CN219435444U - Beacon signal transmission simulation device based on Internet of things - Google Patents

Abstract

The utility model discloses a beacon signal transmission simulation device based on the Internet of things, which comprises a plurality of analog beacon stations and a beacon information transmission system, wherein each analog beacon station comprises a signal indication device and a beacon signal generation receiving device, a first trigger module is used for generating a first trigger signal through triggering, a second receiving module can receive a transmission signal sent by another analog beacon station, a second control module is used for generating a control signal according to the first trigger signal and respectively sending the control signal and the transmission signal to a first receiving module of the signal indication device and the beacon information transmission system, the first receiving module is used for sending the control signal to the first control module, the first control module is used for controlling the first display module to send an indication according to the control signal, and the beacon information transmission system sequentially transmits the transmission signal to other analog beacon stations and sequentially controls the first display modules to send the indication, so that a good teaching demonstration effect is realized.

Description

Beacon signal transmission simulation device based on Internet of things

Technical Field

The utility model relates to the field of teaching aids, in particular to a honeycomb signal transmission simulation device based on the Internet of things.

Background

The Internet of things is used as a new generation information technology, becomes a key technology for constructing an intelligent education information ecological system, constructs a bridge for class and life, provides a latest technology and a wide innovation space for learners, and is a basic support technology for supporting intelligent education. The application of the internet of things technology provides possibility for the internet of things, realizes the function of the internet of things technology such as information sensor, radio frequency identification and the like for accessing everything anytime and anywhere, can perform intelligent perception on the teaching process, captures data which are difficult to acquire offline, stores the data acquired by the internet of things in the data, and based on the strong perception capability of the internet of things on the data, can help a learner to actively acquire learning situation information, and continuously optimizes the learning scene according to the dynamic change of the learning scene. By adopting the sensing electronic technology of the Internet of things, an innovative culture mode which combines science and art is implemented, so that the imagination and creativity of students are fully stimulated. The full-range perception and intelligent analysis of classroom teaching scenes are realized by using the equipment such as the camera, the light sensor, the temperature sensor, the infrared sensor and the like, and therefore, the application of the Internet of things technology plays a key supporting role in the development of intelligent education. However, the prior art has not utilized the Internet of things to simulate the scene of related communication in cultural teaching, and has great development potential.

The traditional great wall teaching usually combines classroom teaching with field investigation, and is supplemented by modern teaching means, such as a method using various modes of internet, film and television, multimedia animation, thematic teaching film and the like as the supplement of the teaching means. However, the field investigation is obviously limited by various objective conditions such as regions, time, cost, safety and the like, and has larger limitation, while the teaching of a classroom combined with a multimedia means can deepen the knowledge of a learner on a great wall, the teaching is difficult to create an immersive teaching scene, so that the efficient interaction between the learner and the classroom is realized, and the great wall is more difficult to be deeply mastered as the most important cultural spirit of a defense work institute in ancient China.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a beacon signal transmission simulation device based on the Internet of things.

In order to achieve the above object, the technical scheme of the present utility model is as follows:

the utility model provides a honeycomb signal transmission analogue means based on thing networking, includes a plurality of analog honeycomb platform, honeycomb information transmission system and power module, the analog honeycomb platform includes signal indication device and honeycomb signal generation receiving arrangement, power module with the honeycomb signal generation receiving arrangement is connected, signal indication device includes first receiving module, first control module and first display module, the honeycomb signal generation receiving arrangement includes first trigger module, second control module, transmitting module and second receiving module, first trigger module, second receiving module respectively with the second control module is connected, first trigger module is used for producing first trigger signal through the trigger, second receiving module is used for receiving the transmission signal that another analog honeycomb platform sent, second control module is connected with transmitting module, the second control module is used for generating a control signal according to the first trigger signal and sending the control signal and the transmission signal to the transmitting module, the transmitting module is respectively connected with the first receiving module and the beacon information transmission system, the first receiving module is connected with the first control module, the first control module is connected with the first display module, the transmitting module is used for respectively sending the control signal and the transmission signal to the first receiving module and the beacon information transmission system, the first receiving module is used for sending the control signal to the first control module, the first control module is used for generating an indication signal according to the control signal and sending the indication signal to the first display module, the first display module is used for sending the indication according to the received indication signal, the said signal transmission system transmits the said transmission signal to the signal generating and receiving device of other analog signal stations, and controls the first display module of the signal indicating device of other analog signal stations to send out indication.

