CN214468015U - Splicing lamp belt and combined lamp belt - Google Patents

Abstract

The utility model provides a can splice lamp area and combination lamp area, wherein, above-mentioned lamp area that can splice includes: the lamp strip splicing device comprises a plurality of interconnected lamp beads, wherein the interconnected lamp beads correspond to a lamp bead address, the spliced lamp strip and other N spliced lamp strips are combined into a combined lamp strip in a logic splicing mode, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer. By adopting the technical scheme, the problem that the target equipment cannot be matched with the lighting effects of the lamp belts by splicing the lamp belts together when the lamp belts are matched with the target equipment in the prior art is solved.

Description

Splicing lamp belt and combined lamp belt

Technical Field

The utility model relates to the field of communication, particularly, relate to a can splice lamp area and combination lamp area.

Background

The lamp area concatenation can't be carried out to current lamp area product. The lamp strip product is wound on a television and is used as atmosphere illumination of the television, for example, the television is a television with a fixed length and a lamp strip matched with a specific size, for example, a 55-inch lamp strip can only be matched with a 55-inch model television, and the 55-inch model television cannot be spliced and matched through a plurality of lamp strips smaller than the 55 size. Through a plurality of lamp area concatenation matching TV, just need a plurality of lamp area concatenations together to the illuminating effect in a plurality of lamp areas matches the TV.

Aiming at the problems that in the related art, when the lamp strip is matched with the target equipment for use, the lamp strips cannot be spliced together, and the target equipment is matched with the lighting effect of the lamp strips, an effective solution is not provided yet.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a can splice lamp area and combination lamp area to when lamp area cooperation target device used in solving the correlation technique, can't splice together through a plurality of lamp areas, match the problem of target device with the illuminating effect in a plurality of lamp areas.

According to the utility model discloses an embodiment provides a can splice lamp area, include: the lamp strip splicing device comprises a plurality of interconnected lamp beads, wherein the interconnected lamp beads correspond to a lamp bead address, the spliced lamp strip and other N spliced lamp strips are combined into a combined lamp strip in a logic splicing mode, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer.

Optionally, the plurality of interconnected lamp beads include: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl that can splice the lamp area splices with the first lamp pearl in first splicing lamp area, first tail lamp pearl that can splice the lamp area with the first lamp pearl in lamp area is connected, N can splice the lamp area and include: the first lamp strip that can splice.

Optionally, the plurality of interconnected lamp beads include: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in lamp area can splice with the first lamp pearl concatenation in lamp area can be spliced to the second, the tail lamp pearl in lamp area can be spliced to the second splices with the first lamp pearl concatenation in lamp area can be spliced to the third, the tail lamp pearl in lamp area can be spliced to the third with the first lamp pearl in lamp area can be spliced is connected, N can splice the lamp area and include: the second can splice lamp area with the third can splice lamp area.

Optionally, the lamp area of splicing still includes: the main control chip is connected with the lamp beads connected with each other through a communication bus respectively.

Optionally, the lamp area of splicing still includes: and the lamp strip communication module is connected with the main control chip and is also used for realizing the communication between the main control chip and the chip of the target equipment.

Optionally, the main control chip is further configured to determine lamp bead addresses of a plurality of target lamp beads in a lamp strip, obtain a plurality of lamp bead addresses, and determine, according to the plurality of lamp bead addresses, a correspondence between a lamp strip segment of the lamp strip and a region of the target device.

Optionally, the lamp area of splicing still includes: and the power module is used for supplying power to the plurality of interconnected lamp beads.

According to another embodiment of the utility model, a combination lamp area is provided, include: the lamp strip splicing device comprises at least two lamp strips capable of being spliced, wherein the lamp beads of the at least two lamp strips capable of being spliced correspond to a lamp bead address, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer.

Optionally, any one of the at least two strip of light that can be spliced includes: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in fourth spliceable lamp area splices with the first lamp pearl in fifth spliceable lamp area, the tail lamp pearl in fifth spliceable lamp area with the first lamp pearl in fourth spliceable lamp area is connected, at least two spliceable lamp areas include: the fourth lamp area that can splice with the fifth lamp area that can splice.

