CN106296133A

CN106296133A - Schedule monitoring device for laboratory engineering construction

Info

Publication number: CN106296133A
Application number: CN201610698442.7A
Authority: CN
Inventors: 迟海鹏; 张怀东; 邢希学; 张京军; 龚长华
Original assignee: Beijing Dynaflow Experiment Technology Co Ltd
Current assignee: Beijing Dynaflow Experiment Technology Co Ltd
Priority date: 2016-08-19
Filing date: 2016-08-19
Publication date: 2017-01-04

Abstract

A kind of Schedule monitoring device for laboratory engineering construction, integrates module, monitoring information integration module and control station including video acquisition network, video delivery network, photographic head list of coordinates, progress data input interface, system database, coordinate data input interface, model coordinate；Described video acquisition network is made up of some video servers and some photographic head of being connected with this video server；Each photographic head described is arranged on each lab construction scene real-time capture and builds picture；Each photographic head described is connected with video server, and by video delivery network, video signal is transmitted back to described photographic head list of coordinates by video server；Effectively prevent the defect that cognition perceptual, comprehensive cannot be provided to manager and builder.It is truly realized and the technology of three-dimensional visualization is incorporated into laboratory engineering construction field, then can reach visualized management and the effect of directly perceivedization cognition.

Description

Schedule monitoring device for laboratory engineering construction

Technical field

The present invention relates to laboratory field of engineering technology, particularly to a kind of Schedule monitoring for laboratory engineering construction Device.

Background technology

Occurred in that the various software system serving laboratory engineering construction industry, relate to engineering management all departments and The units such as design, management, construction, define the application system that all multipair project progress, quality, cost, equipment etc. are managed. But, the management means of the most domestic laboratory engineering information management system is more single, it is impossible to meeting user increases day by day Visualization requirement.For the implementation management of engineering, the report data being generally based on constituent parts carries out data compilation and statistics. So data exhibiting provides perceptual, comprehensively cognitive cannot to manager and builder.And the technology of three-dimensional visualization is drawn Enter to laboratory engineering construction field, then can reach visualized management and the effect of directly perceivedization cognition.

Summary of the invention

For solving the problems referred to above, the invention provides a kind of Schedule monitoring device for laboratory engineering construction, effectively Avoid the defect that cognition perceptual, comprehensive cannot be provided to manager and builder.It is truly realized three-dimensional visualization Technology is incorporated into laboratory engineering construction field, then can reach visualized management and the effect of directly perceivedization cognition.

In order to overcome deficiency of the prior art, the invention provides a kind of Schedule monitoring for laboratory engineering construction The solution of device, specific as follows:

A kind of Schedule monitoring device for laboratory engineering construction, including video acquisition network, video delivery network, takes the photograph As head list of coordinates, progress data input interface, system database, coordinate data input interface, model coordinate integrate module, prison Control information integration module and control station；

Described video acquisition network is by some video servers and some photographic head structures of being connected with this video server Become；Each photographic head described is arranged on each lab construction scene real-time capture and builds picture；Each photographic head described with regard Frequently server is connected, and by video delivery network, video signal is transmitted back to described photographic head coordinate row by video server Table；

Described progress data input interface uploads engineering progress data for each construction unit；This progress data input interface With system database, the engineering progress data uploaded is sent to system database；

Described system database includes engineering model data storehouse；This engineering model data storehouse is previously stored with engineering real Illustraton of model in executing；This engineering model data storehouse sends, according to progress data input interface, the engineering progress data of coming, and output is worked as Illustraton of model group corresponding to front project progress integrates module to model coordinate；

Described coordinate data input interface inputs the position in the whole works scope that mapping obtains for surveying and mapping unit and sits Mark data；This coordinate data input interface input position coordinate data riches all the way deliver to model coordinate integrate module, another road Send to photographic head list of coordinates；

Described photographic head list of coordinates according to being inputted video signal and the position coordinate data that each photographic head is caught, Generate the corresponding lists of each photographic head and its position coordinate, call for monitoring information integration module；

Described model coordinate integrates module by the illustraton of model group corresponding to the current project progress of input and position coordinates number According to integrating, and will integrate after illustraton of model group send to monitoring information integration module；

Controlled the control of described monitoring information integration module, integrates module from photographic head list of coordinates and model coordinate Call the illustraton of model after the required photographic head monitored and coordinate integration, and the video signal and the illustraton of model that are caught by photographic head are integrated Output.

