CN103345885A

CN103345885A - Method and device for configuring box wiring and method for configuring split-joint-type display screen

Info

Publication number: CN103345885A
Application number: CN2013102833890A
Authority: CN
Inventors: 成智刚; 赵星梅
Original assignee: Xian Novastar Electronic Technology Co Ltd
Current assignee: Xian Novastar Electronic Technology Co Ltd
Priority date: 2013-07-05
Filing date: 2013-07-05
Publication date: 2013-10-09
Anticipated expiration: 2033-07-05
Also published as: CN103345885B

Abstract

The invention relates to a method and device for configuring box wiring of a split-joint-type display screen and a method for configuring the display screen. The method for configuring the box wiring comprises the steps of obtaining the configuring number of physical boxes of the split-joint-type display screen, generating a box configuring picture according to the configuring number of the physical boxes, generating the box wiring on the box configuring picture to supply a user to check according to a triggering sequence of a plurality of virtual boxes in the box configuring picture by the user, respectively assigning configuring parameters of the physical boxes for the virtual boxes, and outputting the configuring information, including the positions of the physical boxes and the sizes of the physical boxes, of the split-joint-type display screen according to the configuring parameters, assigned for the virtual boxes, of the physical boxes and the box wiring. Therefore, the method and device for configuring the box wiring of the split-joint-type display screen and the method for configuring the display screen have the advantages of being easy to operate, short in screen-configuring time, high in precision, capable of displaying the wiring mode and the wiring direction of the boxes in a visualized mode and the like.

Description

The collocation method of casing trace configurations method and device and spliced display screen

Technical field

The present invention relates to the casing trace configurations method in spliced display screen configuring technical field, particularly spliced display screen and the collocation method of device and spliced display screen.

Prior art

Present LED (LightEmittingDiode, light emitting diode) the display screen major part is a kind of spliced display screen, it comprises a plurality of physics casings, a plurality of LED pixels that can be provided with a receiving card on each physics casing and be controlled by receiving card, wherein receiving card is used for receiving the video data of playing for the LED pixel of affiliated physics casing; Each physics casing usually can by its with receiving card connect by certain cabling mode, directly or indirectly obtain video data thereby the receiving card of each physics casing can send card from video.

In the layoutprocedure of LED display, the workmen finishes (after finishing the physics box body splicing of LED display in other words) behind the physics casing cabling of LED display, need tell video to send the configuration that card is finished LED display the position of each physics casing in the casing cabling and the box sizes of each physics casing display screen configuration informations such as (also being the LED pixel quantity that its receiving card is controlled), can distribute video data to corresponding physics casing receiving card so that subsequent video sends card.Therefore, can the collocation method of LED display correctly be lighted LED display and play an important role; Correspondingly, how like clockwork the position of each physics casing in the casing cabling and the box sizes of each physics casing display screen configuration informations such as (also being the LED pixel quantity that its receiving card is controlled) to be offered video transmission card, just seem especially important.

Summary of the invention

For realizing that each physics casing display screen configuration information such as position and box sizes in the casing cabling of spliced display screen is offered the purpose that video sends card like clockwork, the invention provides the collocation method of a kind of casing Wiring method and device and spliced display screen.

Particularly, the casing trace configurations method of a kind of spliced display screen provided by the invention may further comprise the steps: (1) obtains the physics cabinet configuration quantity of spliced display screen; (2) generate cabinet configuration figure according to physics cabinet configuration quantity, cabinet configuration figure comprises a plurality of virtual casing of arranging by predetermined manner, and each virtual casing represents a physics casing; (3) according to the user trigger sequence of a plurality of virtual casings among the cabinet configuration figure is checked for the user at cabinet configuration figure generation casing cabling; (4) give physics cabinet configuration parameter respectively to a plurality of virtual casings; And physics cabinet configuration parameter and the output of casing cabling that gives according to a plurality of virtual casings (5) comprise the position of each physics casing and the spliced display screen configuration information of box sizes.

In an embodiment of the present invention, above-mentioned physics cabinet configuration quantity for example represents with columns and the line number of physics casing receiving card that physics cabinet configuration parameter comprises with the transmission card sequence number of the width of physics casing receiving card and the box sizes of highly representing and control physics casing and sends casually sequence number of cartoon; Wherein the height of physics casing receiving card and width are distinguished the pixel quantity of represents physical casing on short transverse and Width.

