CN214177612U - Reward firefly bootstrap system - Google Patents

Abstract

The utility model is suitable for a scenic spot guide field provides a enjoy glowworm bootstrap system, including total control box, power supply module and a plurality of group lighting unit, every group lighting unit includes a main lamp body and a plurality of lamp body from, power supply module with all connect through the power cord between total control box, the main lamp body, connect in order through the signal control line between total control box and all main lamp bodies, all follow the lamp body coupling to in every group lighting unit the main lamp body, bootstrap system has functions such as ecological lighting, response illumination, emergency lighting, voice broadcast, simulation flash of light, tourism instruction, environmental data collection, practices thrift manpower resources, and convenient to use can safe and orderly guide visitor carry out science enjoy glowworm.

Description

Reward firefly bootstrap system

Technical Field

The utility model belongs to scenic spot guide field especially relates to a enjoy firefly bootstrap system.

Background

As the popularity of firefly travel has increased, and the number of fireflies protected has increased, the public has come to recognize the importance of firefly protection. But the public is to seeing the firefly, and carry out interactive demand rather than bigger and bigger with the firefly, it installs at the firefly scenic spot to have not had a reasonable standard enjoying the firefly system at present, visitors also do not have reasonable lighting system when enjoying the firefly at night, and adopt general lighting system can influence the normal life of firefly, so just need arrange a large amount of tours and guide the visitor, in addition, when the visitor need with the firefly interdynamic or take place emergency, also all need the help of tour, just so a large amount of manpower resources have been consumed, also can't give the good experience of vwatching of visitor.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, an object of the utility model is to provide a reward firefly guide system, aim at solving the technical problem that current reward firefly scenic spot can't fully protect firefly, guide visitor science reward firefly.

The utility model adopts the following technical scheme:

the enjoying firefly guiding system comprises a master control box, a power supply assembly and a plurality of groups of lighting units, each group of lighting units comprises a main lamp body and a plurality of slave lamp bodies, the power supply assembly is connected with the master control box and the main lamp bodies through power lines, the master control box is connected with all the main lamp bodies through signal control lines in sequence, and all the slave lamp bodies in each group of lighting units are connected to the main lamp bodies.

Further, main lamp body includes main lamp body control circuit, main lamp body control circuit includes microcontroller and the sensor subassembly, sparse signal drive circuit, relay drive circuit, voice control circuit and the PWM drive circuit who is connected with it, relay drive circuit is connected with sparse illumination guide module and follows the lamp control module, voice control circuit is connected with the voice broadcast module, the PWM drive circuit is connected with red LED light source and bionical light source.

Further, the microcontroller is also connected with a flash simulation module.

Further, the microcontroller is also connected with a wireless internet of things module or a wired communication module.

Further, the sensor assembly comprises a human body detection sensor, a temperature and humidity integrated sensor and a photosensitive element.

Further, supreme base, lamp body and lamp cap are in proper order down followed to main lamp body, the lamp body bottom just sets up towards the road surface direction red LED light source, the lamp body openly sets up with the side sensor assembly, be equipped with the voice broadcast subassembly in the lamp body, the lamp cap top is equipped with dredges and instructs the arrow point.

Furthermore, the front surface of the lamp cap is provided with an evacuation lighting lamp, and the back surface of the lamp cap is provided with the bionic light source.

The utility model has the advantages that: the utility model provides a reward firefly guiding system, the guiding system has the ecological lighting function, the lighting source that adopts is red LED light source, can not produce the interference to the normal activity of firefly, can illuminate for the visitor at night simultaneously; the lighting units are a plurality of groups, each group of lighting units comprises a main lamp body and a plurality of slave lamp bodies, the main lamp body has an induction lighting function, when a visitor approaches the main lamp body, the plurality of slave lamp bodies governed by the visitor can be automatically turned on, and when the visitor leaves the tourist, if no one approaches the tourist within a period of time, the slave lamp bodies are automatically turned off; when an emergency occurs, the white emergency illuminating lamp of the main lamp can be turned on through the main control box, and the public is guided to reasonably and orderly get away from the emergency accident point; in addition, the guidance system also has the functions of voice broadcasting, simulating flashing, tour indication, environmental data acquisition and the like, saves human resources, is convenient to use, and can guide tourists to scientifically watch firefly in safe and orderly manner.

