CN112439186A - Seven-piece puzzle splicing system and splicing control method - Google Patents

Abstract

The invention relates to the technical field of intelligence toys, and particularly discloses a tangram splicing system and a control method, wherein the system comprises a tangram assembly and a control terminal, the tangram assembly comprises seven splicing plates, a prompt lamp is arranged on the splicing edge of each splicing plate, and a controller for controlling the prompt lamp is embedded in each splicing plate; the control terminal is provided with a central controller, a pattern memory and a display screen, the pattern memory stores a plurality of candidate splicing patterns with different shapes, the display screen is used for displaying a pattern menu formed by at least one candidate splicing pattern, and the central controller is used for controlling the controller to light the prompt lamps in the splicing areas with the splicing relation on the splicing plates in the same color. According to the intelligent splicing board, the prompt lamps are arranged on the splicing boards, and the intelligent splicing prompt of the patterns to be spliced is realized by combining the prompt information, so that the requirement of self-learning or self-play of children is met, and the targeted acoustoelectric light enables the children to have better attention culture.

Description

Seven-piece puzzle splicing system and splicing control method

Technical Field

The invention relates to the technical field of intelligence toys, in particular to a jigsaw puzzle splicing system and a splicing control method.

Background

The prop of the tangram game is composed of seven boards, including two large isosceles triangles, a middle isosceles triangle, two small isosceles triangles, a square and a parallelogram, and a complete square pattern can be formed by different combinations of the seven boards, and patterns with different shapes can also be spliced. For example, patterns such as objects, mountains and waters, animals and the like can be spliced, character patterns with different postures can be spliced, and the splicing game of the tangram is favorable for exerting imagination of players. However, the tangram in the prior art has a single color, so that the interest of a player cannot be aroused, and the splicing of the patterns cannot be interestingly guided, and even parents need to splice and practice the tangram first before the patterns can correctly teach children to splice, for example, when the parents want to splice a duck shape through the tangram, the parents may need to splice the tangram first by themselves and after the parents are skillfully spliced, the parents can teach children to correctly splice the patterns. Therefore, the traditional tangram cannot meet the requirements of self-learning or self-swimming of children.

Disclosure of Invention

The technical problem to be solved by the invention is that in the prior art, when children splice different shapes by utilizing the tangram, the children need to be guided by special persons or try for many times, the splicing interestingness is lacked, and the requirements of self-learning or self-playing of the children cannot be met.

In order to solve the technical problem, the invention discloses a tangram splicing system which comprises a tangram assembly and a control terminal, wherein the tangram assembly comprises seven splicing plates, a prompting lamp is arranged on the splicing edge of each splicing plate, and a controller for controlling the prompting lamp is embedded in each splicing plate;

the control terminal is provided with a central controller, a pattern memory and a display screen, and the central controller is electrically connected with the controller and the pattern memory respectively;

the pattern memory is stored with a plurality of candidate splicing patterns with different shapes, at least one candidate splicing pattern forms a pattern menu, and the display screen is used for displaying the pattern menu.

Furthermore, a sound controller is further arranged on the control terminal, the sound controller is electrically connected with the central controller, and the sound controller is used for playing preset prompt voices.

In an implementable scheme, the prompting lamp is arranged at the end part of the splicing edge of the splicing plate.

In another implementable scheme, the prompt lamps are arranged along the splicing edges of the splicing plates according to a preset arrangement rule.

In an implementable scheme, the preset arrangement rule includes equally dividing the splicing edges of the splice plates according to a preset proportion.

In an implementable scheme, the prompting lamp is an RGB three-color lamp.

Further, the present invention also provides a jigsaw puzzle splicing control method for controlling the jigsaw puzzle splicing system, which comprises a control terminal and a jigsaw puzzle assembly comprising seven splicing plates, the method comprising:

displaying a pattern menu on a display screen of a control terminal, wherein the pattern menu comprises at least one candidate splicing pattern, each candidate splicing pattern is formed by splicing at least two splicing plate patterns, and each splicing plate pattern corresponds to one splicing plate in the tangram component;

responding to the selection operation of a user on any candidate splicing pattern in the pattern menu, taking the candidate splicing pattern corresponding to the selection operation as a target splicing pattern, and displaying the target splicing pattern on the screen;

taking each splice plate graph forming the target splice pattern as a target splice plate graph, and taking a splice plate corresponding to the target splice plate graph in the seven splice plates as a target splice plate;

determining splicing data of each target splicing plate according to the splicing relation among the target splicing plate graphs, wherein the splicing data comprises the areas to be spliced and the light colors of the areas to be spliced, and the light colors of the two areas to be spliced with the splicing relation are the same;

and sending a control instruction to a corresponding target splice plate according to the splice data so that the target splice plate acquires the splice data carried by the control instruction, and lighting the area to be spliced of the target splice plate by using the light color corresponding to the splice data.

