CN217640469U - Multichannel programming device and system in kind - Google Patents

Abstract

The utility model discloses a multichannel programming device in kind and system. The device comprises: the signal generation cards comprise main instruction cards and calling cards, the card placing channels comprise main channels and grouping channels, at least one of the main instruction cards and the calling cards is placed on the main channels, when the calling cards are placed on the main channels, the main instruction cards are placed on the grouping channels, and when signals of the calling cards are read, signals of the main instruction cards on the grouping channels are read. By setting the calling cards and the grouping channels, the number of the used instruction cards is reduced, the cost of the programming product is reduced, the programming method is added, the thinking of the user is exercised and improved, and the popularization and the application of the programming product are facilitated.

Description

Multichannel programming device and system in kind

Technical Field

The utility model relates to a programming equipment technical field especially relates to a multichannel programming device in kind and system.

Background

At present, one of the programming products in the market is to install control software in electronic products such as a mobile phone, a tablet or a computer, and to externally send a control signal to complete programming by operating the control software. However, the electronic product is needed, which is not favorable for protecting the eyesight of children; the other type is a physical programming product, which comprises a plurality of instruction sheets, wherein each instruction sheet corresponds to one signal instruction, and in the programming process, the instruction sheets representing different signal instructions are sequentially placed in an instruction channel, so that the signal reading and transmission can be realized through an induction device and a transmission device, and the programming operation is completed. However, since one command chip represents one signal command, a programmed product needs to have a very large number of command chips, which increases the product cost; in addition, programming in this way using these pieces of instructions results in a single thought, with the effect of exercising and improving the user's programmed thinking being greatly limited.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a following technical scheme.

The utility model discloses an aspect provides a multichannel programming device in kind, include: the signal generating card comprises a main instruction card and a calling card, the card placing channel comprises a main channel and a grouping channel, at least one of the main instruction card and the calling card is placed on the main channel, when the calling card is placed on the main channel, the main instruction card is placed on the grouping channel, and when the signal of the calling card is read, the signal of the main instruction card on the grouping channel is read.

Preferably, the card placing channel is provided with a plurality of placing openings matched with the shape of the signal generating card.

Preferably, the grouping channel is provided in plurality, each of the grouping channel and the calling card is provided with a number, and each of the grouping channel corresponds to the number of the calling card.

Preferably, the main channel and the grouping channel are arranged on a plate-like structure.

Preferably, the main instruction card includes at least one of a forward card, a backward card, a left-turn card, a right-turn card, a light card, a sound card, a circulation card, a voice control card, a light sensing card and an obstacle avoidance card.

The utility model discloses the second aspect provides a multichannel programming system in kind, include like the first aspect the device, still include signal induction system, signal transmission device and signal reception processing apparatus, signal induction system's receiving terminal is gathered the signal of signal production card, signal induction system's output in proper order with signal transmission device and signal reception processing apparatus connect.

Preferably, the signal system further comprises a circuit board, and the signal sensing device and the signal transmission device are both fixedly arranged on the circuit board.

Preferably, the system further comprises a programming station comprising a housing with an upper cover, the circuit board being mounted within the housing, the card placement channel being provided on the upper cover.

Preferably, the signal receiving and processing device is an intelligent terminal.

Preferably, the intelligent terminal comprises a robot, an intelligent vehicle or other intelligent equipment.

The utility model has the advantages that: the utility model provides a multichannel programming device in kind and system through setting up the master instruction card and calling card, main entrance and marshalling passageway, places the master instruction card on the main entrance and calls at least one in the card, when placing on the main entrance and calling the card, has placed the master instruction card on the marshalling passageway, and when the signal of calling the card was read, the signal of the master instruction card on the marshalling passageway was read. By setting the calling cards and the grouping channels, the number of the used instruction cards is reduced, the cost of the programming product is reduced, the programming method is added, the thinking of the user is exercised and improved, and the popularization and the application of the programming product are facilitated.

Drawings

FIG. 1 is a schematic structural view of the multi-channel real object programming device of the present invention;

fig. 2 is a schematic diagram of a partial structure of the multi-channel real object programming system of the present invention;

fig. 3 is a schematic structural view of the programming platform of the present invention;

FIG. 4 is a schematic structural diagram of the multi-channel real object programming system of the present invention;

fig. 5 is a schematic structural diagram of the signal generating card of the present invention.

