CN111143929A - Spatial layout design method and system for laboratory - Google Patents
Spatial layout design method and system for laboratory Download PDFInfo
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- CN111143929A CN111143929A CN201911341852.6A CN201911341852A CN111143929A CN 111143929 A CN111143929 A CN 111143929A CN 201911341852 A CN201911341852 A CN 201911341852A CN 111143929 A CN111143929 A CN 111143929A
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Abstract
A method and a system for designing a spatial layout of a laboratory, the method comprising the steps of: the method comprises the steps that a server receives a laboratory plane layout request sent by a user, wherein the laboratory plane layout request comprises a laboratory plane outline drawing, size information and functional area information of the laboratory plane outline, and position information of an electric box, a water source and a gate in the outline of the laboratory plane outline; sending a laboratory plane layout request to an engineer so that the engineer divides the outline of the laboratory plane into a plurality of functional areas and adds laboratory articles in the functional areas to generate a laboratory plane layout; receiving a laboratory plane layout diagram sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall, and adding a three-dimensional model of an electric box, a water source, a gate and laboratory articles in the three-dimensional functional area space to generate the laboratory three-dimensional layout diagram. The invention can more quickly and intuitively present the laboratory design effect.
Description
Technical Field
The invention relates to the technical field of laboratory design, in particular to a method and a system for designing spatial layout of a laboratory.
Background
For the design and construction of a laboratory, the state has relevant standards and specifications, and the requirements of power supply, water supply, gas supply and the like in the laboratory are stipulated. Before the laboratory begins to build, need constructor and customer to carry out effective communication, current communication mode often has that the data is unclear, professional drawing must professional person just can understand, can not know user's demand fast, can not see multiple problems such as design effect directly perceivedly, leads to communicating unsmooth from this, influences the laboratory construction progress.
Disclosure of Invention
The invention provides a spatial layout design method and a spatial layout design system for a laboratory, which can more quickly and intuitively present the laboratory design effect.
According to a first aspect of the present invention, an embodiment of the present invention provides a spatial layout design method for a laboratory, including the following steps: the method comprises the steps that a server receives a laboratory plane layout request sent by a user, wherein the laboratory plane layout request comprises a laboratory plane outline drawing, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory plane outline; sending the laboratory plane layout request to an engineer so that the engineer divides the laboratory plane outline into a plurality of functional areas required by a user and adds laboratory articles in the functional areas to generate a laboratory plane layout diagram containing the functional areas and the laboratory articles; receiving the laboratory plane layout sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall, and adding three-dimensional models of an electric box, a water source, a gate and laboratory articles in a three-dimensional functional area space according to the positions of the electric box, the water source, the gate and the laboratory articles to generate a laboratory three-dimensional layout; and sending the laboratory three-dimensional layout to the user.
Preferably, when the laboratory article added by the engineering personnel belongs to the associable article, the associated article of the laboratory article is determined according to the preset mapping relationship between the associable article and the associated article, and the associated article is added at the position of the laboratory article.
Preferably, when the laboratory article added to the functional area by the engineer belongs to the prohibited article of the functional area, the laboratory article is deleted from the functional area and an alarm is issued.
Preferably, after an engineer divides the outline of the plane of the laboratory into a plurality of functional areas required by a user, the shape and the area of the functional areas are determined, a functional area article allocation scheme conforming to the shape and the area is selected from a plurality of preset functional area article allocation schemes, and laboratory articles recorded in the functional area article allocation scheme are added in the functional areas according to the functional area article allocation scheme.
Preferably, the laboratory articles include water-consuming articles and electric articles, and the step of adding the three-dimensional model of the laboratory articles in the three-dimensional functional area space specifically includes: generating an optimal pipeline path from a water source to water using articles arranged along the wall according to the water using articles and the positions of the water source, and adding a three-dimensional model of a water using pipeline on the optimal pipeline path; and generating an optimal line path from the electric box to the electric goods, which is arranged along the wall body, according to the positions of the electric goods and the electric box, and adding a three-dimensional model of the electric line on the optimal line path.