Further, the determining the splicing data of each target splice plate according to the splicing relationship between the target splice plate patterns includes:

taking the area of each target splice plate graph with splicing relation with other target splice plates as a graph splicing area, determining the area of each target splice plate corresponding to the graph splicing area according to the graph splicing area of each target splice plate graph and by combining the corresponding relation between each area of the target splice plate graph and each area of the target splice plate, and taking the area of each target splice plate corresponding to the graph splicing area as an area to be spliced;

determining the splicing relation between the area to be spliced of each target splicing plate and the area to be spliced of other target splicing plates according to the splicing relation between the graph splicing area of each target splicing plate graph and the graph splicing areas of other target splicing plate graphs, and determining the light color of the areas to be spliced of the two target splicing plates with the splicing relation as the same color to obtain the light color of the area to be spliced of each target splicing plate;

and generating splicing data of the target splicing plates according to the areas to be spliced of the target splicing plates and the light colors of the areas to be spliced.

Further, the method further comprises:

receiving first feedback information sent by target splicing plates, wherein the first feedback information is generated under the condition that two to-be-spliced areas with splicing relations on any two target splicing plates are matched;

determining the times to be spliced according to the splicing relation among the target splicing plate graphs in the target splicing pattern;

and comparing the quantity of the first feedback information with the number of times to be spliced, and judging that the target splicing plate is spliced according to the target splicing pattern when the quantity of the first feedback information is equal to the number of times to be spliced.

According to the intelligent splicing board, the prompt lamps are arranged on the splicing edges of the splicing boards, and intelligent splicing prompt of patterns to be spliced is realized by combining the prompt information, so that the requirement of self-learning or self-play of children is met, and the targeted acoustooptical and photoelectric characteristics enable the children to have better attention cultivation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of the construction of one of the puzzle pieces of the jigsaw puzzle according to the embodiment of the present invention;

FIG. 2 is a flow chart of a jigsaw puzzle splicing control method according to an embodiment of the present invention;

FIG. 3 is a flow chart of acquisition of stitching data;

in the figure, 1-a splice plate, 2-a warning light and 3-a controller.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In describing the present invention, it is to be understood that the terms "first," "second," "third," and "fourth," etc. in the description and claims of the present invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Example (b):

in order to solve the problems in the prior art, the invention provides a tangram splicing system. Specifically, the system comprises a seven-piece assembly and a control terminal, wherein the seven-piece assembly comprises seven splicing plates 1, a prompt lamp 2 is arranged on the splicing edge of each splicing plate 1, and a controller 3 for controlling the prompt lamp 2 is embedded in each splicing plate 1;

the control terminal is provided with a central controller, a pattern memory and a display screen, and the central controller is electrically connected with the controller 3 and the pattern memory respectively;

the pattern memory is stored with a plurality of candidate splicing patterns with different shapes, at least one candidate splicing pattern forms a pattern menu, and the display screen is used for displaying the pattern menu.

Furthermore, a sound controller is further arranged on the control terminal, the sound controller is electrically connected with the central controller, and the sound controller is used for playing preset prompt voices. The preset prompt voice may be prompt based on the color of the prompt lamp in the splicing process, for example, "please complete the butt joint of the splicing line corresponding to the red lamp"; or prompt can be given after the splicing of certain two spliced plates which are spliced with each other is completed, for example, the splicing of the red light is completed.

In an implementable solution, the indicator light 2 is arranged at an end of a splicing edge of the splice plate 1.

It can be understood that the end of the splicing edge of the splicing plate 1 may refer to an end point of the splicing edge, that is, an intersection point of two adjacent splicing edges on the splicing plate 1, or a range formed from a first position on the splicing edge to an end point position of the splicing edge. The first position may be a position on the splicing edge a preset distance from an end point of the splicing edge. The preset distance may be 2/3 length of the splicing edge, or 3/5 length of the splicing edge, etc., and may be set according to actual needs, and is not specifically limited herein.

