CN108009144B - Automatic ordering method and system for curtain wall surface skin - Google Patents

Abstract

The invention relates to a curtain wall skin automatic ordering method and a system thereof, wherein the method comprises the steps of establishing a curtain wall skin model, and implanting the curtain wall skin model into an ordering program of a curtain wall panel; setting plate internal parameters of the actual panel model; building plates and panels of an actual panel model, and numbering; acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data; and obtaining a blanking list according to the plate information and the section information. According to the invention, the model is implanted into the ordering program of the curtain wall panel, the entire ordering flow of the curtain wall panel is compiled into an independent program in a parameterization mode, the independent ordering program is packed and solidified, and a port for inputting and outputting parameters is reserved, so that a user can obtain related ordering data of the panel only by inputting the required parameters according to different projects, the use is simple, the accurate and efficient ordering is realized, the accuracy and the high efficiency of the ordering of the panel are improved, and the applicability is strong.

Description

Automatic ordering method and system for curtain wall surface skin

Technical Field

The invention relates to construction of a building curtain wall, in particular to an automatic curtain wall skin ordering method and an automatic curtain wall skin ordering system.

Background

Along with the diversification of the existing building forms and the increasing popularity of super high-rise buildings, the contradiction between the construction period and the efficiency is gradually highlighted, and great challenges are brought to curtain wall construction enterprises and practitioners. Meanwhile, the continuous push of the 4.0 era of industry, intelligent production, has become a technological innovation which can not be avoided by the traditional manufacturing industry.

Traditional curtain wall panel is made an order and is mainly relied on technical staff to confirm the kind of panel according to the design drawing, measures the panel size one by one and draws corresponding processing drawing, counts out all kinds of plate quantity and makes into the form and accomplishes the work of making an order. The process is complicated, the workload is huge, and the requirement on the level of attention of technicians is high. This approach is not only inefficient but also relatively error prone and directly results in economic losses.

Therefore, an automatic ordering method for the curtain wall skin needs to be designed, so that accurate and efficient ordering is realized, and the accuracy and the efficiency of ordering the panel are improved.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic curtain wall skin ordering method and an automatic curtain wall skin ordering system.

In order to achieve the purpose, the invention adopts the following technical scheme: the curtain wall skin automatic ordering method comprises the following steps:

establishing a curtain wall skin model, and implanting the curtain wall skin model into a lower single program of a curtain wall panel;

setting plate internal parameters of the actual panel model;

building plates and panels of an actual panel model, and numbering;

acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data;

and acquiring a blanking list according to the plate information and the section information.

The further technical scheme is as follows: the method comprises the steps of establishing a curtain wall skin model, and implanting the curtain wall skin model into a lower single program of a curtain wall panel, and comprises the following specific steps:

building a curtain wall skin model;

performing line segmentation on the curtain wall skin model to form a curtain wall skin line model;

and implanting the curtain wall skin line model into a lower single program of a curtain wall panel.

The further technical scheme is as follows: and setting parameters in the panel of the actual panel model, wherein the parameters comprise at least one of the dividing size in the curtain wall panel, the seam receding distance between the panel and dividing lines, the numbering rule of the panel and the path of an output data file.

The further technical scheme is as follows: the method comprises the following steps of obtaining a blanking list according to plate information and section information, wherein the method comprises the following specific steps:

calculating and counting the length of the section bar according to the plate information;

and integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars.

The further technical scheme is as follows: and forming a blanking list of various types of profiles according to the length of the profile and profile information, wherein the profile information comprises at least one of profile material, section and linear density.

The invention also provides an automatic ordering system for the curtain wall surface skin, which comprises a model processing unit, a parameter setting unit, an establishing unit, a data exporting unit and an ordering acquiring unit;

the model processing unit is used for establishing a curtain wall skin model and implanting the curtain wall skin model into a lower single program of a curtain wall panel;

the parameter setting unit is used for setting the plate internal parameters of the actual panel model;

the building unit is used for building plates and panels of the actual panel model and numbering the plates and the panels;

the data export unit is used for acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data;

and the blanking list acquiring unit is used for acquiring the blanking list according to the plate information and the section information.