Preferably, the laboratory plan outline drawing is drawn by a user on a preset drawing interface, and the laboratory plan outline drawing is provided with a preset size grid, an outline drawing tool and a standard model representing an electric box, a water source and a gate.
Preferably, before sending the laboratory floor plan request to an engineer, the method further includes the following steps: and judging whether the laboratory plane layout request meets basic conditions or not, sending the laboratory plane layout request to an auditor when the laboratory plane layout request meets the basic conditions, and sending the laboratory plane layout request to engineering personnel and subsequent steps after the auditor feeds back audit passing information.
Preferably, the method further comprises the following steps: and when the laboratory plane layout request does not accord with the basic condition or the auditor feeds back the audit failure information, feeding back a return result to the user to wait for the user to resend the laboratory plane layout request.
Preferably, the method further comprises the following steps: when confirmation information of a user on the laboratory three-dimensional layout drawing is received, generating an order containing the laboratory three-dimensional layout drawing, and sending the order to an engineer; and when rejection information of the user to the laboratory three-dimensional layout drawing is received, feeding back the rejection information to engineering personnel so that the engineering personnel regenerate the laboratory planar layout drawing.
According to a second aspect of the present invention, an embodiment of the present invention provides a spatial layout design system for a laboratory, including: the system comprises a request receiving module, a data processing module and a data processing module, wherein the request receiving module is used for receiving a laboratory plane layout request sent by a user, and the laboratory plane layout request comprises a laboratory plane outline map, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory periphery; the plane design module is used for sending the laboratory plane layout request to an engineer so that the engineer can divide the outline of the laboratory plane into a plurality of functional areas required by a user and add laboratory articles in the functional areas, and a laboratory plane layout chart containing the functional areas and the laboratory articles is generated; the three-dimensional design module is used for receiving the laboratory plane layout sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall body, and adding three-dimensional models of an electric box, a water source, a gate and laboratory articles in a three-dimensional functional area space according to the positions of the electric box, the water source, the gate and the laboratory articles to generate a laboratory three-dimensional layout; and the data sending module is used for sending the laboratory three-dimensional layout to the user.
The invention has the following technical effects:
the invention is characterized in that a user sends a laboratory plane layout request, an engineer forms a laboratory plane layout according to the laboratory plane layout request of the user, and a server automatically converts the laboratory plane layout into a three-dimensional laboratory three-dimensional layout, so that the inconvenience brought by the traditional communication mode is eliminated, the user requirement can be responded more quickly, the three-dimensional laboratory layout is generated, and the user can watch the three-dimensional laboratory layout more intuitively.
Drawings
FIG. 1 is a schematic diagram of a hardware architecture of a laboratory spatial layout design system according to an embodiment of the present invention;
FIG. 2 is a flow chart of a method for designing a spatial layout of a laboratory according to an embodiment of the present invention;
FIG. 3 is a plan profile view of a laboratory in accordance with one embodiment of the present invention;
FIG. 4 is a plan layout view of a laboratory in accordance with one embodiment of the present invention;
fig. 5 is a schematic structural diagram of a spatial layout design system of a laboratory according to an embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.
The hardware environment according to the present invention is shown in fig. 1, and includes a server 1, a user terminal 2, and an engineer terminal 3. The invention can be based on a B/S framework, and a user and an engineer can log in the system through browsers on a user terminal 2 and an engineer terminal 3 respectively.
Based on this system, the embodiment of the present invention provides a method for designing a spatial layout of a laboratory, which is described from the perspective of a server, as shown in fig. 2, and includes the following steps:
s100: the server receives a laboratory plane layout request sent by a user, wherein the laboratory plane layout request comprises a laboratory plane outline drawing, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory plane outline.
