CN109193056B

CN109193056B - Waste battery recovery equipment

Info

Publication number: CN109193056B
Application number: CN201810997662.9A
Authority: CN
Inventors: 冯栋
Original assignee: Suzhou Hanxuan Information Technology Co ltd
Current assignee: Yuncheng Power Supply Co of State Grid Shanxi Electric Power Co Ltd
Priority date: 2018-08-29
Filing date: 2018-08-29
Publication date: 2023-07-11
Anticipated expiration: 2038-08-29
Also published as: CN109193056A

Abstract

The invention discloses waste battery recycling equipment, which comprises a shell, a toy bin positioned at the upper part in the shell, a battery disassembly bin positioned at the lower part in the shell and a control board positioned on the shell, wherein the toy bin comprises a mechanical claw for grabbing a toy and a main control board for controlling the mechanical claw to operate, the control board is provided with a battery throwing port and a control handle, the control board and the control handle form a dry battery shape, the recycling effect of a battery is improved by combining a recycled battery with entertainment, the battery throwing port is communicated with the battery disassembly bin through a feeding pipe, an inductor is arranged in the feeding pipe so as to induce whether the battery is thrown into the shell and the quantity of the battery thrown into the shell, and the battery disassembly bin comprises a cutting area for cutting the shell of the battery and a separation area for separating the shell and the inner core of the battery, and the battery is decomposed into three separated materials of the shell, the head and the tail of the battery and the inner core of the battery, so that the recycling efficiency is improved.

Description

Waste battery recovery equipment

Technical Field

The invention relates to the technical field of battery recovery, in particular to waste battery recovery equipment.

Background

The popularization and the update of battery products in the current society generate a large amount of waste batteries every year. From the viewpoint of raw materials, the battery contains metal elements such as iron, nickel, cobalt, manganese, aluminum, copper and the like, and also contains nonmetallic materials such as plastics, rubber, carbon powder and the like, so that the battery is free from extremely wasted resources. From the environmental protection aspect, heavy metals such as nickel, cadmium, cobalt and the like of the battery, organic solvents, diaphragms and the like in the heavy metals can cause serious pollution to water and soil. Therefore, reasonable recovery of waste batteries is of great importance.

The existing waste battery recycling device is directly replaced by a dustbin, only is marked as harmful garbage, and people can put the waste batteries into the garbage recycling device conveniently, but the existing waste battery recycling device is not attractive because of the fact that a set of mature and complete garbage recycling system does not exist at present, and many waste batteries are randomly thrown as common garbage, so that the waste battery recycling device is similar to a dummy. Meanwhile, the treatment after the recovery of the battery is divided into a plurality of stages, namely parting and pretreatment after the recovery of the waste battery, wherein the pretreatment refers to disassembling the battery and classifying materials; secondly, recycling battery materials; the battery disassembly is complex in work and low in efficiency, and is harmful to operators.

Disclosure of Invention

The invention aims to solve the technical problem of providing the waste battery recycling equipment which can guide people to recycle the old batteries, can pretreat the batteries when collecting the batteries, classify materials and facilitate enterprises to recycle the waste batteries.

In order to solve the technical problems, the invention provides waste battery recycling equipment, which comprises a machine shell, a toy bin positioned at the upper part in the machine shell, a battery disassembly bin positioned at the lower part in the machine shell and a control console positioned on the machine shell, wherein the toy bin comprises a mechanical claw for grabbing a toy and a main control board for controlling the mechanical claw to operate, the control console is provided with a battery throwing port and a control handle, the recycling effect of a battery is improved by combining a recycling battery with entertainment, the control console is cylindrical, the control console and the control handle form a dry battery shape, people are prompted to start the device by adopting the waste battery, the battery throwing port is communicated with the battery disassembly bin through a feed pipe, an inductor is arranged in the feed pipe so as to induce whether the battery is thrown into the machine shell and the quantity of the battery throwing into the machine shell, and the battery disassembly bin comprises a cutting area for cutting the battery shell and a separating area for separating the battery shell from the inner core, the battery is decomposed into three separated materials of the battery shell, the tail of the battery and the inner core, and recycling efficiency is improved.

