CN215933154U - Energy-saving electronic guide listing based on optical carrier composite sensing - Google Patents

Abstract

The utility model relates to an energy-saving electronic navigation tag based on optical carrier composite sensing, which comprises a main control component, a micro-motion energy power generation component, a built-in battery, a space electromagnetic field energy collector, a solar energy transduction component, an interactive display component, a light sensation communication component, a Bluetooth headset component, a state lamp, a wake-up button, a USB interface and an audio interface, wherein the main control component is connected with the micro-motion energy power generation component; the main control component, the micro-motion energy power generation device, the built-in battery and the space electromagnetic field energy collector are arranged inside the shell, and the solar energy transduction component, the interactive display component, the light sensation communication component, the Bluetooth headset component, the state lamp, the awakening button, the USB interface and the audio interface are arranged outside the shell. The utility model solves the problem that visitors visit independently and accurately acquire the navigation information when the exhibition hall is guided by the cooperation of the light-sensitive communication component and the interactive display component; meanwhile, the energy-saving problem of the terminal equipment is solved through the built-in self-energy-collecting and electric energy management device of the electronic tag.

Description

Energy-saving electronic guide listing based on optical carrier composite sensing

Technical Field

The utility model relates to an electronic listing, in particular to an energy-saving electronic navigation listing based on optical carrier composite sensing.

Background

Along with social development, activity contents such as cultural exhibition are increasingly abundant, and in the process of exhibition, in order to enable visitors to better understand related exhibit contents and background information, personnel explanation or electronic explanation devices are usually arranged. The problems that the explanation cost of personnel is high and the autonomy of visitors is poor are always provided and need to be solved, and the currently advanced exhibition hall adopts an electronic explanation device form to replace the explanation of personnel. However, the general electronic explaining device has obvious problems, one is that a visitor needs to manually input or scan a code to select an explanation to be listened according to a serial number hung on an exhibit, the operation is complex, and particularly when the number of people is large, the difficulty in acquiring an article code and a two-dimensional code is greatly improved, so that the use experience is reduced.

The current solution is to position the visitor by the spatial positioning technology of the interpreter, such as an indoor bluetooth/WIFI positioning method, a GPS and beidou outdoor positioning method, such as CN210896535U disclosing an automatic museum navigation and explanation device, CN 111246378 a disclosing a navigation method and related components based on iBeacon bluetooth positioning, CN 113099386A disclosing a multi-floor indoor position identification method and its application in museum navigation, and the like, which is the method, to display the nearby exhibits in the interpreter by positioning identification for the visitor to select, which is a great improvement over the information input by the visitor or obtained by scanning codes. However, the defects of the scheme are also obvious, the omnidirectional spatial information cannot accurately acquire the active observation direction information of the visitor, the redundancy of the pushed information is very large, the exhibited articles which are being observed by the visitor cannot be pushed accurately, and much confusion is brought to the visitor. This kind of scheme also can't satisfy, and the exhibition holds the office and needs to obtain visitor's attention degree information, and directional information towards the exhibition article promptly, and this type of information has the significance to exhibition effect evaluation.

On the other hand, energy saving and consumption reduction of the exhibition guiding system are also important matters needing attention, and currently, electronic tags are required to be identified by visitors during the guiding process, and a portable explaining device with audio playing and interactive performance is also required, such as forms of MP3, mobile phone APP and the like. For example, an intelligent workcard disclosed in CN 212907013U and an intelligent hangtag capable of wireless communication disclosed in CN 208752913U are not designed for navigation, and do not fully utilize energy generated in the process of visiting activities to perform energy collection and energy saving processing, and are also lack of characteristic applications such as interactive recognition and voice navigation in exhibition scenes.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides an energy-saving electronic guide listing based on optical carrier composite sensing; the utility model can realize the precise coordination of autonomous navigation, the positioning perception of the exhibitor to the visitor and the energy-saving management of the electronic listing.

In order to achieve the purpose, the utility model adopts the technical scheme that:

an energy-saving electronic navigation tag based on optical carrier composite sensing comprises a shell, and further comprises a main control component, a micro-motion energy power generation component, a built-in battery, a space electromagnetic field energy collector, a solar energy transduction component, an interactive display component, a light sensation communication component, a Bluetooth headset component, a status lamp, a wake-up button, a USB interface and an audio interface; the main control component, the micro-motion energy power generation device, the built-in battery and the space electromagnetic field energy collector are arranged inside the shell, and the solar energy transduction component, the interactive display component, the light sensation communication component, the Bluetooth headset component, the state lamp, the awakening button, the USB interface and the audio interface are arranged outside the shell.

