CN218046437U - Indoor desktop entertainment circuit system of unmanned aerial vehicle - Google Patents

Abstract

The utility model relates to the field of unmanned aerial vehicles, in particular to an indoor desktop entertainment circuit system of an unmanned aerial vehicle, which is characterized in that a wireless ID sending module is arranged on the unmanned aerial vehicle, and a first wireless ID receiving module used for receiving corresponding self ID information of the unmanned aerial vehicle and a display module used for displaying game time are arranged on a take-off and landing platform; when the unmanned aerial vehicle is placed on the take-off and landing platform, the first wireless ID receiving module arranged on the take-off and landing platform can sense the information sent by the wireless ID sending module of the unmanned aerial vehicle, so that the corresponding unmanned aerial vehicle can be identified; a user controls the unmanned aerial vehicle to fly in the field; each checkpoint part circuit module comprises a second wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle; when unmanned aerial vehicle passes through the goal, by the wireless ID receiving module discernment unmanned aerial vehicle of second at the goal, unmanned aerial vehicle information is received to main control chip module to start second photoelectricity module, score information is reported through the voice broadcast module voice simultaneously, and can show on the display screen in real time.

Description

Indoor desktop entertainment circuit system of unmanned aerial vehicle

Technical Field

The utility model relates to an unmanned aerial vehicle field indicates an indoor desktop entertainment circuit system of unmanned aerial vehicle especially.

Background

Along with the popularization of the application of the unmanned aerial vehicle, the unmanned aerial vehicle product is developed rapidly, and various types of unmanned products appear in the civil market at present. With the continuous maturity of unmanned aerial vehicle technique, a large amount of civilian unmanned aerial vehicles put into production, mainly used fields such as take photo by plane. However, there are few entertainment and game facilities involving unmanned planes, and existing airplane battle games are all virtual on a computer or a mobile phone. Although the virtual reality game has high simulation degree and strong entertainment, the equipment is very expensive and is difficult to popularize. The technical scheme of a battle game device which aims at unmanned aerial vehicles and is convenient for civil use and convenient for popularization is lacked in the market.

In order to add interest and challenge of recreation among the current unmanned aerial vehicle training recreation, need design heavily to pass, however the pass of current design is comparatively complicated, and with high costs, and user experience is not good, and it can not accurately detect whether unmanned aerial vehicle leads to a customs to and the degree of difficulty is not enough, and challenge is not strong, consequently needs to improve this technique.

From battlefield to life, from forest fire prevention to city express delivery, the figure of unmanned aerial vehicle is everywhere. In the places such as streets, parks, seasides and the like which are occasionally visible in life, the aerial photographing and flight test unmanned aerial vehicle can be the focus of children around.

The high cost of the single unmanned aerial vehicle and the easy damage and the difficult control of the unmanned aerial vehicle. Parents also have the option to give up in the face of their desire for children.

It is now necessary to have a new type of unmanned aerial vehicle training and entertainment equipment that can move unmanned aerial vehicle indoors, and when the unmanned aerial vehicle is controlled, experience the passion confrontation of the aerial robot, and can solve the above problems.

Disclosure of Invention

In order to solve the problem, the utility model provides an indoor desktop entertainment circuit system of unmanned aerial vehicle carries out technical transformation through training current unmanned aerial vehicle and entertainment system, has solved the indoor training entertainment system playing method of current unmanned aerial vehicle comparatively single, and is interesting not enough, the not good problem of training effect.

