CN103283312A - Luminous module, arrangement of luminous modules and method for address allocation for luminous modules - Google Patents

Abstract

Luminous module (A-H), arrangement of luminous modules (A-H) and a method for address allocation for luminous modules (A-H) arranged alongside one another and one below another, wherein in each luminous module (A-H) sensors (1) are used to determine whether light is emitted by adjacent luminous modules (A-H) and the position of the respective luminous module (A-H) within the arrangement is determined with the aid of this information and an address is then allocated to each luminous module (A-H) in a manner dependent on the position.

Description

The arrangement of light emitting module, light emitting module and be used to light emitting module to distribute the method for address

The present invention relates to arrangement and a kind of next door and/or method of the distribution address of the light emitting module of below each other of being arranged in each other that be used to of a kind of light emitting module, a kind of light emitting module, each light emitting module determine its in this arrangement the position and distribute to address of each light emitting module on the basis of this position.

For example in matroid is arranged, for display video sequence on big relatively zone or in order to present optical effect, light emitting module is through being often used as so-called video lamp.Usually the same with the arrangement of a plurality of lamps, also need to detect the position of each light emitting module in this arrangement and need each light emitting module to receive corresponding address herein, consequently, in order to show corresponding video sequence or in order to present optical effect, can be to the independent addressing of each light emitting module on the basis of this position.

For this purpose, for example, before installation or even in production process, can directly provide the address for these light emitting modules now.Yet this program causes following problem: each light emitting module must accurately be installed in this arrangement before on the position determined because otherwise the interior incorrect position of the appropriate address of this light emitting module and control device be associated.This will cause controlling improperly these modules then, for example, consequently will present video sequence or optical effect improperly.

Correspondingly the another kind of possibility that this type of light emitting module is carried out addressing relates in all these light emitting modules have been installed in this arrangement the back now and gives each light emitting module manual allocation address.The result is, in matroid is arranged, address 1 can be provided for the light emitting module in the upper left corner, for example, and can provide the ascending order address of the light emitting module in the lower right corner conversely then for these light emitting modules, consequently, based on this address, control module is recognized the position of this corresponding light emitting module automatically.On the one hand, manually addressing causes following problem now: particularly, under the situation of big relatively arrangement, this program relates to sizable effort, and on the other hand, manually operating mistake also may occur and cause controlling improperly these light emitting modules then conversely in the addressing process.

WO2007/063487A1 has disclosed light emitting module, and these light emitting modules have so-called communication unit on a plurality of limits of light emitting module.In this case, each communication unit of light emitting module is connected respectively on the respective communication unit of the adjacent light emitting module on the corresponding sides, consequently, can communicate by letter between two adjacent light emitting modules.In addition, ready for the control unit on the communication unit of the light emitting module at the first light emitting module place of the arrangement that is connected to a plurality of light emitting modules.Because being connected between the connection between these light emitting modules and this control unit and this first light emitting module, all now light emitting modules interconnect and are connected on this control unit.

In address allocation procedure, this control unit forms with this first light emitting module and contacts now, and consequently, this first light emitting module is assigned with or gives and oneself distributes first address, for example an A1.This first light emitting module is communicated by letter with the light emitting module on being connected to respective communication unit then, for example, in this case, herein according at first in the bottom, then in the left side, then on the right side, then in the order at top.On the basis from the information of this first light emitting module, this second light emitting module is assigned with or gives one of own distribution to increase by 1 address, for example A2 now.Repeat these operations, all have the address up to all light emitting modules.The deposit of faith on the limit of the light emitting module that is connected thereto about adjacent light emitting module causes the position of all light emitting modules to be transferred to this control unit with corresponding address then.

In the method shown in the WO2007/063487A1, no longer include the risk that causes controlling improperly light emitting module because of incorrect installation or incorrect manual input now.Yet, for shown in method, in order to implement this method, for example, under the rectangle or foursquare situation of this light emitting module, need must have on each limit the light emitting module of four communication units now.In addition, also need design each light emitting module in a kind of its mode of can the light emitting module adjacent with another communicating by letter that makes.