Further, in another implementable scheme, the indicator lights 2 may also be arranged along the splicing edges of the splice plates 1 according to a preset arrangement rule. The preset arrangement rule comprises that the splicing edges of the splicing plates 1 are equally divided according to a preset proportion. For example, the division is performed according to a ratio of 1:3, division is performed according to a ratio of 1:4, or division is performed according to a ratio of 1:2, which may be determined according to actual situations, and the preset ratio is not specifically limited.

It is understood that the notification light may be an LED light or an RGB three-color light.

Furthermore, the controller 3 can be embedded inside the splicing plate 1, so that the influence on the control precision caused by collision and damage due to the exposure outside can be avoided while the appearance of the jigsaw puzzle is prevented from being exposed outside.

Specifically, in an implementable scheme, the prompting lamp 2 and the controller 3 may be connected through a wire, so as to electrically connect the prompting lamp 2 and the controller 3. It can be understood that the wires are also embedded inside the splice plate 1, so that the wires are prevented from being damaged in the splicing process. Further, in another practical scheme, the prompting lamp 2 can be controlled by an execution switch, the execution switch can be in signal transmission with the controller 3,

further, the invention also provides a tangram splicing control method, which is used for controlling the tangram splicing system, the system comprises a control terminal and a tangram assembly, the tangram assembly comprises seven splicing plates, the method is applied to the control terminal and comprises the following steps:

and S100, displaying a pattern menu on a display screen of the control terminal.

Specifically, the pattern menu comprises at least one candidate splicing pattern, each candidate splicing pattern is formed by splicing at least two splicing plate graphs, and each splicing plate graph corresponds to one splicing plate in the seven-piece assembly.

Specifically, the control terminal may be any one of a notebook computer, a mobile phone terminal, a tablet computer, and the like, and the display screen may be a touch screen. The control terminal is internally provided with a central controller and a pattern memory, the central controller is electrically connected with the pattern memory, a plurality of candidate splicing patterns are stored in the pattern memory, at least one candidate splicing pattern forms a pattern menu, and the central controller in the control terminal controls the formed pattern menu to be displayed on a display screen.

Each candidate splicing pattern is formed by splicing at least two splicing plate patterns, and each splicing plate pattern corresponds to one splicing plate in the seven-piece assembly. Namely, each splice plate graph forming the candidate splice patterns can be correspondingly provided with a splice plate with the same shape and the corresponding edges, and each splice plate graph in each candidate splice pattern is correspondingly provided with one splice plate in the seven splice plates.

S102, responding to the selection operation of any candidate splicing pattern in the pattern menu by a user, taking the candidate splicing pattern corresponding to the selection operation as a target splicing pattern, and displaying the target splicing pattern on the screen.

Specifically, the user may click a pattern to be stitched from among candidate stitching patterns displayed on the pattern menu, so that when the central controller of the control terminal detects a click operation of the user, the candidate stitching pattern clicked by the user is determined as a target stitching pattern, and the target stitching pattern is displayed on the display screen according to a preset size.

It can be understood that, after the central controller controls the display screen to display the target stitching pattern, the display menu may be hidden, or the display menu may be displayed in the form of thumbnail at the corner of the display screen. The preset size may be that the target mosaic pattern is spread over the whole display screen, or the target mosaic pattern is enlarged according to a preset proportion. Such as magnifying the target stitching pattern by two, three, or other factors.

It is understood that due to the limited display area of the display screen, all candidate stitching patterns may not be displayed in the current pattern menu. A plurality of differently shaped patterns may be controlled to be displayed on the display screen in batches. For example, the displayed pattern can be automatically replaced, and the replacement period can be 10S, 15S, 18S or other time lengths, and can be set according to actual conditions. Or the candidate splicing patterns in the pattern menu can be switched by the user according to preset operation. The preset operation may be a sliding operation of the user, such as sliding to the right to show the next batch of candidate stitching patterns in the pattern menu, or sliding to the left to redisplay the previous batch of candidate stitching patterns. The replacement button may be disposed on the display screen, and the replacement of the displayed pattern may be achieved based on a triggering operation of the button by the user, where the triggering operation may be a pressing operation by the user or a touch operation by the user, and may be specifically set according to an actual situation, and is not specifically limited herein. Or triggering the next step or the previous step of operation buttons preset on the display screen.

And S104, taking each splice plate graph forming the target splice pattern as a target splice plate graph, and taking the splice plate corresponding to the target splice plate graph in the seven splice plates as a target splice plate.

