CN112090791A

CN112090791A - Detection apparatus for whether waste battery can recycle

Info

Publication number: CN112090791A
Application number: CN202010988450.1A
Authority: CN
Inventors: 王柯辙
Original assignee: Xianju Panjia Electronic Technology Co ltd
Current assignee: Xianju Panjia Electronic Technology Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2020-12-18

Abstract

The invention discloses a detection device for recycling waste batteries, which comprises a detection machine body, wherein the upper side of the detection machine body is communicated with a rotating cavity, an extrusion device is arranged in the rotating cavity and comprises a detection groove communicated with the lower side of the rotating cavity, the front side and the rear side of the detection groove are symmetrically communicated with sliding grooves, bevel gear transmission grooves are symmetrically formed in the front side and the rear side of the detection groove relative to the side far away from the central end face direction of the detection groove, a rotating lead screw is rotationally matched with a wall body between the bevel gear transmission grooves and the sliding grooves, the rotating lead screw is positioned in the sliding grooves and is connected with sliding blocks in a threaded manner, and pressure limiting grooves are formed in the sliding blocks.

Description

Detection apparatus for whether waste battery can recycle

Technical Field

The invention relates to the field of waste battery treatment, in particular to a detection device for recycling waste batteries.

Background

In daily life, a large amount of waste batteries are generated in life, the waste batteries cannot be reused due to uneven distribution of internal fuels, and the batteries can be used for a long time after chemical substances are uniformly distributed, so that a lot of energy is saved by recycling the batteries, and if the completely waste and unusable batteries are thrown, large-scale pollution is generated, so that the invention of the detection device which can distinguish whether the batteries can be reused and collect the completely waste and unusable batteries is very important.

Disclosure of Invention

Aiming at the technical defects, the invention provides a detection device for detecting whether waste batteries can be recycled, which can overcome the defects.

A detection device for recycling waste batteries comprises a detection machine body, wherein the upper side of the detection machine body is communicated with a rotating cavity, an extrusion device is arranged in the rotating cavity and comprises a detection groove communicated with the lower side of the rotating cavity, sliding grooves are symmetrically communicated on the inner walls of the front side and the rear side of the detection groove, bevel gear transmission grooves are symmetrically formed in the detection groove relative to the direction of the central end face of the detection groove, a rotating lead screw is rotationally matched with a wall body between the bevel gear transmission groove and the sliding grooves, the rotating lead screw is positioned in the sliding grooves and is connected with a sliding block in a threaded manner, a pressure limiting groove is formed in the sliding block and is connected with a pressure limiting block in a sliding manner, a limiting spring is connected between the pressure limiting block and the sliding block, the rear side of the sliding block is provided with one side of the horizontal oil pipe, and a, the oil pipe is connected with a piston compression bar in sliding connection with the sliding groove, the rotary screw rod rotates to enable the sliding blocks to be close to each other, extruded fixed pressure is maintained under the action of the limiting spring, chemical substances in the waste batteries are uniformly mixed, the waste batteries are electrified again, the lower side of the inspection groove is communicated with a screening cavity, a processing device is arranged in the screening cavity and comprises a collecting groove on the left side of the screening cavity, a connecting channel is communicated between the collecting groove and the screening cavity, the screening cavity is communicated with the outer side of the right end of the detection machine body to form a discharge channel, the electrified waste batteries fall out through the discharge channel, and the completely unpowered batteries fall into the collecting groove.