Therefore, the present invention is based on the target of the arrangement that a kind of alternative method, a kind of light emitting module or a kind of a plurality of light emitting modules are provided, this can carry out address assignment for a kind of light emitting module zero defect ground of arrangement.

The arrangement of method according to claim 1, light emitting module according to claim 12 and a plurality of light emitting modules according to claim 14 realizes this target.Dependent claims relates to favourable development.

The invention provides the light emitting module that has for detection of the transducer of light, for example, video module.These brightness or optical sensor are arranged in this light emitting module in a kind of mode that makes these transducers can detect the light of adjacent light emitting module emission.For to be arranged in each other the next door and each other a plurality of these type of light emitting modules of below carry out addressing, these transducers be used for determining only not by adjacent light emitting module emission and then this information be used for determining the exact position of this corresponding light emitting module in arranging.Use the position of corresponding light emitting module to give this light emitting module with corresponding address assignment then.

Under situation of the present invention, therefore no longer need two adjacent light emitting modules to communicate by letter each other, consequently, for example, in WO2007/063487A1, must arrange a plurality of communication units.

Because light emitting module or video module are generally square or rectangle, in each light emitting module in the present invention, preferably side, right-hand side, upside and/or downside detect only not by adjacent light emitting module emission leftward.Therefore, these light emitting modules preferably have corresponding transducer at left-hand side, right-hand side, upside and/or the downside of light emitting module.

When addressing begins, preferably thoroughly open the light from all light emitting modules in arranging now, and do not have the radiative fact to determine the position of this first light emitting module by the adjacent light emitting module at least two adjacent sides of this light emitting module then.Under the situation that the matroid of these light emitting modules is arranged, for example determine first light emitting module by the fact that does not receive light from left-hand side and the adjacent light emitting module on the upside of light emitting module, consequently, the light emitting module that is arranged in the left upper of this matrix is identified or is detected as this first light emitting module.

After for example being arranged in light emitting module in the upper left corner and being identified and having received this address 1, then can also be ready by closing as follows in this light emitting module for the light from this light emitting module except a bottom part: among the row left adjacent light emitting module no longer determine from the light in left side and downwards adjacent light emitting module still determine light.Because the light that in this first light emitting module, is partially closed, be arranged into the adjacent light emitting module that the light emitting module on this first light emitting module right side detects on left side and the top now equally and no longer launch light.For example, this light emitting module receives this address 2 then.

Can preferably repeat this program then, up to light emitting module no longer determine not only the left side and the place, top from the light of an adjacent light emitting module and also no longer determine light on the right side.In this case, thoroughly close the light of the light emitting module in arranging since then and again by do not detect the position of determining this first light emitting module from the fact of the light of adjacent light emitting module at the left-hand side of this light emitting module and upside then.Whole process repeated then, position and each light emitting module of all light emitting modules in having understood all rows also correspondingly have an address.

Only have under the situation of the light emitting module of a light source for example, after determining to be arranged in the position of light emitting module of the left upper that matroid arranges at first again, can be closed for the light from this light emitting module and be among the row left adjacent light emitting module and row in the light that detects separately from this light emitting module of downward adjacent light emitting module be closed ready, determine among the row left the position of adjacent light emitting module by the following fact: on the one hand, these transducers detect the left side on the top on adjacent light emitting module do not launch light and, on the other hand, the adjacent light emitting module from the left side that has received has before been closed this light not long ago.And then close the light of light emitting module since then.Equally in this case, can repeat this program, no longer detect light not only in the left side with at the top but also on the right side up to light emitting module, and then determine the position of first light emitting module among next row.

In addition, then can also be ready for the position of all light emitting modules among all rows to be determined.In the situation of above program, the address is associated with each light emitting module with ascending order conversely now as equally.

Following usage example embodiment and accompanying drawing are intended to illustrate in further detail the present invention, wherein:

Fig. 1 shows the addressing sequence in the light emitting module;

Fig. 2 shows a matroid arrangement of a plurality of light emitting modules that have a bus;

Fig. 3 shows a matroid arrangement of a plurality of light emitting modules that have two buses.