In the figure, the meaning of each symbol is as follows:

1. a signal generating card; 2. a main channel; 3. a marshalling channel; 4. executing a key; 5. a signal sensing device; 6. a signal transmission device; 7. a signal receiving and processing device; 8. a circuit board; 9. a programming station; 10. an upper cover; 11. a housing; 12. a panel; 13. an instruction module; 14. indicating a symbol.

Detailed Description

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example one

The embodiment of the utility model provides a multichannel programming device in kind, include: the signal generating card comprises a main instruction card and a calling card, the card placing channel comprises a main channel 2 and a grouping channel 3, at least one of the main instruction card and the calling card is placed on the main channel 2, the main instruction card is placed on the grouping channel 3 when the calling card is placed on the main channel 2, and the signal of the main instruction card on the grouping channel 3 is read when the signal of the calling card is read.

In the device, the signals generated by the signal generation cards can respectively represent different instructions, and in the use process, the signals generated by the signal generation cards can be in one-to-one correspondence with the preset instructions, so that when the read signals are processed, the instructions corresponding to the signals can be obtained and executed.

The signals generated by the signal generating cards placed in the channels are read and executed sequentially in order. The signal generation card placed on the main channel can be a main command card or a calling card. And the signal generation card placed on the grouping channel can only be a main command card and can not be a calling card. Whether the main command cards and the calling cards are placed on the main channel or the main command cards are placed on the grouping channel, signals are read and executed in sequence according to the placement sequence of the main command cards and the calling cards. When the calling cards are placed on the main channel, the main command cards need to be placed on the grouping channel, so that when signals of the calling cards on the main channel are read and executed, the signals of the main command cards on the grouping channel are sequentially read and executed. Thus, the use of a call card on the main channel is equivalent to the use of a main command card on the group channel. When a same program segment needs to appear for multiple times in a complete program, the calling card can be placed on the main channel, and multiple main instruction cards corresponding to multiple instructions forming the program segment are placed on the grouping channel, without repeatedly placing the multiple main instruction cards on the main channel for multiple times (in the prior art, the number of the required main instruction cards is doubled according to the repeated times). For example, the whole program including the following 19 series of actions is: forward-left turn-red-sound-green-forward-left turn-red-right turn-forward-left turn-red-sound-forward-left turn-red. There is a section of this overall procedure: go-left turn-red light, which recurs four times at different locations. If the programming product provided according to the prior art (excluding the calling card and the grouping channel) needs to put the corresponding main command pieces in sequence on the main channel to implement, that is, 19 corresponding main command pieces need to be put in to complete, and therefore, 19 main command pieces are needed to complete the whole program. If adopt the utility model provides a device, then only need put into this section procedure that appears repeatedly in organizing the group passageway: 4 main instruction cards corresponding to the forward-left turn-red light are put into the calling card at the position where the section of program of the main channel appears, namely the calling card is put into the main channel: call-sound-green light-call-right turn-call-sound-call these 8 signal generation cards. Thus, only 12 signal generation cards (4 call cards and 8 main command cards) are required to complete the entire program. In the practical application process, an execution key 4 (as shown in fig. 1) can be arranged, and after a signal generation card is placed in the card placing channel, the execution key 4 can be pressed down, and signals of the signal generation card are read and executed.

Therefore, adopt the utility model provides a multichannel programming device in kind has not only reduced the required quantity of master instruction card, moreover, can let the user initiatively discover the law of one section procedure that appears repeatedly in the procedure to can initiatively use and call the card, learn to conclude and conclude thinking methods such as categorised arrangement, improve work efficiency.

The embodiment of the present invention provides a master command card can include at least one of a forward card, a backward card, a left-turn card, a right-turn card, a light card, a sound card, a circulation card, an acoustic control card, a light sensing card, and a barrier avoidance card.

In the actual use process, the types and the number of the main instruction cards representing different instructions can be set according to the requirements.

In the embodiment of the utility model provides an in, the card place set up on the passageway a plurality of with 1 shape matched with of signal production card place the mouth.

Adopt above-mentioned structure, can produce the card with each signal and put in the mouth that places that corresponds for each signal produces the card and places well after can not take place the confusion.

In this embodiment, the grouping channel 3 may be provided in multiple numbers, each of the grouping channel 3 and the calling card is provided with a serial number, and each of the grouping channel 3 corresponds to the serial number of the calling card.