After logging into the system, the user may choose to enter a laboratory floor plan request publishing interface, which may include a drawing layout block and an explanation block. In the drawing layout block, a user is required to manually draw a plane outline of a laboratory, and generally, the plane outline of the laboratory is a rectangle, and can be other polygons or polygons with arcs. And drawing a preliminary laboratory plane outline drawing by a user according to the actual site condition. The size of the field is crucial to the design of a laboratory, so that the size of the plane outline of the laboratory is indispensable, a user can manually mark the length of each constituent edge of the outline of the plane outline of the laboratory, the system also has a size calculation function, and the length of a line segment drawn by the user can be automatically marked according to a proportional relation. The electric box, the water source and the gate are also very important for the design of a laboratory, the drawing plate block can be provided with a model of the electric box, the water source and the gate, a user can directly insert the drawing plate block into a drawn graph, and the position of the drawing plate block can be adjusted according to the actual situation of a site, so that the position of the electric box, the water source and the gate in a plane outline diagram of the laboratory corresponds to the actual position of the electric box, the water source and the gate in the site. When the system determines the positions of the electric box, the water source and the gate model in the peripheral outline of the laboratory, the positions can be determined according to the position points of the electric box, the water source and the gate model on the line segment of the peripheral outline.
The description block may be presented as an input box in which a user may input functional area information including how many functional areas the whole laboratory needs to be divided into, what each functional area is, requirements of each functional area, and the like. Of course, the description block may also be omitted, and the user may insert the functional region information in the drawing block by inserting text, where the inserted text should not overlap the drawn graphics for easy recognition. After all the laboratory flat layout requests are completed, the user can save the drawn and filled information, and then click the sending button to send out the laboratory flat layout requests.
The contour diagram of the planar outline of the laboratory as shown in fig. 3 is a rectangular parallelepiped, and the marked information is the dimension information of the planar outline of the laboratory, wherein the dimension of the mark is 8m long and 6m wide. The electrical box, water supply and gates are shown as a special model with accompanying text marks, the locations of which are usually located on the outline.
S200: sending the laboratory plane layout request to an engineer so that the engineer divides the laboratory plane outline into a plurality of functional areas required by a user and adds laboratory articles in the functional areas to generate a laboratory plane layout diagram containing the functional areas and the laboratory articles;
and after receiving the laboratory plane layout request sent by the user, the server sends the laboratory plane layout request to engineering personnel. The engineering personnel can carry out the design of the plane layout of the laboratory on the basis of the original plane outline profile of the laboratory. Specifically, the engineer divides the space in the outline of the plane of the laboratory according to the information of the functional area required by the user to form a plurality of functional areas required by the user, and the shape and the area of the functional areas need to be finished by the engineer depending on the design experience. For the separated closed functional area, an engineer is required to add a door, the system can detect whether the functional area is provided with the door, if the door does not exist, the system can give out a warning, and a laboratory floor plan cannot be stored.
After the division of the functional zones is completed, an engineer may add laboratory articles in each functional zone, the addition of the laboratory articles being determined by the function of the functional zone, usually the articles necessary or frequently used in the functional zone. The system can provide a model of the laboratory item and the engineer can insert the corresponding model into the laboratory floor plan and make position adjustments as needed. After the functional area and the laboratory articles are designed, the engineering personnel can save the functional area and the laboratory articles to form a final finished laboratory plan layout.
In order to facilitate the engineering personnel to check the laboratory plane layout request sent by the user in time, the system can send a prompt to the engineering personnel, and specifically can send a prompt message to the contact mode reserved by the engineering personnel.
The laboratory floor plan shown in fig. 4 is designed based on fig. 3, the original laboratory floor contour is divided into three independent functional areas 4, the closed functional areas are provided with doors 40, the area of each functional area can be calculated in equal proportion according to the drawn contour line, and engineers can record the type and the effect of each functional area. Laboratory articles 41 are arranged in each functional area, and information such as types and requirements of the laboratory articles 41 is recorded.
S300: and receiving the laboratory plane layout diagram sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall, and adding three-dimensional models of the electronic box, the water source, the gate and laboratory articles in the three-dimensional functional area space according to the positions of the electronic box, the water source, the gate and the laboratory articles to generate the laboratory three-dimensional layout diagram.