Fig. 2 and Fig. 3 show a plurality of light emitting module A-H that have transducer 1 according to side leftward of the present invention, upside and right-hand side, and this transducer detects the light of these adjacent light emitting module emissions.In Fig. 2, all light emitting module A-H are connected on the shared bus.In contrast to this, in Fig. 3, these light emitting modules A-D and light emitting module H are connected on first bus and these light emitting modules E-G is connected on second bus.

As shown in Figure 2, the flow chart shown in Fig. 1 auxiliary down, below illustrated that in further detail these are connected to the addressing of a light emitting module A-H on the shared bus.

When address assignment begins, at first open all light emitting module A-H.For this purpose, the central control unit (not shown) for example by this bus to each light emitting module transmission packet, the information that this packet comprises has illustrated that all light-emitting devices of this light emitting module and light source for example are intended to be opened with white or another brightness or color.Also therefore report " dark " state separately in order to determine whether left-hand side and last side senser 1 do not detect separately from the light of adjacent light emitting module, in each light emitting module, constantly check now.

In the arrangement in Fig. 2, when beginning, this only is applicable to this light emitting module A now, because in every other light emitting module, perhaps detects the light from adjacent light emitting module in the left side or at the top.In order to determine whether to receive by this bus interface the address of another light emitting module, in modules A, check then.Yet because this modules A determines that upside and left-hand side transducer 1 do not detect light, so also do not receive the address of another light emitting module, consequently this light emitting module A is assigned with or gives and oneself distributes this address 1.

This light emitting module A is closed in its light-emitting device or the light source in this upper area then.Then this light emitting module A only launches light in lower area.In this case, need close the interior light of this modules A as follows: the left hand transducer 1 of this module B no longer detects any light, but the upper sensor 1 of this light emitting module E still detects light.After this light emitting module A had closed light in this upper area, it checked still whether this right hand transducer 1 reports equally that adjacent light emitting module no longer launches light.If not this situation, then this light emitting module A notifies other light emitting modules its address by this bus, address 1 in this case.This light emitting module A remains in the loop then, wherein, it checks that constantly whether another light emitting module is by this bus transfer bag, it is last light emitting module among the row that described bag is indicated this another light emitting module, and check whether be that event has taken place in normal operation in addition, that is, all light emitting modules are switched to thorough dark.If this light emitting module A receives the bag that another light emitting module of indication is last light emitting module among the row by this bus, then this light emitting module A thoroughly closes this light and and then returns described loop just now.If be the generation event of normally moving, then stop this loop and this modules A is returned normal operation.

Described address assignment sequence also is used for other light emitting modules in this way before among this light emitting module A, in this case, for example, in light emitting module B, 1 report of this left hand and upper sensor no longer detects light when closed this light time in light emitting module A at two transducer places.In addition, also received the address of another light emitting module in module B, be the address of light emitting module A herein.Then this address is increased by 1 and then this address be associated with this light emitting module B.Consequently, this light emitting module B receives the address 2 among Fig. 2.

Correspondingly also other light emitting modules are carried out addressing, in this case, in light emitting module D, the adjacent light emitting module of this right hand transducer 1 report is not launched light, consequently, except the address of its reception, it is last light emitting module among this row that this light emitting module D also still passes on it by this bus.On the basis of this information, in these light emitting modules A-D, thoroughly close this light then, consequently, the top among this module E and the adjacent light emitting module of left hand transducer 1 report are no longer launched light then.Because from the information of this light emitting module D: this light emitting module is last light emitting module among this row, so that thoroughly close a light in arranging, just what be also pointed out that is to have only the light emitting module that has the address correspondingly to allow to switch to dark state.Every other light emitting module (light emitting module E-H in this case) only uses the address of this light emitting module D transmission.

After this light emitting module H also has the address, also thoroughly close the light from this second row's light emitting module.This refers to close all light emitting modules in this arrangement, and consequently all light emitting modules can turn back to normal operation again.Can be by closing and open, play normal frame or the above-mentioned action of realization before distributing all addresses required maximum times to expire again.

For the address assignment in the light emitting module of correspondence, what be also pointed out that is that light emitting module also may receive or to oneself a plurality of address of distribution, this light emitting module notifies other light emitting modules its used last address by this bus then.Therefore can imagine that this address 1 and 2 is assigned to this light emitting module A and this light emitting module B correspondingly receives this address 3, this light emitting module C receives this address 4 etc.

