CN109200600B - Intelligent building block system and data transmission method - Google Patents

Abstract

The invention relates to an intelligent building block system and a data transmission method, which realize the mutual communication between each intelligent building block module and the communication between the intelligent building block module and an upper computer through at least two communication interface units. Meanwhile, through a data transmission method, communication signals among the intelligent building blocks and between the intelligent building blocks and the upper computer are allocated, real-time mutual communication among the intelligent building blocks and between the intelligent building blocks and the upper computer is realized, communication modes among the intelligent building blocks and between the intelligent building blocks and the upper computer are enriched, and data interaction capacity in the intelligent building blocks is improved, so that operation convenience and intelligent degree of the intelligent building blocks are improved.

Description

Intelligent building block system and data transmission method

Technical Field

The invention relates to the technical field of intelligent toys, in particular to an intelligent building block system and a data transmission method.

Background

Along with the development of electronic technology, in the field of intelligent educational toys, intelligent building block systems based on the electronic technology are continuously updated. The intelligent building block system can excite imagination and creativity of players through different splicing and combining modes. On the intelligent building block system, various intelligent toys are formed by the combination of intelligent building block modules comprising various display modes such as acousto-optic and electric.

Wherein, in intelligent building block system, each intelligent building block module still can communicate with the host computer to make each intelligent building block module of player accessible host computer control, with the object of abundant intelligent building block system's playability. However, in the conventional intelligent building block system, the upper computer communicates with the fixed intelligent building block module, and the communication mode is unidirectional and single, so that the intelligent degree and the operation convenience of the intelligent building block system are affected.

Disclosure of Invention

Based on this, it is necessary to provide an intelligent building block system and a data transmission method aiming at the problems that in the traditional intelligent building block system, an upper computer communicates with a fixed intelligent building block module, the communication mode is unidirectional and single, and the playability and the operation convenience of the intelligent building block system are affected.

An intelligent building block system comprises a plurality of intelligent building block modules; the intelligent building block module comprises a data processing unit and at least two communication interface units;

the data processing unit is respectively connected with each communication interface unit;

the communication interface unit of one intelligent building block module can be used for connecting with the communication interface unit of the upper computer or another intelligent building block module.

In one embodiment, the wireless communication device further comprises a wireless communication unit;

the wireless communication unit is connected with a communication interface unit of any one or more intelligent building block modules and is used for being connected with an upper computer.

In one embodiment, the intelligent building block module further comprises a sensing unit;

the sensing units are connected with a communication interface unit of the corresponding intelligent building block module.

In one embodiment, the intelligent building block module further comprises an execution unit;

the execution unit is connected with a communication interface unit of the corresponding intelligent building block module.

In one embodiment, the communication interface unit comprises two communication interfaces capable of two-way communication.

A data transmission method, the above-mentioned intelligent building block system, comprising the steps of:

receiving a communication signal sent by an upper computer or an intelligent building block module, and detecting authentication information in the communication signal;

when the authentication information is not detected, carrying out first preset processing on the communication signal, and sending the communication signal after the first preset processing outwards through a communication interface;

when the authentication information is detected and the authentication information is the same as the preset authentication information, performing second preset processing on the signal;

and when the authentication information is detected and is different from the preset authentication information, sending the communication signal outwards through the communication interface.

In one embodiment, after the process of performing the first preset processing on the communication signal, the method further includes the steps of:

when the sensing signal sent by the sensing unit is received, the transmission of the communication signal is interrupted.

In one embodiment, the authentication information in the communication signal sent by the intelligent building block module corresponds to the intelligent building block module sending the communication signal.

In one embodiment, the authentication information includes ID information corresponding to each intelligent building block module.

A data transmission apparatus comprising:

the information detection module is used for receiving the communication signal sent by the upper computer or the intelligent building block module and detecting authentication information in the communication signal;

the first processing module is used for carrying out first preset processing on the communication signal when the authentication information is not detected, and sending the communication signal after the first preset processing outwards through the communication interface;

the second processing module is used for carrying out second preset processing on the signal when the authentication information is detected and the authentication information is the same as the preset authentication information;

and the signal transmission module is used for sending the communication signal outwards through the communication interface when the authentication information is detected and is different from the preset authentication information.