Optionally, any one of the at least two strip of light that can be spliced includes: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in sixth spliceable lamp area splices with the first lamp pearl in seventh spliceable lamp area, the tail lamp pearl in seventh spliceable lamp area splices with the first lamp pearl in eighth spliceable lamp area, the tail lamp pearl in eighth spliceable lamp area with the first lamp pearl in sixth spliceable lamp area is connected, N can splice the lamp area and include: the sixth can splice the lamp area, the seventh can splice the lamp area with the eighth can splice the lamp area.

Through the utility model discloses, a plurality of interconnect's lamp pearl, wherein, a plurality of interconnect's lamp pearl all corresponds a lamp pearl address, can splice lamp area and other N can splice lamp area and obtain combination lamp area through the logic concatenation mode, the lamp area segmentation in combination lamp area with there is corresponding relation in the different regions of target device, and N is the positive integer. That is to say, through the mode concatenation of logic concatenation can splice lamp area and other N, obtain combination lamp area, there is the corresponding relation in the lamp area segmentation in combination lamp area and the different regions of target device. By adopting the technical scheme, the problem that the target equipment cannot be matched through the splicing of the plurality of lamp belts when the lamp belts are matched with the target equipment for use in the related art is solved, so that the small-size lamp belts and the large-size lamp belts are utilized, and the waste of resources is avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a block diagram of a strip of spliceable light according to an embodiment of the invention;

fig. 2 is a schematic diagram of communication between a lamp bead and a main control chip according to the embodiment of the present invention;

fig. 3 is a schematic diagram of a television in communication with a light strip according to an embodiment of the present invention;

fig. 4 is a schematic diagram of lamp bead mapping on a television according to an embodiment of the present invention;

fig. 5 is a flow chart of lamp pearl address mapping according to the utility model discloses a can splice lamp area.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The lamp area that can splice is provided in this embodiment, and fig. 1 is the structure diagram according to the utility model discloses optional embodiment's a lamp area that can splice, as shown in fig. 1:

the embodiment of the invention provides a splicing lamp belt, which comprises: the lamp strip splicing device comprises a plurality of interconnected lamp beads, wherein the interconnected lamp beads correspond to a lamp bead address, the spliced lamp strip and other N spliced lamp strips are combined into a combined lamp strip in a logic splicing mode, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer.

It should be noted that the logical splicing manner is to uniformly map the lamp bead address segments after the lamp strips are spliced into the color-taking address segments of the corresponding regions of the target device, so that the display effect of the corresponding regions of the target device is expressed by the brightness of a plurality of lamp beads of a plurality of lamp strips.

It should be noted that the strip lamp capable of being spliced and the other N strip lamp capable of being spliced obtain the combined strip lamp through a logic splicing mode, wherein splicing in the splicing mode can be not only splicing of a physical layer, but also connection of a logic layer. That is to say, not only can be fixed together many lamp areas through modes such as welding to become a lamp area with many lamp areas, also can be with the lamp pearl address segment after the lamp area concatenation, unified mapping is the regional address segment of getting look of target device correspondence, thereby expresses the display effect that target device corresponds regional with the light and shade of a plurality of lamp pearls in many lamp areas, and then expresses target device's display effect with many lamp areas through above-mentioned concatenation mode.

In fig. 1, a lamp strip capable of being spliced has a plurality of lamp beads connected with each other, each lamp bead corresponds to a lamp bead address, and each lamp bead can be controlled by controlling the lamp bead address corresponding to each lamp bead, so as to control the light and shade mode of the lamp strip. The edge of the target equipment can be divided into four areas, namely an upper area, a lower area, a left area and a right area, the lamp strip sections capable of being spliced with the target equipment correspond to the four areas, namely the upper area, the lower area, the left area and the right area of the target equipment, and the display of the target equipment is controlled by controlling the brightness of the lamp strip.

In an alternative embodiment, the plurality of interconnected beads comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl that can splice the lamp area splices with the first lamp pearl in first splicing lamp area, first tail lamp pearl that can splice the lamp area with the first lamp pearl in lamp area is connected, N can splice the lamp area and include: the first lamp strip that can splice.