Preferably, the beacon information transmission system comprises a visualization module for displaying the corresponding number and the indication area of the signal indication device for generating the indication.

Preferably, the beacon signal generating and receiving device further includes a second trigger module connected to the second control module, where the second trigger module is configured to generate a second trigger signal after being triggered and send the second trigger signal to the second control module, the second control module is configured to generate a stop signal according to the second trigger signal and send the stop signal to the transmitting module, the transmitting module is configured to send the stop signal to the first receiving module and the beacon signal transmission system, the first receiving module is configured to send the stop signal to the first control module, the first control module is configured to control the first display module to stop indicating according to the stop signal, and the beacon signal transmission system is configured to stop transmitting the transmission of the transmission signal according to the received stop signal and stop displaying the corresponding number and the indication area of the signal indicating device that generates the indication.

Preferably, the transmitting module and the first receiving module are connected by a data line.

Preferably, the first receiving module and the transmitting module are Type-C interfaces.

Preferably, the apparatus further comprises a second display module, and the second display module is used for displaying the corresponding number of the signal indicating device connected with the apparatus.

Preferably, the first display module is an LED lamp, and the second display module is an LED screen.

Preferably, the device further comprises a connection indicating module, and the connection indicating module is used for displaying the signal connection result of the device and the signal indicating device and/or the signal transmission system.

Preferably, the beacon signal generating and receiving device further comprises a delay module connected with the second control module and the transmitting module respectively, and the delay module is used for delaying and sending the transmission signal to the transmitting module.

Preferably, the signal indicating device further comprises a base constructed by building blocks, and the first display module, the first control module and the first receiving module are arranged on the base.

Compared with the prior art, the utility model has the following beneficial effects:

(1) The utility model not only simulates the fire on the beacon by the indication of the signal indication device, but also can transmit and visually display the transmission signal in the beacon information transmission system, thereby having good teaching demonstration effect.

(2) The utility model provides a beacon signal transmission simulation device based on the Internet of things, which can solve the problems of great difficulty in teaching and understanding the conventional great wall beacon transmission scene, limitation and the like.

(3) The utility model provides an Internet of things-based honeycomb signal transmission simulation device which simulates an ancient great wall honeycomb signal transmission process by adopting an Internet of things communication technology, promotes integration of the Internet of things technology and a traditional cultural classroom, deepens intelligent education reform in the cultural teaching field, realizes inheritance and innovation of ancient communication civilization, and innovates a great wall cultural propagation path.

Drawings

The accompanying drawings are included to provide a further understanding of the embodiments and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments and together with the description serve to explain the principles of the utility model. Many of the intended advantages of other embodiments and embodiments will be readily appreciated as they become better understood by reference to the following detailed description.

Fig. 1 is a schematic diagram of a beacon signal transmission simulation device based on the internet of things according to an embodiment of the present application;

fig. 2 is a schematic module connection diagram of a beacon signal transmission simulation device based on the internet of things according to an embodiment of the present application;

fig. 3 is a schematic diagram of a simulated beacon of the internet of things-based beacon signal transmission simulator according to an embodiment of the present application;

fig. 4 is a schematic diagram of a signal indicating device of an analog device for transmitting a beacon signal based on the internet of things according to an embodiment of the present application;

fig. 5 is a schematic diagram of a beacon signal generating and receiving device of an analog device for transmitting beacon signals based on the internet of things according to an embodiment of the present application;

fig. 6 is a schematic diagram of a visualization interface of a beacon information transmission system of an internet of things-based beacon signal transmission simulation device according to an embodiment of the present application;