According to the intelligent building block system and the data transmission method, mutual communication among the intelligent building block modules and communication between the intelligent building block modules and the upper computer are realized through at least two communication interface units. Meanwhile, through a data transmission method, communication signals among the intelligent building blocks and between the intelligent building blocks and the upper computer are allocated, real-time mutual communication among the intelligent building blocks and between the intelligent building blocks and the upper computer is realized, communication modes among the intelligent building blocks and between the intelligent building blocks and the upper computer are enriched, and data interaction capacity in the intelligent building blocks is improved, so that operation convenience and intelligent degree of the intelligent building blocks are improved.

Drawings

FIG. 1 is a schematic block diagram of an intelligent building block system according to an embodiment;

FIG. 2 is a schematic diagram of a block diagram of another embodiment of an intelligent building block system;

FIG. 3 is a block diagram of an intelligent building block module according to one embodiment;

FIG. 4 is a block diagram of another embodiment of an intelligent building block module;

fig. 5 is a flowchart of a data transmission method according to an embodiment.

Detailed Description

For a better understanding of the objects, technical solutions and technical effects of the present invention, the present invention will be further explained below with reference to the drawings and examples. It is also stated that the embodiments described below are only for explaining the present invention, and are not intended to limit the present invention

The embodiment of the invention provides an intelligent building block system;

FIG. 1 is a schematic block diagram of an embodiment of an intelligent building block system, as shown in FIG. 1, the intelligent building block system of an embodiment comprises a plurality of intelligent building block modules 10; wherein the intelligent building block module 10 comprises a data processing unit 100 and at least two communication interface units 101;

the data processing unit 100 is connected to each communication interface unit 101;

wherein the data processing unit 100 is connected to the communication interface unit 101, receives communication data through the communication interface unit 101, or transmits communication data to the outside through the communication interface unit 101. The data processing unit 100 may interact with external data through the communication interface unit 101 in both synchronous and asynchronous communication modes, i.e. the communication interface unit 101 may provide both synchronous and asynchronous data interaction modes.

The communication interface unit 101 of one intelligent building block module 10 may be used to connect to the communication interface unit 101 of a host computer or another intelligent building block module 10.

The communication interface unit 101 is mechanically connected with the communication interface unit 101 of the upper computer or another intelligent building block module 10, and the electrical connection of the splice lines is realized through mechanical connection so as to form an intelligent building block system data communication network.

The upper computer can be mobile terminal equipment, and comprises an intelligent flat plate, an intelligent mobile phone, an intelligent bracelet or a remote controller and the like. The communication interface unit 101 of the intelligent building block modules 10 is connected with an upper computer, namely, the data processing unit 100 can be connected with the upper computer through the communication interface unit 101 to realize data interaction with the upper computer, and likewise, the communication interface unit 101 of one intelligent building block module 10 is connected with the communication interface unit 101 of another intelligent building block module 10 to realize data interaction between two intelligent building block modules 10, namely, two data processing units 100. Further, the communication interface unit 101 of another intelligent building block module 10 may be connected to the communication interface unit 101 of the third intelligent building block module 10, so that data interaction between one intelligent building block module 10 and the third intelligent building block module 10 may be realized. Based on this, data interaction between each intelligent building block module 10 is achieved.

In one embodiment, the communication interface unit 101 includes two communication interfaces that can communicate bi-directionally. In which, as a preferred embodiment, the communication interface unit 101 comprises two full duplex asynchronous communication interfaces.

In one embodiment, the communication interface unit 101 includes at least one input interface and at least one output interface. Wherein, as a preferred embodiment, the communication interface unit 101 may comprise one input interface and two output interfaces; the communication interface unit 101 may include one input interface and three output interfaces; the communication interface unit 101 may include two input interfaces and one output interface.

In one embodiment, the communication interface unit 101 further comprises an interface data processing module;

the input interface of the communication interface unit 101 is connected to the output interface through an interface data processing module. The interface data processing module may include a logic gate device or a signal processing circuit, etc.

The data processing unit 101 may include a signal processing chip or a logic circuit, etc.

In one example, fig. 2 is a schematic block diagram of another embodiment of the intelligent building block system, as shown in fig. 2, where the intelligent building block system of another embodiment further includes a wireless communication unit 200;

the wireless communication unit 200 is connected to a communication interface unit 101 of any one or more intelligent building blocks 10 and is used for connecting to a host computer.