It should be noted that, the tail lamp bead of the spliceable lamp strip is spliced with the head lamp bead of the first spliceable lamp strip, and the tail lamp bead of the first spliceable lamp strip is connected with the head lamp bead of the spliceable lamp strip, wherein the head lamp beads and the tail lamp beads of different lamp strips are spliced together, not only the real splicing on the physical layer, but also the logical splicing, that is, the head lamp beads and the tail lamp beads of different lamp strips can be fixed together, so as to change different lamp strips into one lamp strip, and also can uniformly map the lamp bead address sections of the head lamp beads and the tail lamp beads of different lamp strips into the color-taking address section of the corresponding area of the target device, that is, the tail lamp bead of the spliceable lamp strip is adjacent to the head lamp bead of the first spliceable lamp strip, and the light and shade of the head lamp bead of the first spliceable lamp strip express the display effect of the corresponding area of the target device, and then the display effect of the target device is expressed by the head lamp beads and the tail lamp beads of different lamp belts through the splicing mode.

It should be noted that, when can splice the edge that the lamp area is not enough to cover the target device, use first can splice the lamp area with can splice the lamp area concatenation, can splice the tail lamp pearl in lamp area and the first lamp pearl concatenation in first can splice the lamp area, the tail lamp pearl in first can splice the lamp area with the first lamp pearl in lamp area is connected, covers the edge of target device completely with this.

It should be noted that the lamp strip splicing mainly has two implementation schemes:

1. the splicing place of the splicing lamp strip and the first splicing lamp strip is one of the corner nodes of the target equipment: recording that the corner nodes of the target device are respectively P _ LT/P _ RT/P _ RB/P _ LB (in this embodiment, the target device has only four corner nodes), so that the splicing position of the spliceable light strip and the first spliceable light strip is one of P _ LT/P _ RT/P _ RB/P _ LB, that is, the light bead address P _ L is obtained, and then the remaining light bead address interval which cannot cover the current frame is PN-P _ L (PN is the maximum address);

2. the splicing place of the spliceable light strip and the first spliceable light strip is not one of the corner nodes of the target device: newly adding a first spliceable lamp strip, splicing to a PN position at the tail of the first spliceable lamp strip to cover the whole frame of the target equipment, and if the first spliceable lamp strip is not enough to cover the whole frame of the target equipment, continuing splicing; one of the first corner nodes P _ LT/P _ RT/P _ RB/P _ LB covering the whole target device frame and the (PN-P _ L) in the A are mapped into the same color taking area of the target device, namely, the rest lamp beads of the lamp strip A and the first section lamp beads of the lamp strip B are spliced into a new virtual lamp strip area and recorded in the target device side IC so as to be convenient for addressing control.

In an alternative embodiment, the plurality of interconnected beads comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in lamp area can splice with the first lamp pearl concatenation in lamp area can be spliced to the second, the tail lamp pearl in lamp area can be spliced to the second splices with the first lamp pearl concatenation in lamp area can be spliced to the third, the tail lamp pearl in lamp area can be spliced to the third with the first lamp pearl in lamp area can be spliced is connected, N can splice the lamp area and include: the second can splice lamp area with the third can splice lamp area.

It should be noted that, when the strip that can splice is not enough to cover the edge of the target device, use the first strip that can splice with the strip that can splice, if the first strip that can splice with the strip that can splice splices still can not cover the edge of the target device completely, use the strip that can splice with the second strip that can splice, the third strip that can splice splices covers the edge of the target device: the tail lamp pearl that can splice the lamp area splices with the first lamp pearl concatenation in the second can splice the lamp area, the tail lamp pearl that the second can splice the lamp area splices with the first lamp pearl concatenation in the third can splice the lamp area, the tail lamp pearl that the third can splice the lamp area with the first lamp pearl in lamp area that can splice is connected. And if the splicing lamp strip and the second splicing lamp strip are used, the edge of the target equipment cannot be completely covered by the third splicing lamp strip, and then the splicing lamp strip and the three splicing lamp strips are used for splicing and covering the edge of the target equipment. And if the edge of the target equipment still cannot be covered by splicing the splicing lamp strip and the three splicing lamp strips, splicing the edge of the target equipment by using the splicing lamp strip and more splicing lamp strips until the edge of the target equipment is completely covered.