Specifically, the pattern of the splice plates forming any candidate splice pattern all conforms to the shape of the seven splice plates in the application, and the control terminal can pre-store the corresponding relationship between the pattern of the splice plates and each splice plate in the seven splice plates. Specifically, a graphic identifier can be set for each splice plate graphic, a splice plate identifier can be set for each splice plate, a corresponding relation between the graphic identifier and the splice plate identifier is established, and the corresponding relation is stored in a relation memory of the control terminal, so that the splice plate graphic and the splice plate which correspond to each other can be determined based on the corresponding relation between the graphic identifier and the splice plate identifier.

And the control terminal is also provided with a graphic processing module, and the graphic processing module is electrically connected with the central controller. After the target splicing pattern is displayed on the display screen, the central controller controls the image processing module to acquire image information of the target splicing pattern, analyzes the acquired image information to obtain an analysis result, and feeds the analysis result back to the central controller, wherein the analysis result comprises each splicing plate image forming the target splicing pattern. And the central controller takes the received splice plate graphs forming the target splice pattern as target splice plate graphs, determines splice plates of the seven splice plates corresponding to the target splice plate graphs according to the corresponding relation between the graph identification and the splice plate identification, and takes the splice plates of the seven splice plates corresponding to the target splice plate graphs as target splice plates.

And S106, determining splicing data of each target splicing plate according to the splicing relation among the target splicing plate graphs.

Specifically, the splicing data comprises areas to be spliced and the light colors of the areas to be spliced, wherein the light colors of the two areas to be spliced having the splicing relationship are the same;

specifically, the splicing data of each target splice plate is determined according to the splicing relation among the target splice plate graphs, and the method can be specifically realized through the following steps:

s1060, taking the area of the splicing relation between each target splicing plate graph and other target splicing graphs as a graph splicing area, determining the area corresponding to the graph splicing area on the target splicing plate according to the graph splicing area of each target splicing plate graph and by combining the corresponding relation between each area on the target splicing plate graph and each area on the target splicing plate, and taking the area corresponding to the graph splicing area on the target splicing plate as the area to be spliced.

Specifically, the analysis result fed back by the graphic processing module further includes the splicing relation among the splicing plate graphs, the central controller converts the splicing relation among the splicing plate graphs into the splicing relation among the target splicing plate graphs after receiving the splicing relation among the splicing plate graphs fed back by the graphic processing module, takes an area where the splicing relation exists between each target splicing plate graph and other target splicing graphs as a graph splicing area, determines an area corresponding to the graph splicing area on the target splicing plate according to the graph splicing area of each target splicing plate graph and the corresponding relation between each area on the target splicing plate graph and each area on the target splicing plate, and takes the area corresponding to the graph splicing area on the target splicing plate as an area to be spliced.

It can be understood that, when the correspondence between the graphic identifier and the tile identifier is established, the correspondence between each region on the tile graphic and each region on the tile exists correspondingly, where "region" may refer to any point on the tile graphic or the tile, or any one edge, or a part of the edge length of any one edge, or other information that may establish the correspondence.

S1062, determining the splicing relation between the area to be spliced of each target splicing plate and the area to be spliced of other target splicing plates according to the splicing relation between the graph splicing area of each target splicing plate graph and the graph splicing areas of other target splicing plate graphs, determining the light colors of the areas to be spliced of the two target splicing plates with the splicing relation to be the same color, and obtaining the light color of the area to be spliced of each target splicing plate.

Specifically, according to the corresponding relationship between the splice plate patterns and the splice plates, the pattern splicing area on the splice plate patterns is mapped to the splice plate, i.e. the area to be spliced of the splice plate. According to the splicing relation between the graph splicing area of each target splicing plate graph and the graph splicing areas of other target splicing plate graphs, the splicing relation between the area to be spliced of each target splicing plate and the area to be spliced of other target splicing plates is determined according to the graph splicing area of the target splicing plate graph, and the light color of the area to be spliced of the two target splicing plates with the splicing relation is determined to be the same color by the central controller so as to obtain the light color of the area to be spliced of each target splicing plate.

And S1064, generating splicing data of the target splicing plates according to the areas to be spliced of the target splicing plates and the light colors of the areas to be spliced.

Specifically, the combination of the light colors of the areas to be spliced and the areas to be spliced of each target splice plate is determined as the splicing data of the target splice plates.