In an embodiment of the present invention, above-mentioned casing cabling for example comprises the identifier of cabling starting point, cabling terminal point and/or direction of routing.

In an embodiment of the present invention, above-mentioned step of giving physics cabinet configuration parameter respectively to a plurality of virtual casings for example comprises: when a plurality of virtual casings are triggered respectively, give corresponding physics cabinet configuration parameter respectively for a plurality of virtual casings.

In an embodiment of the present invention, above-mentioned step of giving physics cabinet configuration parameter respectively to a plurality of virtual casings for example comprises: when a plurality of virtual casings are triggered respectively, give a plurality of in a plurality of virtual casings earlier or all give identical physics cabinet configuration parameter; And the configuration parameter of the physics cabinet configuration parameter that is endowed when virtual casing and the physics casing corresponding with virtual casing is revised the physics cabinet configuration parameter of virtual casing when not being inconsistent.

In an embodiment of the present invention, the casing cabling of above-mentioned generation for example comprises connecting line.

In addition, the casing trace configurations device of a kind of spliced display screen provided by the invention comprises: load module, cabinet configuration figure generation module, casing cabling generation module, cabinet configuration parameter are given module and output module.Wherein, load module obtains physics cabinet configuration quantity and the physics cabinet configuration parameter of spliced display screen.Cabinet configuration figure generation module generates cabinet configuration figure according to the physics cabinet configuration quantity that load module obtains, and cabinet configuration figure comprises a plurality of virtual casing of arranging by predetermined manner, and each virtual casing represents a physics casing.Casing cabling generation module is checked for the user at cabinet configuration figure generation casing cabling the trigger sequence of a plurality of virtual casings among the described cabinet configuration figure according to the user.The cabinet configuration parameter is given module and is given corresponding physics cabinet configuration parameter respectively to a plurality of virtual casing among the cabinet configuration figure.Output module comprises the position of each physics casing and the spliced display screen configuration information of box sizes according to physics cabinet configuration parameter and the output of casing cabling that a plurality of virtual casings are endowed.

In an embodiment of the present invention, above-mentioned casing trace configurations device for example also comprises cabinet configuration parameter modification module, when the configuration parameter of the physics cabinet configuration parameter that is given to virtual casing and the physics casing corresponding with virtual casing is not inconsistent, revise the physics cabinet configuration parameter of virtual casing according to user's input.

In addition, the collocation method of a kind of spliced display screen provided by the invention, it may further comprise the steps: (a) generate cabinet configuration figure and be positioned at casing cabling on the cabinet configuration figure, wherein each the virtual casing among the cabinet configuration figure is endowed physics cabinet configuration parameter respectively, and each virtual casing represents a physics casing; (b) physics cabinet configuration parameter and the generation of casing cabling of giving according to a plurality of virtual casings comprises the position of each physics casing and the spliced display screen configuration information of box sizes; And the video that (c) spliced display screen configuration information is sent to the spliced display screen of control sends card and is cured to video transmission card.

In an embodiment of the present invention, in the collocation method of above-mentioned spliced display screen, physics cabinet configuration parameter comprises with the transmission card sequence number of the width of physics casing receiving card and the box sizes of highly representing and control physics casing and sends casually sequence number of cartoon; Wherein the height of physics casing receiving card and width are distinguished the pixel quantity of represents physical casing on short transverse and Width.In addition, the casing cabling for example comprises connecting line, and the color difference of the described connecting line of corresponding different transmission cards output sequence number.In addition, the casing cabling is preferably and comprises the connecting line that has cabling starting point, cabling terminal point and/or direction of routing.

As from the foregoing, the present invention simulates the physics casing cabling of spliced display screen, generate cabinet configuration figure and casing cabling, and give corresponding physics cabinet configuration parameter to each the virtual casing among the cabinet configuration figure, but so then the user can know intuitively, fast whether virtual casing cabling is consistent with physics casing cabling; When if virtual casing cabling and physics casing cabling are inconsistent, can make amendment then to guarantee that virtual casing cabling and physics casing cabling are in full accord.Therefore, that the present invention has is simple to operate, join the screen time short, accuracy is high, can intuitively show advantages such as the cabling mode of casing and direction of routing.

