through the processing device (6) by the central processing unit (1), and calculates the residual time;

if the maintenance time of the hyperboloid glass curtain wall and the re-production time of the hyperboloid glass curtain wall are smaller than the remaining time, the central processing unit (1) invokes the modification cost in the modification cost database (15) and invokes the production cost of the hyperboloid glass curtain wall in the production cost database (16) of the hyperboloid glass curtain wall, and the central processing unit (1) takes the smaller matched scheme of the modification cost and the production cost as a confirmation scheme and loads the matched scheme in a short message sent to a responsible person.

2. The BIM-based hyperboloid glass curtain wall preassembling system according to claim 1, wherein: also comprises a voice notification module (17);

the CPU (1) starts the short message notification module (8) to notify the responsible person and synchronously starts the voice notification module (17) to perform voice notification.

3. The BIM-based hyperboloid glass curtain wall preassembling system according to claim 2, wherein: the voice notification module (17) is a voice alarm.

4. A BIM-based hyperboloid glass curtain wall preassembling system according to claim 3, wherein: the short message notification module (8) is a short message alarm.

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