CN102654927A

CN102654927A - Solar-powered device for paid recovery of waste batteries

Info

Publication number: CN102654927A
Application number: CN2012101439040A
Authority: CN
Inventors: 高纪文; 沈克林; 蔡陈宇; 高杨; 操宇; 毕晶
Original assignee: Shanghai Dianji University
Current assignee: Shanghai Dianji University
Priority date: 2012-05-10
Filing date: 2012-05-10
Publication date: 2012-09-05

Abstract

The invention relates to a device for paid recovery of waste batteries powered by solar energy, which comprises a box body, a box door and a box top, wherein a dry battery, a lithium battery putting port and a recycle bag providing port are arranged on one side of the front surface of the box body; the other side of the front surface of the box body is provided with a card inserting opening, a display screen, a related button and a keyhole; a rear box lock hole and an energy storage battery are arranged on the back of the box body; the box door is provided with various holes with the same structure and position as the front surface of the box body, the box top is provided with a solar cell panel, the solar cell panel provides electric energy for each part, and the control chip is used for carrying out centralized processing and control on the information of each working part and displaying the processed information on the display screen. The invention provides a device for paid recovery of waste batteries, which can reward in real objects, can calculate points and reward uniformly, and can positively promote the recovery work of the waste batteries.

Description

Solar-powered device for paid recovery of waste batteries

Technical Field

The invention relates to a waste battery recovery device, in particular to a device for paid recovery of waste batteries powered by solar energy.

Background

The popularity of small electrical appliances has now led to an increasing use of batteries, many of which are not rechargeable, although some are rechargeable. In addition, the power consumption of some small electric appliances is still high, and therefore, the consumption of dry batteries is also increasing. The problems that arise from this are: how should the waste batteries be treated?

The common dry batteries used by people in daily life mainly comprise two types, namely acid zinc-manganese batteries and alkaline zinc-manganese batteries, which all contain various heavy metal substances such as mercury, manganese, cadmium, lead, zinc and the like. After the waste battery is abandoned, the shell of the battery can be slowly corroded, and heavy metal substances in the battery can gradually permeate into soil and permeate into underground water through the soil, so that the environment is polluted. It is reported that: one battery is rotten in the ground, so that the utilization value of one square meter of land can be lost; one small button cell can pollute 600 cubic meters of water, and the 600 cubic meters of water is equivalent to the water drinking amount of one person in a lifetime. The harm of the waste batteries is mainly concentrated on heavy metal pollution, such as pollution of lead, mercury, cadmium and the like, and the heavy metal pollution has the greatest characteristic that the heavy metal pollution cannot be degraded in nature and can be eliminated only through the purification effect. After the environment pollution caused by heavy metals is caused, the toxic substances can enter the human body through various routes and are accumulated in the human body for a long time and are difficult to remove, the nervous system, the hematopoietic function and the skeletal system are damaged, and even canceration can be caused.

For example, a section of waste zinc-manganese battery No. 1 is about 70 g in weight, wherein the carbon rod is 5.2 g, the zinc sheet is 7.0 g, the manganese powder is 25 g, the copper cap is 0.5 g, and the other is 32 g. In fact, only a small part of the zinc shell of the discarded dry battery is lost, the manganese dioxide only plays a little role in oxidation, and the carbon powder, the graphite rod and the copper cap are far from being consumed. The waste batteries are mixed in garbage, so that the environment is polluted, and the waste is remarkable: it is estimated that 740 tons of copper, 1.6 ten thousand tons of zinc and 9.7 ten thousand tons of manganese powder are lost due to the failure to recover waste batteries throughout the country one year. If the waste battery can be recycled and utilized, the influence on the environment can be reduced, and a large amount of precious resources can be recycled. Due to the resource shortage and the requirement of environmental governance, all countries in the world now pay high attention to the recovery and utilization of waste batteries. The recycling and resource utilization of waste batteries has become an urgent task.

Solar energy is the most abundant energy on the earth at present, has rich resources, can be continuously regenerated, can be used for no compensation, has no trouble of transportation, has no pollution to the environment, and is green energy which can be actively utilized by human beings. Therefore, the solar power industry, which actively utilizes the sun, has become one of the fastest-developing industries at present. The solar photovoltaic power generation is a technology for directly converting solar light radiation energy into electric energy by utilizing the photoelectric conversion effect of a photoelectric material, the conversion process is a physical conversion process of an electronic medium and does not involve chemical reaction, the space-time scale involved in the conversion process is very small, no pollution is generated in the conversion process, and the living environment of human beings is not influenced. With the successful industrialization of solar panels, various products utilizing solar energy come out endlessly.