In order to achieve the above object, the utility model adopts the following technical scheme: an indoor desktop entertainment circuit system of unmanned aerial vehicle comprises

The unmanned aerial vehicle induction circuit module comprises a wireless ID sending module used for sending ID information corresponding to the unmanned aerial vehicle;

the system comprises a landing platform part circuit module, a first wireless ID receiving module, a display module and a first photoelectric module, wherein the landing platform part circuit module comprises a first wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle, the display module is used for displaying game time, and the first photoelectric module is used for prompting the unmanned aerial vehicle to approach or leave;

each checkpoint part circuit module comprises a second wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle and a second photoelectric module used for prompting the unmanned aerial vehicle to pass;

the control circuit module comprises a main control chip module, wherein the main control chip module is respectively in communication connection with the first wireless ID receiving module, the display module, the second wireless ID receiving module, the first photoelectric module and the second photoelectric module;

and the power supply circuit module is respectively connected with the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless I D receiving module and the second photoelectric module and supplies power to the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless I D receiving module and the second photoelectric module.

Further, the wireless ID sending module comprises a dial switch, a wireless ID sending processing chip and a first infrared emitting diode, wherein the dial switch and the first ID emitting tube are respectively in communication connection with the wireless ID sending processing chip, and the wireless ID sending processing chip is connected with a power supply of the unmanned aerial vehicle to achieve power taking; the specific model of the wireless ID sending processing chip is STC8H1K08, and the specific model of the dial switch is VPG1S-05L.

Further, the specific model of the main control chip module is STC8H3K64S4-45I-LQFP48.

Furthermore, the first wireless ID receiving module comprises a plurality of receiving tube interface modules and a plurality of first infrared receiving tubes connected with the receiving tube interface modules, the specific model of the first infrared receiving tube is VS1838 or IRM-H638T, and the first infrared receiving tube is in communication connection with the main control chip module through the receiving tube interface modules.

Further, first photovoltaic module includes RGB lamp area interface, RGB lamp area, and wherein RGB lamp area passes through RGB lamp area interface and main control chip module communication connection, and the specific model in RGB lamp area is WS2812B.

Further, the display module is a nixie tube driving module and a display nixie tube, wherein the main control chip module is in communication connection with the display nixie tube through the nixie tube driving module, and the specific model of the display nixie tube is 8402AS.

Furthermore, each checkpoint part circuit module also comprises a sound broadcasting module, wherein the sound broadcasting module comprises an MP3 broadcasting drive module, an earphone interface and a loudspeaker interface, wherein the main control chip module is respectively connected with the earphone interface and the loudspeaker interface through the MP3 broadcasting drive module, and the specific model of the MP3 broadcasting drive module is MY 2490-169p or MY2490-M02.

Furthermore, the second wireless ID receiving module is consistent with the first wireless ID receiving module in structure, and the second photoelectric module is consistent with the first photoelectric module in structure.

And the system further comprises a main controller, and the main controller is in communication connection with the main control chip module through RS-485 communication or WIFI communication.

And the display screen module is in communication connection with the main control chip module.

The beneficial effects of the utility model reside in that: 1. in the application, a wireless ID sending module is assembled on the unmanned aerial vehicle, and meanwhile, a first wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle, a display module used for displaying game time and a first photoelectric module used for prompting the unmanned aerial vehicle to approach or leave are arranged on the take-off and landing platform; when the unmanned aerial vehicle is placed on the take-off and landing platform, the first wireless ID receiving module arranged on the take-off and landing platform can sense the information sent by the wireless ID sending module of the unmanned aerial vehicle, so that the corresponding unmanned aerial vehicle can be identified; the user controls the unmanned aerial vehicle to fly in the field, and the display module displays the game time; in addition, each checkpoint part circuit module comprises a second wireless ID receiving module and a second photoelectric module, wherein the second wireless ID receiving module is used for receiving ID information corresponding to the unmanned aerial vehicle, and the second photoelectric module is used for prompting the unmanned aerial vehicle to pass; when unmanned aerial vehicle passed through goal (checkpoint part) or ball frame (checkpoint part), received the module discernment unmanned aerial vehicle by the wireless ID of the second of goal (checkpoint part) or ball frame (checkpoint part), unmanned aerial vehicle information is received to main control chip module to can start the second photoelectricity module, can also report module voice broadcast score information through the sound simultaneously, and can show on the display screen in real time.