Preferably, the main control component and the micro-motion energy power generation device are arranged at the upper part in the shell, and the built-in battery and the space electromagnetic field energy collector are arranged at the lower part in the shell.

Preferably, the solar energy transduction component is arranged on the upper portion of the front face of the shell, the interactive display component is arranged on the lower portion of the front face of the shell, and the periphery of the front face of the shell is provided with the plurality of light-sensitive communication components.

The light sensation communication part can adopt a corresponding light sensation communication sensor.

Preferably, the status light, the wake-up button, the USB interface and the audio interface are arranged on the side face of the shell, and the Bluetooth headset part is arranged on the lower portion of the back face of the shell.

Preferably, the housing has a rectangular structure, and the light sensing communication parts are disposed at four corners of the housing.

Preferably, the space electromagnetic field energy collector is an energy collecting coil, and the energy collecting coil is wound around the lower part of the shell.

Preferably, the top of the shell is also provided with a wire hanging port. The electronic guide hang tag is convenient to carry.

The light sensation communication part in the electronic guide listing adopts two light sensation demodulation modes of visible light and infrared light; the communication sensing mode of one-to-many transmission and reception is formed, the output light intensity of the visible light carrier is not higher than the ambient illumination, and if glare is generated, the visible light carrier is converted into the infrared light carrier for output.

The communication distance of the electronic navigation hanging plate is more than 1 meter and less than 10 meters; during working, the optical carrier wave transmitting power is set according to the exhibition observation distance and the sensitivity of the electronic guide listing, and the adjustment is carried out in the range that the effective communication distance is more than 1 meter and less than 10 meters.

Preferably, the main control unit comprises a control processor, a light sensing coding and decoding module, an interactive display control module, an audio module, an information storage module, a device coding management module, an electric energy management module, a wired serial communication module and a wireless communication module, wherein the light sensing coding and decoding module, the interactive display control module, the audio module, the information storage module, the device coding management module, the electric energy management module, the wired serial communication module and the wireless communication module are respectively connected with the control processor; the Bluetooth headset component comprises a headset body and a headset bin, and the headset bin is uniformly managed and powered by an electric energy management module.

Preferably, the electric energy management module is connected with the micro-motion energy power generation device and the solar energy transduction device through a space electromagnetic field energy collector, and the electric energy management module is connected with the built-in battery. When a visitor wears the electronic navigation tag for sports, the electronic navigation tag can collect micro kinetic energy, solar energy and space radiation energy through the electric energy management module and the space electromagnetic field energy collecting device, convert the micro kinetic energy, the solar energy and the space radiation energy into electric energy and store the electric energy in the built-in battery.

Preferably, the Bluetooth headset part is detachably connected with the shell.

The electronic navigation tag can collect micro kinetic energy, solar energy and space radiation energy through the electric energy management module and the space electromagnetic field energy collecting device, convert the micro kinetic energy, the solar energy and the space radiation energy into electric energy and store the electric energy in the built-in battery; the electronic guide listing control processor generates a two-dimensional code in a mode of combining the listing device code and the received visitor information, and displays the two-dimensional code on the interactive display component; the using state of the electronic hang tag is divided into a standby state and a working state; the interactive display component has the characteristic of an electronic ink screen, and is powered off when in a standby state, and the display picture is fixed in a state before power off; when the device is in a working state, the device senses optical carrier signals, supplies power to the interactive display part when demodulating and identifying forward objects to be visited, displays the function keys, and plays navigation audio through the touch keys; when the optical carrier signal is not sensed within the set time, the state is automatically converted into a standby state, and a user can manually convert the working state through a wake-up button.

The utility model has the beneficial effects that:

(1) by the cooperation of the light-sensitive communication component and the interactive display component, the problem that visitors visit independently and accurately acquire the navigation information during exhibition hall navigation is solved;

(2) self-power generation is realized through the composite application of micro-motion power generation, solar power generation and electromagnetic field energy collection which are arranged in the electronic tag, and meanwhile, energy conservation is comprehensively realized through management in different working states;

(3) the utility model can be used in museums, art museums, exhibition halls and other cultural places needing explanation, and can also be used for guiding tourism places such as ancient towns, parks and the like.