The lamp area of can splicing still includes: the main control chip is connected with the lamp beads connected with each other through a communication bus respectively.

Fig. 2 is according to the utility model discloses a lamp pearl and main control chip's communication's schematic diagram, as shown in fig. 2: the main control chip IC communicates with the lamp beads through a communication bus, wherein the number of the lamp beads can be N, and N is a positive integer. Through this mode, each lamp pearl just can be controlled to main control chip to lamp pearl performance such as revolving scenic lantern.

The lamp area of can splicing still includes: and the lamp strip communication module is connected with the main control chip and is also used for realizing the communication between the main control chip and the chip of the target equipment.

The lamp strip communication module is connected with the main control chip, wherein the main control chip is a lamp strip main control IC chip and is used for realizing communication between the main control chip and a chip of the target equipment. Fig. 3 is a schematic diagram of a television and a lamp strip communication according to the embodiment of the present invention, as shown in fig. 3: the lamp strip main control IC chip and the TV main control chip are communicated with the TV communication module through the lamp strip communication module, and the main control chip IC of the lamp strip controls the lamp beads through a communication bus. The TV main control chip comprises a TV position area identification module and a TV color acquisition module, the TV position area identification module identifies different areas of a TV, the TV color acquisition module acquires color information of the different areas of the TV, the TV color acquisition module transmits the acquired color information of the different areas of the TV to the TV main control chip, the TV main control chip transmits the color information to the lamp strip main control IC chip through the TV communication module and the lamp strip communication module, the lamp strip main control IC chip controls lamp beads through a communication bus, and therefore the control lamp beads control the display effect.

The main control chip is further used for determining lamp bead addresses of a plurality of target lamp beads in the lamp strip to obtain a plurality of lamp bead addresses, and determining the corresponding relation between the lamp strip sections of the lamp strip and the areas of the target equipment according to the plurality of lamp bead addresses.

Determining lamp bead addresses of a plurality of target lamp beads in a lamp strip to obtain a plurality of lamp bead addresses, and determining that the lamp strip segmentation of the lamp strip corresponds to the region of the target device according to the plurality of lamp bead addresses in a plurality of optional implementation modes, wherein one optional implementation mode comprises the following steps: sequentially lightening lamp beads in the lamp strip according to a first lightening direction; executing a target confirmation event under the condition that a currently-lighted target lamp bead is correspondingly arranged at a first corner node of the target equipment so as to confirm the corresponding relation between the target lamp bead and the first corner node; and acquiring the lamp bead addresses of the currently lighted target lamp beads until the lamp bead addresses corresponding to the corner nodes are acquired.

It should be noted that the lamp beads in the lamp strip are sequentially lightened according to a first lightening direction, where the first lightening direction may be that the lamp strip is lightened according to a clockwise direction or an anticlockwise direction, and a first lightened lamp bead in the lamp strip may be randomly determined by the system, or the first lightened lamp bead may be a last lightened lamp bead when the last sequential lightening of the lamp beads in the lamp strip is finished. And executing a target confirmation event under the condition that the currently-lighted target lamp bead is correspondingly arranged at the first corner node of the target equipment, namely executing the target confirmation event when the currently-lighted lamp bead is the lamp bead at the first corner node of the target equipment. It should be further noted that the first corner node may be one of any top corners of the target device, for example, if the target device is a television, the first corner node is one of four corners of the television, and a specific corner is determined by the first illuminated bead and the first illumination direction. And acquiring the lamp bead address of the currently-lighted target lamp bead, wherein the lamp bead address of the target lamp bead is determined by system mapping of the target device, for example, the lamp bead address of the target lamp bead can be mapped to P1, P2 and the like. For example, when the television is turned on, if the address of the last illuminated lamp bead is P1 when the last sequential illumination of the lamp beads in the lamp strip of the television is finished, starting from the lamp bead P1, the clockwise direction may be selected as the first illumination direction, the lamp beads in the lamp strip are sequentially illuminated, and when the lamp bead at the first corner node of the television is currently illuminated, the target confirmation event is executed.