2. The utility model discloses the place is laid simply, is applicable to park, business surpass, division celebration, amusement electronic game city, 4S rest area, the rest area of building department and so on, does not receive the place restriction, just can play to open with letting down.

3. The utility model discloses can temper learning unmanned aerial vehicle's flight skill, progressively improve operational capability and accurate judgement force, and be rich in the interest, improve user's interest in learning greatly.

Drawings

Fig. 1 is a schematic diagram of the module of the landing platform part circuit module connected with the unmanned aerial vehicle.

Fig. 2 is a schematic diagram of a specific circuit structure of the dial switch.

Fig. 3 is a schematic diagram of a specific circuit structure of the first infrared emitting diode.

Fig. 4 is a schematic diagram of a specific circuit structure of the main control chip module.

Fig. 5 is a schematic diagram of a specific circuit structure of the connection between the first infrared receiving tube and the receiving tube interface module.

Fig. 6 is a schematic circuit diagram of a first optoelectronic module.

Fig. 7 is a schematic diagram of a specific circuit structure of the connection between the nixie tube driving module and the display nixie tube.

Fig. 8 is a schematic diagram of a specific circuit structure of RS-485 communication.

Fig. 9 is a schematic diagram of a specific circuit structure of WIFI communication.

Fig. 10 is a schematic diagram of a specific circuit structure of the audio broadcasting module.

Fig. 11 is the module schematic diagram of the utility model discloses the checkpoint part circuit module is connected with unmanned aerial vehicle.

Detailed Description

Referring to fig. 1-10, the present invention relates to an indoor desktop entertainment circuit system for an unmanned aerial vehicle, comprising

The unmanned aerial vehicle induction circuit module comprises a wireless ID sending module used for sending ID information corresponding to the unmanned aerial vehicle;

the system comprises a landing platform part circuit module, a first wireless ID receiving module, a display module and a first photoelectric module, wherein the landing platform part circuit module comprises a first wireless ID receiving module used for receiving I information of the unmanned aerial vehicle corresponding to the landing platform part, the display module used for displaying game time, and the first photoelectric module used for prompting the unmanned aerial vehicle to approach or leave;

some circuit module of a plurality of checkpoint, every some circuit module of checkpoint all includes the wireless ID who is used for receiving unmanned aerial vehicle and corresponds self ID information and receives the module, the second photoelectricity module that the suggestion unmanned aerial vehicle passes through, the module is reported to sound, wherein this sound report module includes that MP3 reports drive module, earphone interface, loudspeaker interface, wherein main control chip module reports drive module through MP3 and respectively with earphone interface and loudspeaker interface connection, just MP3 reports that the concrete model of drive module is MY 2490-169P.n or MY2490-M02 (refer to fig. 10).

The control circuit module comprises a main control chip module, wherein the main control chip module is respectively in communication connection with the first wireless ID receiving module, the display module, the second wireless I receiving module, the first photoelectric module and the second photoelectric module;

and the power supply circuit module is respectively connected with the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless ID receiving module and the second photoelectric module and supplies power to the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless ID receiving module and the second photoelectric module.

And the main controller is in communication connection with the main control chip module through RS-485 communication (see figure 8) or WIFI communication (see figure 9).

And the display screen module is in communication connection with the main control chip module.

In the application, a wireless ID sending module is assembled on the unmanned aerial vehicle, and meanwhile, a first wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle, a display module used for displaying game time and a first photoelectric module used for prompting the unmanned aerial vehicle to approach or leave are arranged on the take-off and landing platform; when the unmanned aerial vehicle is placed on the take-off and landing platform, the first wireless ID receiving module arranged on the take-off and landing platform can sense the information sent by the wireless ID sending module of the unmanned aerial vehicle, so that the corresponding unmanned aerial vehicle can be identified; the user controls the unmanned aerial vehicle to fly in the field, and the display module displays the game time; in the application, each checkpoint part circuit module comprises a second wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle and a second photoelectric module used for prompting the unmanned aerial vehicle to pass; when unmanned aerial vehicle passed through goal (checkpoint part) or ball frame (checkpoint part), received module discernment unmanned aerial vehicle by the wireless I D of second of goal (checkpoint part) or ball frame (checkpoint part), main control chip module receives unmanned aerial vehicle information to can start second photoelectricity module, can also report module voice broadcast score information through the sound simultaneously, and can show in real time on the display screen.