Disclosure of Invention

The invention aims to provide a device for paid recovery of waste batteries, which is powered by solar energy, for actively recovering the waste batteries, wherein the device is powered by the solar energy, and is provided with a part for judging and recovering the waste batteries and rewarding or calculating points in real objects; the device can be arranged in various occasions, is beneficial to promoting the recovery work of the waste batteries, and is an effective product for protecting the environment.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows.

A solar-powered device for paid recovery of waste batteries comprises a box body, a box door and a box top, wherein the box door can be opened on the box body, and is characterized in that a dry battery putting port, a lithium battery putting port and an environment-friendly bag providing port are arranged on one side of the front surface of the box body; the other side of the front surface of the box body is provided with a bayonet, a display screen and a keyhole, and an environment-friendly bag discharge button and an integral determination button are arranged below the display screen; a rear box lock hole is formed in the rear of the box body; the box door is provided with an environment-friendly bag supply opening, a keyhole opening, a display screen opening, a card insertion opening, a lithium battery throwing opening and a dry battery throwing opening which are consistent with the structure and the position, the box top is provided with a solar cell panel, and the solar cell panel is electrically connected with a dry battery detection sensor, a lithium battery detection sensor, a card insertion opening, a display screen, an environment-friendly bag discharge button, an integral determination button and an environment-friendly bag supply opening to supply electric energy for each part; and a control chip is arranged in the box body, and is used for processing and controlling the information of each working component in a centralized manner and displaying the processed information on a display screen.

Further, the rear of the box body is provided with a rear box door and an energy storage battery, the solar cell panel is electrically connected with the energy storage battery, and the energy storage battery is electrically connected with a dry battery detection sensor, a lithium battery detection sensor, a card inserting opening, a display screen, an environment-friendly bag discharge button, an integral determination button and an environment-friendly bag supply port to provide electric energy for each part.

Further, the recycle bag storage cavity can be used for placing other articles similar to the recycle bags through the box door or the rear box door when needed.

Furthermore, the card inserting opening can judge and read the inserted magnetic card and process and store the information on the magnetic card.

Optionally, the magnetic card is a special card or a transportation card or other magnetic cards.

Furthermore, an LED lamp is arranged above the front face of the box body, so that the LED lamp can be used at night.

Furthermore, the box body can be designed in various forms so as to meet the requirements of different application occasions.

The device for paid recovery of waste batteries powered by solar energy can be used like a vending machine: after people put the waste batteries into the machine from different putting ports, the machine identifies the waste batteries through the dry battery detection sensor and the lithium battery detection sensor, and then automatically spits out the recycle bags according to the number of the waste batteries (the number of the rewarded recycle bags is variable according to the management requirement, and generally can be set as 5 waste batteries to reward one recycle bag).

If the recycle bag is not needed, the number of the waste batteries put into the recycle bag is accumulated and the accumulated number of points is recorded on an equipped 'electronic card': the 'electronic card' is only required to be inserted into a card inserting port on the front side of the machine, the number of the waste batteries which are put into the card inserting port is recorded on the 'electronic card', and one waste battery can be exchanged for one point. After a period of time or at the end of the year, other prizes (which are more prizes provided at the moment, can be environment-friendly products or other daily necessities) can be exchanged by the credits on the electronic card. If the electronic card is well made, if the electronic card is supported in all aspects, the points on the electronic card can be used as bus resources for riding, and the electronic card is directly convenient for traveling.

The solar-powered device for paid recovery of waste batteries has the advantages that:

(1) The utility model provides a device of paid recovery waste battery can give real object reward in time, can calculate the integral and unify the reward, consequently can actively promote waste battery's recovery work.

(2) The device of the invention is powered by solar energy, and is an environment-friendly product.

(3) The box body can be designed in various forms, can meet the requirements of different application occasions, has stronger practicability and can be placed and used in various environments.

Drawings

FIG. 1 is a schematic front view of a solar-powered apparatus for recovering waste batteries for compensation according to the present invention;

FIG. 2 is a schematic structural diagram showing the door of the apparatus for paid recovery of waste batteries powered by solar energy according to the present invention;

FIG. 3 is a schematic view of the back side structure of the apparatus for paid recycling of waste batteries powered by solar energy according to the present invention;

FIG. 4 is a schematic structural diagram of another embodiment of the apparatus for recovering waste batteries for compensation, which is powered by solar energy.

