CN219066309U - Beidou satellite navigation science popularization suite - Google Patents

Abstract

The utility model discloses a Beidou satellite navigation science popularization kit which comprises a main control module, an input module, a display module, a functional module, a Beidou positioning module and an Internet of things module, wherein the main control module is connected with the Beidou satellite navigation science popularization kit; the main control module is connected with the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module; the Beidou positioning module is used for simulating a Beidou satellite navigation system to acquire Beidou parameter data; each functional module is used for measuring data of specified parameters except Beidou parameter data; the input module is used for inputting control signals used by the single or multiple wake-up Beidou positioning module or the functional module to the main control module. The utility model has rich use forms, and the participants can acquire various parameter data by using the Beidou positioning and function module, so that the utility model can simulate the application of the Beidou satellite navigation system in life in a plurality of scenes.

Description

Beidou satellite navigation science popularization suite

Technical Field

The utility model relates to the technical fields of Beidou knowledge science popularization and Internet of things, in particular to a Beidou satellite navigation science popularization kit.

Background

The chinese BeiDou satellite navigation system (BDS, beiDou Navigation Satellite System) is a global satellite navigation system developed by itself in china, and is the third mature satellite navigation system following the us global positioning system (GPS, global Positioning System) and russian GLONASS satellite navigation system (GLONASS, global Navigation Satellite System). The Beidou satellite navigation system consists of a space section, a ground section and a user section, wherein the space section comprises 5 static orbit satellites, 3 inclined geosynchronous orbit satellites and 27 middle earth orbit satellites, the ground section comprises a main control station, an injection station, a monitoring station and a plurality of ground stations, the user section comprises a Beidou user terminal and terminals compatible with other satellite navigation systems, and the main functions of the Beidou satellite navigation system are satellite positioning, precise time service and short message communication.

Currently, the Beidou satellite navigation system has been applied to aspects of human life, such as portable positioning, longitude and latitude inquiry, environment monitoring, fire safety monitoring, natural disaster monitoring and the like. In order for more people to know the Beidou satellite navigation and to know the application of the Beidou satellite navigation system in life, the scientific popularization work aiming at the Beidou satellite navigation system is very necessary. Along with the gradual development of the Beidou science popularization work, a plurality of science and education products for the Beidou satellite navigation system science popularization are also developed. The current science popularization activities generally adopt science popularization exhibition and other forms, science education products are generally displayed in a relatively static mode, such as satellite kits, satellite models and the like, and the use forms of the products are relatively boring; under multiple application scenes, data obtained by using the Beidou satellite navigation system can be used by combining other parameter data, but a general Beidou satellite navigation science popularization teaching aid cannot obtain the data by practice, so that participants are difficult to experience the application of Beidou in life in person, and the expandability is low.

Disclosure of Invention

The utility model aims to solve the technical problems that scientific and teaching products of general Beidou satellite navigation system science popularization in the background technology are relatively boring in use form, participants cannot simulate the application of the Beidou satellite navigation system through scenes, and the expandability is low; the utility model has rich use forms, and the participants can acquire various parameter data by using the Beidou positioning and function module, so that the utility model can simulate the application of the Beidou satellite navigation system in life in a plurality of scenes.

In order to solve the problems, the Beidou satellite navigation science popularization kit comprises a main control module, an input module, a display module, a functional module, a Beidou positioning module and an Internet of things module; the main control module is connected with the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module;

the Beidou positioning module is used for simulating a Beidou satellite navigation system to acquire Beidou parameter data; the Beidou parameter data comprise satellite positioning, precise time service and short message communication data;

the number of the functional modules is several; each functional module is used for measuring data of specified parameters except Beidou parameter data;

the input module is used for inputting control signals used by a single or a plurality of wake-up Beidou positioning modules or functional modules to the main control module;

the display module is used for displaying Beidou parameter data obtained by the Beidou positioning module and data of the appointed parameters obtained by the functional module;

the internet of things module is used for sending Beidou parameter data and other required data of specified parameters to a specified terminal;

the main control module is used for controlling and receiving information of the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module.

Particularly, the functional module comprises a temperature and humidity detection module, a smoke monitoring module, a flame monitoring module, a PM2.5 monitoring module and a water level monitoring module.

The temperature and humidity detection module comprises a temperature and humidity detection device and a temperature and humidity detection module interface, wherein the temperature and humidity detection device is used for detecting temperature and humidity; the smoke monitoring module comprises a smoke monitor and a smoke monitoring module interface for monitoring whether smoke exceeds standard; the flame monitoring module comprises a flame monitoring device and a flame monitoring module interface, wherein the flame monitoring device is used for monitoring whether flame exceeds standard; the PM2.5 monitoring module comprises a PM2.5 monitoring device for measuring air quality and a PM2.5 monitoring module interface; the water level monitoring module comprises a water level monitor for measuring water level and a water level monitoring module interface.