reference numerals: 1. simulating a beacon; 12. a signal indication device; 121. a first receiving module; 122. a first control module; 123. a first display module; 13. a beacon signal generating and receiving device; 131. the first trigger module; 132. a second control module; 133. a transmitting module; 134. a second receiving module; 135. a second trigger module; 136. a second display module; 137. the connection indication module; 2. a beacon information delivery system; 3. and a power supply module.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the present utility model are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1-6, an embodiment of the present application proposes a beacon signal transmission simulation device based on the internet of things, which includes a plurality of analog beacon stations 1, a beacon information transmission system 2 and a power module 3, wherein the analog beacon stations 1 include a signal indication device 12 and a beacon signal generation receiving device 13, and the power module 3 is connected with each beacon signal generation receiving device 13 to provide electric energy for each beacon signal generation receiving device 13; each beacon signal generating and receiving device 13 is connected with the beacon information transmission system 2, the beacon information transmission system 2 is responsible for transmitting signals between two adjacent beacon signal generating and receiving devices 13 and carrying out visual display of the transmitting state, the part only relates to data transmission, the visual display also adopts the existing control, and the improvement of the software part is not related. The signal indicating apparatus 12 includes a first receiving module 121, a first control module 122, and a first display module 123. The beacon signal generating and receiving device 13 comprises a first triggering module 131, a second control module 132, a transmitting module 133 and a second receiving module 134. The first triggering module 131 and the second receiving module 134 are respectively connected with the second control module 132, and the first triggering module 131 is used for generating a first triggering signal through triggering, and the triggering can be in a key or touch screen mode. The second receiving module 134 is configured to receive a transmission signal sent by another analog beacon 1, the second control module 132 is connected to the transmitting module 133, the second control module 132 is configured to generate a control signal according to the first trigger signal, and send the control signal and the transmission signal to the transmitting module 133, the transmitting module 133 is respectively connected to the first receiving module 121 and the beacon information transmission system 2, the first receiving module 121 is connected to the first control module 122, the first control module 122 is connected to the first display module 123, and the transmitting module 133 is configured to send the control signal and the transmission signal to the first receiving module 121 and the beacon information transmission system 2, respectively. The beacon signal generating and receiving device 13 is connected to the signal indicating device 12 through the connection of the transmitting module 133 to the first receiving module 121, and the first receiving module 121 is used for transmitting a control signal to the first control module 122. The first control module 122 is configured to control the first display module 123 to display according to the control signal, specifically, the first control module 122 is configured to generate an indication signal according to the control signal and send the indication signal to the first display module 123, where the first display module 123 is configured to send an indication according to the received indication signal, and in one embodiment, the first display module 123 is an LED lamp, and whether the display of the beacon signal is simulated according to whether the LED lamp on each simulated beacon 1 is on or not. The beacon information transmission system 2 sequentially transmits transmission signals to beacon signal generating and receiving devices 13 of the rest of the analog beacon stations 1, sequentially controls the first display module 123 of the signal indicating device 12 of the rest of the analog beacon stations 1 to send out instructions, and when the transmission signals are transmitted between two adjacent beacon signal generating and receiving devices 13, controls the corresponding LED lamps to be lighted, the transmission process of beacon signals can be simulated. Therefore, the transmission process of the beacon signal can be simulated by adopting the technology of the Internet of things.

In particular, the beacon information delivery system 2 comprises a visualization module for displaying the corresponding number and indication area of the signal indicating means 12 that produce the indication. Referring to fig. 5, four corresponding analog front frames 1 are presented on the interface of the visualization module, and when the first display module 123 corresponding to the analog front frame 1 gives an indication, the corresponding indication area on the interface also gives an indication, and the indication is changed in color, for example, from gray to yellow, etc.