Drawings

FIG. 1 is a schematic diagram of the hierarchical structure of the electronic navigation tag of the present invention;

FIG. 2 is a schematic diagram of the dynamic interaction of the electronic navigation listing application of the present invention;

fig. 3 is a schematic diagram of the electronic navigation tag main control unit according to the present invention.

Illustration of the drawings: 1-1 parts of a main control component, 1-2 parts of a micro-motion energy power generation device, 1-3 parts of a built-in battery, 1-4 parts of a space electromagnetic field energy collector; 2-1, a solar energy transduction component 2-2, an interactive display component 2-3, a light sensation communication component 2-4 and a wire hanging port; 3-1 parts of a Bluetooth headset, 3-2 parts of a status lamp, 3-3 parts of a wake-up button, 3-4 parts of a USB interface, 3-5 parts of an audio interface.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention is further described with reference to the drawings and the embodiments, but the protection scope of the present invention is not limited thereto. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. It is to be understood that the practice of the utility model is not limited to the following examples, and that any variations and/or modifications may be made thereto without departing from the scope of the utility model.

Referring to fig. 1-3, an energy-saving electronic navigation tag based on optical carrier composite sensing comprises a shell, and the tag further comprises a main control component 1-1, a micro-motion energy power generation component 1-2, a built-in battery 1-3, a space electromagnetic field energy collector 1-4, a solar energy transduction component 2-1, an interactive display component 2-2, a light sensation communication component 2-3, a Bluetooth headset component 3-1, a status light 3-2, a wake-up button 3-3, a USB interface 3-4 and an audio interface 3-5; the main control component 1-1, the micro-motion energy power generation component 1-2, the built-in battery 1-3 and the space electromagnetic field energy collector 1-4 are arranged inside the shell, and the solar energy transduction component 2-1, the interactive display component 2-2, the light sensation communication component 2-3, the Bluetooth headset component 3-1, the status lamp 3-2, the awakening button 3-3, the USB interface 3-4 and the audio interface 3-5 are arranged outside the shell.

Specifically, the main control component 1-1 and the micro-motion energy power generation device 1-2 are arranged at the upper part in the shell, and the built-in battery 1-3 and the space electromagnetic field energy collector 1-4 are arranged at the lower part in the shell; the space electromagnetic field energy collector is an energy collecting coil which is surrounded on the periphery of the lower part of the shell; the solar energy transduction part 2-1 is arranged on the upper portion of the front face of the shell, the interactive display part 2-2 is arranged on the lower portion of the front face of the shell, the light sensation communication parts 2-3 are arranged on the periphery of the front face of the shell, the shell is of a rectangular structure, and the light sensation communication parts 2-3 are arranged at four corners of the shell.

The state lamp 3-2, the awakening button 3-3, the USB interface 3-4 and the audio interface 3-5 are sequentially arranged on the side face of the shell from bottom to top, and the Bluetooth headset 3-1 is arranged on the lower portion of the back face of the shell.

The top of the shell is also provided with a wire hanging port 2-4, which is convenient for carrying the electronic guide hang tag.

The main control component comprises a control processor, a light sensing coding and decoding module, an interactive display control module, an audio module, an information storage module, a device coding management module (ID management module), an electric energy management module, a wired serial communication module and a wireless communication module, wherein the light sensing coding and decoding module, the interactive display control module, the audio module, the information storage module, the device coding management module (ID management module), the electric energy management module, the wired serial communication module and the wireless communication module are respectively connected with the control processor; the Bluetooth headset component comprises a headset body and a headset bin, and the headset bin is uniformly managed and powered by an electric energy management module.

The electric energy management module is connected with the micro-motion energy power generation component and the solar energy transduction component through a space electromagnetic field energy collector, and the electric energy management module is connected with the built-in battery.

The Bluetooth headset component is detachably connected with the shell. The Bluetooth headset component can be directly fixedly mounted on the shell, and can be fixed with the shell in a detachable connection mode such as clamping connection, so that the Bluetooth headset component is convenient to replace and the like.

The light sensation communication part in the electronic guide listing adopts two light sensation demodulation modes of visible light and infrared light; the communication sensing mode of one-to-many transmission and reception is formed, the output light intensity of the visible light carrier is not higher than the ambient illumination, and if glare is generated, the visible light carrier is converted into the infrared light carrier for output.