The further technical scheme is as follows: the curtain wall skin model building method comprises a skin model building module, a segmentation module and an implantation module;

the skin model building module is used for building a curtain wall skin model;

the dividing module is used for performing line division on the curtain wall skin model to form a curtain wall skin line model;

the implantation module is used for implanting the curtain wall skin line model into a lower single program of a curtain wall panel.

The further technical scheme is as follows: the blanking list acquisition unit comprises a calculation module and an integration module;

the calculating module is used for calculating and counting the length of the section bar according to the plate information;

the integration module is used for integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars.

Compared with the prior art, the invention has the beneficial effects that: according to the automatic ordering method for the curtain wall skin, disclosed by the invention, the model is implanted into the ordering program of the curtain wall panel, the ordering flow of the whole curtain wall panel is compiled into an independent program in a parameterized mode, the independent ordering program is packaged and solidified into an independent ordering program, and a port for inputting and outputting parameters is reserved, so that a user can obtain related ordering data of the panel only by inputting the required parameters according to different projects according to requirements, ordering work is easily and quickly completed, a corresponding panel processing diagram is derived, the defects of the traditional ordering mode are overcome, the method is simple to use, accurate and efficient ordering is realized, the accuracy and the efficiency of ordering the panel are improved, and the applicability is strong.

The invention is further described below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a flow chart of an automatic curtain wall skin ordering method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an automatic curtain wall skin ordering method according to an embodiment of the present invention;

FIG. 3 is a schematic view of a curtain wall skin model according to an embodiment of the present invention;

FIG. 4 is a schematic view of a curtain wall skin line model according to an embodiment of the present invention;

fig. 5 is a schematic diagram of obtaining a drop sheet according to the plate information and the profile information according to an embodiment of the present invention;

FIG. 6 is a schematic view of a blanking sheet according to an embodiment of the present invention;

fig. 7 is a schematic view of an aluminum alloy keel blanking statistical sheet according to an embodiment of the invention;

FIG. 8 is a flow chart of an automatic curtain wall skin ordering system according to an embodiment of the present invention;

FIG. 9 is a schematic view of a curtain wall outer skin model of a tower building of 350 meters in a sentry building according to an embodiment of the invention;

FIG. 10 is a schematic view of a blanking list of a tower building of 350 meters in a sentry box according to an embodiment of the present invention;

FIG. 11 is a schematic view of a curtain wall outer skin model of a Zhuhai IFC project according to an embodiment of the present invention;

fig. 12 is a schematic view of a discharging list of the zhushai IFC project according to an embodiment of the present invention.

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

As shown in fig. 1 to 12, in the embodiment, the curtain wall skin automatic ordering method provided in this embodiment can be applied to data statistics, material ordering, and processing diagram design processes of a curtain wall skin panel in a construction stage of a building curtain wall, especially to data statistics, material ordering, and processing diagram design of a straight quadrilateral panel, so as to implement accurate and efficient ordering, and improve accuracy and efficiency of ordering the panel.

As shown in fig. 1, the present embodiment provides an automatic curtain wall skin ordering method, which includes:

s1, establishing a curtain wall skin model, and implanting the curtain wall skin model into a lower single program of a curtain wall panel;

s2, setting plate internal parameters of the actual panel model;

s3, building plates and panels of the actual panel model, and numbering;

s4, acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data;

and S5, acquiring the blanking list according to the plate information and the section information.

For the above step S1, in some embodiments, the step of establishing the curtain wall skin model and implanting the curtain wall skin model into the curtain wall panel lower order program includes the following specific steps:

s11, establishing a curtain wall skin model;

s12, performing line segmentation on the curtain wall skin model to form a curtain wall skin line model;

and S13, implanting the curtain wall skin line model into a lower single program of a curtain wall panel.

The step S11 is specifically completed by rhinoceros software and a plug-in Grasshopper thereof.

For the above steps S12 and S13, the arithmetic units with various functions are used to compile the entire curtain wall panel ordering process into an independent program, and package and solidify the independent program, so that the user can easily complete ordering by inputting required parameters according to different items.