By the detailed description below with reference to accompanying drawing, it is obvious that other side of the present invention and feature become.But should be known in the only purpose design for explaining of this accompanying drawing, rather than as the restriction of scope of the present invention, this is because it should be with reference to additional claim.Should also be appreciated that, unless otherwise noted, the unnecessary accompanying drawing of drawing to scale, they only try hard to illustrate conceptually structure described herein and flow process.

Description of drawings

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.

Fig. 1 is the functional block diagram of casing trace configurations device of a kind of spliced display screen of the embodiment of the invention.

Fig. 2 is the user's interfacial effect figure behind the generation cabinet configuration figure in the casing trace configurations method of spliced display screen of the embodiment of the invention.

Fig. 3 is for generating the casing cabling and finish user's interfacial effect figure after virtual casing carried out physics cabinet configuration parameter assignment at cabinet configuration figure in the casing trace configurations method of the spliced display screen of the embodiment of the invention.

Fig. 4 is the user's interfacial effect figure that revises in the casing trace configurations method of spliced display screen of the embodiment of the invention after the physics cabinet configuration parameter of virtual casing.

Fig. 5 and Fig. 6 are for generating the casing cabling and finish user's interfacial effect figure after virtual casing carried out physics cabinet configuration parameter assignment at cabinet configuration figure in the casing trace configurations method of the spliced display screen of other embodiments of the invention.

Embodiment

For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, below in conjunction with accompanying drawing the specific embodiment of the present invention is described in detail.

In spliced display screen, for example in the spliced LED display, each physics casing all has receiving card, and receiving card has the entrance and exit of netting twine, all physics casings are connected by netting twine, and the line form of physics casing (or being referred to as the physics cabling) just occurs varied so.Provide necessary spliced display screen configuration information for sending card to video, then need the cabling mode of physics casing is simulated on computers, in order to embody this simulation better, so made the present invention.When carrying out the computer simulation cabling, the cabling form that cabling form and physics casing may occur simulating is different, causes configuration error and needs to revise.Usually, the simulation cabling is installed (physics cabling) with the physics casing relation, and after each physics casing successful installation or mount scheme were determined in other words, simulation cabling form was just determined, if the change of physics cabling is then simulated cabling and just need be done corresponding change; The mistake of simulation cabling is by relatively detecting according to the physics cabling artificially, and final simulation cabling result and physics cabling reach in full accord just the calculation and finish the simulation of casing cabling.

The casing trace configurations device of a kind of spliced display screen that provides below in conjunction with the embodiment of the invention of Fig. 1 is elaborated.

Particularly, as shown in Figure 1, the casing trace configurations device 10 of a kind of spliced display screen that the embodiment of the invention provides comprises that load module 101, cabinet configuration figure generation module 103, casing cabling generation module 105, cabinet configuration parameter give module 107 and output module 110, and preferably also comprises cabinet configuration parameter modification module 109.

Wherein, load module 101 comprises a plurality of input fields, for example receiving card columns, receiving card line number, transmission card sequence number, the network interface card sequence number that sends card, the width of receiving card, the fields such as height (referring to shown in Figure 2) of receiving card; So, the user then can allow casing trace configurations device 10 know the physics cabinet configuration quantity of spliced display screen by input receiving card columns and receiving card line number; The width of the transmission card sequence number of input, the network interface sequence number that sends card and receiving card and highly then can allow casing trace configurations device 10 know the configuration parameter of each physics casing.Wherein, receiving card columns and receiving card line number refer to quantity (because receiving card of the identical common configuration of each physics of the physics casing of whole spliced display screen on column direction and line direction respectively, so physics casing quantity herein is the quantity of receiving card just), the network interface sequence number that sends card refers to the sequence number of the network interface that is connected with the receiving card of the physics casing of spliced display screen, and the width of receiving card and refer to the pixel quantity of physics casing on Width and short transverse highly respectively.At this, be understandable that, because the embodiment of the invention relates to after the workmen finishes the physics casing cabling of spliced display screen or definite physics casing cabling mode but carry out the casing simulation cabling that carries out under the situation of installations, thus the user can determine load module 101 according to the physics casing cabling of spliced display screen each import the numerical value of field.