The reference numerals in the figures are respectively:

1. a box body; 2. a box door; 3. a box top; 4. a solar panel; 5. a dry battery input port;

6. a lithium battery input port; 7. a card inserting opening; 8. a display screen; 9. a discharge button of the recycle bag;

10. an integral determination button; 11. a keyhole; 12. an environment-friendly bag providing opening; 13. a dry cell detection sensor;

14. a lithium battery detection sensor; 15. the environment-friendly bag is provided with an opening; 16. opening a keyhole; 17. opening a hole on the display screen;

18. opening a card insertion hole; 19. putting a lithium battery into the hole; 20. putting dry batteries into the holes;

21. a rear box door; 22. a rear box keyhole; 23. an energy storage battery.

Detailed Description

The following provides a specific embodiment of the apparatus for recovering waste batteries by solar power supply according to the present invention, but the present invention is not limited to the following embodiments.

See figure 1. A device for paid recovery of waste batteries powered by solar energy comprises a box body 1, a box door 2 and a box top 3, wherein the box body 1 can adopt a conventional form, and can also be designed in various forms according to use occasions, such as a battery form, a tree stump form, a cartoon image and the like. The box door 2 can be opened on the box body 1, and maintenance and arrangement of internal components are facilitated.

Set up dry battery input port 5, lithium cell input port 6 and recycle bags in positive one side of box 1 and provide a mouthful 12 the inner of dry battery input port 5 and lithium cell input port 6 sets up waste battery storage chamber (the rear end in waste battery storage chamber or leads to back chamber door 21) the mouth end that dry battery input port 5 and lithium cell input port 6 sets up dry battery detection sensor 13 and lithium cell detection sensor 14 (see figure 2) the inner end that the recycle bags provided a mouthful 12 sets up recycle bags and stores the chamber (the rear end in recycle bags storage chamber or lead to back chamber door 21) the top in recycle bags storage chamber sets up the push rod of counting to release the recycle bags one by one and provide mouthful 12 outside. The other side of the front surface of the box body 1 is provided with a bayonet 7, a display screen 8 and a keyhole 11, and an environment-friendly bag spitting button 9 and an integral determination button 10 are arranged below the display screen 8; the installation can be carried out with corresponding parts available on the market.

A rear cabinet keyhole 22 and an energy storage battery 23 are arranged at the rear of the cabinet 1, and a rear cabinet door 21 (see fig. 3) can be arranged if necessary. The rear box door 21 can be set to be a large door, so that the installation, the replacement of articles or the maintenance in the box body 1 can be conveniently carried out. The back box door 21 and associated components are controlled by a back box keyhole 22. An energy storage battery 23 is provided to store the abundant electric energy provided by the solar panel 4 for use at night. The energy storage battery 23 is arranged behind the box body 1, so that the space on the front surface of the box body 1 can be vacated for other purposes, and the energy storage battery 23 is arranged beside the rear box door 21 and is convenient to arrange and manage.

The environmental protection bag providing opening 15, the keyhole opening 16, the display screen opening 17, the card inserting opening 18, the lithium battery releasing opening 19 and the dry battery releasing opening 20 (see the attached figure 2) which are consistent with the structure and the position are arranged on the box door 2, so that the related structure of the front surface of the box body 1 can be protected when the box door 2 is closed. Of course, when the rear door 21 having a large door is provided, the openable door 2 may not be provided. The door 2 and the rear door 21 only need to be in a large-opening structure. Other related components can be correspondingly adjusted.

The roof 3 can be designed as a pointed structure because it has a slope. Then, the solar cell panel 4 is mounted on the inclined surface of the pinnacle structure. In practice, the top 3 of the box may be designed to be a flat top structure, and then a slope-shaped solar panel 4 may be mounted on the flat top structure by using a support rod (see fig. 4). Since the solar panels 4 are mature in production technology and process, the relevant models of solar panels 4 available on the market can be used.

The solar cell panel 4 is electrically connected with a dry battery detection sensor 13, a lithium battery detection sensor 14, a card slot 7, a display screen 8, a recycle bag discharge button 9, an integral determination button 10 and a recycle bag supply port 12, and the solar cell panel 4 supplies electric energy for all parts. Meanwhile, the solar cell panel 4 and the energy storage battery 22 can be electrically connected, and then the energy storage battery 23 is electrically connected with the dry cell detection sensor 13, the lithium cell detection sensor 14, the card slot 7, the display screen 8, the recycle bag discharge button 9, the integral determination button 10 and the recycle bag supply port 12, and the energy storage battery 23 supplies electric energy to all the components.