And for the step S2, setting parameters in the panels of the actual panel model, where the parameters include at least one of the cell size inside the curtain wall panel, the back-seam distance between the panel and the cell line, the numbering rule of the panel, and the path of the output data file. The ports of the required input and output parameters are reserved in the ordering program, so that the user can obtain the relevant ordering data of the panel only by inputting the required parameters according to different projects, easily and quickly finish ordering work and export the corresponding panel processing drawing.

For the step S3, the plates and panels of the actual model of the curtain wall panel are established through the operation of the main program, and are numbered reasonably and orderly.

In the step S4, the actual panel model result is mainly an entire model of the panel, and the presentation information is items that need to be noted when the curtain wall building is performed.

Further, in some embodiments, the step of obtaining the drop sheet from the plate information and the profile information in the step of S5 includes the following specific steps:

s51, calculating and counting the length of the section bar according to the plate information;

and S52, integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars.

For the step S51, the length information of the sectional materials such as the columns and the beams is calculated and counted according to the data of the plate.

And for the step S52, forming a blanking list of various types of profiles by using the length of the profile and profile information, wherein the profile information includes at least one of profile material, section and linear density.

The step S5 completes the ordering work of two main materials, namely the panel and the keel of the curtain wall plate.

The whole ordering method is integrated on an application program of the mobile terminal, the program interface is friendly, the operation is simple, the applicability is strong, the complex work is completed by a computer, technicians can easily complete ordering tasks only by performing certain simple and necessary operations, and the productivity is greatly liberated.

The method comprises the steps of inputting a skin model and skin cells into a lower order program as models, inputting cells, the size of slits, keel sections, output paths and numbering rules in a plate block into the lower order program as parameters, inputting a glass wool plate standard processing diagram (reference) and a keel standard processing diagram (reference) into the lower order program as drawing standards, and outputting a panel number, a keel number, a panel blanking list, a keel blanking list, a panel processing diagram and a keel processing diagram by combining three input contents.

Specifically, the method has three characteristics of applicability, accuracy and specificity; the applicability is embodied as follows: the method is suitable for unit type curtain walls and component type curtain walls, the input model is an outer skin unit cell model, the unit height is one floor height (the number and the size of cells in one floor height unit can be adjusted through parameters), and the unit width is a transverse cell width. The plug-in is suitable for four-point coplanar plane units, and the curtain walls under different working conditions only need to adjust and input corresponding skin unit models, the number and the size of the cells in the units, the size of gaps among the panels and other input parameters to output results. The accuracy is embodied as follows: the curtain wall unit grid skin model of the project is input into an automatic ordering program, after various parameters are set according to different characteristics of each project, the automatic ordering program of the skin can derive a visual skin model and panel ordering data, the generated subcutaneous ordering data of each unit skin and the visual model have numbers in one-to-one correspondence, the derived data can be checked and rechecked on the visual model through the corresponding numbers, and the ordering correctness is ensured through the checking of the data and the visual model. The curtain wall panel data is automatically led out through the plug-in, and the panel standard processing diagram is used as a template, so that the processing diagram of the curtain wall panel can be automatically generated. The specificity is shown as follows: the condition input and result output of automatic ordering of the skin have regionality, and the regions with approximately the same logic rules are input together as one part, for example, the large surface and the corner part of the curtain wall need to be input respectively due to different sizes of gaps, and the top and bottom closing-up part and the standard part need to be input respectively due to different sizes of the gaps. If the types of cells in the unit are large, the number of the cells is inconsistent, or the skin of the curtain wall has other specificities, the related technicians are required to adjust plug-in programs in a targeted manner to meet the requirements of special projects.