Further, the battery is thrown into the mouth and is established to rectangular shape, and guide user's level drops into the battery, does benefit to the battery landing, the inlet pipe be with battery throw into mouth matched with flat pipe, the inlet pipe is in the inside one end of storehouse is disassembled to the battery is connected with the silo, the silo one end is connected the inlet pipe other end is arc baffle to block the battery and further slide and conveniently pick up the battery in the silo from, the height of baffle one end is slightly less than the height of silo other end, the silo bottom still is equipped with the sensor, is favorable to the battery to move forward voluntarily, and detects the size model of battery.

Further, the cutting district includes the first cutting district and the second cutting district of cutting battery body of cutting positive negative pole, the first cutting district includes electric slipway, first electric putter, clamping jaw, first motor and first saw bit, electric slipway is established the top of inlet pipe, first electric putter connects electric slipway's slip table, the clamping jaw with first electric putter's push rod is connected for the clamping jaw can back-and-forth, reciprocate, first motor is provided with two relatively, first motor symmetry sets up silo rear both sides, a pair of all be equipped with first saw bit on the output shaft of first motor for the forehead at cutting battery both ends is positive and negative.

Further, the first motor is arranged on the first bidirectional screw rod, so that the distance between the pair of first motors can be conveniently adjusted, and batteries with different sizes and models can be adapted.

Further, the inner sides of the clamping jaws are arc-shaped, so that the battery is more stable in the clamping process.

Further, the second cutting area includes upper conveyor belt and lower conveyer belt that set up from top to bottom, upper conveyor belt and lower conveyer belt are located first motor is kept away from one side of silo, the length of upper conveyor belt is less than the length of lower conveyer belt, upper conveyor belt and lower conveyer belt's discharge end flushes, the material loading end of lower conveyer belt is located under the electric slipway, upper conveyor belt and lower conveyer belt with electric slipway is perpendicular just upper conveyor belt and lower conveyer belt direction of transmission are the same, thereby make the clamping jaw can place the battery on the conveyer belt, and the axial of battery is unanimous with the direction of transmission of conveyer belt, a pair of second motor symmetry sets up the both sides of lower conveyer belt, the second motor is vertical to be set up, be equipped with the second saw bit on the output shaft of second motor, the second saw bit is the horizontality, the second saw bit is located between upper conveyor belt and the lower conveyer belt, thereby cuts the side of the battery that will be located between the conveyer belt, makes the battery shell divide into upper and lower two parts.

Further, the second motor is arranged on the second bidirectional screw rod, so that the distance between the pair of second motors can be conveniently adjusted, and batteries with different sizes and models can be adapted.

Further, the separation area includes with the support that the cutting area meets, the upper surface of support is established by first arc electro-magnet, be equipped with the second electric putter directly over the support, the push rod end of second electric putter is equipped with the second arc electro-magnet, and two arc electro-magnets paste with the battery case and pay, be convenient for adsorb the shell, make upper and lower shell separation, expose the battery inner core, the support is kept away from one side of cutting area is equipped with the third electric putter, the push rod end of third electric putter is the electro-magnet, the push rod of third electric putter just is to the arc wall of first arc electro-magnet, makes things convenient for the push rod to release the battery inner core, the support is close to one side of cutting area is equipped with the inner core collecting box, and the inner core is released and falls into the inner core collecting box after release, the third electric putter with be equipped with the shell collecting box between the support, bring the shell into the shell collecting box when retrieving.

Further, the bottom of the toy bin is also provided with an outlet channel, and the outlet channel and the feeding pipe are respectively positioned at two sides of the shell, so that the space in the shell is fully utilized.

Compared with the prior art, the waste battery recycling equipment has the beneficial effects that the waste battery recycling efficiency is increased by combining entertainment and battery recycling, and the batteries are preprocessed in the collecting process, so that three separated materials of a battery shell, a battery head and tail and an inner core are formed, manual operation is not needed, the safety is improved, and the waste battery recycling efficiency of enterprises is improved.