The wireless communication unit 200 may be mechanically connected to a communication interface unit 101 of any one or more intelligent building blocks 10 to form an electrical connection in the manner of a splice line.

After the wireless communication unit 200 is connected, the intelligent building block module 10 can sequentially interact with the outside through the communication interface unit 101 and the wireless communication unit 200, and realize data interaction in a wireless communication manner. The wireless communication unit 200 includes a bluetooth communication module, an infrared communication module, or the like. As a preferred embodiment, the wireless communication unit 200 selects a bluetooth communication module, so that the intelligent building block modules 10 can implement data interaction with an upper computer or implement data interaction between the intelligent building block modules 10 through a bluetooth communication mode.

In one example, fig. 3 is a block diagram of an embodiment of the intelligent building block module, and as shown in fig. 3, the intelligent building block module 10 of an embodiment further includes a sensing unit 300;

the sensing units 300 are connected with a corresponding communication interface unit 101 of the intelligent building block module 10.

The sensor unit 300 may be mechanically connected to a communication interface unit 101 of the intelligent building block module 10 to form an electrical connection in the manner of a splice line.

The sensing unit 300 is used for collecting external sensing signals and transmitting the sensing signals to the data processing unit 100 of the intelligent building block module 10 through the communication interface unit 300. The sensing unit 300 includes an infrared sensing unit, a light control sensing unit, a sound control sensing unit, a key sensing unit, a temperature sensing unit, a touch sensing unit, a body sensing unit, a pulse sensing unit, a knob sensing unit, a pressure sensing unit, an ultrasonic sensing unit, or the like. As a preferred embodiment, the sensing unit 300 is an infrared sensing unit

In one example, fig. 4 is a block diagram of another embodiment of the intelligent building block module, and as shown in fig. 4, the intelligent building block module 10 of another embodiment further includes an execution unit 400;

the execution unit 400 is connected to a communication interface unit 101 of the corresponding intelligent building block module 10.

The execution unit 400 may be mechanically connected to a communication interface unit 101 of the intelligent building block module 10 to form an electrical connection in the manner of a splice line.

The execution unit 400 receives the data transmitted by the data processing module 100 through the communication interface unit 101, and performs corresponding processing according to the data. The execution unit 400 may include a color light, a signal light, a speaker, a display screen, a motor, etc.

The embodiment of the invention also provides a data transmission method, which comprises the following steps:

fig. 5 is a flowchart of a data transmission method according to an embodiment, as shown in fig. 5, the data transmission method according to an embodiment includes steps S100 to S103:

s100, receiving a communication signal sent by an upper computer or an intelligent building block module, and detecting authentication information in the communication signal;

the communication signals received comprise communication signals transmitted by the upper computer or communication signals transmitted by another intelligent building block module. Generally, the communication signal transmitted by the upper computer may include one or more authentication information, and the communication signal sent by the intelligent building block module includes only one authentication information.

In one embodiment, the authentication information in the communication signal sent by the intelligent building block module corresponds to the intelligent building block module sending the communication signal.

Wherein, each intelligent building block module corresponds to each authentication information one by one. In one embodiment, the authentication information includes ID information corresponding to each intelligent building block module.

S101, when authentication information is not detected, carrying out first preset processing on a communication signal, and sending the communication signal after the first preset processing outwards through a communication interface;

the communication signal after the first preset processing is sent to other intelligent building block modules. The first preset processing includes data conversion, logic operation or data analysis and the like of the communication signal. The communication signals after the first preset processing can be converted into multiple paths of output and used for being output to other modules of the intelligent building block module, other intelligent building block modules or an upper computer.

In one embodiment, after the process of performing the first preset processing on the communication signal, the method further includes step S200:

s200, when receiving the sensing signal sent by the sensing unit, interrupting transmission of the communication signal.

Wherein the communication signal is interrupted, i.e. not transmitted outwards, upon receipt of the sensor signal transmitted by the sensor unit. In one embodiment, the mode signal may be sent out in response to the sense signal after interrupting the transmission of the communication signal.

S102, when authentication information is detected and the authentication information is the same as preset authentication information, performing second preset processing on the signal;

the communication signal after the second preset processing is not sent to other intelligent building block modules or the upper computer. The second preset processing includes data conversion, logic operation or data analysis and the like of the communication signal. And the communication signals after the second preset processing are output to other modules of the intelligent building block module.

