CN113353481A - Waste battery recovery unit of leak protection liquid - Google Patents

Abstract

The invention discloses an anti-leakage waste battery recycling device, comprising a collection box and universal wheels located at four corners of the bottom of the collection box. The collection box includes a first recovery box, a second recovery box and a third recovery box. The front end surfaces of the first recovery box, the second recovery box and the third recovery box all have openings, and there are limit bars installed on the front end surfaces of the collection boxes on both sides of the opening, and the interior of the limit bars slides. A sliding door is connected, the top and two side walls of the sliding door are provided with stoppers, the tops of the first recovery box, the second recovery box and the third recovery box are all provided with drop openings, and the inside of the drop openings is provided There is a cover plate. In the present invention, the handle is pulled, and the handle drives the cover to slide away from the limit groove, the cover shells of the first recovery box and the third recovery box slide to the top of the second recovery box, and the cover of the second recovery box slides to the inside of the third recycling box, so that used batteries can be placed in different recycling boxes according to classification.

Description

Waste battery recovery unit of leak protection liquid

Technical Field

The invention relates to the technical field of batteries, in particular to a liquid leakage preventing waste battery recycling device.

Background

A battery refers to a device that converts chemical energy into electrical energy in a portion of the space of a cup, tank, or other container or composite container that holds an electrolyte solution and metal electrodes to produce an electrical current. Has a positive electrode and a negative electrode. With the advancement of technology, batteries generally refer to small devices that can generate electrical energy. Such as a solar cell. The battery has the advantages of simple structure, convenient carrying, simple and easy charging and discharging operation, no influence from external climate and temperature, stable and reliable performance, and great effect in various aspects of modern social life.

In a chemical cell, the direct conversion of chemical energy into electrical energy is a result of spontaneous chemical reactions, such as oxidation and reduction, inside the cell, which occur at two electrodes, respectively. The negative active material is composed of a reducing agent which has a negative potential and is stable in an electrolyte, such as active metals of zinc, cadmium, lead and the like, hydrogen or hydrocarbon and the like. The positive electrode active material is composed of an oxidizing agent having a positive potential and being stable in the electrolyte, such as metal oxides of manganese dioxide, lead dioxide, nickel oxide, etc., oxygen or air, halogens and salts thereof, oxoacids and salts thereof, etc. The electrolyte is a material having good ionic conductivity, such as an aqueous solution of an acid, an alkali, or a salt, an organic or inorganic nonaqueous solution, a molten salt, or a solid electrolyte, and when an external circuit is disconnected, there is a potential difference (open circuit voltage) between the two electrodes, but there is no current flow, and the chemical energy stored in the battery is not converted into electric energy. When the external circuit is closed, current flows through the external circuit under the action of the potential difference of the two electrodes, and meanwhile, in the battery, due to the fact that free electrons do not exist in the electrolyte, charge transfer is necessarily accompanied by oxidation or reduction reaction of the two-electrode active substance and the interface of the electrolyte and substance migration of reactants and reaction products. The transfer of charge in the electrolyte is also accomplished by the migration of ions. Therefore, normal charge transfer and mass transfer processes inside the battery are necessary conditions for ensuring normal output of electric energy. During charging, the direction of the electricity and mass transfer processes in the battery is just opposite to that of discharging; the electrode reaction must be reversible to ensure normal progress of mass transfer and electricity transfer in the opposite direction. Therefore, the reversibility of the electrode reaction is a necessary condition for constituting a secondary battery, and G is the gibbs reaction free energy increment (coke); f is the faradaic constant 96500 library 26.8 ampere-hour; n is the equivalent number of the battery reaction, which is a basic thermodynamic relation between the battery electromotive force and the battery reaction, and is a basic thermodynamic equation for calculating the energy conversion efficiency of the battery. In fact, when a current flows through the electrodes, the electrode potentials are all shifted from the thermodynamically equilibrium electrode potential, a phenomenon known as polarization.