It should be noted that, executing the target confirmation event is to confirm the corresponding relationship between the target lamp bead and the first corner node when the currently lit target lamp bead is correspondingly set in the first corner node of the target device. That is, under the condition that the currently lighted target lamp bead is correspondingly arranged at the first corner node of the target device, the address of the target lamp bead at the first corner node is obtained.

After the corresponding relationship between the target lamp bead and the first corner node is confirmed, the lamp bead address of the currently-lighted target lamp bead is obtained until the lamp bead addresses corresponding to the corner nodes are obtained, and the method comprises the following steps: continuing to light other lamp beads behind the currently lighted target lamp bead according to the first lighting direction; executing a target confirmation event under the condition that the target lamp bead in the other lamp beads is correspondingly arranged at a second corner node of the target equipment, so as to confirm the corresponding relation between the target lamp bead in the other lamp beads and the second corner node; and obtaining the lamp bead addresses of target lamp beads in the other lamp beads until obtaining the lamp bead addresses corresponding to the corner nodes.

It should be noted that after the address of the lamp bead at the first corner node of the target device is obtained, the other lamp beads behind the currently-lit target lamp bead are continuously lit according to the first lighting direction, and the address of the lamp bead at the second corner node of the target device is obtained. And executing a target confirmation event under the condition that a target lamp bead in the other lamp beads is correspondingly arranged at the second corner node of the target equipment, namely executing the target confirmation event when the lamp bead at the second corner node of the target equipment is lightened currently.

It should be noted that obtaining the lamp bead addresses of the currently-lit target lamp beads until obtaining the plurality of lamp bead addresses corresponding to the plurality of corner nodes is to obtain the lamp bead addresses of the corner nodes of the target device for multiple times, where the number of times of obtaining the lamp bead addresses of the corner nodes of the target device is determined by the number of corner nodes of the target device. And executing a target confirmation event under the condition that the target lamp bead in the other lamp beads is correspondingly arranged at the corner node of the target equipment. Taking the television lamp strip as an example, the lamp bead addresses corresponding to four corner nodes of the television need to be acquired before the television is used, and after the lamp bead address corresponding to the fourth corner node of the television is acquired, the target confirmation event is executed and ended. It should be noted that, lamp bead addresses corresponding to four corner nodes of the television are obtained, the lamp strip of the television is circularly lighted for a whole circle, and then lamp bead addresses of any region of the television can be obtained from the lamp bead addresses corresponding to the four corner nodes of the television. Taking a TV as an example, when a 55-inch television is selected at the TV end, the TV screen can be divided into four edge regions, i.e., an upper edge region, a lower edge region, a left edge region, a right edge region, a left edge region, and lamp strips, i.e., lamp strips 1-30 correspond to the upper edge region of the screen, lamp strips 31-50 correspond to the right edge region of the screen, lamp strips 51-80 correspond to the lower edge region of the screen, and lamp strips 81-99 correspond to the left edge region of the screen. The sectional configuration mapping and the sectional control of the lamp belt can be realized through the technical means.

The lamp area of can splicing still includes: and the power module is used for supplying power to the plurality of interconnected lamp beads.

According to another embodiment of the utility model, a combination lamp area is provided, include: the lamp strip splicing device comprises at least two lamp strips capable of being spliced, wherein the lamp beads of the at least two lamp strips capable of being spliced correspond to a lamp bead address, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer.

It should be noted that the utility model provides a can splice the lamp area in addition to providing one kind, still provides a combination lamp area, and combination lamp area is formed by can splicing the lamp area concatenation. For example, the following steps are carried out: there are two lamp areas that can splice: can splice lamp area A with can splice lamp area B, wherein can splice lamp area A and what splice lamp area B concatenation formed is exactly a combination lamp area. The target equipment is provided with four regions, namely an upper region, a lower region, a left region and a right region, and the lamp strip sections of the combined lamp strip formed by splicing the splicing lamp strip A and the splicing lamp strip B correspond to different regions of the target equipment.