Described system database is additionally provided with construction program data base；This construction program data base deposits in advance Contain the planning data of construction progress；This construction program data base enters being sent, by progress data input interface, the engineering come Degrees of data contrasts with the engineering construction schedule data prestored, and generates corresponding comparison data and exports.

Realize video signal by communication modes wiredly and/or wirelessly between described photographic head and video server to pass Defeated.

The invention has the beneficial effects as follows: this management system is by by live real-time video, engineering progress data, engineering model Many-sided on-site supervision data such as figure and mapping coordinate parameters are integrated, thus it is the most defeated to form comprehensive monitoring signal Go out.By such monitoring management mode, manager more directly perceived, comprehensively can obtain real-time monitoring information, be conducive to Manager strengthens the macro-view cognition to laboratory engineering, improves the efficiency of engineering management.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the schematic diagram of a kind of detailed description of the invention of scarfing unit unit provided by the present invention；

Fig. 3 is the structural representation of the first scarfing unit unit provided by the present invention；

Fig. 4 is the sectional view of a kind of detailed description of the invention of scarfing unit provided by the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described further.

1-Fig. 4 understands with reference to the accompanying drawings, and a kind of Schedule monitoring device for laboratory engineering construction of the present invention, including regarding Frequency collection network, video delivery network, photographic head list of coordinates, progress data input interface, system database, coordinate data are defeated Incoming interface, model coordinate integrate module, monitoring information integration module and control station；

The most existing photographic head has a pressure-sensitive adhesive coating often by its surface-coated, described pressure-sensitive adhesive coating with The surface of support platform is bonding, is thus fixed effect, and gel coating often viscous effect, such structure tends to be occurred The problem loosened, thus cause photographic head to be not easy connection and firmly loosen and cause crushing effect the best.

The surface of the most described photographic head is connected with the surface supporting platform by connector；

The concrete structure of described connector is: it contains the first scarfing unit unit A06 being fixed on the surface supporting platform Interlocking mouth A07 is had with the second scarfing unit unit A01 on the surface being fixed on photographic head, described first scarfing unit unit A06 And the hollow cavity A03 communicated with described interlocking mouth A07, described first scarfing unit unit A06 is also with glass bronze material Hook A04, described hook A04 with hollow cavity A03 the most in opposite directions, the most also bends towards the second scarfing unit unit A01；Institute Stating the second scarfing unit unit A01 is list structure, and the bottom of described second scarfing unit unit A01 is with scarf joint A09, described embedding Joint A09 imbeds described interlocking mouth A07, and the most described scarf joint A09 is hooked in described hook with lower end A08 prominent outwardly In A04.

So via adding described hook A04, the lower end A08 of described scarf joint A09 is hooked in described hook A04, because The counteracting force of the glass bronze material compression recovery of described hook A04 is strong, when assembling photographic head and support platform, and can be via pressure The counteracting force that contracting is restored allows the first scarfing unit unit A06 and the second scarfing unit unit A01 be halved together, the most described hook A04 restores, and is hooked on the A08 of lower end, accordingly even when pipeline is subjected to displacement or under external action, the first scarfing unit unit A06 with The combination of the second scarfing unit unit A01 is the most firm, will not produce and mutually loosen the problem departed from so that guarantee follow-up utilization More smoothly.

The cross section of the bottom of described second scarfing unit unit A01 is: top strip shape body A02, bottom strip shape body A08 and connection The vertical rhabodoid A09 of knot top strip shape body A02 and bottom strip shape body A08, wherein bottom strip shape body A08 just constitute described under End A08.

The bending section of described hook A04 becomes the section of bending section persistently to change frame according to the horizontal section of hollow cavity A03 Structure, additionally the section of bending section presents flaring shape structure towards the direction close to interlocking mouth A07.So persistently change via section Framework, can improve assembling speed so that the assembling of the second scarfing unit unit A01.

The structure that the section of described bending section is constant sized by also being able to.