In a specific embodiment, the beacon signal generating and receiving device 13 further includes a second triggering module 135 connected to the second control module 132, where the second triggering module 135 is configured to generate a second triggering signal after being triggered, and send the second triggering signal to the second control module 132. The second control module 132 is configured to generate a stop signal according to the second trigger signal and send the stop signal to the transmitting module 133, the transmitting module 133 is configured to send the stop signal to the first receiving module 121 and the beacon information transmitting system 2, the first receiving module 121 is configured to send the stop signal to the first control module 122, the first control module 122 is configured to control the first display module 123 to stop indicating according to the stop signal, and the beacon information transmitting system 2 is configured to stop transmitting the transmission signal according to the received stop signal and stop displaying the corresponding number and the indication area of the signal indicating device 12 generating the indication. Specifically, the beacon signal generating and receiving device 13 may use a mixgo ce main control board-v 3.5. The first triggering module 131 may be a b1 key on the mix go ce main control board, pressing the b1 key may trigger the signal indicating device 12 of the first analog fire tower 1 to indicate and generate a transmission signal, and sequentially transmit the transmission signal through the fire beacon information transmission system 2, and the second triggering module 135 may be a b2 key on the mix go ce main control board, pressing the b2 key may enable the signal indicating device 12 of the corresponding analog fire tower 1 to stop displaying and send a stop signal to the fire beacon information transmission system 2, so that display data of the fire beacon information transmission system 2 may be cleared, and simulation of a next fire beacon signal transmission scene is facilitated.

Specifically, the first receiving module 121 and the transmitting module 133 are Type-C interfaces. And the transmitting module 133 is connected with the first receiving module 121 by a data line. The signal generating and receiving device 13 is electrically connected with the corresponding signal indicating device 12 through a data wire, and can realize data transmission.

In a specific embodiment, the beacon signal generating and receiving device 13 further includes a second display module 136, where the second display module 136 is configured to display a corresponding number of the signal indicating device 12 connected to the beacon signal generating and receiving device 13, and specifically, the second display module 136 is an LED screen. The second display module 136 can identify the corresponding number of the signal indicating device 12 of the analog front panel 1, so as to identify the corresponding analog front panel 1.

In a specific embodiment, the device 13 further comprises a connection indicating module 137, and the connection indicating module 137 is configured to display a signal connection result between the device 13 and the signal indicating device 12 and/or the flame information delivery system 2. When the connection between the beacon signal generating and receiving device 13 and the beacon information transmission system 2 is successful, the connection indication module 137 of the beacon signal generating and receiving device 13 will display the connection signal; when the connection between the signal generating and receiving device 13 and the signal indicating device 12 is successful, the connection indicating module 137 of the signal generating and receiving device 13 will display the connection signal, so that the connection result of the signal is easy to display, and the problematic part in the connection process is easy to be adjusted.

Specifically, the beacon signal generating and receiving device 13 further includes a delay module connected to the second control module 132 and the transmitting module 133, where the delay module is configured to delay and send a transmission signal to the transmitting module 133, and the delay module can play a role in delay transmission in the process of transmitting the signal, so that the signal indicating device 12 of the next analog beacon station 1 delays and displays the signal.

Specifically, the signal indicating device 12 further includes a base constructed by building blocks, and the first receiving module 121, the first control module 122, and the first display module 123 are disposed on the base. The first display module 123 is disposed on top of a base, and the base can support the first display module 123 and can encapsulate the first receiving module 121 and the first control module 122.

The operation principle of the beacon signal transmission simulation device based on the Internet of things in the embodiment of the application is as follows:

(1) Referring to fig. 2-4, in this embodiment, 4 analog beacons 1 are provided, numbered 1, 2, 3, 4 in sequence.

The base of the signal indicating device 12 is spliced by adopting building blocks, the position of the first display module 123 is reserved at the top end, the first display module 123 is arranged on the base and is sequentially connected with the first control module 122 and the first receiving module 121, and the signal indicating device 12 is assembled.