Common batteries include dry batteries, lead storage batteries, and lithium batteries. The dry cell is also called a manganese-zinc cell, and the manganese-zinc refers to a raw material of the dry cell with respect to the voltaic cell. For dry batteries of other materials such as silver oxide batteries and nickel cadmium batteries. The voltage of the manganese-zinc cell was 1.5V. Dry cells consume chemical raw materials to produce electrical energy. Its voltage is not high, and the continuous current that can be produced can not exceed 1 ampere. Secondary batteries are one of the most widely used batteries. A glass groove or a plastic groove is filled with sulfuric acid, two lead plates are inserted, one lead plate is connected with the positive electrode of a charger, the other lead plate is connected with the negative electrode of the charger, and a storage battery is formed after charging for more than ten hours. The voltage between its positive and negative electrodes is 2V. The advantage of the storage battery is that the storage battery can be repeatedly used. In addition, since its internal resistance is extremely small, a large current can be supplied. The said power supply can supply more than 20A of instantaneous current to the engine of car. The accumulator stores the electric energy when charging and converts the chemical energy into electric energy when discharging. A battery using lithium as a negative electrode. It is a new type of high energy battery that developed after the 60 s. The electrolyte is divided into: high-temperature molten salt lithium batteries; (xii) organic electrolyte lithium batteries; (iii) inorganic non-aqueous electrolyte lithium battery; fourthly, solid electrolyte lithium batteries; and fifthly, using the lithium water battery. The lithium battery has the advantages of high single battery voltage, large specific energy, long storage life (up to 10 years), good high-low temperature performance and capability of being used at the temperature of-40 to 150 ℃. The disadvantages are high price and low safety. In addition, voltage hysteresis and safety issues remain to be improved. The development of power batteries and new cathode materials is vigorously carried out, and particularly the development of lithium iron phosphate materials is greatly helpful for the development of lithium batteries. The internationally prevailing waste battery treatment methods are roughly three types: solidifying, deeply burying, storing in waste mine, and recycling. For example, one French factory extracts nickel and cadmium from the nickel, and then uses the nickel for steel making, and the cadmium is reused for producing batteries. The rest of the various waste batteries are generally transported to special toxic and harmful refuse landfills, but the method is not only too expensive, but also causes waste because of the fact that many useful substances which can be used as raw materials exist in the waste batteries.

With the rapid development of social science and technology, batteries become widely applied products, the batteries provide indispensable electric power support for the development of science and technology, but the waste batteries used at the same time also bring serious environmental pollution to the society, the waste batteries have extremely serious pollution to soil and water sources, pollutants are easily transferred to plants and animals through soil and water sources, and finally food made of the plants and the animals enters the inside of a human body to greatly damage the human body.

Disclosure of Invention

The invention aims to: the waste battery recycling device is used for solving the problem of liquid leakage prevention of waste battery recycling.

In order to achieve the purpose, the invention adopts the following technical scheme:

a liquid leakage preventing waste battery recycling device comprises a collecting box and universal wheels positioned at four corners of the bottom of the collecting box, wherein the collecting box comprises a first recycling box, a second recycling box and a third recycling box, the front end faces of the first recycling box, the second recycling box and the third recycling box are respectively provided with an opening, two sides of each opening are provided with a limiting strip arranged on the front end face of the collecting box, the limiting strips are connected with a sliding door in a sliding manner, two side walls of the top of the sliding door are provided with stop blocks, the tops of the first recycling box, the second recycling box and the third recycling box are respectively provided with a feeding opening, a cover plate is arranged inside each feeding opening, one side wall of each feeding opening is provided with a limiting groove clamped with a first end of the cover plate, the other side wall of each feeding opening is provided with a through groove, a second end of each cover plate penetrates through the through and is in sliding fit with the through groove, and built-in barrels are arranged inside the first recycling box, the second recycling box and the third recycling box, the bottom of built-in section of thick bamboo has the draw-in groove, the interior table wall in the bottom of first collection box, second collection box and third collection box is provided with hydraulic telescoping rod, hydraulic telescoping rod's outside cover is equipped with the spring, hydraulic telescoping rod's top is provided with the fixed block of being connected with the draw-in groove block, the top lateral wall of first collection box, second collection box and third collection box all is provided with main magnetic path, the top lateral wall through connection of built-in section of thick bamboo has the fixed pin, the first end of fixed pin is provided with the anticreep piece, and the second end is provided with the vice magnetic path with main magnetic path attracted mutually.

As a further description of the above technical solution:

the front end face of the sliding door is provided with a handle.

As a further description of the above technical solution:

and a sealing strip is arranged in the limiting strip.

As a further description of the above technical solution:

and a sealing block is arranged in the through groove.

As a further description of the above technical solution:

the upper end face of the cover plate is provided with a handle.