The communication distance of the electronic navigation hanging plate is more than 1 meter and less than 10 meters; during working, the optical carrier wave transmitting power is set according to the exhibition observation distance and the sensitivity of the electronic guide listing, and the adjustment is carried out in the range that the effective communication distance is more than 1 meter and less than 10 meters.

When a visitor wears the electronic navigation tag for sports, the electronic navigation tag can collect micro kinetic energy, solar energy and space radiation energy through the electric energy management module and the space electromagnetic field energy collecting device, convert the micro kinetic energy, the solar energy and the space radiation energy into electric energy and store the electric energy in the built-in battery; the electronic guide listing control processor generates a two-dimensional code in a mode of combining the listing device code and the received visitor information, and displays the two-dimensional code on the interactive display component; the using state of the electronic hang tag is divided into a standby state and a working state; the interactive display component has the characteristic of an electronic ink screen, and is powered off when in a standby state, and the display picture is fixed in a state before power off; when the device is in a working state, the device senses optical carrier signals, supplies power to the interactive display part when demodulating and identifying forward objects to be visited, displays the function keys, and plays navigation audio through the touch keys; when the optical carrier signal is not sensed within the set time, the state is automatically converted into a standby state, and a user can manually convert the working state through a wake-up button.

The utility model solves the problem that visitors visit independently and accurately acquire the navigation information when the exhibition hall is guided by the cooperation of the light-sensitive communication component and the interactive display component; meanwhile, the energy-saving problem of the terminal equipment is solved through the built-in self-energy-collecting and electric energy management device of the electronic tag.

The present invention is described in detail with reference to the examples, but the description is only a specific embodiment of the present invention, and the present invention is not to be construed as being limited to the claims. It should be noted that, for those skilled in the art, variations and modifications made within the scope of the present invention shall fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides an energy-saving electronic guide hang tablet based on compound perception of light carrier, includes the casing, its characterized in that: the hanging tag also comprises a main control component, a micro-motion energy power generation component, a built-in battery, a space electromagnetic field energy collector, a solar energy transduction component, an interactive display component, a light sensation communication component, a Bluetooth headset component, a state lamp, a wake-up button, a USB interface and an audio interface; the main control component, the micro-motion energy power generation device, the built-in battery and the space electromagnetic field energy collector are arranged inside the shell, and the solar energy transduction component, the interactive display component, the light sensation communication component, the Bluetooth headset component, the state lamp, the awakening button, the USB interface and the audio interface are arranged outside the shell.

2. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 1, wherein: the main control component and the micro-motion energy power generation device are arranged at the upper part in the shell, and the built-in battery and the space electromagnetic field energy collector are arranged at the lower part in the shell.

3. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 1, wherein: the solar energy transduction component is arranged on the upper portion of the front face of the shell, the interactive display component is arranged on the lower portion of the front face of the shell, and the periphery of the front face of the shell is provided with the plurality of light sensation communication components.

4. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 1 or 3, wherein: the state lamp, the awakening button, the USB interface and the audio interface are arranged on the side face of the shell, and the Bluetooth headset part is arranged on the lower portion of the back face of the shell.

5. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 3, wherein: the casing is the rectangle structure, light sense communication part sets up in four corners of casing.

6. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 2, wherein: the space electromagnetic field energy collector is an energy collecting coil which is surrounded on the periphery of the lower portion of the shell.

7. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 1, wherein: the top of the shell is also provided with a wire hanging port.

8. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 1, wherein: the main control component comprises a control processor, a light sensing coding and decoding module, an interactive display control module, an audio module, an information storage module, a device coding management module, an electric energy management module, a wired serial communication module and a wireless communication module, wherein the light sensing coding and decoding module, the interactive display control module, the audio module, the information storage module, the device coding management module, the electric energy management module, the wired serial communication module and the wireless communication module are respectively connected with the control processor; the Bluetooth headset component comprises a headset body and a headset bin, and the headset bin is uniformly managed and powered by an electric energy management module.

9. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 8, wherein: the electric energy management module is connected with the micro-motion energy power generation component and the solar energy transduction component through a space electromagnetic field energy collector, and the electric energy management module is connected with the built-in battery.

10. The energy-saving electronic navigation tag based on optical carrier composite sensing according to claim 8, wherein: the Bluetooth headset component is detachably connected with the shell.

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