The utility model discloses the place is laid simply, is applicable to park, business surpass, division celebration, amusement electronic game city, 4S rest area, the rest area of building department and so on, does not receive the place restriction, just can play to open with letting down.

The utility model discloses can temper learning unmanned aerial vehicle's flight skill, progressively improve operational capability and accurate judgement force, and be rich in the interest, improve user's interest in learning greatly.

Further, referring to fig. 2 specifically, the wireless ID sending module includes a dial switch (see fig. 2), a wireless ID sending processing chip, and a first infrared emitting diode (see fig. 3), wherein the dial switch and the first ID emitting tube are in communication connection with the wireless ID sending processing chip, and the wireless ID sending processing chip is connected with a power supply of the unmanned aerial vehicle to obtain electricity; the specific model of the wireless ID sending processing chip is STC8H1K08, and the specific model of the dial switch is VPG1S-05L.

Further, the specific model of the main control chip module is STC8H3K64S4-45I-LQFP48. (refer to FIG. 4)

Further, the first wireless ID receiving module includes a plurality of receiving tube interface modules, and a plurality of first infrared receiving tubes connected to the receiving tube interface modules, the specific model of the first infrared receiving tube is VS1838 or IRM-H638T, and the first infrared receiving tube is in communication connection with the main control chip module through the receiving tube interface modules (see fig. 5).

Further, first photovoltaic module includes RGB lamp area interface, RGB lamp area, and wherein RGB lamp area passes through RGB lamp area interface and main control chip module communication connection, and the specific model in RGB lamp area is WS2812B. (refer to FIG. 6)

Further, the display module is a nixie tube driving module and a display nixie tube, wherein the main control chip module is in communication connection with the display nixie tube (see the right side of fig. 7) through the nixie tube driving module (see the left side of fig. 7), and the specific model of the display nixie tube is 8402AS.

Furthermore, the second wireless ID receiving module is consistent with the first wireless ID receiving module in structure, and the second photoelectric module is consistent with the first photoelectric module in structure.

In the specific game play method of the present application: in the application, a wireless ID sending module is assembled on the unmanned aerial vehicle, and meanwhile, a first wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle, a display module used for displaying game time and a first photoelectric module used for prompting the unmanned aerial vehicle to approach or leave are arranged on the take-off and landing platform; when the unmanned aerial vehicle is placed on the take-off and landing platform, the first wireless ID receiving module arranged on the take-off and landing platform can sense the information sent by the wireless ID sending module of the unmanned aerial vehicle, so that the corresponding unmanned aerial vehicle can be identified; the user controls the unmanned aerial vehicle to fly in the field, and the display module displays the game time; in the application, each checkpoint part circuit module comprises a second wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle and a second photoelectric module used for prompting the unmanned aerial vehicle to pass; when unmanned aerial vehicle passed through goal (checkpoint part) or ball frame (checkpoint part), received the module discernment unmanned aerial vehicle by the wireless ID of the second of goal (checkpoint part) or ball frame (checkpoint part), unmanned aerial vehicle information is received to main control chip module to can start the second photoelectricity module, can also report module voice broadcast score information through the sound simultaneously, and can show on the display screen in real time.

Both sides can start unmanned aerial vehicle simultaneously, collide the antagonism, and can score through passing the other side ball frame, and the double is flown the antagonism (this application is most supported 4 people simultaneously online).