Cabinet configuration figure generation module 103 is used for the physics cabinet configuration quantity obtained according to load module 101 for example receiving card columns and line number, generates cabinet configuration figure; The cabinet configuration figure that generates comprises a plurality of cells of arranging by predetermined manner (below be referred to as virtual casing), and each virtual casing represents a physics casing.

Casing cabling generation module 105 is used for according to the user trigger sequence of a plurality of virtual casings of the cabinet configuration figure that generated by cabinet configuration figure generation module 103 being generated the casing cabling at cabinet configuration figure.At this, the casing cabling for example is that the connecting line of taking away the identifier of line starting point, cabling terminal point and direction of routing (representing with arrow) characterizes or characterizes (also being the situation that connecting line is hidden) or be both combinations with the position number of each physics casing receiving card.Wherein, if the position number of two physics casing receiving cards is adjacent, the receiving card Position Number that then represents the virtual casing of these two physics casings is adjacent at the casing cabling.

The cabinet configuration parameter is given module 107 and is used for giving corresponding object cabinet configuration parameter respectively to a plurality of virtual casing of cabinet configuration figure.

Cabinet configuration parameter modification module 109 is when not conforming to for the actual configuration parameter when the physics cabinet configuration parameter that is given to virtual casing and corresponding physics casing, revises the physics cabinet configuration parameter of virtual casing until conforming to actual value according to user's input.

Physics cabinet configuration parameter and the output of casing cabling that output module 110 is used for being endowed according to a plurality of virtual casings comprise the position of each physics casing and the spliced display screen configuration information of box sizes, and this spliced display screen configuration information for example exports the video transmission card of this spliced display screen of control to and is cured to this video and sends card.At this, box sizes refers to receiving card height and the width of physics casing, also i.e. pixel quantity on short transverse and Width.

Describe the casing trace configurations method of a kind of spliced display screen that the embodiment of the invention provides in detail below in conjunction with Fig. 1 to Fig. 4, for example be executed in above-mentioned casing trace configurations device 10, specifically comprise the steps:

At first, obtain the physics cabinet configuration quantity of spliced display screen.Because the casing trace configurations method of present embodiment is analog physical casing cabling, so the configuration parameter of the configuration quantity of physics casing and physics casing is known.As shown in Figure 2, the configuration quantity of the physics casing of spliced display screen can be informed casing trace configurations device 10 by input receiving card columns and receiving card line number, for example the receiving card columns is 4, and the receiving card line number is 3, represents that then spliced display screen is to be formed by 4 * 3=12 physics box body splicing.

Then, after knowing physics cabinet configuration quantity, casing trace configurations device 10 can generate cabinet configuration figure according to the physics cabinet configuration quantity of obtaining.As shown in Figure 2, the cabinet configuration figure that generates includes 12 cells, also is 12 virtual casings, and these 12 virtual casings are with for example matrix-style arrangement of predetermined manner, and each virtual casing represents a physics casing.Cabinet configuration figure only is shown is the matrix of rule among Fig. 2, but the present invention has for which kind of shape then is decide by actual screen needs of joining not as limit, for example spliced display screen is to present the rectangular ring that the centre hollows out by 11 physics box body splicings one-tenth.

Then, casing trace configurations device 10 can generate the casing cabling to the trigger sequence of a plurality of virtual casings among the cabinet configuration figure at cabinet configuration figure according to the user.At this, triggering mode can be that left mouse button is clicked virtual casing one by one, drags left mouse button, pressed modes such as keyboard directionkeys.As shown in Figure 3, the casing cabling has cabling starting point S, cabling terminal point E and direction of routing identifiers such as (being represented by arrow), and can find out intuitively from Fig. 3 that the casing cabling is to go into the lower right corner from the upper left corner to go out, the direction of routing shown in the arrow then represents the user to the trigger sequence of virtual casing.Need to prove, the mode of casing cabling is not limited to the upper left corner shown in Figure 3 and goes into the lower right corner and go out, also can be other cabling modes, for example the lower right corner goes into that the upper left corner goes out, the upper right corner is gone into the lower left corner and gone out etc., and which kind of is specially then is to decide according to the screen needs of joining of spliced display screen.In addition, comparison diagram 2 and Fig. 3 are as can be seen, the sequence number of the receiving card in the virtual casing of each among Fig. 2 is 0, but in Fig. 3, finished the generation of casing cabling owing to user's triggering, therefore the sequence number of the receiving card in the virtual casing among Fig. 3 by serial number, for example is 1 to 12 along the direction of casing cabling in regular turn.In other words, casing cabling in the present embodiment is to embody with the connecting line of tape identification symbol and the position number of physics casing receiving card, but be understandable that, if the connecting line of the symbol of the tape identification among Fig. 3 is hidden, the user still can be known the casing cabling mode, and just intuitive has reduction slightly.