For example: shenzhen mansion 350 m tower building curtain wall engineering is completed by using the curtain wall skin automatic downward single method, the project is located in Shenzhen Shentian CBD central area, the total height of the building is 375 m, the middle of the whole building body is large, two ends of the whole building body are small, inward and outward inclination exists, each layer of building plane is rectangular, four corners of the plane are circular arcs with the radius of 9 m, and all four faces of east, west, south and north are provided with gradual change grooves. The main curtain wall system is a unit type glass curtain wall, and 9046 unit plates and 3600 unit plates are all specially-shaped plates, so that the sizes of glass lattices are more, the sizes of the glass lattices are large (parallelogram, trapezoid and curved-surface plates), and the blanking, processing diagram design and subsequent construction of a skin material are all challenging. The automatic skin ordering plug-in unit is adopted to complete the ordering of the glass panel and the aluminum back panel of the building curtain wall and the processing drawing, and the ordering statistics of materials such as aluminum materials, adhesive tapes and structural adhesives is completed; as shown in fig. 9-10. For another example, in the pearl sea IFC project curtain wall engineering, the project is located in a central business area of a cross door of a pearl sea violin, the building height is 332.7 meters, the total curtain wall area is about 6.2 ten thousand square meters, and a tower mainly adopts a unit type glass curtain wall design. The tower building is a torsional hyperboloid with a centrosymmetric appearance, a plane fitting curved surface method is adopted, a large number of non-rectangular unit plates exist, and V-shaped seams or X-shaped seams exist among a large number of plates. Because the skin glass of the curtain wall with the special modeling has more regular sizes and types and is mostly non-rectangular glass, the design, processing or construction of the project has greater difficulty, as shown in fig. 11 to 12; the automatic skin ordering plug-in unit is adopted to complete the ordering of the glass panel and the aluminum back panel of the building curtain wall and the processing drawing, and the ordering statistics of materials such as aluminum materials, adhesive tapes and structural adhesives is completed.

According to the automatic ordering method for the curtain wall skin, the model is implanted into the ordering program of the curtain wall panel, the ordering flow of the whole curtain wall panel is compiled into an independent program in a parameterization mode, the independent ordering program is packaged and solidified into the independent ordering program, and ports for inputting and outputting parameters are reserved.

As shown in fig. 8, the embodiment further provides an automatic curtain wall skin ordering system, which includes a model processing unit 1, a parameter setting unit 2, an establishing unit 3, a data deriving unit 4, and an ordering obtaining unit 5.

And the model processing unit 1 is used for establishing a curtain wall skin model and implanting the curtain wall skin model into a lower single program of a curtain wall panel.

And the parameter setting unit 2 is used for setting the plate internal parameters of the actual panel model.

And the establishing unit 3 is used for establishing the plates and the panels of the actual panel model and numbering the plates and the panels.

And the data export unit 4 is used for acquiring the actual panel model result, the panel processing diagram and the prompt information, and forming and exporting ordering data.

And the blanking list acquiring unit 5 is used for acquiring the blanking list according to the plate information and the section information.

In some embodiments, the model processing unit 1 includes a skin model building module, a segmentation module, and an implantation module.

And the skin model building module is used for building a curtain wall skin model. In particular to rhinoceros software and a plug-in Grasshopper thereof.

And the segmentation module is used for performing line segmentation on the curtain wall skin model to form a curtain wall skin line model.

And the implantation module is used for implanting the curtain wall skin line model into a lower single program of the curtain wall panel.

The method specifically comprises the steps of writing the ordering flow of the whole curtain wall panel into an independent program by adopting arithmetic units with various functions, packaging and solidifying the independent program, and enabling a user to easily finish ordering by inputting required parameters according to different projects according to requirements.

For the parameter setting unit 2, the parameters include at least one of the cell size inside the curtain wall panel, the seam receding distance between the panel and the cell line, the numbering rule of the panel, and the path of the output data file. The ports of the required input and output parameters are reserved in the ordering program, so that the user can obtain the relevant ordering data of the panel only by inputting the required parameters according to different projects, easily and quickly finish ordering work and export the corresponding panel processing drawing.

The building unit 3 builds the plates and panels of the actual model of the curtain wall panel through the operation of the main program, and numbers the plates and panels reasonably and orderly.

The data deriving unit 4 mainly derives the actual panel model result as an entire panel model, and the presentation information is items that need to be paid attention to when building a curtain wall.