Drawings

Fig. 1 is a structural diagram of a gazella guide system according to an embodiment of the present invention;

fig. 2 is a structural diagram of a control circuit of a main lamp body provided in the embodiment of the present invention;

fig. 3 is a structural diagram of a main lamp body provided by the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Fig. 1 shows a structure of a gazing firefly guidance system according to an embodiment of the present invention, and only portions related to the embodiment of the present invention are shown for convenience of description.

As shown in fig. 1, the sugaku guiding system provided by this embodiment includes a master control box 1, a power supply module 2 and a plurality of groups of lighting units, each group of lighting units includes a main lamp body 3 and a plurality of slave lamp bodies 4, the power supply module 2 is connected with the master control box 1 and the main lamp body 3 through a power line 5, the master control box 1 is connected with all the main lamp bodies 3 in sequence through a signal control line 6, all the slave lamp bodies 4 in each group of lighting units are connected to the main lamp body 3 through slave lamp control lines 7, and the lighting units are disposed beside a sugaku footpath 8.

In this embodiment, the lighting unit is two sets of, and every group lighting unit includes a main lamp body 3 and four from lamp body 4, main lamp body all adopts red LED light source with following the lamp body, because red is the light that the firefly can not see, consequently does not cause the influence to the normal life of firefly. The main lamp body has the induction lighting function: when a person approaches to the main lamp body, the four subordinate lamp bodies managed by the person are automatically opened; when the person leaves, if no person approaches the lamp body within a period of time, the lamp body is automatically closed.

As shown in fig. 2, the main lamp body 3 includes a main lamp body control circuit, the main lamp body control circuit includes a microcontroller 9, and a sensor assembly 10, an evacuation signal driving circuit 11, a relay driving circuit 12, a voice control circuit 13, and a PWM driving circuit 14 connected thereto, the relay driving circuit 12 is connected with an evacuation lighting guiding module 15 and a slave lamp control module 16, the voice control circuit 13 is connected with a voice broadcasting module 18, and the PWM driving circuit 14 is connected with a red LED light source 19 and a bionic light source 20.

The main lamp body 3 is connected to the slave lamp bodies 4 in all the lighting units in the same group through the slave lamp control module 16, and all the slave lamp bodies can be automatically opened when a human body approaches.

As shown in fig. 3, main lamp body 3 is from supreme base 23, lamp body 24 and lamp cap 25 of being in proper order down, 24 bottoms of lamp body just set up towards the road surface direction red LED light source 19, 24 fronts and the side setting of lamp body sensor module 10, be equipped with voice broadcast subassembly 18 in the lamp body 24, lamp cap 25 top is equipped with dredging and instructs arrow 26, lamp cap 25 openly is equipped with sparse light 27, the lamp cap 25 back sets up bionic light source 20.

Wherein, the microcontroller 9 is also connected with a flash simulation module 17. The main lamp body has the function that can simulate the female firefly of firefly and flash of light, realizes carrying out interactive function with the firefly to keep the interface that the firefly flashed data entered, realize the real-time update of data.

The microcontroller 9 is further connected with a wireless internet of things module 21 or a wired communication module 22. Specifically, a wireless communication part can be realized by adopting wireless Bluetooth or general 433Mhz Lora or similar wireless Internet of things modules; the wired communication portion (bus type communication) is realized using an RS485 or CAN bus.

In this embodiment, the sensor assembly 10 includes a human body detection sensor, a temperature and humidity integrated sensor, and a photosensitive element. The human body detection sensor is a human body infrared pyroelectric sensor, an infrared diffuse reflection sensor, an infrared correlation sensor or a microwave induction module, when a human body approaches the trigger sensor, an IO port of the microcontroller 3 can obtain a change signal output by the sensor, and the detection of the human body is realized; the temperature and humidity integrated sensor is connected to an IO port of the microcontroller through a one-wire system serial interface, and data interaction is carried out to obtain current environment temperature and humidity data; the photosensitive element is a photosensitive resistor, a photosensitive diode, a photosensitive triode, a silicon photocell or the like, and corresponding voltage values under different illumination intensities are obtained through AD sampling, so that the perception of daytime and night is realized.