In addition, can learn in Fig. 3 that when generating the casing cabling, each virtual casing all is endowed physics cabinet configuration parameter.In Fig. 3, because the transmission card sequence number of user's input at the beginning of triggering is 1, it is 1 that the band of transmission card carries network interface sequence number (the also sequence number of the network interface that namely is connected with spliced display screen), the width of receiving card (also being the LED pixel quantity on Width that receiving card is controlled) is 128, the height of receiving card (also being the LED pixel quantity on Width that receiving card is controlled) is 128, therefore, when the user triggers each virtual casing successively, be given to the transmission card sequence number of the configuration parameter of each virtual casing, the network interface sequence number, the width of receiving card is identical with the height of receiving card, also namely is assigned 1 respectively, 1,128,128.But perhaps this not exclusively conform to the actual configuration parameter of physics casing, if the configuration parameter that certain virtual casing is given is not inconsistent with the actual configuration parameter of corresponding physics casing, then can choose this virtual casing with mouse, the input value of the height of the width by revise sending card sequence number, network interface sequence number, receiving card and/or receiving card can be finished the modification of configuration parameter then.For example with Fig. 4 as an example, the receiving card Position Number is that the actual value of width of the receiving card of that virtual casing of 11 should be 256, then can utilize mouse or keyboard directionkeys to choose this virtual casing, in the width field of receiving card, import 256 then, the width that then can be the receiving card of that virtual casing of 11 with the receiving card Position Number is modified to 256, so that its value conforms to the actual configuration parameter of physics casing.

At last, when the casing cabling of confirming physics cabinet configuration parameter that each virtual casing is given and generation with after the actual installation situation of spliced display screen conforms to, the output button at screen user interface is joined in click, for example click [being saved in file] or [sending to hardware] button, then can comprise the position of each physics casing and the spliced display screen configuration information of box sizes according to physics cabinet configuration parameter and the output of casing cabling that each virtual casing is given.In Fig. 4, when the user clicks [being saved in file] button, then can store spliced display screen configuration information into this locality, and the user clicks [sending to hardware] button, then spliced display screen configuration information can be sent to the transmission card of this spliced display screen of control and be cured to this transmission card.

In above-mentioned casing trace configurations method, it is to carry out when each virtual casing is triggered respectively that each virtual casing is endowed physics cabinet configuration parameter, and that gives earlier each virtual casing all gives identical physics cabinet configuration parameter, when the actual configuration parameter of the physics cabinet configuration parameter that is endowed at virtual casing and corresponding physics casing is not inconsistent again, revise the physics cabinet configuration parameter of virtual casing, until the configuration parameter of all virtual casings with till the actual configuration parameter of corresponding physics casing conforms to.But the present invention is as limit, also can trigger virtual identical in, namely give the configuration parameter that each virtual casing conforms to corresponding physics casing, example as shown in Figure 5 and Figure 6.

Particularly, in Fig. 5, the configuration parameter of 4 virtual casings of the 1st row is: send the card sequence number and be 1, the network interface sequence number is 2, the width of receiving card and highly be all 128, and the Position Number of receiving card from left to right is followed successively by 1 to 4; The configuration parameters of 8 virtual casings of the 2nd row and the 3rd row are: send block that sequence number is 1, the network interface sequence number is 2, the width of receiving card and highly be all 128, and the Position Number of receiving card is followed successively by 1 to 8 from upper right to the lower-left.Can also learn that from Fig. 5 the quantity of the transmission card that spliced display screen adopts is 1, the network interface quantity that sends card be 2 for all being used (also i.e. band year).And the casing cabling that sends the network interface of card for difference can adopt different colors to present.