Described hook A04 with described lower end A08 contact while with contact surface, contact surface is with described scarf joint The centrage of A09 keeps abreast of.Via setting up the contact surface of radian keeping pi/2 with described lower end A08, just can more avoid the The problem that one scarfing unit unit A06 and the second scarfing unit unit A01 occurs to loosen.

In the way of accompanying drawing illustrates, the present invention is described above, it will be understood by those of skill in the art that the disclosure It is not limited to embodiments described above, in the case of without departing from the scope of the present invention, can make a variety of changes, change and replace Change.

Claims

1. the Schedule monitoring device for laboratory engineering construction, it is characterised in that include that video acquisition network, video pass Defeated network, photographic head list of coordinates, progress data input interface, system database, coordinate data input interface, model coordinate are whole Compound module, monitoring information integration module and control station；

Described video acquisition network is made up of some video servers and some photographic head of being connected with this video server；Institute State each photographic head and be arranged on each lab construction scene real-time capture construction picture；Each photographic head described and Video service Device is connected, and by video delivery network, video signal is transmitted back to described photographic head list of coordinates by video server；

Described progress data input interface uploads engineering progress data for each construction unit；This progress data input interface be System data base, sends the engineering progress data uploaded to system database；

Described system database includes engineering model data storehouse；This engineering model data storehouse is previously stored with in engineering construction Illustraton of model；This engineering model data storehouse sends, according to progress data input interface, the engineering progress data of coming, and exports current work Illustraton of model group corresponding to Cheng Jindu integrates module to model coordinate；

Described coordinate data input interface inputs the position coordinates number in the whole works scope that mapping obtains for surveying and mapping unit According to；This coordinate data input interface input position coordinate data riches all the way deliver to model coordinate integrate module, another road send To photographic head list of coordinates；

Described photographic head list of coordinates, according to being inputted video signal and the position coordinate data that each photographic head is caught, generates Each photographic head and the corresponding lists of its position coordinate, call for monitoring information integration module；

Described model coordinate is integrated module and the illustraton of model group corresponding to the current project progress of input is entered with position coordinate data Row integrate, and will integrate after illustraton of model group send to monitoring information integration module；

Controlled the control of described monitoring information integration module, integrates module from photographic head list of coordinates and model coordinate and calls Illustraton of model after the required photographic head monitored and coordinate integration, and the video signal and the illustraton of model integration that are caught by photographic head are defeated Go out.

Schedule monitoring device for laboratory engineering construction the most according to claim 1, it is characterised in that described system Data base is additionally provided with construction program data base；This construction program data base is previously stored with the meter of construction progress Draw data；This construction program data base will be sent next engineering progress data by progress data input interface and prestored Engineering construction schedule data contrast, generate corresponding comparison data and export.

Schedule monitoring device for laboratory engineering construction the most according to claim 1, it is characterised in that described shooting Video signal transmission is realized by communication modes wiredly and/or wirelessly between head and video server.

Schedule monitoring device for laboratory engineering construction the most according to claim 1, it is characterised in that additionally described The surface of photographic head is connected with the surface supporting platform by connector；

The concrete structure of described connector is: its contain be fixed on support platform surface on the first scarfing unit unit be fixed on The second scarfing unit unit on the surface of photographic head, described first scarfing unit unit has interlocking mouth and with described interlocking mouth phase Logical hollow cavity, described first scarfing unit unit is also with the hook of glass bronze material, and described hook is with faced by hollow cavity Face in opposite directions, the most also towards the second scarfing unit unit bending；Described second scarfing unit unit is list structure, described second interlocking The bottom of portion's unit is with scarf joint, and described scarf joint imbeds described interlocking mouth, the most described scarf joint with highlighting outwardly Lower end be hooked in described hook；

The cross section of the bottom of described second scarfing unit unit is: top strip shape body, bottom strip shape body and connection top strip shape body With the vertical rhabodoid of bottom strip shape body, wherein bottom strip shape body just constitutes described lower end；

The bending section of described hook becomes the section of bending section persistently to change framework according to the horizontal section of hollow cavity, additionally bends The section in portion presents flaring shape structure towards the direction close to interlocking mouth；

The structure that the section of described bending section is constant sized by also being able to；

Described hook with described lower end contact while with contact surface, contact surface is protected with the centrage of described scarf joint Hold side by side.