As a further description of the above technical solution:

the inner surface wall of the built-in barrel is provided with a buffer sponge layer.

As a further description of the above technical solution:

and an insulating layer is arranged on the inner surface wall of the buffer sponge layer.

As a further description of the above technical solution:

the stop block is abutted against the upper end face of the limiting strip.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the handle is pulled, the handle drives the cover plate to slide towards the direction far away from the limiting groove, the cover plate shells of the first recovery box and the third recovery box slide to the upper part of the second recovery box, and the cover plate of the second recovery box slides to the inner part of the third recovery box, so that waste batteries can be conveniently placed in different recovery boxes according to classification.

2. According to the invention, the battery falls into the built-in box under the action of gravity, the buffering sponge layer in the built-in box has a buffering effect on the battery, so that rigid collision between the waste battery and the built-in box is avoided, and meanwhile, the insulating layer in the built-in box has an insulating effect, so that the waste battery is prevented from generating an electric leakage phenomenon and is conducted through metal.

3. According to the invention, the handle is pulled upwards, the handle drives the sliding door to slide upwards until the sliding door is separated from the limiting strip, then the anti-falling piece is pulled, the anti-falling piece drives the fixing pin to slide towards the inside of the built-in cylinder, the fixing pin drives the auxiliary magnetic block to be separated from the main magnetic block, then the built-in cylinder is pressed downwards, the hydraulic telescopic rod and the spring are compressed simultaneously, reserved spaces are formed between the top of the built-in cylinder and the first recycling box, the second recycling box and the third recycling box respectively, the top of the built-in cylinder is taken out in an inclined mode from the opening, and therefore the built-in cylinder is taken out of the first recycling box, the second recycling box and the third recycling box, and waste batteries in the built.

Drawings

Fig. 1 is a schematic front view of a liquid leakage preventing waste battery recycling device according to the present invention;

FIG. 2 is a schematic sectional view of a front view of a liquid leakage preventing recycling apparatus for waste batteries according to the present invention;

fig. 3 is a schematic view of a connection top-view cross-sectional structure of a sliding door and a limiting bar of the liquid leakage preventing waste battery recycling device provided by the invention;

FIG. 4 is an enlarged schematic view of part A of a liquid leakage preventing recycling apparatus for waste batteries according to the present invention;

FIG. 5 is an enlarged schematic view of the part B of the liquid leakage preventing recycling apparatus for waste batteries according to the present invention;

fig. 6 is an enlarged structural diagram of a part C of the liquid leakage preventing waste battery recycling device according to the present invention.

Illustration of the drawings:

1. a collection box; 101. a first recovery tank; 102. a second recovery tank; 103. a third recovery tank; 2. a universal wheel; 3. opening the mouth; 4. a limiting strip; 5. a sliding door; 6. a handle; 7. a sealing strip; 8. a throwing port; 9. a built-in cartridge; 901. a card slot; 10. a buffer sponge layer; 11. an insulating layer; 12. a fixed block; 13. a hydraulic telescopic rod; 14. a spring; 15. a fixing pin; 16. an anti-drop sheet; 17. an auxiliary magnetic block; 18. a main magnetic block; 19. a through groove; 20. a cover plate; 21. a limiting groove; 22. a handle; 23. a stopper; 24. and (6) sealing the block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

Referring to fig. 1-6, a liquid leakage preventing waste battery recycling device comprises a collecting box 1 and universal wheels 2 located at four corners of the bottom of the collecting box 1, wherein the collecting box 1 comprises a first recycling box 101, a second recycling box 102 and a third recycling box 103, built-in barrels 9 are arranged inside the first recycling box 101, the second recycling box 102 and the third recycling box 103, the front end surfaces of the first recycling box 101, the second recycling box 102 and the third recycling box 103 are provided with openings 3, the width of each opening 3 is larger than that of each built-in barrel 9, the built-in barrels 9 are convenient to take out, limiting strips 4 arranged on the front end surfaces of the collecting box 1 are arranged on two sides of each opening 3, sealing strips 7 are arranged inside the limiting strips 4, sliding doors 5 are connected inside the limiting strips 4 in a sliding mode, the sealing strips 7 enable good sealing performance to be achieved between the limiting strips 5 and the limiting strips 4, rainwater is prevented from entering the collecting box 1 from the openings 3, the preceding terminal surface of push-and-pull door 5 is provided with handle 6, is convenient for control reciprocating of push-and-pull door 5 through pulling handle 6, and the top both sides wall of push-and-pull door 5 is provided with dog 23, dog 23 and the up end butt of spacing 4, and dog 23 can control moving down the distance of push-and-pull door 5, guarantees that push-and-pull door 6 can cover uncovered 3 completely.