Drawings

FIG. 1 is a side view of an embodiment of the present invention;

FIG. 2 is a front view of an embodiment of the present invention;

fig. 3 is a rear view of a second cutting zone in an embodiment of the invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

As shown in fig. 1 and 2, a waste battery recycling device comprises a machine shell 1, a toy bin 2 positioned at the upper part in the machine shell 1, a battery disassembly bin 3 positioned at the lower part in the machine shell 1 and a control console 4 positioned on the machine shell 1, wherein the toy bin 2 comprises a mechanical claw 21 for grabbing toys and a main control board 22 for controlling the mechanical claw 21 to operate, a battery throwing port 41 and a control handle 42 are arranged on the control console 4, the control console 4 is cylindrical, the control console 4 and the control handle 42 form a dry battery shape, people are prompted to start the device by adopting waste batteries, the battery throwing port 41 is set into a long strip shape, a user is guided to throw the batteries into the waste battery at a horizontal angle, the batteries are convenient to drop, a plurality of batteries are put into the waste battery bin 2 through the battery throwing port 41, the toy bin 2 can be started, the user can control the mechanical claw 21 to grab the toys to send the toys into an object outlet channel 23 through the control handle 42, the battery throwing port 41 is further increased to attract the user to recycle the batteries through the feeding pipe 43, the battery throwing port 3 is communicated with the battery throwing port 43, an inductor 44 is arranged in the feeding pipe 43, so as to sense whether the batteries are thrown into the inner core 3 and the inner core 5 and the inner core is separated from the inner core 5 by the inner core is separated from the inner core, and the inner core is separated from the inner core of the metal shell and the inner core is separated from the metal shell and the inner shell and the metal shell is used for the metal shell of the metal shell and the metal shell is separated from the inner core is separated from the metal shell and the metal shell.

For the battery is single-row landing, inlet pipe 43 is the flat pipe with battery input port 41 matched with, the one end gradient that inlet pipe 43 and battery input port 41 meet is great, the one end gradient that inlet pipe 43 got into the inside of battery dismantles storehouse 3 is less, be convenient for control battery landing's speed, inlet pipe 43 still is connected with silo 45 at the inside one end of battery dismantlement storehouse 3, the silo 45 cross-section is the U type, can restrict the battery in silo 45, the inlet pipe 43 other end is arc baffle 46 is connected to silo 45 one end, arc baffle 46 can block the battery and continue the landing, the height of baffle one end is slightly less than the height of silo 45 other end, therefore when taking a battery, the battery behind can slide forward automatically, the silo 45 bottom still is equipped with sensor 47, sensor 47 is used for the size model of the battery that the response is about to be taken off, in order to adjust cutting zone 5 adaptation different models.

As shown in fig. 1 and 3, the cutting area 5 comprises a first cutting area 51 for cutting the anode and the cathode of the battery and a second cutting area 52 for cutting the battery body, the first cutting area 51 comprises an electric sliding table 511, a first electric push rod 512, a clamping jaw 513, a first motor 514 and a first saw blade 515, the electric sliding table 511 is arranged above the feeding pipe 43, the first electric push rod 512 is connected with the sliding table of the electric sliding table 511, the clamping jaw 513 is connected with the push rod of the first electric push rod 512, the connecting line of two fingers of the clamping jaw 513 is perpendicular to the axial direction of the battery, the clamping jaw 513 can move back and forth under the driving of the electric sliding table 511 and the first electric push rod 512, the battery is conveniently clamped from the trough 45, in order to ensure the stability of the battery in the clamping process, the inner side of the clamping jaw 513 is provided with an arc shape matched with the battery, the first motors 514 are symmetrically arranged at two sides of the rear of the trough 45, two first motors 514 are horizontally and oppositely arranged, first saw blades 515 are arranged on output shafts of a pair of first motors 514, clamping jaws 513 clamp batteries and send the batteries to the positions above the first saw blades 515, two ends of the positive and negative electrodes of the batteries correspond to one first saw blade 515 respectively, the first motors 514 are started, the positive and negative electrodes of the batteries are cut, in the embodiment, preferably, the first motors 514 are arranged on first bidirectional lead screws 516, after the sensors 47 sense the size and the type of the batteries, the positions of the two first motors 514 are adjusted by the first bidirectional lead screws 516, so that the distance between the two first saw blades 515 is suitable for the corresponding batteries, and the step of classifying the batteries is not needed.