In addition, in Fig. 6, the configuration parameter of 4 virtual casings of the 1st row is: send the card sequence number and be 1, the network interface sequence number is 1, the width of receiving card and highly be all 128, and the Position Number of receiving card from left to right is followed successively by 1 to 4; The configuration parameters of 8 virtual casings of the 2nd row and the 3rd row are: send block that sequence number is 2, the network interface sequence number is 1, the width of receiving card and highly be all 128, and the Position Number of receiving card is followed successively by 1 to 8 from upper right to the lower-left.Can also learn that from Fig. 6 the quantity of the transmission card that spliced display screen adopts is 2, and each transmission card only there is network interface 1 to be used.And the virtual casing that sends card for difference can adopt different colors.

In addition, the embodiment of the invention also provides the collocation method based on the spliced display screen of above-mentioned casing trace configurations method, it roughly can be generalized into following steps: (s1) generate cabinet configuration figure and be positioned at casing cabling on the cabinet configuration figure, wherein each the virtual casing among the cabinet configuration figure is endowed physics cabinet configuration parameter respectively, and each virtual casing represents a physics casing; (s2) physics cabinet configuration parameter and the generation of casing cabling of giving according to a plurality of virtual casings comprises the position of each physics casing and the spliced display screen configuration information of box sizes; And the video that (s3) spliced display screen configuration information is sent to the spliced display screen of control sends card and is cured to video transmission card.Wherein, physics cabinet configuration parameter comprises transmission card sequence number and the transmission card network interface sequence number with the width of physics casing receiving card and the box sizes of highly representing and control physics casing; Wherein the height of physics casing receiving card and width are distinguished the pixel quantity of represents physical casing on short transverse and Width.

In sum, the above embodiment of the present invention is simulated the physics casing cabling of spliced display screen, generate cabinet configuration figure and casing cabling, and give corresponding physics cabinet configuration parameter to each the virtual casing among the cabinet configuration figure, but so then the user can know intuitively, fast whether virtual casing cabling is consistent with physics casing cabling; When if virtual casing cabling and physics casing cabling are inconsistent, can make amendment then to guarantee that virtual casing cabling and physics casing cabling are in full accord.Therefore, that the present invention has is simple to operate, join the screen time short, accuracy is high, can intuitively show advantages such as the cabling mode of casing and direction of routing.

In addition, be understandable that, those skilled in the art can do suitable change to the color of the triggering mode in above-described embodiment, virtual casing, the color of casing cabling etc. under main design of the present invention, for example have the different virtual casings that send the card sequence number and present etc. with different colours demonstration and/or the corresponding different different color of casing cablings employing that sends the network interface of card, will produce more intuitive effect like this; In addition, sending the network interface that blocks also can be other communication interfaces; These suitable changes all should belong to protection scope of the present invention.

Used specific case herein principle and the embodiment of the collocation method of casing trace configurations device, casing trace configurations method and the spliced display screen of the spliced display screen of the present invention are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present invention; part in specific embodiments and applications all can change; in sum, this description should not be construed as limitation of the present invention, and protection scope of the present invention should be as the criterion with appended claim.

Claims

1. the casing trace configurations method of a spliced display screen is characterized in that, comprises step:

Obtain the physics cabinet configuration quantity of described spliced display screen;

Generate cabinet configuration figure according to described physics cabinet configuration quantity, described cabinet configuration figure comprises a plurality of virtual casing of arranging by predetermined manner, and each virtual casing represents a physics casing;

According to the user trigger sequence of the described a plurality of virtual casings among the described cabinet configuration figure is checked for the user at described cabinet configuration figure generation casing cabling;

Give physics cabinet configuration parameter respectively to described a plurality of virtual casings; And

Physics cabinet configuration parameter and the output of described casing cabling of giving according to described a plurality of virtual casings comprise the position of each physics casing and the spliced display screen configuration information of box sizes.

