CN116983672A - Intelligent building blocks of inserting of piecing together - Google Patents

Abstract

An intelligent splicing and inserting building block comprises a panel and a plurality of building block inserting blocks, wherein a plurality of slots are formed in the panel; the method is characterized in that: at least one light-emitting unit and at least one inductive switch are arranged in each slot; the control module is connected with each luminous unit to control the luminous units to be on or off according to input commands, so that the on slots or the off slots form a first pattern, the control module is connected with each inductive switch to detect a second pattern formed by building block inserting blocks inserted into the slots, and the second pattern is compared with the first pattern to judge whether the first pattern is communicated or not. The application is more challenging, is beneficial to cultivating the logic thinking of the user, the observation ability and the space imagination ability of the exercise, and improves the concentration degree.

Description

Intelligent building blocks of inserting of piecing together

Technical Field

The application relates to the field of intelligent toys, in particular to an intelligent splicing and inserting building block.

Background

At present, most of the spliced building block toys in the market are made of common plastic materials, and are spliced by adopting convex parts and concave parts or magnetic matching, so that infants can imagine splicing. The building block structure has simple composition, is not related to science and technology, and has single playing method.

With the development of the electronic industry, a plurality of novel building blocks are derived. For example, devices such as a circuit board, an LED lamp, a sounding device and the like are arranged in the building blocks of the log, so that the building blocks can conduct electricity after being assembled to give out effects such as light, music and the like, and the building blocks have the effect of improving the interestingness.

For example, a conductive base of a luminous building block comprises a plurality of hollow wedge-inserting columns, and is electrically connected with an external power supply device by utilizing a positive conductive group and a negative conductive group, wherein the positive conductive group and the negative conductive group extend to protrude out of wedge holes of the hollow wedge-inserting columns of the chassis and can be contacted with a circuit board of the luminous building block stacked on the chassis and electrically connected with each other, so that the luminous building blocks stacked on the chassis and adjacent to each other can be electrified to emit light together without being distributed through a complicated circuit, therefore, the conductive base of the luminous building block can only be electrically connected with the external power supply device through one luminous building block stacked on the bottommost layer, and then other luminous building blocks stacked above the luminous building block can be directly or indirectly made to emit light together, and the luminous building blocks can not emit light together with other luminous building blocks which do not form a stacked relation except the upper layer of the luminous building block conductive base, so that the playing method is limited.

Disclosure of Invention

The application mainly aims to overcome the defects of complex luminous building block structure and limited playing method in the prior art, and provides an intelligent splicing building block which improves interestingness and challenge.

The application adopts the following technical scheme:

an intelligent splicing and inserting building block comprises a panel and a plurality of building block inserting blocks, wherein a plurality of slots are formed in the panel; the method is characterized in that: at least one light-emitting unit and at least one inductive switch are arranged in each slot; the control module is connected with each luminous unit to control the luminous units to be on or off according to input commands, so that the on slots or the off slots form a first pattern, the control module is connected with each inductive switch to detect a second pattern formed by building block inserting blocks inserted into the slots, and the second pattern is compared with the first pattern to judge whether the first pattern is communicated or not.

Preferably, the device further comprises a timing module, wherein the timing module is set to start timing after the first pattern appears, and the control module is further connected with the timing module to judge whether the duration of completing the second pattern is within a preset duration range.

Preferably, the color of the light emitting unit configured to emit light may include two or more kinds; the first pattern is arranged to comprise a plurality of patterns, and the patterns correspond to the shape of at least one building block insertion block; the control module controls the lighting unit to light or flash so that the lighting colors of the different patterns formed by the lighting unit are different.

Preferably, when the control module judges that the second pattern is inconsistent with the first pattern, the clearance fails, and the light-emitting unit corresponding to the first pattern is controlled to flash; and when the control module judges that the second pattern is consistent with the first pattern, controlling the light-emitting unit corresponding to the first pattern to change color.

Preferably, the intelligent control system further comprises a voice module, wherein the control module is connected with the voice module to send out voice reminding or sound effect reminding when the intelligent control system is in clearance or not in clearance.

Preferably, the building block insertion block is a hollow and light-transmitting building block insertion block, the building block insertion block is provided with a main body, an insertion part and a handle part, and the insertion part and the handle part are positioned on different sides of the main body; the plug-in part comprises a plurality of convex parts to be inserted into the slot.

Preferably, the slot is provided with a side wall and a bottom wall, the inductive switch is positioned in the side wall, and the light-emitting unit is positioned in the bottom wall.