And S108, sending a control instruction to a corresponding target splicing plate according to the splicing data so that the target splicing plate can acquire the splicing data carried by the control instruction, and lighting the area to be spliced of the target splicing plate by using the light color corresponding to the splicing data.

Specifically, the central controller sends a control instruction to the controller on the corresponding target splice plate according to the splice data, so that the controller can acquire the splice data carried by the control instruction, and the prompt lamp on the region to be spliced of the target splice plate is lightened by the light color corresponding to the splice data.

Further, a warning light on the tape splicing region of the target splice board may be lit based on a preset lighting rule. The preset lighting rule may refer to that the controller controls the prompting lamps to be lit to be sequentially lit according to a first arrangement sequence, may refer to that the controller controls the prompting lamps to be lit to be sequentially lit from the middle to the two ends, and may refer to that the controller controls the prompting lamps to be lit to be sequentially lit from the two ends to the middle. The first arrangement sequence refers to the sequence from one end of the splicing edge to the other end of the splicing plate.

S110, receiving first feedback information sent by the target splice plate.

Specifically, the first feedback information is generated under the condition that two regions to be spliced, which have a splicing relationship on any two target splicing plates, are matched;

it can be understood that the splice plate is further provided with a chip, the chip is embedded in the splice plate, the setting position of the chip corresponds to the setting position of the prompt lamp, and the chip is electrically connected with the controller. When the control terminal determines the area to be spliced of the target splicing plate, the chips in the area to be spliced with the splicing relation are controlled to perform signal transmission, and the chips in the area except the area to be spliced of the target splicing plate cannot perform signal transmission. After signals between chips in two to-be-spliced areas with splicing relation on any two target splicing plates are communicated, a communicated signal is sent to the controller, so that the two to-be-spliced areas with splicing relation are determined to be matched after the controller receives the communicated signal, and the determined matched signal is used as a final feedback signal to be fed back to the central controller.

And S112, determining the times to be spliced according to the splicing relation among the target splicing plate graphs in the target splicing pattern.

Specifically, after the graph acquisition module acquires the target splicing graphs, the target splicing graphs are analyzed, the number of splicing lines formed after splicing two splicing board graphs with splicing relations is recorded according to the splicing relations among the target splicing board graphs in the target splicing patterns, the recorded number of the splicing lines is sent to the central controller, and the central controller determines the number of the splicing lines as the number of times to be spliced.

S114, comparing the number of the first feedback information with the number of times to be spliced, and judging that the target splicing plate is spliced according to the target splicing pattern when the number of the first feedback information is equal to the number of times to be spliced.

According to the intelligent splicing board, the prompt lamps are arranged on the splicing edges of the splicing boards, and intelligent splicing prompt of patterns to be spliced is realized by combining the prompt information, so that the requirement of self-learning or self-play of children is met, and the targeted acoustooptical and photoelectric characteristics enable the children to have better attention cultivation.

Further, in other implementable schemes, after the pattern menu is displayed on the display screen of the control terminal, the user can search the splice plates with the same shape as the splice plate graphs in the target splice pattern from the seven splice plates according to the target splice pattern displayed on the display screen, and place the determined splice plates on the splice plate graphs of the corresponding target splice pattern.

After the splicing plates with the splicing relation are matched, the splicing plates after being matched send second feedback signals to the central controller, the central controller can store and count the number of the second feedback signals after receiving the second feedback signals fed back by the splicing plates, and when the number of the second feedback signals is equal to the number of times to be spliced, the target splicing patterns displayed on the display screen are judged to be spliced.

According to the intelligent splicing board, the prompt lamps are arranged on the splicing edges of the splicing boards, and intelligent splicing prompt of patterns to be spliced is realized by combining the prompt information, so that the requirement of self-learning or self-play of children is met, and the targeted acoustooptical and photoelectric characteristics enable the children to have better attention cultivation.

In addition, the target splicing patterns to be spliced are displayed on the display screen, and a user can directly place the splicing plates with the shapes identical to the shapes of the splicing plate patterns on the target splicing patterns in the corresponding positions of the splicing plate patterns on the display screen, so that the user can splice according to the shapes of the patterns, the interest degree of the user in splicing games can be improved, and the matching response capability of the user in searching can be improved in the splicing process.