(2) The method comprises the steps of creating a beacon information transmission system 2 based on the existing internet of things system, arranging a visualization module, arranging four indicator lamps in a visualization interface to represent four analog beacon stations 1, correspondingly arranging beacon stations 1-4 in numbers, and arranging an indicator area below the beacon stations to accurately display and receive signals of four beacon signal generating and receiving devices 13; a text display area can also be provided which displays the number of the first outgoing analog beacon 1. Combining them in a reasonably attractive manner results in a beacon information delivery system 2 with visualization.

(3) The power module 3 is respectively connected with the beacon signal generating and receiving devices 13 of the four analog beacon frames 1, the beacon signal generating and receiving devices 13 of the four analog beacon frames 1 are connected with the beacon information transmission system 2, and the connection indicating module 137 can display that the four analog beacon frames 1 are successfully connected.

(4) When the first triggering module 131 of the beacon signal generating and receiving device 13 of any one of the analog beacon stations 1 is pressed, taking the analog beacon station 1 as an example, the first display module 123 of the signal indicating device 12 of the analog beacon station 1 lights up, the beacon information transmission system 2 receives the transmission signal sent by the beacon signal generating and receiving device 13 of the analog beacon station 1 and transmits the transmission signal to the analog beacon station 2, and meanwhile, the indication area corresponding to the analog beacon station 1 is displayed in the visualization module to be lightened; the beacon signal generating and receiving device 13 of the No. 2 analog beacon receives the transmission signal sent by the beacon signal generating and receiving device 13 of the No. 1 analog beacon, the first display module 123 of the signal indicating device 12 of the No. 2 analog beacon lights up, the beacon information transmission system 2 receives the transmission signal sent by the beacon signal generating and receiving device 13 of the No. 2 analog beacon and transmits the transmission signal to the No. 3 analog beacon, and meanwhile, the indication area corresponding to the No. 2 analog beacon is displayed in the visualization module to be lightened; and so on, until the first display module 123 of the signal indicating device 12 of the No. 3 analog beacon and the No. 4 analog beacon lights up, and the indication areas corresponding to the No. 3 analog beacon and the No. 4 analog beacon are displayed in the visual module to light up, at this time, all the beacon signal generating and receiving device 13 sending out the initial signal to the last beacon signal generating and receiving device 13 lights up and sends out signals, the beacon information transmission platform integrates the signals on the visual module, the indication area of the beacon signal generating and receiving device 13 (No. 1 in this embodiment) corresponding to the initial signal is lighted up to red, or the first lighted up analog beacon 1 is displayed in the text display area to be the No. 1 analog beacon.

(5) When the next presentation of the beacon signal transmission scene is to be performed, the second triggering module 135 is pressed, so that the first display module 123 of the signal indicating device 12 corresponding to the analog beacon 1 is turned off, and simultaneously, a stop signal is sent to the beacon signal transmission platform, and data is cleared.

The beacon signal transmission simulation device based on the Internet of things provided by the embodiment of the application is used for simulating the beacon signal transmission process in the great wall defense mechanism by using the Internet of things communication technology, highlighting the main body position of a learner in cultural learning by using a technology enabling mode, simultaneously integrating the education concept of a creator in the intelligent education field, creating cultural teaching scenes close to real life, encouraging the learner to do in learning and doing in-learning, enabling the learner to span space-time limitation, understanding the action principle of the intelligent and defense mechanism of the great wall building from the aspects of multiple disciplines such as geography, history, building, information technology and the like, and simultaneously completing the omnibearing meaning construction of the great wall on the cognitive level in comparison with a modern high-speed mobile communication network.

It should be noted that, each module and electronic device in the analog device for transmitting the beacon signal based on the internet of things in the application are all in the form of a hardware circuit or a chip and are all entity devices, and the application achieves the purpose of realizing the scheme of the application by designing the electric connection relationship between each module and the electronic device. The functions of each module and each entity device of the beacon signal transmission simulation device based on the internet of things and the functions of each entity device of the electronic device can be realized by the module and the entity device per se, are not virtual structures, and each module and each entity device of the beacon signal transmission simulation device based on the internet of things, which appear in the application, are not considered to be objects of utility model protection in patent laws.