As shown in fig. 1 and 3, the second cutting area 52 includes an upper conveyor 522 and a lower conveyor 521 which are disposed in parallel up and down, the upper conveyor 522 and the lower conveyor 521 are located at a side of the first motor 514 away from the trough 45, the length of the upper conveyor 522 is smaller than that of the lower conveyor 521, the discharge ends of the upper conveyor 522 and the lower conveyor 521 are flush, the upper end of the lower conveyor 521 is located directly under the electric sliding table 511, the upper conveyor 522 and the lower conveyor 521 are perpendicular to the electric sliding table 511 and the transmission directions of the upper conveyor 522 and the lower conveyor 521 are the same, the distance between the upper conveyor 522 and the lower conveyor 521 is about the diameter of one battery, a pair of second motors 523 are symmetrically disposed at both sides of the lower conveyor 521, the second motors 523 are vertically disposed, the output shaft of the second motor 523 is provided with a horizontal second saw blade 524, the second saw blade 524 is located between the upper conveyor belt 522 and the lower conveyor belt 521, the battery with the cut positive and negative poles is continuously conveyed by the clamping jaw 513 and placed at the feeding end of the lower conveyor belt 521, the battery moves forwards under the driving of the upper and lower conveyor belts 521, in the moving process, two sides of the battery are cut by the second saw blade 524, the metal shell on the surface of the battery is cut into an upper part and a lower part, in the embodiment, the second motor 523 is preferably arranged on the second bidirectional screw 525, and after the sensor 47 senses the size and the type of the battery, the second bidirectional screw 525 adjusts the positions of the two second motors 523, so that the distance between the two second saw blades 524 is suitable for the corresponding battery without adding the step of classifying the battery.

As shown in fig. 3, the separation area 6 includes a support 61 connected with the cutting area 5, a first arc electromagnet 62 is arranged on the upper surface of the support 61, so as to adapt to and position the battery falling from the upper and lower conveyor belts 521, a second electric push rod 63 is arranged right above the support 61, a second arc electromagnet 64 is arranged at the push rod end of the second electric push rod 63, the second arc electromagnet 64 is matched with the first arc electromagnet 62 to clamp the battery, then the two arc electromagnets are electrified, the second arc electromagnet 64 lifts a half shell above the battery, a third electric push rod 65 is arranged at one side of the support 61 far away from the cutting area 5, a push rod of the third electric push rod 65 is opposite to an arc groove of the first arc electromagnet 62, when the upper half shell of the battery is lifted, the third electric push rod 65 starts pushing out a battery inner core towards the cutting area 5, an inner core collecting box 66 is arranged at one side of the support 61 close to the cutting area 5, the inner core is dropped into the inner core collecting box 66 after being withdrawn, a push rod end of the third electric push rod 65 is an electromagnet, a shell collecting box 67 is arranged between the third electric push rod 65 and the support 61, when the push rod of the third electric push rod 65 is lifted, the second electric electromagnet 64 is pulled back, the second electromagnet 64 is located below the second electromagnet, the second electromagnet 64 is pulled back, the shell is located at the lower arc shell, and the shell is pulled back, and the shell is powered down when the shell is powered down, and the shell is powered down.

As shown in fig. 2, the bottom of the toy bin 2 is further provided with an outlet channel 23, and in order to fully utilize the space of the casing 1, the outlet channel 23 and the feeding pipe 43 are respectively located at two sides of the casing 1.

When the invention works, a user inputs waste batteries into the battery input port, the sensor in the feed pipe senses whether the batteries are input and the quantity of the input batteries so as to determine whether to start the toy grabbing machine, when the sensor senses that the batteries are input enough, the toy grabbing machine is started, the user can control the control handle to enable the mechanical claws to grab the toys to be sent into the outlet passage, meanwhile, the batteries slide from the feed pipe to the trough, the bottom of the trough is provided with the sensor so as to detect the size and the type of the batteries, the distance between the first saw blade and the second saw blade is controlled through the detected data, the normal cutting of the batteries is ensured, the sensor can also detect the electric quantity of the batteries, when the residual electric quantity of the batteries is detected, the residual electric quantity can be discharged for the toy grabbing machine, namely, the resources are saved, the safety in the battery cutting process is improved, and when the distance is adjusted by the first saw blade and the second saw blade, the clamping jaw takes the battery out of the trough and sends the battery to the upper part of the adjusted first saw blade to finish the cutting of the anode and the cathode of the battery, the clamping jaw continuously clamps the battery to be sent to the lower conveying belt, the battery moves forwards under the common drive of the upper conveying belt and the lower conveying belt, the battery shell is cut into an upper part and a lower part by the second saw blade on the two sides of the upper conveying belt and the lower part in the advancing process, then the battery falls onto the separating area bracket from the outlet of the upper conveying belt and the lower conveying belt, the battery shell is separated up and down under the common action of the first arc electromagnet on the bracket and the second arc electromagnet on the second electric push rod, the third electric push rod pushes the battery inner core into the inner core collecting box, the electromagnet of the third electric push rod is electrified when the battery inner core is retracted, the battery shell wrapped outside the third electric push rod is adsorbed due to the power failure of the first arc electromagnet and the second arc electromagnet when the battery is retracted to the upper part of the shell collecting box, the electromagnet is powered off, the shell falls down, and the inner core and the shell of the battery are respectively collected.