By arranging a plurality of grouping channels, different signal generation cards corresponding to a section of program which repeatedly appears for a plurality of times can be placed on each grouping channel. For example, in a complete program, a small program that recurs many times includes the following two: forward-left turn-red light, left turn-red light-forward, then call card P1 and call card P2 can be placed on the main channel respectively and the main instruction cards corresponding to forward-left turn-red light, left turn-red light-forward can be placed on the marshalling channel with corresponding identifiers P1 and P2 respectively. Namely, when reading the signal of calling the card P1, the main instruction card placed on the grouping channel with the identifier P1 is read: forward-left turn-red light signals; in reading the signal calling the card P2, the master instruction card placed on the grouping channel with the identifier P2 is read: left turn-red light-signal to go ahead.

By adopting the structure, the calling of a plurality of small-section programs can be realized. Further reducing the number of the whole set of signal generating cards, exercising and improving the programming thinking of the user.

In a preferred embodiment of the invention, the main channel 2 and the marshalling channel 3 are arranged on a plate-like structure.

In the above structure, the main channel and the grouping channel may be provided on the same plate-like structure, or may be provided on different plate-like structures.

Example two

The embodiment of the utility model provides a multichannel programming system in kind, including embodiment one the device, still include signal induction system 5, signal transmission device 6 and signal reception processing apparatus 7, signal induction system 5's receiving terminal is gathered the signal of signal production card 1, signal induction system 5's output in proper order with signal transmission device 6 and signal reception processing apparatus 7 are connected.

In this embodiment, the signal system further includes a circuit board 8, and the signal sensing device 5 and the signal transmission device 6 are both fixedly disposed on the circuit board 8.

In an embodiment of the present invention, as shown in fig. 3, the system further comprises a programming platform 9, the programming platform 9 comprises a housing 11 with an upper cover 10, the circuit board 8 is installed in the housing 11, and the card placing channel is disposed on the upper cover 10.

The programming system can be as shown in fig. 4, and includes a programming platform, and various accessory structures (upper cover, card placing channel, casing, circuit board, signal sensing device, signal transmission device, execution key) on the programming platform, and also includes a signal receiving and processing device and a signal generating card.

As shown in fig. 5, the signal generating card may include a panel 12 and an instruction module 13, and the panel 12 may be provided with an indication symbol 14 corresponding to an instruction. When the signal generating card is placed on the card placing channel of the programming table, the programming table generates an instruction through the signal induction device on the circuit board and then generates an instruction module in the card. The sensing modules in the signal generating card have different layouts and different formed instructions.

In this embodiment, the signal receiving and processing device 7 may be an intelligent terminal.

The intelligent terminal can comprise a robot, an intelligent vehicle or other intelligent equipment.

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A multi-channel real object programming device is characterized by comprising: the signal generating card comprises a main instruction card and a calling card, the card placing channel comprises a main channel and a grouping channel, at least one of the main instruction card and the calling card is placed on the main channel, when the calling card is placed on the main channel, the main instruction card is placed on the grouping channel, and when the signal of the calling card is read, the signal of the main instruction card on the grouping channel is read.

2. The multi-channel physical programming device of claim 1, wherein said card placement channel has a plurality of placement openings formed therein that are shaped to fit said signal generating card.

3. The multi-channel physical programming device according to claim 1, wherein the grouping channel is provided in plurality, each of the grouping channel and the calling card is provided with a number, and each of the grouping channel corresponds to the number of the calling card.

4. The multi-channel physical programming device of claim 1, wherein the main channel and the grouping channel are disposed on a plate-like structure.

5. The multi-channel physical programming device of claim 1, wherein the master command card comprises at least one of a forward card, a backward card, a left turn card, a right turn card, a light card, a sound card, a circulation card, a sound control card, a light sensing card, and an obstacle avoidance card.

6. A multi-channel real object programming system, which comprises the device of any one of claims 1 to 5, and further comprises a signal sensing device, a signal transmission device and a signal receiving and processing device, wherein the receiving end of the signal sensing device collects the signal of the signal generating card, and the output end of the signal sensing device is sequentially connected with the signal transmission device and the signal receiving and processing device.

7. The multi-channel physical programming system of claim 6 further comprising a circuit board, wherein said signal sensing means and said signal transmitting means are both fixedly disposed on said circuit board.

8. The multi-channel physical programming system of claim 7 further comprising a programming station including a housing with an upper cover, said circuit board being mounted within said housing, said card placement channel being disposed on said upper cover.

9. The multi-channel physical programming system of claim 6 wherein said signal receiving and processing means is a smart terminal.

10. The multi-channel physical programming system of claim 9, wherein the intelligent terminal comprises a robot or an intelligent car.

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