CN210398730U - Self-generating automatic lighting system based on gravity action of mobile personnel - Google Patents

Abstract

The utility model provides a self-generating automatic lighting system based on the gravity action of mobile personnel, which comprises a piezoelectric sensor, a bearing platform, an electric energy storage device, a current connection interface, a communication terminal and electric equipment; the piezoelectric sensor is fixed on the bearing platform and used for receiving gravity provided by a moving person; the piezoelectric sensor is connected with the current connection interface; the current connection interface is connected with the electric equipment through a communicating terminal, the electric energy storage device is arranged between the electric equipment and the communicating terminal, and an electric loop is formed among the current connection interface, the communicating terminal, the electric energy storage device and the electric equipment; the bearing platform is formed by connecting a plurality of pressing power generation modules or vibration power generation modules in series. The utility model provides a technical scheme has afforestation environmental protection, reduces the municipal administration and drops into, does not receive the commercial power influence, someone moves the characteristics that have the electricity promptly, has solved the real-time power consumption problem that has illumination, direction indication, safety warning in the removal personnel area.

Description

Self-generating automatic lighting system based on gravity action of mobile personnel

Technical Field

The invention relates to the technical field of automatic self-generating automatic lighting systems, in particular to a self-generating automatic lighting system based on the gravity action of mobile personnel.

Background

With the development of human society, living township, crowd centralization and activity diversification, a large number of floating population exists in both large cities and traffic distribution areas. Therefore, in these places of activities, facilities such as illumination, safety warning, direction indication and the like are needed, and none of these facilities can be powered off. The power supply mode of the existing municipal power supply system cannot solve the problem of self power supply in the range of each public place.

In prior art, chinese patent application No. CN201621094572.1 discloses an automatic lighting system, the power distribution box comprises a box body, be equipped with the switch room on the box, be equipped with the switch visor on the switch room, be equipped with current sensor and singlechip in the box, the box outside is equipped with the emergency light, current sensor is used for detecting the current information on the internal circuit line of box to give the singlechip with the information output that detects, the singlechip is used for receiving the current information that current sensor carried, and according to the start-up and the closing of current information control emergency light, be equipped with photosensitive element on the circuit of emergency light. At night, when the air switch in the box body trips due to short circuit or line overload, the current flowing through the circuit line in the box body is zero, the single chip microcomputer receives the current information at the moment and controls the emergency lamp to start, and the emergency lamp emits light for illumination. The emergency lamp maintains the discharge time enough to make the user accurately find the position of block terminal, therefore the user no longer need blacken and look for the position that the block terminal is located. However, the technical scheme does not solve the problem of self-power supply in the respective range of the public places such as stations, docks, airports, markets, main intersections and the like with concentrated crowds.

The Chinese patent application No. CN201110462068.8 discloses a gravity power generation lighting system, which comprises a bracket, wherein a gravity power generation device and a lamp are arranged on the bracket, and the lamp is positioned at the top of the bracket; the gravity power generation device comprises a gravity hammer, a hanging strip, a handle block, a transmission mechanism, a rotary generator and a storage battery; the gravity hammer is suspended at one end of the hanging strip, and the handle block is suspended at the other end of the hanging strip; the hanging strip is connected with the rotating input end of the rotating generator through the transmission mechanism, the output end of the rotating generator is electrically connected with the input end of the storage battery, and the output end of the storage battery is electrically connected with the lamp. When the gravity hammer is used, a user pulls the gravity hammer to do exercise through the handle block, meanwhile, mechanical energy of the exercise can be converted into electric energy through the rotation of the generator and stored in the storage battery, so that energy recovery is achieved, the storage battery can supply power to the lamp, the lamp can provide illumination for the user, and the purposes of energy conservation and environmental protection are achieved. However, the technical scheme also does not solve the problem of self-power supply in the respective range of the public places such as stations, docks, airports, markets, main intersections and the like with concentrated crowds.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a self-generating automatic lighting system based on the gravity action of mobile personnel, and the technical scheme for solving the problems is as follows:

the system comprises a piezoelectric sensor, a bearing platform, an electric energy storage device, a current connection interface, a communication terminal and electric equipment; the piezoelectric sensor is fixed on the bearing platform and used for receiving gravity provided by a moving person; the piezoelectric sensor is connected with the current connection interface; the current connection interface is connected with the electric equipment through the communication terminal, the electric energy storage device is arranged between the electric equipment and the communication terminal, and an electric loop is formed among the current connection interface, the communication terminal, the electric energy storage device and the electric equipment; the bearing platform is formed by connecting a plurality of pressing power generation modules or vibration power generation modules in series.

Further, the pressing power generation module is a PHE-P600 pressing power generation module.

Further, the vibration power generation module is a VEH-F006 vibration power generation module.

Furthermore, the electric energy storage device is provided with a wiring terminal for connecting the electric equipment.

Furthermore, both the transverse sides and the longitudinal sides of the bearing platform are provided with current connection interfaces.

Furthermore, the current connection interface and the communication terminal are provided in plurality.

Further, a plurality of piezoelectric sensors are arranged on the bearing platform.