Particularly, when having, this light emitting module a plurality ofly makes that when the light-emitting device can close the light in the top or light source, said method is fit to.For example, can imagine light emitting module or the video module with a plurality of pixels herein.

Yet if corresponding light emitting module only for example has a light source or light-emitting device, slightly different program is suitable when these light emitting modules are carried out addressing.With preceding method by contrast, this light emitting module A thoroughly closes this light after being assigned with or having given this address 1 of own distribution now.Left hand transducer 1 among this light emitting module B and the upper sensor among this light emitting module E 1 both record this light now this close.This light emitting module B correspondingly detects it now for the next light emitting module in this row and therefore is assigned with or distributes to own next address.In contrast to this, be not pent information based on this light at this left hand transducer place in this upper sensor 1, this light emitting module E recognizes that it is not the next module among this row, but first module among next row.This light emitting module E correspondingly waits for up to this information from this light emitting module G: this light emitting module G is last light emitting module among this row.With carrying out other addressing steps with the mode that described method is identical before.

In the arrangement shown in Fig. 2, these light emitting modules all are connected on the shared bus.In contrast to this, Fig. 3 shows a kind of arrangement, and wherein, light emitting module A-D and light emitting module H are connected on first bus and light emitting module E-G is connected on second bus.

Light emitting module A-H shown in Fig. 3 also is the light emitting module that can close the top part of this light, and the bottom part of this light emitting module continues emission light.Now corresponding with first method that presents about Fig. 2 for the method for light emitting module A-D being carried out addressing.This light emitting module D thoroughly closes the light from these light emitting modules A-D after by this first bus it being the notice output of last light emitting module among this row again.Consequently, the left hand of this light emitting module E and upper sensor 1 report no longer detect light, and consequently, this light emitting module E is assigned with or distributes to oneself address.Because this light emitting module D only outputs to its address this first bus and does not output to this second bus now, so this light emitting module E shows to such an extent that it is this first light emitting module and correspondingly receives this first address 1 seemingly.Correspondingly this light emitting module F and G are carried out addressing then.

This light emitting module H determines that the light emitting module G adjacent with this left hand transducer 1 has been closed and receiver address or and give oneself with this address assignment then then.In this case, it should be noted that last time, the address by this first bus transfer was that the address of this light emitting module D and this light emitting module H correspondingly receive to compare with the address of this light emitting module D and increase by 1 address.After this light emitting module H had the address then equally, this light emitting module H thoroughly closed its light, because also no longer detect light at this right hand transducer 1 place.The right hand transducer 1 of this light emitting module G also detects the light of having cut out from this light emitting module H, but because this light emitting module H only passes on its address by this first bus, so do not pass on the address by this second bus.Consequently, this light emitting module G supposes that this follow-up light emitting module H is connected to another data/address bus and waits for addressed up to all light emitting modules of another bus.This light emitting module G shows to such an extent that it is that last light emitting module also correspondingly is that last light emitting module notification transmission is to other light emitting modules of this bus among this row with it among this row seemingly then, and consequently, light emitting module E, F and G are thoroughly closed.

Therefore the present invention also can carry out addressing to the light emitting module A-H that is connected on the different bus in arranging, and for example, this is addressed in every bus with address 1 beginning.

The address approach that herein presents in detail only is preferred illustrative embodiment, yet, also can make amendment to these preferred illustrative embodiment.Herein essence concept of the present invention be arranged in the light emitting module A-H transducer 1 and each other the light emission of the module of concrete coupling be used for determining to be placed on a kind of position of arranging the light emitting module A-H place of interior correspondence.Correspondingly, the present invention also is not limited to the use with regard to these three transducers 1.In addition, the matroid arrangement of showing of light emitting module A-H neither be indispensable.Light emitting module A-H also can be arranged in other arrangements, for example be arranged to a row.