After receiving the laboratory floor plan sent by the engineering personnel, the server can identify the outline, the electric box, the water source, the gate and the laboratory articles of each functional area, the outline of each functional area is characterized as the wall structure of the functional area, the server establishes a three-dimensional wall model at the outline position of the functional area, and adds the three-dimensional electric box, the water source, the gate and the laboratory article model to corresponding positions in the functional area. The three-dimensional models of walls, electronic boxes, water sources, gates and laboratory articles are various, engineering personnel can set the corresponding relation between each model and the type of the function area suitable for the model, and in the process of establishing the three-dimensional models and adding the three-dimensional models, the corresponding three-dimensional models are selected for the function areas according to the corresponding relation between each model and the type of the function areas. If the walls corresponding to the two adjacent functional areas are different, two sides of the wall separating the two functional areas have special visual presentation, and particularly, the side located at the corresponding functional area is provided with a model chartlet required by the corresponding functional area. Therefore, the original laboratory plane layout map is converted into a laboratory three-dimensional layout map.
S400: and sending the laboratory three-dimensional layout to the user. After receiving the laboratory three-dimensional layout, the user can open and view the layout, and can select confirmation or rejection according to the requirement of the user.
In one embodiment, many items in a laboratory are associated with each other or are set up in sets, such as desks and chairs, hand washing tables and faucets, and when one of these associated with each other or set up, its associated item or set is also typically necessary. For these items in relation to each other or in sets, the addition can be made in a more simplified manner to reduce the operations of the engineer.
The system is prestored with a mapping relation between the associable article and the associated article, judges whether the laboratory article added by an engineer belongs to the associable article or not in the process of adding the laboratory article by the engineer, determines the associated article of the laboratory article according to the mapping relation when the laboratory article added by the engineer belongs to the associable article, and adds the determined associated article at the position of the laboratory article.
Every laboratory article all has the area of placing of predetermineeing, and at the in-process that the engineering personnel added the laboratory article, the system calculates whether the actual area of the position of placing of laboratory article is greater than or equal to the area of placing of predetermineeing of this laboratory article, and the actual area of the position of placing when the laboratory article is greater than or equal to the area of placing of predetermineeing of this laboratory article, allows to add this laboratory article, otherwise, will refuse to add this laboratory article. A location where laboratory items have been placed, the area of which will be occupied so that the laboratory items do not overlap or collide with each other.
In one embodiment, the specific requirements of each functional area are taken into account, and laboratory items that cannot be placed in the corresponding functional area are prohibited from being placed in the functional area. For example, a functional area requiring drying cannot be provided with a water-using article such as a washbasin, and a functional area requiring low temperature cannot be provided with a laboratory article that generates heat.
The system can prestore the article storehouses of the laboratory articles which can be placed in each functional area, and only the laboratory articles belonging to the article storehouses can be placed in the functional areas. The items in the item library can be displayed in a list form in the interface, and a user can place the laboratory items in an inserting mode. After the engineering personnel add the laboratory articles to the functional area, the system can determine the type of the functional area where the laboratory articles are placed, then judges whether the laboratory articles exist in the article library corresponding to the functional area, if the laboratory articles do not exist, the laboratory articles are determined to be forbidden articles, and the system can delete the laboratory articles from the functional area and send an alarm to prevent the engineering personnel from adding the forbidden articles.
In one embodiment, the system is pre-stored with a plurality of functional area item allocation plans, each functional area item allocation plan noting the type, shape and area of functional area to which the plan applies, and noting the laboratory items and locations to be added. After an engineer divides the outline of the plane of the laboratory into a plurality of functional areas required by a user, the system determines the shape and the area of each functional area, and selects a functional area article allocation scheme which is in accordance with the type, the shape and the area of the functional area from a plurality of functional area article allocation schemes, so that laboratory articles are automatically added into the functional areas according to the content recorded in the functional area article allocation scheme. Therefore, articles in a laboratory can be automatically added, and convenience is brought to the operation of engineering personnel.