And S103, when the authentication information is detected and is different from the preset authentication information, sending the communication signal outwards through the communication interface.

According to the intelligent building block system and the data transmission method, mutual communication among the intelligent building block modules and communication between the intelligent building block modules and an upper computer are realized through at least two communication interface units. Meanwhile, through a data transmission method, communication signals among the intelligent building blocks and between the intelligent building blocks and the upper computer are allocated, real-time mutual communication among the intelligent building blocks and between the intelligent building blocks and the upper computer is realized, communication modes among the intelligent building blocks and between the intelligent building blocks and the upper computer are enriched, and data interaction capacity in the intelligent building blocks is improved, so that operation convenience and intelligent degree of the intelligent building blocks are improved.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. An intelligent building block system is characterized by comprising a plurality of intelligent building block modules; the intelligent building block module comprises a data processing unit and at least two communication interface units;

the data processing unit is respectively connected with each communication interface unit;

a communication interface unit of one intelligent building block module is connected with the upper computer and used for receiving communication signals sent by the upper computer, and another communication interface unit of the intelligent building block module is connected with another intelligent building block module and used for receiving communication signals sent by the other intelligent building block module;

the data processing unit is used for detecting authentication information in a communication signal sent by the upper computer or detecting authentication information in a communication signal sent by the other intelligent building block module; the authentication information in the communication signal sent by the other intelligent building block module corresponds to the intelligent building block module which sends the communication signal;

when the authentication information is not detected, the data processing unit is used for carrying out first preset processing on the communication signal and sending the communication signal after the first preset processing to the outside through the communication interface;

when the authentication information is detected and the authentication information is the same as preset authentication information, the data processing unit is used for carrying out second preset processing on the communication signal;

and when the authentication information is detected and is different from preset authentication information, the data processing unit is used for sending the communication signal outwards through the communication interface.

2. The intelligent building block system of claim 1, further comprising a wireless communication unit;

the wireless communication unit is connected with any one or a plurality of communication interface units of the intelligent building block modules and is used for being connected with an upper computer.

3. The intelligent building block system of claim 1, wherein the intelligent building block module further comprises a sensing unit;

the sensing unit is connected with a corresponding communication interface unit of the intelligent building block module.

4. The intelligent building block system of claim 1, wherein the intelligent building block module further comprises an execution unit;

the execution unit is connected with a corresponding communication interface unit of the intelligent building block module.

5. The intelligent building block system according to claim 1, wherein the communication interface unit comprises two communication interfaces capable of two-way communication.

6. A data transmission method applied to the intelligent building block system as claimed in any one of claims 1 to 5, comprising the steps of:

receiving a communication signal sent by an upper computer or an intelligent building block module, and detecting authentication information in the communication signal;

when the authentication information is not detected, carrying out first preset processing on a communication signal, and sending the communication signal subjected to the first preset processing outwards through the communication interface;

when the authentication information is detected and the authentication information is the same as preset authentication information, performing second preset processing on the signal;

and when the authentication information is detected and is different from the preset authentication information, sending the communication signal outwards through the communication interface.

7. The data transmission method according to claim 6, wherein the intelligent building block module comprises a sensing unit, and the sensing unit is used for being connected with a corresponding communication interface unit of the intelligent building block module;

after the process of performing the first preset processing on the communication signal, the method further includes the steps of:

and when receiving the sensing signal sent by the sensing unit, interrupting the transmission of the communication signal.

8. The data transmission method according to claim 6, wherein the authentication information in the communication signal transmitted by the intelligent building block module corresponds to the intelligent building block module transmitting the communication signal.

9. The data transmission method of claim 6, wherein the authentication information includes ID information corresponding to each intelligent building block module.

10. A data transmission device for use in an intelligent building block system according to any one of claims 1 to 5, comprising:

the information detection module is used for receiving the communication signal sent by the upper computer or the intelligent building block module and detecting authentication information in the communication signal;

the first processing module is used for carrying out first preset processing on the communication signal when the authentication information is not detected, and sending the communication signal after the first preset processing outwards through the communication interface;

the second processing module is used for carrying out second preset processing on the signal when the authentication information is detected and is the same as preset authentication information;

and the signal transmission module is used for sending the communication signal outwards through the communication interface when the authentication information is detected and is different from the preset authentication information.