The main control module is respectively connected with the temperature and humidity detection device, the smoke monitor, the flame monitor, the PM2.5 monitor and the water level monitor through the temperature and humidity detection module interface, the smoke monitor interface, the flame monitor interface, the PM2.5 monitor interface and the water level monitor interface.

In particular, the display module comprises a liquid crystal display and a big Dipper small clock nixie tube.

In particular, the liquid crystal display adopts an OLED display screen.

In particular, the input module includes a set main switch key, a single function key group for inputting a control signal designating one function module, and a scene function simulation combination key group for inputting a scene function simulation designating one or more function modules to realize scene simulation.

In particular, the terminal is a PC terminal.

In particular, the main control module adopts ESP32 series microcontrollers.

Particularly, the Internet of things module adopts a Wifi transmission module.

In particular, a power supply is also included; the power supply is connected with the main control module through a USB power line; the power supply is a lithium battery.

The utility model has the beneficial effects that:

1. the utility model can improve the participation degree of the participants, enhance the practical ability of the participants, and enable the Beidou science popularization knowledge to be displayed in a more specific and acceptable form. According to the Beidou navigation system, the Beidou science popularization and the Internet of things are combined, the common general knowledge of daily life can be learned while the Beidou science popularization and the application knowledge are learned, the safety awareness is enhanced, the monitored data are displayed through the terminal through the Beidou positioning module and the Internet of things module, the Beidou navigation system can be more vivid and more specifically displayed, and the awareness of the Beidou navigation system is continuously enhanced.

2. According to the utility model, the input module is used for inputting the control function module to realize the detection of the independent index, the external member cannot be assembled, and the simulation of environment monitoring, fire safety and natural disaster monitoring scenes is realized. Besides the related knowledge of the Beidou satellite system, the knowledge of the functional modules such as science popularization, environmental protection, fire safety, natural disasters and the like is improved, so that knowledge of other aspects is enhanced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an overall structural diagram of an embodiment of the present utility model.

Fig. 2 is a schematic block diagram of a circuit according to an embodiment of the present utility model.

Fig. 3 is a schematic diagram of the scene simulation operation according to the embodiment of the present utility model.

In the figure, 1. A set of main switch keys; 2. big dipper small clock nixie tube; 3. a liquid crystal display; 4. a single function key group or a scene function simulation combination key group; 6. a housing; USB interface.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

As shown in fig. 1 and fig. 2, the beidou satellite navigation science popularization kit of the embodiment comprises a main control module, a power supply, an input module, a display module, a functional module, a beidou positioning module and an internet of things module which are arranged in a shell 6. The main control module is connected with the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module.

The Beidou positioning module is used for simulating a Beidou satellite navigation system to acquire Beidou parameter data. The Beidou parameter data comprise satellite positioning, precise time service and short message communication data.

The functional modules are several. Each functional module is used for measuring data of other required specified parameters besides Beidou parameter data. The functional module comprises a temperature and humidity detection module, a smoke monitoring module, a flame monitoring module, a PM2.5 monitoring module and a water level monitoring module. The temperature and humidity detection module comprises a temperature and humidity detection device and a temperature and humidity detection module interface. The smoke monitoring module comprises a smoke monitor and a smoke monitoring module interface for monitoring whether smoke exceeds standard. The flame monitoring module comprises a flame monitoring device for monitoring whether flame exceeds standard and a flame monitoring module interface. The PM2.5 monitoring module includes a PM2.5 monitoring device that measures air quality and a PM2.5 monitoring module interface. The water level monitoring module comprises a water level monitor for measuring water level and a water level monitoring module interface. The main control module is respectively connected with the temperature and humidity detection device, the smoke monitor, the flame monitor, the PM2.5 monitor and the water level monitor through the temperature and humidity detection module interface, the smoke monitor interface, the flame monitor interface, the PM2.5 monitor interface and the water level monitor interface. The embodiment of the utility model also provides a temperature and humidity detection module interface, a smoke monitoring module interface, a flame monitoring module interface, a PM2.5 monitoring module interface and a water level monitoring module interface on the shell 6. The interface connection equipment is arranged, so that the functional module is larger in measurement, the interface and the equipment can be detachably connected, and the transportation is also more convenient.

The input module is used for inputting control signals used by the single or multiple wake-up Beidou positioning module or the functional module to the main control module; the input module comprises a suite main switch key 1, a single function key group for inputting a control signal for designating one function module and a scene function simulation combination key group 4 for inputting one or more function modules to realize scene simulation. The scene function simulation combination key set comprises a Beidou small satellite simulation key, a Beidou positioning bracelet simulation key, a Beidou environment monitoring simulation key, a Beidou fire safety monitoring simulation key, a Beidou natural disaster monitoring simulation key, a Beidou small clock simulation key, a Beidou small observation whistle simulation key and a Beidou intelligent traffic communication lamp simulation key.

The display module is used for displaying the Beidou parameter data obtained by the Beidou positioning module and other required specified parameter data obtained by the functional module; the display module comprises a liquid crystal display 3 and a big Dipper small clock nixie tube 2. The liquid crystal display 3 employs an OLED display screen.