Furthermore, in some embodiments, the aforementioned blanking list obtaining unit 5 includes a calculating module and an integrating module.

And the calculating module is used for calculating and counting the length of the section bar according to the plate information. Specifically, length information of sectional materials such as columns, beams and the like is calculated and counted according to data of the plates.

And the integration module is used for integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars. The profile information includes at least one of a profile material, a cross section, and a linear density.

The ordering obtaining unit finishes ordering work of two main materials, namely a panel and a keel of a curtain wall plate.

The whole ordering system is integrated on an application program of the mobile terminal, the program interface is friendly, the operation is simple, the applicability is strong, the complex work is completed by a computer, technicians can easily complete ordering tasks only by performing certain simple and necessary operations, and the productivity is greatly liberated.

The method comprises the steps of inputting a skin model and skin cells into a lower order program as models, inputting cells, the size of slits, keel sections, output paths and numbering rules in a plate block into the lower order program as parameters, inputting a glass wool plate standard processing diagram (reference) and a keel standard processing diagram (reference) into the lower order program as drawing standards, and outputting a panel number, a keel number, a panel blanking list, a keel blanking list, a panel processing diagram and a keel processing diagram by combining three input contents.

Specifically, the system has three characteristics of applicability, accuracy and specificity; the applicability is embodied as follows: the method is suitable for unit type curtain walls and component type curtain walls, the input model is an outer skin unit cell model, the unit height is one floor height (the number and the size of cells in one floor height unit can be adjusted through parameters), and the unit width is a transverse cell width. The plug-in is suitable for four-point coplanar plane units, and the curtain walls under different working conditions only need to adjust and input corresponding skin unit models, the number and the size of the cells in the units, the size of gaps among the panels and other input parameters to output results. The accuracy is embodied as follows: the curtain wall unit grid skin model of the project is input into an automatic ordering program, after various parameters are set according to different characteristics of each project, the automatic ordering program of the skin can derive a visual skin model and panel ordering data, the generated subcutaneous ordering data of each unit skin and the visual model have numbers in one-to-one correspondence, the derived data can be checked and rechecked on the visual model through the corresponding numbers, and the ordering correctness is ensured through the checking of the data and the visual model. The curtain wall panel data is automatically led out through the plug-in, and the panel standard processing diagram is used as a template, so that the processing diagram of the curtain wall panel can be automatically generated. The specificity is shown as follows: the condition input and result output of automatic ordering of the skin have regionality, and the regions with approximately the same logic rules are input together as one part, for example, the large surface and the corner part of the curtain wall need to be input respectively due to different sizes of gaps, and the top and bottom closing-up part and the standard part need to be input respectively due to different sizes of the gaps. If the types of cells in the unit are large, the number of the cells is inconsistent, or the skin of the curtain wall has other specificities, the related technicians are required to adjust plug-in programs in a targeted manner to meet the requirements of special projects.

For example: shenzhen mansion 350 m tower building curtain wall engineering is completed by using the curtain wall skin automatic downward single method, the project is located in Shenzhen Shentian CBD central area, the total height of the building is 375 m, the middle of the whole building body is large, two ends of the whole building body are small, inward and outward inclination exists, each layer of building plane is rectangular, four corners of the plane are circular arcs with the radius of 9 m, and all four faces of east, west, south and north are provided with gradual change grooves. The main curtain wall system is a unit type glass curtain wall, and 9046 unit plates and 3600 unit plates are all specially-shaped plates, so that the sizes of glass lattices are more, the sizes of the glass lattices are large (parallelogram, trapezoid and curved-surface plates), and the blanking, processing diagram design and subsequent construction of a skin material are all challenging. The automatic skin ordering plug-in unit is adopted to complete the ordering of the glass panel and the aluminum back panel of the building curtain wall and the processing drawing, and the ordering statistics of materials such as aluminum materials, adhesive tapes and structural adhesives is completed; as shown in fig. 9-10. For another example, in the pearl sea IFC project curtain wall engineering, the project is located in a central business area of a cross door of a pearl sea violin, the building height is 332.7 meters, the total curtain wall area is about 6.2 ten thousand square meters, and a tower mainly adopts a unit type glass curtain wall design. The tower building is a torsional hyperboloid with a centrosymmetric appearance, a plane fitting curved surface method is adopted, a large number of non-rectangular unit plates exist, and V-shaped seams or X-shaped seams exist among a large number of plates. Because the skin glass of the curtain wall with the special modeling has more regular sizes and types and is mostly non-rectangular glass, the design, processing or construction of the project has greater difficulty, as shown in fig. 11 to 12; the automatic skin ordering plug-in unit is adopted to complete the ordering of the glass panel and the aluminum back panel of the building curtain wall and the processing drawing, and the ordering statistics of materials such as aluminum materials, adhesive tapes and structural adhesives is completed.