The main audience of the embodiment is teenagers and adults over 5 years old, the match is carried out in a mode of single-person challenge or multi-person fight within a certain time, the match scores can be obtained by successfully passing through the goal and the ball frame, and the person with high score wins. The field layout of the embodiment is simple, the multifunctional electronic game is suitable for parks, business supermarkets, opening celebrations, entertainment electronic playgrounds, 4S rest areas, rest areas at building sales places and the like, is not limited by the field, and can be played after being placed. This embodiment can temper learning unmanned aerial vehicle's flight skill, progressively improves operational capability and accurate judgement, and is rich in the interest, improves user's interest in learning greatly.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (10)

1. The utility model provides an indoor desktop amusement circuit system of unmanned aerial vehicle which characterized in that:

the unmanned aerial vehicle induction circuit module comprises a wireless ID sending module used for sending ID information corresponding to the unmanned aerial vehicle;

the system comprises a landing platform part circuit module, a first wireless ID receiving module, a display module and a first photoelectric module, wherein the landing platform part circuit module comprises a first wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle, the display module is used for displaying game time, and the first photoelectric module is used for prompting the unmanned aerial vehicle to approach or leave;

each checkpoint part circuit module comprises a second wireless ID receiving module used for receiving ID information corresponding to the unmanned aerial vehicle and a second photoelectric module used for prompting the unmanned aerial vehicle to pass;

the control circuit module comprises a main control chip module, wherein the main control chip module is respectively in communication connection with the first wireless ID receiving module, the display module, the second wireless ID receiving module, the first photoelectric module and the second photoelectric module;

and the power supply circuit module is respectively connected with the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless ID receiving module and the second photoelectric module and supplies power to the first wireless ID receiving module, the display module, the first photoelectric module, the second wireless ID receiving module and the second photoelectric module.

2. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 1, wherein: the wireless ID sending module comprises a dial switch, a wireless ID sending processing chip and a first infrared emitting diode, wherein the dial switch and the first ID emitting tube are respectively in communication connection with the wireless ID sending processing chip, and the wireless ID sending processing chip is connected with a power supply of the unmanned aerial vehicle to achieve power taking; the specific model of the wireless ID sending processing chip is STC8H1K08, and the specific model of the dial switch is VPG1S-05L.

3. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 1, wherein: the specific model of the main control chip module is STC8H3K64S4-45I-LQFP48.

4. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the first wireless ID receiving module comprises a plurality of receiving tube interface modules and a plurality of first infrared receiving tubes connected with the receiving tube interface modules, the specific model of each first infrared receiving tube is VS1838 or IRM-H638T, and the first infrared receiving tubes are in communication connection with the main control chip module through the receiving tube interface modules.

5. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the first photoelectric module comprises an RGB lamp strip interface and an RGB lamp strip, wherein the RGB lamp strip is in communication connection with the main control chip module through the RGB lamp strip interface, and the specific model of the RGB lamp strip is WS2812B.

6. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the display module is a nixie tube driving module and a display nixie tube, wherein the main control chip module is in communication connection with the display nixie tube through the nixie tube driving module, and the specific model of the display nixie tube is 8402AS.

7. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: every checkpoint part circuit module still includes the voice broadcast module, and wherein this voice broadcast module includes that MP3 reports drive module, earphone interface, loudspeaker interface, and wherein main control chip module reports drive module through MP3 and respectively with earphone interface and loudspeaker interface connection, just the concrete model that MP3 reported drive module is MY 2490-169P.n or MY2490-M02.

8. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the second wireless ID receiving module is consistent with the first wireless ID receiving module in structure, and the second photoelectric module is consistent with the first photoelectric module in structure.

9. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the intelligent control system also comprises a main controller, and the main controller is in communication connection with the main control chip module through RS-485 communication or WIFI communication.

10. The unmanned aerial vehicle indoor desktop entertainment circuitry of claim 3, wherein: the display screen module is in communication connection with the main control chip module.

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