In one embodiment, the added laboratory articles comprise water using articles and electric articles, the water using articles comprise various laboratory equipment, taps, water outlet valves and the like which need to be connected with water pipes, and the electric articles comprise various laboratory equipment, sockets, lighting lamps and the like which need to be powered. The method comprises the following steps of adding a three-dimensional model of a laboratory article in a three-dimensional functional area space, and specifically comprises the following steps: generating an optimal pipeline path from a water source to water using articles arranged along a three-dimensional wall according to the positions of the water using articles and the water source, and adding a three-dimensional model of a water using pipeline on the optimal pipeline path; and generating an optimal line path from the electric box to the electric goods, which is arranged along the wall body, according to the positions of the electric goods and the electric box, and adding a three-dimensional model of the electric line on the optimal line path. Therefore, the line direction and the pipeline direction in the functional area can be observed more visually.
In one embodiment, a pre-set drawing interface is displayed on the laboratory floor plan request issuing interface, the drawing interface having a size grid, outline drawing tools, and standard models representing electrical boxes, water supplies, and gates. The contour drawing tool mainly comprises a straight line section or a curve section for drawing a contour, the size grid has a length calculating function, the length of a line drawn by a user can be directly calculated, and the size mark is automatically displayed after conversion according to a preset proportion. The standard models of the electrical box, water supply and gates can be inserted directly by the user, and the user can adjust their position after insertion.
In one embodiment, before sending the laboratory floor plan request to an engineer, the method further comprises the following steps: and judging whether the laboratory plane layout request meets basic conditions or not, sending the laboratory plane layout request to an auditor when the laboratory plane layout request meets the basic conditions, and sending the laboratory plane layout request to engineering personnel and subsequent steps after the auditor feeds back audit passing information.
The basic conditions are that whether a laboratory plane layout request provided by a user meets basic design requirements or not, and specifically include whether the area of a laboratory plane outline is larger than a preset area or not and whether an electric box, a water source and a gate are all added in a laboratory plane outline map or not. The scale of the laboratory has established standards, and the laboratory must be larger than a certain area, otherwise the laboratory cannot be built, and the positions of an electric box, a water source and a gate must be known before construction, so the requirements are required. And only after the requirements are met, the laboratory plane layout request is determined to meet the basic conditions, so that the laboratory plane layout request is sent to an auditor for auditing, the auditor can feed back the information of the auditor to the server after the audit is passed, and the server executes the subsequent steps after receiving the information.
And when the laboratory plane layout request does not accord with the basic condition or the audit personnel feeds back the audit failure information, the laboratory plane layout request submitted by the user is returned, the server feeds back the return result and the return reason to the user, and the user can resend the modified laboratory plane layout request. Therefore, the method is equivalent to screening the information sent by the user, removing the information which does not meet the requirement and reducing unnecessary work of engineering personnel.
In one embodiment, after step S400, the following steps are further included: after consulting the laboratory three-dimensional layout, the user can choose to accept the design or reject the design, and the user feeds back confirmation information representing acceptance of the laboratory three-dimensional layout or rejection information representing rejection of the laboratory three-dimensional layout to the server. And when the server receives the confirmation information of the user, generating an order containing the three-dimensional layout of the laboratory, and sending the order to engineering personnel. When the server receives rejection information of the user on the laboratory three-dimensional layout drawing, the rejection information is fed back to engineering personnel, the engineering personnel can regenerate the laboratory planar layout drawing, and finally a new laboratory three-dimensional layout drawing is designed until the requirements of the user are met.
An embodiment of the present invention further provides a spatial layout design system for a laboratory, as shown in fig. 5, including: the system comprises a request receiving module 100, a data processing module and a data processing module, wherein the request receiving module is used for receiving a laboratory plane layout request sent by a user, and the laboratory plane layout request comprises a laboratory plane outline map, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory periphery; the plane design module 200 is configured to send the laboratory plane layout request to an engineer, so that the engineer divides a laboratory plane outline into a plurality of functional areas required by a user, adds laboratory articles in the functional areas, and generates a laboratory plane layout diagram including the functional areas and the laboratory articles; the three-dimensional design module 300 is used for receiving the laboratory plane layout sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall, and adding three-dimensional models of an electric box, a water source, a gate and laboratory articles in a three-dimensional functional area space according to the positions of the electric box, the water source, the gate and the laboratory articles to generate a laboratory three-dimensional layout; a data sending module 400, configured to send the three-dimensional layout of the laboratory to the user.