The functions and specific work flows of the reward firefly guidance system provided by the embodiment are as follows:

ecological lighting: when a human body approaches, the sensor outputs a signal that the human body approaches to the microcontroller, then the microcontroller outputs a PWM (pulse-width modulation) waveform to the PWM driving circuit through the IO port, the PWM driving circuit drives the lighting unit to emit light to illuminate a road, the brightness of the lighting unit is determined by the duty ratio of the PWM waveform emitted by the microcontroller, and brightness adjustment can be realized.

Bionic interaction: the microcontroller outputs PWM modulation waves with composite bionic characteristics to the PWM driving circuit through the IO port, and a transistor in the PWM driving circuit controls the bionic light source to emit bright light (bright-dark change or bright-extinguishing change) according to the luminous waveform of the firefly, so that the aim of attracting the firefly to gather is fulfilled.

Voice broadcasting: this function indicates that main lamp body is from taking corresponding voice broadcast function, and the guide can be recorded corresponding pronunciation through total control box in advance, then reports when watching the firefly, when needs add corresponding science popularization broadcast temporarily and report, the guide can report through the public address function of main lamp body.

The warning function: the function means that when the public crosses the specified range of the footpath and steps into the habitat, the main lamp body can warn the public that the public has crossed the line by voice.

Evacuation and guidance: after the emergency button is pressed down by the staff in the master control box, the evacuation signal driver detects the button pressing signal and drives the evacuation lighting guide power supply. Sparse illumination guide includes 1 220V AC power supply's LED bulb, the dot matrix direction arrow lamp plate that 1 green LED constitutes. Similarly, the staff can send an evacuation instruction to the microcontroller through the internet of things, an IO port of the microcontroller outputs an action level (high level), and another relay (evacuation lighting relay) in the relay driving circuit is attracted to light the evacuation lighting guide. The evacuation signal driver outputs an action level signal to the microcontroller after detecting that the emergency evacuation button is pressed down, and the microcontroller prohibits the bionic light source and the red LED light source from working after detecting the signal, so that the interference to crowd evacuation is avoided. In the evacuation process, the people's activities nearby are sensed and reported to the upper computer system through the Internet of things, so that evacuation management is facilitated to count whether people are still moving in the park at the current moment, and missed tourists can be conveniently found (the visitors are sensed and positioned).

To sum up, the bootstrap system has functions such as ecological lighting, response illumination, voice broadcast, simulation flash of light, tourism instruction, environmental data collection, can not produce the interference to firefly's normal activity, can be for visitor's illumination at night simultaneously, practices thrift manpower resources, convenient to use, can safe and orderly guide visitor and carry out science enjoyment firefly.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A firefly watching guide system is characterized by comprising a master control box, a power supply component and a plurality of groups of lighting units, wherein each group of lighting units comprises a main lamp body and a plurality of slave lamp bodies, the power supply component, the master control box and the main lamp bodies are connected through power lines, the master control box and all the main lamp bodies are sequentially connected through signal control lines, all the slave lamp bodies in each group of lighting units are connected to the main lamp bodies, each main lamp body comprises a main lamp body control circuit, each main lamp body control circuit comprises a microcontroller, and a sensor component, an evacuation signal driving circuit, a relay driving circuit, a voice control circuit and a PWM driving circuit which are connected with the microcontroller, the relay driving circuit is connected with an evacuation lighting guide module and a slave lamp control module, and the voice control circuit is connected with a voice broadcasting module, the PWM driving circuit is connected with a red LED light source and a bionic light source.

2. A firefly boot guidance system according to claim 1, wherein a flash simulation module is further connected to the microcontroller.

3. The firefly-watching guide system according to claim 2, wherein the microcontroller is further connected with a wireless internet of things module or a wired communication module.

4. The firefly guidance system of claim 3, wherein the sensor assembly comprises a human body detection sensor, an integrated temperature and humidity sensor, and a light sensor.

5. The lantern slide guiding system of claim 4, wherein the main lamp body comprises a base, a lamp housing and a lamp cap from bottom to top, the red LED light source is arranged at the bottom of the lamp housing and faces the road surface, the sensor assembly is arranged at the front and the side of the lamp housing, the voice broadcasting assembly is arranged in the lamp housing, and the persuasion indicating arrow is arranged at the top of the lamp cap.

6. A firefly-watching guide system according to claim 5, wherein the lamp cap is provided with an evacuation lighting lamp on the front side and the bionic light source on the back side.

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