Preferably, the display panel further comprises a plurality of keys, wherein the keys are arranged on the panel; the control module is connected with the keys to input commands.

Preferably, the inductive switch is a coded inductive switch.

Preferably, the device further comprises a power module, and the power module is connected with the control module to supply power.

As can be seen from the above description of the present application, compared with the prior art, the present application has the following advantages:

the control module is also connected with each induction switch to detect a second pattern formed by the building block inserting blocks inserted into the slots, and compares the second pattern with the first pattern to determine whether to pass or not, so that the building block has more challenges, is beneficial to culturing logical thinking of users, and improves the observation capability and space imagination capability of exercise.

The spliced building block is further provided with the timing module and the voice module, the spliced time can be timed through the timing module, voice reminding or sound effect reminding of success or failure of clearance is achieved through the voice model, and interestingness and attractiveness are improved.

The luminous units are arranged to be capable of emitting light and have two or more colors, the first pattern is arranged to comprise a plurality of patterns and corresponds to the shape of at least one building block, and when a user does not pass through the building block for a long time, the control module controls the luminous units to light or flash to enable the luminous colors of different patterns formed by the luminous units to be different, so that the splicing difficulty is reduced.

The application combines the game machine model to construct a toy building block game machine capable of changing playing method on the basis of the traditional toy building blocks, and can enable users to search final answers in the process of assembling, dividing and turning the graphics, thereby obtaining full achievement.

Drawings

FIG. 1 is a block diagram of a panel of the present application;

FIG. 2 is an exemplary schematic diagram of a building block insert of the present application;

FIG. 3 is a top view of one of the building blocks;

FIG. 4 is a perspective view of the building block insert of FIG. 3;

FIG. 5 is a schematic illustration of a building block insert with a panel;

FIG. 6 is a schematic view of a first pattern displayed on a panel;

FIG. 7 is a block diagram of the present application;

fig. 8 is a flow chart of the present application.

Wherein:

10. the panel, 11, slot, 20, building blocks insert block, 21, main body, 22, grafting portion, 23, handle portion, 24, convex portion, 30, control module, 40, light emitting unit, 50, inductive switch, 60, timing module, 70, voice module, 80, button, 90, power module.

The application is further described in detail below with reference to the drawings and the specific examples.

Detailed Description

The application is further described below by means of specific embodiments.

In the present application, the terms "first," "second," "third," and the like are used merely to distinguish between similar objects and not necessarily to describe a particular sequence or order, nor are they to be construed as indicating or implying a relative importance. In the description, the directions or positional relationships indicated by "upper", "lower", "left", "right", "front" and "rear", etc. are used for convenience of description of the present application based on the directions or positional relationships shown in the drawings, and are not intended to indicate or imply that the apparatus must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the scope of protection of the present application. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, in the description of the present application, unless otherwise indicated, "a plurality" means two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship.

Referring to fig. 1 to 7, an intelligent splicing and inserting building block comprises a panel 10, a plurality of building block inserting blocks 20 and a control module 30, wherein the panel 10 can be in a palm machine shape, and is convenient to take, a plurality of slots 11 are formed in the panel, the slots 11 can be uniformly distributed on the front surface of the panel 10, for example, the slots are distributed in an array, and the number of the slots 11 is related to the size of the panel 10. At least one light-emitting unit 40 and at least one induction switch 50 are arranged in each slot 11, the light-emitting unit 40 can adopt LED lamp beads, the color of the LED lamp beads capable of emitting light can comprise one or two or more than two, when the light-emitting unit 40 is on, the slot 11 is also on, and when the light-emitting unit 40 is off, the slot 11 is off. The inductive switch 50 is used for detecting whether the building block insert 20 is inserted into the slot 11, and can adopt a coded inductive switch 50 which has two states of on or off. The inductive switch 50 is not limited to the coded inductive switch 50 but may be other, such as a hall sensor or the like.

The slot 11 is a groove with an open top, the slot 11 is provided with a side wall and a bottom wall, the inductive switch 50 can be positioned in the side wall, the light-emitting unit 40 is positioned in the bottom wall, or the light-emitting unit 40 can be positioned below the bottom wall of the slot 11 in the panel 10, so that the light-emitting surface of the light-emitting unit 40 faces the bottom wall. In practical applications, the installation and distribution positions of the inductive switch 50 and the light emitting unit 40 are not limited thereto, and may be adjusted according to requirements.