While the present utility model has been described with reference to the specific embodiments thereof, the scope of the present utility model is not limited thereto, and any changes or substitutions will be apparent to those skilled in the art within the scope of the present utility model, and are intended to be covered by the present utility model. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a honeycomb signal transmission analogue means based on thing networking, its characterized in that includes a plurality of analog honeycomb-type power station, honeycomb-type power station information transmission system and power module, the analog honeycomb-type power station includes signal indication device and honeycomb-type power signal generation receiving arrangement, power module with honeycomb-type power signal generation receiving arrangement is connected, signal indication device includes first receiving module, first control module and first display module, honeycomb-type power signal generation receiving arrangement includes first trigger module, second control module, emission module and second receiving module, first trigger module, second receiving module respectively with second control module is connected, first trigger module is used for producing first trigger signal through the trigger, second receiving module is used for receiving the transmission signal that another analog honeycomb-type power station sent, second control module is connected with emission module, the second control module is used for generating a control signal according to the first trigger signal and sending the control signal and the transmission signal to the transmitting module, the transmitting module is respectively connected with the first receiving module and the beacon information transmission system, the first receiving module is connected with the first control module, the first control module is connected with the first display module, the transmitting module is used for respectively sending the control signal and the transmission signal to the first receiving module and the beacon information transmission system, the first receiving module is used for sending the control signal to the first control module, the first control module is used for generating an indication signal according to the control signal and sending the indication signal to the first display module, the first display module is used for sending the indication according to the received indication signal, the said signal transmission system transmits the said transmission signal to the signal generating and receiving device of other analog signal stations, and controls the first display module of the signal indicating device of other analog signal stations to send out indication.

2. The internet of things-based beacon signal transmission simulation device according to claim 1, wherein the beacon information transmission system comprises a visualization module for displaying the corresponding number and indication area of the signal indication device that generates the indication.

3. The internet of things-based beacon signal transmission simulation device according to claim 2, wherein the beacon signal generation and receiving device further comprises a second trigger module connected with the second control module, the second trigger module is used for generating a second trigger signal after being triggered and sending the second trigger signal to the second control module, the second control module is used for generating a stop signal according to the second trigger signal and sending the stop signal to the transmitting module, the transmitting module is used for sending the stop signal to the first receiving module and the beacon information transmission system, the first receiving module is used for sending the stop signal to the first control module, the first control module is used for controlling the first display module to stop indicating according to the stop signal, and the beacon information transmission system is used for stopping transmission of the transmitted signal according to the received stop signal and stopping display of the corresponding number and indication area of the signal indicating device generating the indication.

4. The internet of things-based beacon signal transmission simulation device of claim 1, wherein the transmitting module and the first receiving module are connected by a data line.

5. The internet of things-based beacon signal transmission simulation device of claim 1, wherein the first receiving module and the transmitting module are Type-C interfaces.

6. The internet of things-based beacon signal transmission simulation device according to claim 1, wherein the beacon signal generating and receiving device further comprises a second display module, and the second display module is configured to display a corresponding number of a signal indicating device connected to the beacon signal generating and receiving device.

7. The internet of things-based beacon signal transmission simulator of claim 6, wherein the first display module is an LED lamp and the second display module is an LED screen.

8. The internet of things-based beacon signal transmission simulation device according to claim 1, wherein the beacon signal generating and receiving device further comprises a connection indication module, and the connection indication module is used for displaying a signal connection result between the beacon signal generating and receiving device and the signal indication device and/or the beacon information transmission system.

9. The internet of things-based beacon signal transmission simulation device of claim 1, wherein the beacon signal generating and receiving device further comprises a delay module connected with the second control module and the transmitting module respectively, and the delay module is used for delaying and sending the transmission signal to the transmitting module.

10. The internet of things-based beacon signal transmission simulator of claim 1, wherein the signal indication device further comprises a base constructed by building blocks, and the first display module, the first control module and the first receiving module are arranged on the base.