In an embodiment, the flat panel design module 200 is further configured to, when the laboratory article added by the engineer belongs to the associable article, determine the associated article of the laboratory article according to a preset mapping relationship between the associable article and the associated article, and add the associated article at the location of the laboratory article.
In one embodiment, the floor plan module 200 is further configured to delete a laboratory item added to a functional zone by an engineer from the functional zone and issue an alarm when the laboratory item belongs to a prohibited item of the functional zone.
In one embodiment, the floor planning module 200 is further configured to determine the shape and area of the functional area after the engineer divides the plan outline of the laboratory into a plurality of functional areas required by the user, select a functional area item allocation plan corresponding to the shape and area from a plurality of preset functional area item allocation plans, and add the laboratory items recorded by the functional area item allocation plan in the functional area according to the functional area item allocation plan.
In one embodiment, the laboratory items include water use items and electricity use items, and the three-dimensional design module 300 is further configured to generate an optimal pipeline path from a water source to the water use items arranged along the wall according to the positions of the water use items and the water source, and add a three-dimensional model of a water use pipeline on the optimal pipeline path; and generating an optimal line path from the electric box to the electric goods, which is arranged along the wall body, according to the positions of the electric goods and the electric box, and adding a three-dimensional model of the electric line on the optimal line path.
In one embodiment, the laboratory plan outline drawing is drawn by a user on a preset drawing interface, and the laboratory plan outline drawing is provided with a preset size grid, outline drawing tools and a standard model representing an electric box, a water source and a gate.
In an embodiment, the system further comprises a screening module, wherein the screening module is configured to judge whether the laboratory floor layout request meets basic conditions before the laboratory floor layout request is sent to an engineer, send the laboratory floor layout request to an auditor when the laboratory floor layout request meets the basic conditions, and send the laboratory floor layout request to the engineer and subsequent steps thereof after the auditor feeds back audit passing information.
In one embodiment, the result returning module is further configured to feed back a return result to the user to wait for the user to resend the laboratory floor layout request after the laboratory floor layout request does not meet the basic condition or the auditor feeds back the audit failure information.
In one embodiment, the system further comprises a result confirmation module, configured to generate an order containing the laboratory three-dimensional layout drawing when receiving confirmation information of the user on the laboratory three-dimensional layout drawing, and send the order to an engineer; and when rejection information of the user to the laboratory three-dimensional layout drawing is received, feeding back the rejection information to engineering personnel so that the engineering personnel regenerate the laboratory planar layout drawing.
For a specific description of the spatial layout design system of the laboratory, reference may be made to the embodiment of the spatial layout design method of the laboratory, which is not described herein again.
The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and the practice of the invention is not to be considered limited to those descriptions. It will be apparent to those skilled in the art that a number of simple derivations or substitutions can be made without departing from the inventive concept.
Claims (10)
1. A spatial layout design method for a laboratory is characterized by comprising the following steps:
the method comprises the steps that a server receives a laboratory plane layout request sent by a user, wherein the laboratory plane layout request comprises a laboratory plane outline drawing, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory plane outline;
sending the laboratory plane layout request to an engineer so that the engineer divides the laboratory plane outline into a plurality of functional areas required by a user and adds laboratory articles in the functional areas to generate a laboratory plane layout diagram containing the functional areas and the laboratory articles;
receiving the laboratory plane layout sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall, and adding three-dimensional models of an electric box, a water source, a gate and laboratory articles in a three-dimensional functional area space according to the positions of the electric box, the water source, the gate and the laboratory articles to generate a laboratory three-dimensional layout;
and sending the laboratory three-dimensional layout to the user.