The building block insert 20 is a hollow and transparent building block insert 20, and after the building block insert 20 is inserted into the slot 11, the luminous unit 40 in the slot 11 emits light to enable the whole building block insert 20 to transmit light. The building block insert block 20 is provided with a main body 21, an insert part 22 and a handle part 23, the insert part 22 and the handle part 23 being located at different sides of the main body 21. The handle portion 23 is provided to facilitate the user to insert and withdraw the building block insert 20. The plugging portion 22 includes a plurality of protruding portions 24, the protruding portions 24 are hollow structures, the lighting patterns are observed respectively, the protruding portions 24 are inserted into the slots 11, and the number of the protruding portions 24 can be set according to the size of the main body 21, which is not limited herein. In the present application, the shapes of the plurality of building blocks 20 may be completely different or partially different, referring to fig. 2, and the main body 21 may include common building blocks, such as L-shape, cross-shape, Z-shape, one shape, T-shape, and special shape, and the specific shape is not limited herein.

The control module 30 is connected to each light emitting unit 40 to control the light emitting units 40 to be turned on or off according to an input command, so that the turned-on slots 11 or the turned-off slots 11 form a first pattern, that is, a plurality of turned-on slots 11 on the panel 10 may form a first pattern, or a plurality of turned-off slots 11 on the panel 10 may form a first pattern, that is, the first pattern includes a state combination of the light emitting units 40, and may be set according to actual requirements.

The control module 30 is further connected to each of the sensing switches 50 to detect a second pattern formed by the building blocks 20 inserted into the slots 11, and compares the second pattern with the first pattern to determine whether to pass or not. Correspondingly, the composition of the second pattern is determined by determining the state combination of the inductive switch 50, for example, the inductive switch 50 composes the second pattern for the slot 11 that is turned on, or the inductive switch 50 composes the second pattern for the slot 11 that is turned off, that is, the second pattern includes the switch state combination. The control module 30 can also determine whether the building block 20 is inserted more or not according to the inductive switch 50.

In practical applications, the control module 30 can preset a plurality of first patterns, that is, sets a plurality of state combinations of the light emitting units 40, where each state combination of the light emitting units 40 corresponds to a first pattern. According to the input command, the state combinations of the light emitting units 40 of the corresponding groups are selected randomly or sequentially, and whether the first pattern and the second pattern are the same or not can be determined by determining the correspondence between the state combinations of the light emitting units 40 and the state combinations of the sensing switches 50, for example, whether the states of the light emitting units 40 of the plurality of slots 11 forming the first pattern are all on or not is determined, if yes, the second pattern formed is the same as the first pattern, and if not, the second pattern is different from the first pattern.

Further, the timing module 60 is further included, the timing module 60 is configured to start timing after the first pattern appears, and the control module 30 is further connected to the timing module 60 to determine whether the duration of completing the second pattern is within the preset duration range. The timing module 60 is further provided with a display screen to display the duration, and the preset duration range can be set according to the difficulty of the first pattern, for example, the first pattern is more complex, the duration range is longer, the first pattern is simpler, and the duration range is shorter.

In the present application, in order to reduce the difficulty of splicing, the first pattern is configured to include a plurality of patterns, and the corresponding state combinations of the light emitting units 40 may be divided into a plurality of small combinations. The figure corresponds to the shape of at least one building block 20, i.e. the shape of the slot 11 corresponding to each minor combination is the same as the shape of at least one building block 20. The control module 30 controls the lighting units 40 to light or flash to make the lighting colors of the different patterns formed by the lighting units different, that is, the lighting units 40 corresponding to the different small combinations light or flash to have different colors, thereby playing a role in prompting and reducing the difficulty of splicing and inserting.

Further, in order to better remind the user, when the control module 30 determines that the second pattern is inconsistent with the first pattern, the light emitting unit 40 corresponding to the first pattern is controlled to flash or change color, so as to prompt failure in customs clearance. When the control module 30 judges that the second pattern is consistent with the first pattern, the light-emitting unit 40 corresponding to the first pattern is controlled to change color, and success of light transmission is indicated. Success or failure can be distinguished by setting the corresponding color, e.g., red for passthrough failure and green for passthrough success.