It should be noted that, in the foregoing apparatus and terminal embodiment, each module and unit included in the apparatus is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be implemented; in addition, specific names of the modules and units are only used for distinguishing one module from another, and are not used for limiting the protection scope of the invention.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described terminal embodiments are merely illustrative, and for example, the division of the modules or units is only one logical function division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of modules or units through some interfaces, and may be in an electrical, mechanical or other form.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. The tangram splicing system is characterized by comprising a tangram assembly and a control terminal, wherein the tangram assembly comprises seven splicing plates (1), a prompting lamp (2) is arranged on the splicing edge of each splicing plate (1), and a controller (3) for controlling the prompting lamp is embedded in each splicing plate (1);

the control terminal is provided with a central controller, a pattern memory and a display screen, and the central controller is electrically connected with the controller and the pattern memory respectively;

the pattern memory is stored with a plurality of candidate splicing patterns with different shapes, at least one candidate splicing pattern forms a pattern menu, and the display screen is used for displaying the pattern menu.

2. The jigsaw system of claim 1, wherein a sound controller is further disposed on the control terminal, the sound controller is electrically connected to the central controller, and the sound controller is configured to play a preset prompt voice.

3. A tangram splicing system according to claim 1, wherein the indicator light (2) is arranged at the end of the splicing edge of the splicing plate (1).

4. A tangram splicing system according to claim 1, wherein the indicator lights (2) are regularly arranged along the splicing edge of the splicing plate (1) according to a preset arrangement.

5. A tangram joining system according to claim 4, wherein the preset arrangement rules comprise equally dividing the joining edges of the joining bars (1) according to a preset ratio.

6. A jigsaw system of claim 1, wherein the notification light is a RGB tri-color light.

7. A jigsaw control method for controlling a jigsaw system according to any of claims 1 to 6, the system comprising a control terminal and a jigsaw assembly comprising seven jigsaw puzzle pieces, the method comprising:

displaying a pattern menu on a display screen of a control terminal, wherein the pattern menu comprises at least one candidate splicing pattern, each candidate splicing pattern is formed by splicing at least two splicing plate patterns, and each splicing plate pattern corresponds to one splicing plate in the tangram component;

responding to the selection operation of a user on any candidate splicing pattern in the pattern menu, taking the candidate splicing pattern corresponding to the selection operation as a target splicing pattern, and displaying the target splicing pattern on the screen;

taking each splice plate graph forming the target splice pattern as a target splice plate graph, and taking a splice plate corresponding to the target splice plate graph in the seven splice plates as a target splice plate;

determining splicing data of each target splicing plate according to the splicing relation among the target splicing plate graphs, wherein the splicing data comprises the areas to be spliced and the light colors of the areas to be spliced, and the light colors of the two areas to be spliced with the splicing relation are the same;

and sending a control instruction to a corresponding target splice plate according to the splice data so that the target splice plate acquires the splice data carried by the control instruction, and lighting the area to be spliced of the target splice plate by using the light color corresponding to the splice data.

8. The jigsaw puzzle splicing control method of claim 7, wherein the determining the splicing data of each target splicing plate according to the splicing relationship between the target splicing plate patterns comprises:

taking the area of each target splice plate graph with splicing relation with other target splice plates as a graph splicing area, determining the area of each target splice plate corresponding to the graph splicing area according to the graph splicing area of each target splice plate graph and by combining the corresponding relation between each area of the target splice plate graph and each area of the target splice plate, and taking the area of each target splice plate corresponding to the graph splicing area as an area to be spliced;

determining the splicing relation between the area to be spliced of each target splicing plate and the area to be spliced of other target splicing plates according to the splicing relation between the graph splicing area of each target splicing plate graph and the graph splicing areas of other target splicing plate graphs, and determining the light color of the areas to be spliced of the two target splicing plates with the splicing relation as the same color to obtain the light color of the area to be spliced of each target splicing plate;

and generating splicing data of the target splicing plates according to the areas to be spliced of the target splicing plates and the light colors of the areas to be spliced.

9. A jigsaw puzzle splicing control method of claim 8, wherein the method further comprises:

receiving first feedback information sent by target splicing plates, wherein the first feedback information is generated under the condition that two to-be-spliced areas with splicing relations on any two target splicing plates are matched;

determining the times to be spliced according to the splicing relation among the target splicing plate graphs in the target splicing pattern;

comparing the number of the first feedback information with the number of times to be spliced; and when the number of the first feedback information is equal to the number of times to be spliced, judging that the target splicing plate is spliced according to the target splicing pattern.

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