It should be noted that, at least two lamp strips that can splice are obtained through the concatenation mode combination lamp area, wherein, the concatenation through in the concatenation mode not only can be the true concatenation on the physical layer, also can be the concatenation in the logic, that is to say, can be fixed a plurality of lamp strips that can splice together through modes such as welding, thereby become a lamp strip with a plurality of lamp strips that can splice, also can be with the lamp pearl address section after the lamp strip concatenation, unified mapping is the address section of getting look of target device corresponding region, thereby express the display effect of target device corresponding region with the light and shade of a plurality of lamp pearls in a plurality of lamp strips that can splice, and then express the display effect of target device through above-mentioned concatenation mode with a plurality of lamp strips.

In an alternative embodiment, any one of the at least two tileable strips comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in fourth spliceable lamp area splices with the first lamp pearl in fifth spliceable lamp area, the tail lamp pearl in fifth spliceable lamp area with the first lamp pearl in fourth spliceable lamp area is connected, at least two spliceable lamp areas include: the fourth lamp area that can splice with the fifth lamp area that can splice.

It should be noted that, the tail lamp bead of the fourth strip capable of being spliced is spliced with the head lamp bead of the fifth strip capable of being spliced, and the tail lamp bead of the fifth strip capable of being spliced is connected with the head lamp bead of the fourth strip capable of being spliced, wherein the head lamp beads and the tail lamp beads of different strips are spliced together, not only can be actually spliced on a physical layer, but also can be logically spliced, that is, the head lamp beads and the tail lamp beads of different strips can be fixed together, so that different strips are changed into one strip, and also the lamp bead address sections of the head lamp beads and the tail lamp beads of different strips can be uniformly mapped into the color taking address section of the corresponding area of the target device, that is, the tail lamp bead of the fourth strip capable of being spliced is adjacent to the head lamp bead of the fifth strip capable of being spliced, and the tail lamp bead of the fourth strip and the light and shade of the head lamp bead of the fifth strip capable of being spliced express the display effect of the corresponding area of the target device, and then the display effect of the target device is expressed by the head lamp beads and the tail lamp beads of different lamp belts through the splicing mode.

It should be noted that when the fourth strip capable of being spliced is not enough to cover the edge of the target device, the fifth strip capable of being spliced is spliced with the fourth strip capable of being spliced, and the fifth strip capable of being spliced is spliced with the fourth strip capable of being spliced to form the combined strip. The tail lamp pearl in fourth spliceable lamp area and the first lamp pearl concatenation in fifth spliceable lamp area, the tail lamp pearl in fifth spliceable lamp area with the first lamp pearl in fourth spliceable lamp area is connected to this covers the edge of target device completely.

In an alternative embodiment, any one of the at least two tileable strips comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in sixth spliceable lamp area splices with the first lamp pearl in seventh spliceable lamp area, the tail lamp pearl in seventh spliceable lamp area splices with the first lamp pearl in eighth spliceable lamp area, the tail lamp pearl in eighth spliceable lamp area with the first lamp pearl in sixth spliceable lamp area is connected, N can splice the lamp area and include: the sixth can splice the lamp area, the seventh can splice the lamp area with the eighth can splice the lamp area.

It should be noted that, if the tail lamp bead of the fourth spliceable lamp strip and the head lamp bead of the fifth spliceable lamp strip are not spliced enough to cover the edge of the target device, the sixth spliceable lamp strip and the seventh spliceable lamp strip, and the eighth spliceable lamp strip are spliced to cover the edge of the target device, where the sixth spliceable lamp strip and the seventh spliceable lamp strip, and the eighth spliceable lamp strip are spliced to form another combined lamp strip. During the concatenation, the tail lamp pearl in sixth spliceable lamp area splices with the first lamp pearl in seventh spliceable lamp area, the tail lamp pearl in seventh spliceable lamp area splices with the first lamp pearl in eighth spliceable lamp area, the tail lamp pearl in eighth spliceable lamp area with the first lamp pearl in sixth spliceable lamp area is connected. If the edge of the target device cannot be completely covered by the sixth and seventh stitchable light strips and the eighth stitchable light strip in a stitching mode, the edge of the target device is covered by the sixth and seventh stitchable light strips, the eighth stitchable light strip and more stitchable light strips in a stitching mode until the edge of the target device is completely covered.