The building block of the application also comprises a voice module 70, a plurality of keys, a power module 90 and the like. The control module 30 is connected to the voice module 70, the plurality of keys 80, and the power module 90. The control module 30 may control the voice module 70 to issue a voice alert or a sound alert when the clearance is or is not achieved, i.e. different spelling situations may set different voice alerts or sound alerts, including long-time clearance, spelling errors, successful clearance, failed clearance, etc. The plurality of keys 80 are used for inputting commands, and the plurality of keys 80 may include a switch, a last switch, a next switch, a reset, a mode switch, etc. The power module 90 is used for supplying power to the control module 30, the voice module 70, the key 80, the light emitting unit 40, the inductive switch 50, and the like. The power module 90 may employ a general dry cell battery or a rechargeable battery, etc.

In practical application, after the switch is turned on, the control module 30 controls the states of the light emitting units 40 according to the input command, so that the slots 11 on the panel 10 form a first pattern, and the colors of the first pattern are randomly changed (multi-color mixing is possible); the user can observe the building blocks 20 on hand, select the building blocks fit to the slots 11 of the panel 10, and fill the first pattern area. The control module 30 judges whether the second pattern formed by the building block inserting blocks 20 is identical to the first pattern according to the state combination of the inductive switch 50, if so, the inserting is correct, the light emitting unit 40 in the first pattern area flashes for green light and reminds by voice, and if not, the inserting is wrong, and the area in the first pattern is red light and reminds by voice.

The control module 30 may be preset with different modes, including a custom jaywalking mode and an automatic jaywalking mode. Referring to fig. 8, after the switch is turned on, the user can select a mode, in a custom mode, the user can select difficulty level to make a break through by using the key 80, the gate is custom, the pass through is successful and has a voice prompt and an audio prompt, and the long-time pass through has a lamp bead flickering prompt building block shape. In the automatic customs clearance mode, the control module 30 automatically selects to make clearance from easy to difficult, the timing module 60 can time, and the clearance is successful and has voice prompt and sound effect prompt. Long-term unchecked, the shape of the building block insert 20 would be prompted by flashing.

The foregoing is merely illustrative of specific embodiments of the present application, but the design concept of the present application is not limited thereto, and any insubstantial modification of the present application by using the design concept shall fall within the scope of the present application.

Claims (10)

1. An intelligent splicing and inserting building block comprises a panel and a plurality of building block inserting blocks, wherein a plurality of slots are formed in the panel; the method is characterized in that: at least one light-emitting unit and at least one inductive switch are arranged in each slot; the control module is connected with each luminous unit to control the luminous units to be on or off according to input commands, so that the on slots or the off slots form a first pattern, the control module is connected with each inductive switch to detect a second pattern formed by building block inserting blocks inserted into the slots, and the second pattern is compared with the first pattern to judge whether the first pattern is communicated or not.

2. An intelligent building block as claimed in claim 1, wherein: the timing module is set to start timing after the first pattern appears, and the control module is further connected with the timing module to judge whether the duration of finishing the second pattern is within a preset duration range.

3. An intelligent building block as claimed in claim 1, wherein: the color of the light emitting unit configured to emit light may include two or more kinds; the first pattern is arranged to comprise a plurality of patterns, and the patterns correspond to the shape of at least one building block insertion block; the control module controls the lighting unit to light or flash so that the lighting colors of the different patterns formed by the lighting unit are different.

4. An intelligent building block as claimed in claim 1, wherein: when the control module judges that the second pattern is inconsistent with the first pattern, the clearance fails, and the light-emitting unit corresponding to the first pattern is controlled to flash; and when the control module judges that the second pattern is consistent with the first pattern, controlling the light-emitting unit corresponding to the first pattern to change color.

5. An intelligent building block as claimed in claim 1, wherein: the voice control system also comprises a voice module, wherein the control module is connected with the voice module to send out voice reminding or sound effect reminding when the user is in a clearance or not in a clearance.

6. An intelligent building block as claimed in claim 1, wherein: the building block inserting block is hollow and transparent, and is provided with a main body, an inserting part and a handle part, wherein the inserting part and the handle part are positioned on different sides of the main body; the plug-in part comprises a plurality of convex parts to be inserted into the slot.

7. An intelligent building block as claimed in claim 1, wherein: the slot is provided with a side wall and a bottom wall, the inductive switch is positioned in the side wall, and the light-emitting unit is positioned in the bottom wall.

8. An intelligent building block as claimed in claim 1, wherein: the display panel also comprises a plurality of keys, wherein the keys are arranged on the panel; the control module is connected with the keys to input commands.

9. An intelligent building block as claimed in claim 1, wherein: the inductive switch adopts a coded inductive switch.

10. An intelligent building block as claimed in claim 1, wherein: the power supply module is connected with the control module to supply power.