The curtain wall skin automatic ordering system has the advantages that the model is implanted into the ordering program of the curtain wall panel, the ordering flow of the whole curtain wall panel is compiled into the independent program in a parameterized mode, the independent ordering program is packaged and solidified into the independent ordering program, and ports of required input and output parameters are reserved.

The technical contents of the present invention are further illustrated by the examples only for the convenience of the reader, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation based on the present invention is protected by the present invention. The protection scope of the invention is subject to the claims.

Claims (2)

1. The curtain wall skin automatic ordering method is characterized by comprising the following steps:

establishing a curtain wall skin model, and implanting the curtain wall skin model into a lower single program of a curtain wall panel;

setting plate internal parameters of the actual panel model;

building plates and panels of an actual panel model, and numbering;

acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data;

acquiring a blanking list according to the plate information and the section information;

the method comprises the steps of establishing a curtain wall skin model, and implanting the curtain wall skin model into a lower single program of a curtain wall panel, and comprises the following specific steps:

building a curtain wall skin model;

performing line segmentation on the curtain wall skin model to form a curtain wall skin line model;

implanting a curtain wall skin line model into a lower single program of a curtain wall panel;

setting parameters in the panel of the actual panel model, wherein the parameters comprise at least one of the dividing size in the panel of the curtain wall, the seam receding distance between the panel and dividing lines, the numbering rule of the panel and the path of an output data file;

adopting arithmetic units with various functions to write the ordering flow of the whole curtain wall panel into an independent program, and packaging and solidifying the independent program;

the method comprises the following steps of obtaining a blanking list according to plate information and section information, wherein the method comprises the following specific steps:

calculating and counting the length of the section bar according to the plate information;

integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars;

and forming a blanking list of various types of profiles according to the length of the profile and profile information, wherein the profile information comprises at least one of profile material, section and linear density.

2. The curtain wall skin automatic ordering system is characterized by comprising a model processing unit, a parameter setting unit, an establishing unit, a data exporting unit and an ordering acquiring unit;

the model processing unit is used for establishing a curtain wall skin model and implanting the curtain wall skin model into a lower single program of a curtain wall panel;

the parameter setting unit is used for setting the plate internal parameters of the actual panel model;

the building unit is used for building plates and panels of the actual panel model and numbering the plates and the panels;

the data export unit is used for acquiring an actual panel model result, a panel processing diagram and prompt information, and forming and exporting ordering data;

the blanking list acquiring unit is used for acquiring a blanking list according to the plate information and the section information;

the model processing unit comprises an epidermis model establishing module, a segmentation module and an implantation module;

the skin model building module is used for building a curtain wall skin model;

the dividing module is used for performing line division on the curtain wall skin model to form a curtain wall skin line model;

the implantation module is used for implanting the curtain wall skin line model into a lower single program of a curtain wall panel;

the parameters comprise at least one of dividing size inside the curtain wall plate, seam receding distance between the panel and dividing lines, numbering rules of the panel and a path for outputting data files;

adopting arithmetic units with various functions to write the ordering flow of the whole curtain wall panel into an independent program, and packaging and solidifying the independent program;

the blanking list acquisition unit comprises a calculation module and an integration module;

the calculating module is used for calculating and counting the length of the section bar according to the plate information;

the integration module is used for integrating the length of the section bar with the information of the section bar to form a blanking list of various section bars.

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