The internet of things module is used for sending Beidou parameter data and other required data of specified parameters to a specified terminal; the terminal is a PC terminal. The internet of things module adopts a Wifi transmission module.

As shown in fig. 3, the simulation of usage scene such as big dipper satellite, big dipper positioning bracelet, big dipper natural disaster monitoring, big dipper fire safety monitoring, big dipper natural disaster monitoring, big dipper clock, big dipper observation whistle, big dipper intelligent transportation communication lamp is simulated to the button, big dipper positioning bracelet, big dipper environmental monitoring, big dipper fire safety monitoring, big dipper natural disaster monitoring, big dipper clock, big dipper observation whistle model, big dipper intelligent transportation communication lamp are realized through PC end and function module.

The main control module is used for controlling and receiving information of the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module. The main control module adopts ESP32 series micro controller.

The shell 6 of the embodiment of the utility model is provided with a USB interface 7. The power supply is connected with the main control module through a USB power line and a USB interface 7. The power supply is a lithium battery and is arranged in a battery box connected with a USB power line.

The application method of the embodiment of the utility model comprises the following steps:

before use, the temperature and humidity detection module interface, the smoke monitoring module interface, the flame monitoring module interface, the PM2.5 monitoring module interface and the water level monitoring module interface are respectively connected with the temperature and humidity detection device, the smoke monitor, the flame monitoring device, the PM2.5 monitoring device and the water level monitor; the USB power line on the battery box provided with the lithium battery is connected to the USB interface 7, and the external member main switch key 1 is opened for use.

When the smoke monitoring device is used, a single function key set or a scene function simulation combination key set can be selected, if the appointed key of the single function key set is selected, the function of measuring certain parameters by combining the Beidou satellite navigation function with the appointed function module can be selected, if the corresponding key of the smoke monitoring module is selected, whether smoke exceeds standard can be monitored through the smoke monitor; if the appointed key of the scene function simulation combination key set is selected, one or more function modules applied under the appointed scene can be selected to measure the functions of certain parameters and combine with the Beidou satellite navigation, for example, the Beidou environment monitoring simulation key is selected, and the data of the Beidou environment monitoring related parameters can be obtained by detecting the humiture by the humiture detection device, monitoring whether the smoke exceeds standard by the smoke monitor, monitoring whether the flame exceeds standard by the flame monitoring device, measuring the air quality by the PM2.5 monitoring device and measuring the water level by the water level monitor.

After the external member main switch key 1 is used, the external member main switch key 1 is closed.

Although the embodiments of the present utility model have been described with reference to the accompanying drawings, the patentees may make various modifications or alterations within the scope of the appended claims, and are intended to be within the scope of the utility model as described in the claims.

Claims (9)

1. The utility model provides a big dipper satellite navigation science popularization external member which characterized in that: the system comprises a main control module, an input module, a display module, a functional module, a Beidou positioning module and an Internet of things module; the main control module is connected with the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module;

the Beidou positioning module is used for simulating a Beidou satellite navigation system to acquire Beidou parameter data; the Beidou parameter data comprise satellite positioning, precise time service and short message communication data;

the number of the functional modules is several; each functional module is used for measuring data of specified parameters except Beidou parameter data;

the input module is used for inputting control signals used by a single or a plurality of wake-up Beidou positioning modules or functional modules to the main control module;

the display module is used for displaying Beidou parameter data obtained by the Beidou positioning module and data of the appointed parameters obtained by the functional module;

the internet of things module is used for sending Beidou parameter data and other required data of specified parameters to a specified terminal;

the main control module is used for controlling and receiving information of the input module, the display module, the functional module, the Beidou positioning module and the Internet of things module.

2. The beidou satellite navigation science popularization kit according to claim 1, wherein: the functional module comprises a temperature and humidity detection module, a smoke monitoring module, a flame monitoring module, a PM2.5 monitoring module and a water level monitoring module.

3. The beidou satellite navigation science popularization kit according to claim 1, wherein: the display module comprises a liquid crystal display and a big Dipper small clock nixie tube.

4. A beidou satellite navigation science popularization kit according to claim 3, characterized in that: the liquid crystal display adopts an OLED display screen.

5. The beidou satellite navigation science popularization kit according to claim 1, wherein: the input module comprises a set main switch key, a single function key group for inputting a control signal for designating one function module and a scene function simulation combination key group for inputting one or more function modules to realize scene simulation.

6. The beidou satellite navigation science popularization kit according to claim 1, wherein: the terminal is a PC terminal.

7. The beidou satellite navigation science popularization kit according to claim 1, wherein: the main control module adopts ESP32 series microcontrollers.

8. The beidou satellite navigation science popularization kit according to claim 1, wherein: the internet of things module adopts a Wifi transmission module.

9. The beidou satellite navigation science popularization kit according to claim 1, wherein: the power supply is also included; the power supply is connected with the main control module through a USB power line; the power supply is a lithium battery.

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