The above-described embodiments are merely preferred embodiments for fully explaining the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present invention, and are intended to be within the scope of the present invention. The protection scope of the invention is subject to the claims.

Claims

1. The waste battery recycling equipment is characterized by comprising a shell, a toy bin positioned at the upper part in the shell, a battery disassembling bin positioned at the lower part in the shell and a control board positioned on the shell, wherein the toy bin comprises a mechanical claw for grabbing a toy and a main control board for controlling the mechanical claw to operate;

the battery feeding port is set to be a long strip shape, the feeding pipe is a flat pipe matched with the battery feeding port, one end of the feeding pipe in the battery dismantling bin is connected with a trough, one end of the trough is connected with the other end of the feeding pipe to be an arc-shaped baffle, the height of one end of the baffle is slightly lower than that of the other end of the trough, and a sensor is further arranged at the bottom of the trough;

the separation area includes with the support that the cutting area meets, the upper surface of support is established by first arc electro-magnet, be equipped with the second electric putter directly over the support, the push rod end of second electric putter is equipped with the second arc electro-magnet, the support is kept away from one side of cutting area is equipped with the third electric putter, the push rod end of third electric putter is the electro-magnet, the push rod of third electric putter just right the arc wall of first arc electro-magnet, the third electric putter with be equipped with the shell collecting box between the support, the support is close to one side of cutting area is equipped with the inner core collecting box.

2. The waste battery recycling equipment according to claim 1, wherein the cutting area comprises a first cutting area for cutting positive and negative electrodes of a battery and a second cutting area for cutting a battery body, the first cutting area comprises an electric sliding table, a first electric push rod, clamping claws, a first motor and a first saw blade, the electric sliding table is arranged above the feeding pipe, the first electric push rod is connected with the sliding table of the electric sliding table, the clamping claws are connected with the push rods of the first electric push rod, the first motors are oppositely arranged with two, the first motors are symmetrically arranged on two sides of the rear of the trough, and the output shafts of the pair of first motors are respectively provided with the first saw blade.

3. A waste battery recycling apparatus according to claim 2, wherein the first motor is provided on the first bidirectional screw rod.

4. A waste battery recycling apparatus according to claim 2, wherein the inside of the holding jaw is provided in an arc shape.

5. The waste battery recycling device according to claim 2, wherein the second cutting area comprises an upper conveyor belt and a lower conveyor belt which are arranged up and down, the upper conveyor belt and the lower conveyor belt are arranged on one side, away from the trough, of the first motor, the length of the upper conveyor belt is smaller than that of the lower conveyor belt, the discharge ends of the upper conveyor belt and the lower conveyor belt are flush, the feeding end of the lower conveyor belt is arranged right below the electric sliding table, the upper conveyor belt and the lower conveyor belt are perpendicular to the electric sliding table and have the same transmission direction with the upper conveyor belt and the lower conveyor belt, a pair of second motors are symmetrically arranged on two sides of the lower conveyor belt, the second motors are arranged vertically, and second saw blades are arranged on the output shafts of the second motors and are arranged between the upper conveyor belt and the lower conveyor belt.

6. A spent battery recycling apparatus according to claim 5, wherein the second motor is provided on a second bidirectional screw.

7. The waste battery recycling device according to claim 1, wherein the bottom of the toy bin is further provided with an outlet channel, and the outlet channel and the feeding pipe are respectively positioned at two sides of the machine shell.