2. The spatial layout design method of laboratory according to claim 1, characterized in that: when the laboratory article added by the engineering personnel belongs to the associable article, determining the associated article of the laboratory article according to the preset mapping relation between the associable article and the associated article, and adding the associated article at the position of the laboratory article.
3. The spatial layout design method of laboratory according to claim 1, characterized in that: and when the laboratory articles added into the functional area by the engineering personnel belong to the prohibited articles of the functional area, deleting the laboratory articles from the functional area and giving an alarm.
4. The spatial layout design method of laboratory according to claim 1, characterized in that: after dividing the outline of the plane of the laboratory into a plurality of functional areas required by a user, an engineer determines the shape and the area of the functional areas, selects a functional area article distribution scheme conforming to the shape and the area from a plurality of preset functional area article distribution schemes, and adds the laboratory articles recorded in the functional area article distribution scheme in the functional areas according to the functional area article distribution scheme.
5. The method according to claim 1, wherein the laboratory articles comprise water-consuming articles and electricity-consuming articles, and the step of adding the three-dimensional model of the laboratory articles in the three-dimensional functional area space specifically comprises: generating an optimal pipeline path from a water source to water using articles arranged along the wall according to the water using articles and the positions of the water source, and adding a three-dimensional model of a water using pipeline on the optimal pipeline path; and generating an optimal line path from the electric box to the electric goods, which is arranged along the wall body, according to the positions of the electric goods and the electric box, and adding a three-dimensional model of the electric line on the optimal line path.
6. The method as claimed in claim 1, wherein the planar outline drawing of the laboratory is drawn by a user on a predetermined drawing interface, and the planar outline drawing of the laboratory has a predetermined size grid, outline drawing tools, and a standard model representing an electric box, a water source, and a gate.
7. The method of claim 1, wherein before sending the laboratory floorplan request to the engineer, the method further comprises: and judging whether the laboratory plane layout request meets basic conditions or not, sending the laboratory plane layout request to an auditor when the laboratory plane layout request meets the basic conditions, and sending the laboratory plane layout request to engineering personnel and subsequent steps after the auditor feeds back audit passing information.
8. The method of claim 7, further comprising the steps of: and when the laboratory plane layout request does not accord with the basic condition or the auditor feeds back the audit failure information, feeding back a return result to the user to wait for the user to resend the laboratory plane layout request.
9. The method of laboratory spatial layout design according to claim 1, further comprising the steps of: when confirmation information of a user on the laboratory three-dimensional layout drawing is received, generating an order containing the laboratory three-dimensional layout drawing, and sending the order to an engineer; and when rejection information of the user to the laboratory three-dimensional layout drawing is received, feeding back the rejection information to engineering personnel so that the engineering personnel regenerate the laboratory planar layout drawing.
10. A laboratory spatial layout design system, comprising:
the system comprises a request receiving module, a data processing module and a data processing module, wherein the request receiving module is used for receiving a laboratory plane layout request sent by a user, and the laboratory plane layout request comprises a laboratory plane outline map, size information of the laboratory plane outline, functional area information and position information of an electric box, a water source and a gate in the outline of the laboratory periphery;
the plane design module is used for sending the laboratory plane layout request to an engineer so that the engineer can divide the outline of the laboratory plane into a plurality of functional areas required by a user and add laboratory articles in the functional areas, and a laboratory plane layout chart containing the functional areas and the laboratory articles is generated;
the three-dimensional design module is used for receiving the laboratory plane layout sent by engineering personnel, converting the plane functional area outline into a three-dimensional wall body, and adding three-dimensional models of an electric box, a water source, a gate and laboratory articles in a three-dimensional functional area space according to the positions of the electric box, the water source, the gate and the laboratory articles to generate a laboratory three-dimensional layout;
and the data sending module is used for sending the laboratory three-dimensional layout to the user.
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| CN113449364A (en) * | 2021-06-22 | 2021-09-28 | 上海柏涛建筑设计有限公司 | Building rapid layout method based on rolling modules |
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