Fig. 4 is a schematic diagram according to the utility model discloses a lamp pearl mapping on TV, as shown in fig. 4: the lamp bead addresses of the lamp beads at four corner nodes of the television are respectively P1, P30, P50 and P80; the light belts corresponding to the four regions of the television are respectively P1-P30, P30-P50, P50-P80 and P80-P1.

Fig. 5 is a schematic diagram of a method for configuring a lamp strip according to an embodiment of the present invention, as shown in fig. 5, including:

before the light belt is configured, the following information, i.e., the width L, the height H, the length N of the light belt, the definition of the 4 corner nodes of the screen, and the leftTop/rightTop/RightBottom/LeftBottom, needs to be defined and obtained. And when the lamp strip is configured, starting from any physical starting point P of the lamp strip, sequentially winding L/H/L/H or H/L/H/L to the TV backboard. The TV terminal APP displays a configuration picture, displays 4 corner nodes, and sequentially configures, for example, a leftTop corner is firstly lighted up, and the specific implementation steps are as follows:

s502: lighting the LED lamp bead with the lamp bead address of N;

s504: judging whether the confirmation of the four corner nodes is finished or not, if the confirmation of the four corner nodes is finished, executing S712, and if the confirmation of the four corner nodes is not finished, executing S706;

s506: judging whether the current lighting node corresponds to an unmarked corner node, if the current lighting node corresponds to an unmarked corner node, executing S708, and if the current lighting node does not correspond to an unmarked corner node, executing S710;

s508: recording the node as a marked corner node, and recording the current address of the LED lamp bead;

s510: n +1 addresses next LED lamp bead, the lamp strip lights LED lamp bead nodes (or segments and groups of minimum granularity) in sequence, each lamp bead node includes a lamp bead address P (P1-P99), when the lamp strip flows to a corresponding lighted TV screen node (such as the upper left corner node P1), the control device confirms the mapping relationship operation (such as clicking a remote controller OK key), and the master IC chip of the lamp strip and the master chip of the TV end record that the address of the current lamp bead is P1(P _ LT). And (4) circularly executing S702-S710 until the 4 corner nodes are mapped, and recording P _ RT/P _ RB/P _ LB. The lamp beads can be controlled to be lightened in a single step, the mapping relation is prevented from being operated or corrected, for example, the DPAD direction key of the TV remote controller has 2 (left and right) directions, the lamp beads are lightened to the direction of an address N-1 when the left key is pressed once, and the lamp beads are lightened to the direction of an address N +1 when the right key is pressed once, so that the purposes of lightening and flowing in a single step are achieved;

s512: and recording lamp bead addresses corresponding to the four corner nodes, and determining the lamp strip segmentation by the lamp bead addresses of the lamp beads at the corner nodes. And segmenting/grouping the lamp strip corresponding to the screen area A into lamp bead intervals of P _ LT and P _ RT, and sequentially obtaining the lamp strip segments/groups corresponding to the B/C/D area. For example, when a 55-inch television is selected at the TV end, the lamp strip is configured in such a way that 1 st to 30 th lamp beads correspond to a first screen region, 31 st to 50 th lamp beads correspond to a second screen region, 51 st to 80 th lamp beads correspond to a third screen region, and 81 th to 99 th lamp beads correspond to a fourth screen region.

The lamp strip splicing method mainly comprises two implementation schemes, namely that the splicing position of the second lamp strip and the first lamp strip is one of corner nodes of the target equipment, and the splicing position of the second lamp strip and the first lamp strip is not one of the corner nodes of the target equipment, and the specific application of which needs is determined according to an actual scene.