And a control chip is arranged in the box body 1, the control chip is connected with each working component, the information of each working component is processed and controlled in a centralized manner, and the processed information is displayed on the display screen 8. The card slot 7 can read the inserted magnetic card through the arranged sensor and control chip, and process and store the information on the magnetic card. The magnetic card is a special magnetic card, and can also utilize a traffic card (which can be carried out after negotiation with related departments) or adopt other magnetic cards.

In order to facilitate the use of the device of the invention at night, a plurality of groups of LED lamps can be arranged above the front surface of the box body 1, and the energy storage battery 23 provides electric energy. Although the LED lamp consumes less power, the energy storage battery 23 should be properly used in consideration of this situation when the energy storage battery 23 is used in the implementation.

If the device of the invention is in trouble or the waste battery storage cavity is full or the stored recycle bags are used up, the door 2 can be opened through the keyhole 11 (or the rear door 21 is opened through the rear box keyhole 22), and a manager overhauls the device of the invention or empties the waste battery storage cavity or adds new recycle bags to ensure that the device of the invention is continuously and normally used.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the structural concept of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A device for paid recovery of waste batteries powered by solar energy comprises a box body (1), a box door (2) and a box top (3), wherein the box door (2) can be opened on the box body (1), and is characterized in that one side of the front surface of the box body (1) is provided with a dry battery putting port (5), a lithium battery putting port (6) and a recycle bag providing port (12), the inner ends of the dry battery putting port (5) and the lithium battery putting port (6) are connected with a waste battery storage cavity, the port ends of the dry battery putting port (5) and the lithium battery putting port (6) are respectively provided with a dry battery detection sensor (13) and a lithium battery detection sensor (14), the inner end of the recycle bag providing port (12) is connected with a recycle bag storage cavity, and a counting push rod is arranged above the recycle bag storage cavity; a bayonet (7), a display screen (8) and a keyhole (11) are arranged on the other side of the front surface of the box body (1), and an environment-friendly bag discharging button (9) and an integral determining button (10) are arranged below the display screen (8); a rear box lock hole (22) is arranged at the rear of the box body (1); the box door (2) is provided with an environment-friendly bag providing opening (15), a keyhole opening (16), a display screen opening (17), a card inserting opening (18), a lithium battery throwing opening (19) and a dry battery throwing opening (20) which are consistent with the structure and the position; a solar cell panel (4) is mounted on the box top (3), and the solar cell panel (4) is electrically connected with a dry battery detection sensor (13), a lithium battery detection sensor (14), a card inserting opening (7), a display screen (8), an environment-friendly bag discharging button (9), an integral determination button (10) and an environment-friendly bag supply opening (12) to supply electric energy for all parts; a control chip is arranged in the box body (1), the information of each working component is processed and controlled in a centralized way, and the processed information is displayed on a display screen (8).

2. The device for paid recycling of waste batteries powered by solar energy according to claim 1, wherein a rear box door (21) and an energy storage battery (23) are arranged at the rear of the box body (1), the solar cell panel (4) is electrically connected with the energy storage battery (22), and the energy storage battery (23) is electrically connected with a dry battery detection sensor (13), a lithium battery detection sensor (14), a card insertion opening (7), a display screen (8), a recycle bag discharge button (9), an integral determination button (10) and a recycle bag supply opening (12) to supply electric energy to each component.

3. The solar powered device for paid recycling of waste batteries according to claim 1 or 2, characterized in that the storage chamber of reusable bags can be used to place other objects similar to reusable bags through the door (2) or the rear door (21) when needed.

4. The device for paid recycling of waste batteries powered by solar energy as claimed in claim 1, characterized in that said card slot (7) is capable of reading the inserted magnetic card, processing and storing the information on the magnetic card.

5. The device for paid recycling of waste batteries powered by solar energy as claimed in claim 4, wherein said magnetic card is a dedicated magnetic card.

6. The device for paid recovery of waste batteries powered by solar energy as claimed in claim 4, wherein the magnetic card is a transportation card or other magnetic card.

7. The solar powered device for paid recycling of waste batteries according to claim 1, characterized in that the LED lamp is arranged above the front of the box (1) to make the invention usable at night.

8. The apparatus for the paid recycling of waste batteries powered by solar energy as claimed in claim 1, characterized in that said box (1) can be designed in various forms to suit the needs of different applications.