Example 2

Referring to fig. 1-6, a liquid leakage preventing waste battery recycling device comprises a collection box 1 and universal wheels 2 located at four corners of the bottom of the collection box 1, the collection box 1 is convenient to move, the collection box 1 comprises a first recycling box 101, a second recycling box 102 and a third recycling box 103, the tops of the first recycling box 101, the second recycling box 102 and the third recycling box 103 are respectively provided with a putting-in opening 8, waste batteries can be placed in the first recycling box 101, the second recycling box 102 and the third recycling box 103 through the putting-in openings 8, a cover plate 20 is arranged in the putting-in opening 8, the upper end surface of the cover plate 20 is provided with a handle 22, acting force can be applied to the cover plate 20 through the handle 22 to drive the cover plate 20 to slide in the horizontal direction, one side wall of the putting-in opening 8 is provided with a limiting groove 21 clamped with a first end of the cover plate 20, the other side wall is provided with a through groove 19, and the inside of the through groove 19 is provided with a sealing block 24, the sealing block 14 increases the sealing performance between the cover plate 20 and the through groove 19, the second end of the cover plate 20 penetrates through the through groove 19 and is in sliding fit with the through groove 19, the limiting groove 21 plays a role in fixing the end part of the cover plate 20, and the through groove 19 does not obstruct the movement of the cover plate 20 in the horizontal direction.

Example 3

Referring to fig. 1-6, a liquid leakage preventing waste battery recycling device comprises a collection box 1 and universal wheels 2 located at four corners of the bottom of the collection box 1, wherein the collection box 1 comprises a first recycling box 101, a second recycling box 102 and a third recycling box 103, different waste batteries are recycled in the first recycling box 101, the second recycling box 102 and the third recycling box 103 according to categories, built-in barrels 9 are arranged inside the first recycling box 101, the second recycling box 102 and the third recycling box 103, a buffering sponge layer 10 is arranged on the inner surface wall of each built-in barrel 9, the buffering sponge layer has a good buffering effect, the waste batteries are prevented from rigidly colliding with the built-in barrels 9 under the action of gravity, the waste batteries are protected, an insulating layer 11 is arranged on the inner surface wall of each buffering sponge layer 10, good insulating performance is achieved, electric leakage conduction of the waste batteries is effectively blocked, a clamping groove 901 is formed in the bottom of each waste leakage battery built-in barrel 9, the inner surface walls of the bottoms of the first recovery box 101, the second recovery box 102 and the third recovery box 103 are provided with a hydraulic telescopic rod 13, a spring 14 is sleeved outside the hydraulic telescopic rod 13, the top of the hydraulic telescopic rod 13 is provided with a fixed block 12 connected with a clamping groove 901 in a clamping manner, the side walls of the tops of the first recovery box 101, the second recovery box 102 and the third recovery box 103 are provided with main magnetic blocks 18, the side wall of the top of the built-in cylinder 9 is connected with a fixed pin 15 in a penetrating manner, a first end of the fixed pin 15 is provided with a release-proof sheet 16, a second end of the fixed pin 15 is provided with an auxiliary magnetic block 17 attracted with the main magnetic block 18, the clamping groove 901 is clamped with the fixed block 12, so that the fixed block 12 gives an upward elastic force to the built-in cylinder 9 under the action of the spring 14, the fixed pin 15 at the top of the built-in cylinder 9 is respectively abutted against the inner surface walls of the tops of the first recovery box 101, the second recovery box 102 and the third recovery box 10, and simultaneously, the auxiliary magnetic block 17 on the fixed pin 15 is attracted with the main magnetic block 18, thereby stably fixing the built-in drum 9 inside the first recovery tank 101, the second recovery tank 102, and the third recovery tank 103.