Claims (15)

1. one kind is used to next door and light emitting module (A-H) the video module method of distributing the address particularly of below each other of being arranged in each other,

Determine the position of each light emitting module (A-H) in this arrangement, and

Be that each light emitting module (A-H) distributes an address on the basis of this position,

It is characterized in that,

In each light emitting module (A-H), determine only not launched by adjacent light emitting module (A-H), and

This information is used for definite this and arranges the position of corresponding light emitting module (A-H).

2. the method for claim 1,

It is characterized in that,

In each light emitting module (A-H), determine only not by adjacent light emitting module (A-H) emission on left-hand side, right-hand side, upside and/or the downside of the light emitting module (A-H) of correspondence.

3. as each described method in the claim 1 to 2,

It is characterized in that,

Adjacent light emitting module at least two adjacent sides of each light emitting module (A-H) is not launched the light time, determines the position of this light emitting module (A-H).

4. as the described method of one of claim 1 to 3,

It is characterized in that,

Arrange these light emitting modules (A-H) in a kind of mode of matroid.

5. method as claimed in claim 4,

It is characterized in that,

When beginning, this addressing opens the light from all light emitting modules (A-H), and

The position of the light emitting module (A-H) that one of four angles at first determining to be arranged in such matrix arrangement are located.

6. method as claimed in claim 5,

It is characterized in that,

At first determine to be arranged in the position of the light emitting module (A-H) in the upper left corner of such matrix arrangement,

Close the light from this light emitting module (A-H) except a bottom part as follows: among the row left adjacent light emitting module (A-H) no longer determine from the light in left side and downwards adjacent light emitting module (A-H) still determine light, and

Determine the position of adjacent light emitting module (A-H) left among the row, and close the light from this light emitting module (A-H) except a bottom part equally.

7. method as claimed in claim 6,

It is characterized in that,

Continue to determine among the row position of adjacent light emitting module (A-H) left and close the light of light emitting module since then that comes except a bottom part, the light on the no longer definite right side of a light emitting module (A-H), and

If a light emitting module (A-H) is no longer determined the light on the right side, then thoroughly close the position of light and first light emitting module (A-H) among definite next row of these light emitting modules (A-H) in arranging since then.

8. method as claimed in claim 7,

It is characterized in that,

Be arranged in next row of such matrix arrangement and the position of those light emitting modules (A-H) among all further rows by determining like that described in claim 6 and 7, up to all light emitting modules (A-H) being distributed in a position.

9. method as claimed in claim 5,

It is characterized in that,

At first determine to be arranged in the position of the light emitting module (A-H) in the upper left corner of such matrix arrangement,

Close the light of light emitting module (A-H) since then, and

The light that downward adjacent light emitting module (A-H) detected separately from this light emitting module (A-H) during left adjacent light emitting module (A-H) and was listed as among one row is closed, and

Determine the position of adjacent light emitting module (A-H) left among the row, and close the light of light emitting module (A-H) since then.

10. method as claimed in claim 9,

It is characterized in that,

Continue among the row left adjacent light emitting module (A-H) and row in downward adjacent light emitting module (A-H) detect position that light from this light emitting module (A-H) is closed, determines among the row adjacent light emitting module (A-H) left separately and close the light of light emitting module (A-H) since then, light on the no longer definite right side of a light emitting module (A-H), and

If a light emitting module (A-H) is no longer determined the light on the right side, then determine the position of first light emitting module (A-H) among next row.

11. method as claimed in claim 10,

It is characterized in that,

Be arranged in next row of such matrix arrangement and the position of those light emitting modules (A-H) among all further rows by determining like that described in claim 9 and 10, up to all light emitting modules (A-H) being distributed in a position.

12. a light emitting module (A-H), a kind of video module particularly,

It is characterized in that,

This light emitting module (A-H) has a plurality of transducers (1), and these transducers are for detection of the light of adjacent light emitting module (A-H) emission.

13. light emitting module as claimed in claim 12,

It is characterized in that,

These transducers (1) are arranged at left-hand side, right-hand side, upside and/or the downside of this light emitting module (A-H).

14. arrangement as each described a plurality of light emitting modules (A-H) in the claim 12 to 13.

15. arrangement as claimed in claim 14,

It is characterized in that,

Arrange these light emitting modules (A-H) in a kind of mode of matroid.

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