2. the casing trace configurations method of spliced display screen as claimed in claim 1, it is characterized in that, described physics cabinet configuration quantity represents that with columns and the line number of physics casing receiving card described physics cabinet configuration parameter comprises with the transmission card sequence number of the width of physics casing receiving card and the box sizes of highly representing and control physics casing and sends casually sequence number of cartoon; The height of wherein said physics casing receiving card and width be the pixel quantity of represents physical casing on short transverse and Width respectively.

3. the casing trace configurations method of spliced display screen as claimed in claim 1 is characterized in that described casing cabling comprises the identifier of cabling starting point, cabling terminal point and/or direction of routing.

4. the casing trace configurations method of spliced display screen as claimed in claim 1 is characterized in that, the step of giving physics cabinet configuration parameter respectively to described a plurality of virtual casings comprises:

When described a plurality of virtual casings are triggered respectively, give corresponding physics cabinet configuration parameter respectively for described a plurality of virtual casings.

5. the casing trace configurations method of spliced display screen as claimed in claim 1 is characterized in that, the step of giving physics cabinet configuration parameter respectively to described a plurality of virtual casings comprises:

When described a plurality of virtual casings are triggered respectively, give earlier a plurality of in described a plurality of virtual casings or all give identical physics cabinet configuration parameter; And

When the configuration parameter of the physics cabinet configuration parameter that is endowed when virtual casing and the physics casing corresponding with described virtual casing is not inconsistent, revise the physics cabinet configuration parameter of described virtual casing.

6. the casing trace configurations method of spliced display screen as claimed in claim 1 is characterized in that, the casing cabling of described generation comprises connecting line.

7. the casing trace configurations device of a spliced display screen, its feature exists, and comprising:

Load module obtains physics cabinet configuration quantity and the physics cabinet configuration parameter of described spliced display screen;

Cabinet configuration figure generation module, the physics cabinet configuration quantity of obtaining according to described load module generates cabinet configuration figure, and described cabinet configuration figure comprises a plurality of virtual casing of arranging by predetermined manner, and each virtual casing represents a physics casing;

Casing cabling generation module is checked for the user at described cabinet configuration figure generation casing cabling the trigger sequence of the described a plurality of virtual casings among the described cabinet configuration figure according to the user;

The cabinet configuration parameter is given module, gives corresponding physics cabinet configuration parameter respectively to the described a plurality of virtual casings among the described cabinet configuration figure; And

Output module, the physics cabinet configuration parameter and the output of described casing cabling that are endowed according to described a plurality of virtual casings comprise the position of each physics casing and the spliced display screen configuration information of box sizes.

8. the casing trace configurations device of spliced display screen as claimed in claim 7 is characterized in that, also comprises:

Cabinet configuration parameter modification module when the configuration parameter of the physics cabinet configuration parameter that is given to virtual casing and the physics casing corresponding with described virtual casing is not inconsistent, is revised the physics cabinet configuration parameter of described virtual casing according to user's input.

9. the collocation method of a spliced display screen is characterized in that, comprises step:

Generate cabinet configuration figure and be positioned at casing cabling on the cabinet configuration figure, wherein each the virtual casing among the cabinet configuration figure is endowed physics cabinet configuration parameter respectively, and each virtual casing represents a physics casing;

Physics cabinet configuration parameter and the generation of described casing cabling of giving according to described a plurality of virtual casings comprise the position of each physics casing and the spliced display screen configuration information of box sizes; And

The video that described spliced display screen configuration information is sent to the described spliced display screen of control sends card and is cured to described video transmission card.

10. the collocation method of spliced display screen as claimed in claim 9, it is characterized in that described physics cabinet configuration parameter comprises with the transmission card sequence number of the width of physics casing receiving card and the box sizes of highly representing and control physics casing and sends casually sequence number of cartoon; The height of wherein said physics casing receiving card and width be the pixel quantity of represents physical casing on short transverse and Width respectively.

11. the collocation method of spliced display screen as claimed in claim 10 is characterized in that, described casing cabling comprises connecting line, and the corresponding different casually color difference of the described connecting line of sequence number of cartoon that sends.

12. the collocation method of spliced display screen as claimed in claim 10 is characterized in that, described casing cabling comprises the connecting line that has cabling starting point, cabling terminal point and/or direction of routing.