Through the utility model discloses, a plurality of interconnect's lamp pearl, wherein, a plurality of interconnect's lamp pearl all corresponds a lamp pearl address, can splice lamp area and other N can splice lamp area and obtain combination lamp area through the logic concatenation mode, the lamp area segmentation in combination lamp area with there is corresponding relation in the different regions of target device, and N is the positive integer. That is to say, through the mode concatenation of logic concatenation can splice lamp area and other N, obtain combination lamp area, there is the corresponding relation in the lamp area segmentation in combination lamp area and the different regions of target device. By adopting the technical scheme, the problem that the target equipment cannot be matched through the splicing of the plurality of lamp belts when the lamp belts are matched with the target equipment for use in the related art is solved, so that the small-size lamp belts and the large-size lamp belts are utilized, and the waste of resources is avoided.

Through the above description of the embodiments, those skilled in the art can clearly understand that the method according to the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solution of the present invention essentially or the portions contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes a plurality of instructions for enabling a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to execute the method according to the embodiments of the present invention.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and optionally they may be implemented by program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that shown or described herein, or separately fabricated as individual integrated circuit modules, or multiple ones of them fabricated as a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A tileable light strip, comprising:

the lamp strip splicing device comprises a plurality of interconnected lamp beads, wherein the interconnected lamp beads correspond to a lamp bead address, the spliced lamp strip and N spliced lamp strips obtain a combined lamp strip in a logic splicing mode, corresponding relations exist between lamp strip sections of the combined lamp strip and different regions of target equipment, and N is a positive integer.

2. A strip of tileable lights according to claim 1, wherein said plurality of interconnected light beads comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl that can splice the lamp area splices with the first lamp pearl in first splicing lamp area, first tail lamp pearl that can splice the lamp area with the first lamp pearl in lamp area is connected, N can splice the lamp area and include: the first lamp strip that can splice.

3. A strip of tileable lights according to claim 1, wherein said plurality of interconnected light beads comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in lamp area can splice with the first lamp pearl concatenation in lamp area can be spliced to the second, the tail lamp pearl in lamp area can be spliced to the second splices with the first lamp pearl concatenation in lamp area can be spliced to the third, the tail lamp pearl in lamp area can be spliced to the third with the first lamp pearl in lamp area can be spliced is connected, N can splice the lamp area and include: the second can splice lamp area with the third can splice lamp area.

4. A tileable light strip according to claim 1, further comprising: the main control chip is connected with the lamp beads connected with each other through a communication bus respectively.

5. A tileable light strip according to claim 4, further comprising: and the lamp strip communication module is connected with the main control chip and is also used for realizing the communication between the main control chip and the chip of the target equipment.

6. The spliceable lamp strip of claim 4, wherein the main control chip is further configured to determine lamp bead addresses of a plurality of target lamp beads in the lamp strip, obtain a plurality of lamp bead addresses, and determine a correspondence between a lamp strip segment of the lamp strip and a region of the target device according to the plurality of lamp bead addresses.

7. A tileable light strip according to claim 1, further comprising: and the power module is used for supplying power to the plurality of interconnected lamp beads.

8. A modular light strip, comprising:

the lamp strip splicing device comprises at least two lamp strips capable of being spliced, wherein the lamp beads of the at least two lamp strips capable of being spliced correspond to a lamp bead address, the lamp strip sections of the combined lamp strip correspond to different regions of target equipment, and N is a positive integer.

9. A modular light strip as claimed in claim 8, wherein any one of the at least two strip of tileable light strips comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in fourth spliceable lamp area splices with the first lamp pearl in fifth spliceable lamp area, the tail lamp pearl in fifth spliceable lamp area with the first lamp pearl in fourth spliceable lamp area is connected, at least two spliceable lamp areas include: the fourth lamp area that can splice with the fifth lamp area that can splice.

10. A modular light strip as claimed in claim 8, wherein any one of the at least two strip of tileable light strips comprises: first lamp pearl and tail lamp pearl, wherein, the tail lamp pearl in sixth spliceable lamp area splices with the first lamp pearl in seventh spliceable lamp area, the tail lamp pearl in seventh spliceable lamp area splices with the first lamp pearl in eighth spliceable lamp area, the tail lamp pearl in eighth spliceable lamp area with the first lamp pearl in sixth spliceable lamp area is connected, and N spliceable lamp areas include: the sixth can splice the lamp area, the seventh can splice the lamp area with the eighth can splice the lamp area.

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