Further, the electric equipment comprises a lighting device, an indicator light and a warning board.

Compared with the prior art, the system has the advantages that:

1. the system of the invention solves the self-power supply problem of public places such as stations, docks, airports, markets, main intersections and the like in the concentrated crowd;

2. by applying the system provided by the invention, the system provided by the invention is arranged in a public place, is not influenced by mains supply, can generate electric energy when people move, solves the real-time electricity utilization problems of illumination, direction indication and safety warning in a movable personnel area, and meets the requirement of low-power electricity utilization equipment.

Drawings

FIG. 1 is a schematic diagram of the system architecture of the present invention;

FIG. 2 is an enlarged partial schematic view of A of FIG. 1;

description of reference numerals: 1-a piezoelectric sensor, 2-a bearing platform, 3-an electric energy storage device, 4-a current connection interface, 5-a communication terminal, 6-electric equipment and 7-a mobile person;

the arrows in fig. 1 show the direction of the person walking.

Detailed Description

The following description will be made in detail with reference to the accompanying drawings.

As shown in fig. 1 to 2, the system of the present invention includes: the device comprises a piezoelectric sensor 1, a bearing platform 2, an electric energy storage device 3, a current connection interface 4, a communication terminal 5 and electric equipment 6; the piezoelectric sensor 1 is fixed on the bearing platform 2 and used for receiving gravity provided by a moving person 7; the piezoelectric sensor 1 is connected with the current connection interface 4; the current connection interface 4 is connected with the electric equipment 6 through the communication terminal 5, the electric energy storage device 3 is arranged between the electric equipment 6 and the communication terminal 5, and an electric loop is formed among the current connection interface 4, the communication terminal 5, the electric energy storage device 3 and the electric equipment 6; the bearing platform 2 is formed by connecting a plurality of pressing power generation modules or vibration power generation modules in series.

Further, the pressing power generation module is a PHE-P600 pressing power generation module.

Further, the vibration power generation module is a VEH-F006 vibration power generation module.

Furthermore, the electric energy storage device 3 is provided with a connection terminal (not shown) for connecting the electric equipment 6.

Furthermore, both the transverse sides and the longitudinal sides of the bearing platform 2 are provided with current connection interfaces 4.

Further, a plurality of the current connection interfaces 4 and the communication terminals 5 are provided.

Further, a plurality of piezoelectric sensors 1 are arranged on the bearing platform 2.

Further, the electric equipment 7 includes a lighting device, an indicator light, and a warning board.

The working principle of the system according to the invention is briefly described below: the moving person 7 is used for providing gravity for the piezoelectric sensor 1, and the piezoelectric sensor 1 generates a unit of electric charge under the action of the gravity; n bearing platforms 2 are connected in series (in parallel) through a current connection interface 4, a mobile person 7 generates a charge of Q on one piezoelectric sensor 1 at each step, and M piezoelectric sensors 1 are installed on one bearing platform 2.

For example, a person walking 1 km can act on the piezoelectric sensor 1 2000 times at a step of 0.5M, and the total amount of generated electric charge is 2000 times × 2000 blocks (each square bearing platform has a side length of 0.5M) × 4Q (each bearing platform is provided with M piezoelectric sensors) ═ 16000000Q.

The invention can complete the self-generating automatic power supply function based on the gravity action of the mobile personnel by adopting materials, a piezoelectric sensor and a weak current technology.

The present invention is not limited to the above-described embodiments, and any variations, modifications, and alterations that may occur to one skilled in the art without departing from the spirit of the invention are intended to be within the scope of the invention.

Claims (8)

1. A self-generating automatic lighting system based on the gravity action of mobile personnel is characterized by comprising a piezoelectric sensor, a bearing platform, an electric energy storage device, a current connection interface, a communication terminal and electric equipment; the piezoelectric sensor is fixed on the bearing platform and used for receiving gravity provided by a moving person; the piezoelectric sensor is connected with the current connection interface; the current connection interface is connected with the electric equipment through the communication terminal, the electric energy storage device is arranged between the electric equipment and the communication terminal, and an electric loop is formed among the current connection interface, the communication terminal, the electric energy storage device and the electric equipment; the bearing platform is formed by connecting a plurality of pressing power generation modules or vibration power generation modules in series.

2. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 1, wherein the pressing power generation module is a PHE-P600 pressing power generation module.

3. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 1, wherein the vibration power generation module is a VEH-F006 vibration power generation module.

4. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 1, wherein a wiring terminal for connecting the electric equipment is arranged on the electric energy storage device.

5. The self-generating automatic lighting system based on the gravity action of the mobile personnel according to claim 1, wherein current connection interfaces are arranged on both the transverse sides and the longitudinal sides of the bearing platform.

6. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 1, wherein a plurality of current connection interfaces and communication terminals are provided.

7. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 1, wherein a plurality of piezoelectric sensors are arranged on the bearing platform.

8. The self-generating automatic lighting system based on the gravity action of the mobile personnel as claimed in claim 4, wherein the electric equipment comprises a lighting device, an indicator lamp and a warning board.

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