The working principle is as follows: when the recycling bin is used, the handle 22 is pulled, the handle 22 drives the cover plate 20 to slide towards the direction far away from the limiting groove 21, the cover plates 20 of the first recycling bin 101 and the third recycling bin 103 slide to the upper side of the second recycling bin 102, and the cover plate of the second recycling bin 102 slides to the inner side of the third recycling bin 103, so that waste batteries can be conveniently placed in different recycling bins according to classification; the batteries fall into the built-in box 9 under the action of gravity, the buffering sponge layer 10 in the built-in box 9 has a buffering effect on the batteries, so that rigid collision between the waste batteries and the built-in box 9 is avoided, and meanwhile, the insulating layer 11 in the built-in box 9 has an insulating effect, so that the waste batteries are prevented from being subjected to electric leakage and are conducted through metal; upwards stimulate handle 6, handle 6 drives push-and-pull door 5 and upwards slides until breaking away from spacing 4, then stimulate anticreep piece 16, anticreep piece 16 drives the inside slip of fixed pin 15 to built-in section of thick bamboo 9, fixed pin 15 drives vice magnetic path 17 and main magnetic path 18 separation, then press down built-in section of thick bamboo 9, hydraulic telescoping rod 13 and spring 14 compress simultaneously, make the top of built-in section of thick bamboo 9 respectively with first collection box 101, reserved space appears in second collection box 102 and the third collection box 103, take out the top of built-in section of thick bamboo 9 slope from uncovered 3 earlier, thereby take out built-in section of thick bamboo 9 from first collection box 101, in second collection box 102 and the third collection box 103, be convenient for clear up the inside old and useless battery of built-in section of thick bamboo 9.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A liquid leakage prevention waste battery recovery device comprises a collection box (1) and universal wheels (2) positioned at four corners of the bottom of the collection box (1), and is characterized in that the collection box (1) comprises a first recovery box (101), a second recovery box (102) and a third recovery box (103), the front end faces of the first recovery box (101), the second recovery box (102) and the third recovery box (103) are respectively provided with an opening (3), two sides of each opening (3) are provided with a limiting strip (4) arranged on the front end face of the collection box (1), the limiting strips (4) are connected with a sliding door (5) in a sliding manner, two side walls of the top of the sliding door (5) are provided with stop blocks (23), the tops of the first recovery box (101), the second recovery box (102) and the third recovery box (103) are respectively provided with a throwing opening (8), and a cover plate (20) is arranged inside the throwing opening (8), a limiting groove (21) clamped with a first end of a cover plate (20) is formed in one side wall of the putting-in opening (8), a through groove (19) is formed in the other side wall of the putting-in opening, a second end of the cover plate (20) penetrates through the through groove (19) and is in sliding fit with the through groove, built-in barrels (9) are arranged inside the first recovery box (101), the second recovery box (102) and the third recovery box (103), clamping grooves (901) are formed in the bottom of the built-in barrels (9), hydraulic telescopic rods (13) are arranged on the inner surface walls of the bottoms of the first recovery box (101), the second recovery box (102) and the third recovery box (103), springs (14) are sleeved outside the hydraulic telescopic rods (13), fixing blocks (12) connected with the clamping grooves (901) in a clamping mode are arranged on the tops of the hydraulic telescopic rods (13), and main magnet blocks (18) are arranged on the side walls of the tops of the first recovery box (101), the second recovery box (102) and the third recovery box (103), the top side wall of the built-in barrel (9) is connected with a fixing pin (15) in a penetrating mode, a first end of the fixing pin (15) is provided with an anti-falling piece (16), and a second end of the fixing pin is provided with an auxiliary magnetic block (17) attracted with the main magnetic block (18).

2. The liquid leakage preventing waste battery recycling device according to claim 1, wherein the front end surface of the sliding door (5) is provided with a handle (6).

3. The liquid leakage preventing waste battery recycling device according to claim 1, characterized in that the inside of the limiting strip (4) is provided with a sealing strip (7).

4. The liquid leakage preventing waste battery recycling device of claim 1, wherein the through groove (19) is internally provided with a sealing block (24).

5. The apparatus for recycling waste batteries with leakage prevention according to claim 1, wherein the cover plate (20) is provided with a handle (22) at an upper end thereof.

6. The liquid leakage preventing waste battery recycling device according to claim 1, wherein the inner surface wall of the built-in cylinder (9) is provided with a buffering sponge layer (10).

7. The liquid leakage preventing waste battery recycling device according to claim 6, wherein the inner surface wall of the buffering sponge layer (10) is provided with an insulating layer (11).

8. The liquid leakage preventing waste battery recycling device according to claim 1, wherein the stopper (23) abuts against the upper end surface of the position limiting strip (4).

Images