Preferably, the extrusion device further comprises a bevel gear meshing groove pulled on the right side of the rotating cavity, the left side of the rotating cavity is provided with the meshing groove, the left side of the meshing groove is provided with a pulley groove, a wall body between the bevel gear meshing groove and the pulley groove is in running fit with a driving shaft in a rotating mode, the driving shaft is located in the rotating cavity and is fixedly connected with a rotating wheel, a connecting groove is formed in the rotating wheel, the rotating cavity is located in the meshing groove and is in splined connection with a rotating gear, an annular through groove is formed in the rotating gear, a piston push rod in rotating connection with the annular through groove is in sliding connection with the annular through groove, the right wall of the meshing groove is provided with the other side of the oil pipe in the horizontal direction, the wall body between the driving shaft and the meshing groove is connected with a connecting spring, and the left wall of, the transmission shaft is positioned in the meshing groove and is fixedly connected with a transmission gear which can be meshed with the rotating gear, the tail end of the transmission shaft which extends leftwards to the left side of the meshing groove is in power connection with a transmission motor embedded in the wall body of the detection machine body, the lower side of the bevel gear meshing groove is provided with a translation groove communicated with the detection groove, a rotating half gear is rotationally matched with the wall body between the bevel gear meshing groove and the translation groove, the driving shaft is positioned in the bevel gear meshing groove and is fixedly connected with a transmission bevel gear, the rotating half gear is positioned in the bevel gear meshing groove and is fixedly connected with a connecting half bevel gear meshed with the transmission bevel gear, a fit torsion spring is connected between the rotating half gear and the bottom wall of the bevel gear meshing groove, the rotating half gear is positioned in the translation groove and is fixedly connected with a rotating gear, and a transmission rack meshed, the left wall of the translation groove is communicated with a horizontal part on one side of an oil pipe, a piston connecting rod is connected in the oil pipe in a sliding mode, a fitting spring is connected between the piston connecting rod and the left wall of the translation groove, a connecting shaft is matched with the right wall of the belt pulley groove in a rotating mode, and the connecting shaft and the driving shaft are located in the belt pulley groove and are connected through belt transmission.

Preferably, the extruding device further comprises sliding grooves symmetrically communicated with the left side and the right side of the inner wall of the detection groove, the sliding grooves are symmetrically provided with gear meshing grooves about the central end surface of the detection groove, the left side of the gear meshing grooves is provided with matching grooves, the left side of the matching grooves is provided with transmission grooves, a wall body between the transmission grooves and the bevel gear transmission grooves is rotationally matched with a matching shaft positioned at the rear side of the connecting shaft, the right wall at the front side of the connecting shaft is rotationally matched with an abutting shaft, the connecting shaft and the abutting shaft are positioned in the matching grooves and are in belt transmission connection, the matching shaft is positioned in the bevel gear transmission grooves at the rear side and is fixedly connected with a spline bevel gear at the rear side, the bevel gear transmission grooves at the front side of the abutting shaft are fixedly connected with the spline bevel gear at the front side, and the spline bevel gear is provided with a ring joint groove, the oil pipe is provided with the horizontal part of bevel gear drive groove left wall the oil pipe opposite side, oil pipe sliding connection have with the ring joint groove rotates the piston ejector pin of being connected, the groove that slides is located bevel gear drive inslot fixedly connected with can with spline bevel gear meshing's rotation bevel gear, rotate the lead screw with be connected with the connection torsional spring between the bevel gear drive groove wall body, gear engagement groove with wall body normal running fit between the sliding tray has connecting screw, connecting screw with the connecting axle is located gear engagement inslot is connected through the gear pair, connecting screw is located sliding groove female connection has the thread piece, the groove that has seted up butt groove in the thread piece, butt groove sliding connection has the proof mass.

Preferably, the processing device further comprises an electric push rod fixedly installed on the bottom wall of the screening cavity, and a screening block fixedly connected to the upper side of the electric push rod, wherein a screening spring located on the right side of the electric push rod is connected between the screening block and the bottom wall of the screening cavity.

The invention has the beneficial effects that: after the battery is put into, the battery falls into and detects the groove, through injecing spring cooperation limit piece extrusion spring, based on the certain pressure of old and useless battery, prevents that the not battery of equidimension from receiving too big power and producing the explosion, detects simultaneously that the piece is taken at the battery positive pole and the negative pole and is detected by extruded battery and whether can produce electric power, if have just dropping through discharge passage, if do not just collect in the collecting vat, wait for unified processing.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of a device for detecting whether waste batteries can be reused;

FIG. 2 is an enlarged view of a portion of the structure at A in FIG. 1;

fig. 3 is a schematic view of the structure in the direction B-B in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

A detection device for recycling waste batteries comprises a detection machine body 70, wherein the upper side of the detection machine body 70 is communicated with a rotating cavity 22, an extrusion device is arranged in the rotating cavity 22 and comprises a detection groove 67 communicated with the lower side of the rotating cavity 22, sliding grooves 43 are symmetrically communicated on the inner walls of the front side and the rear side of the detection groove 67, bevel gear transmission grooves 47 are symmetrically formed in the detection groove 67 relative to the central end surface direction of the detection groove 67, a rotating screw 44 is rotatably matched with a wall body between the bevel gear transmission grooves 47 and the sliding grooves 43, the rotating screw 44 is positioned on the sliding grooves 43 and is in threaded connection with sliding blocks 42, pressure limiting grooves 41 are formed in the sliding blocks 42, the pressure limiting grooves 41 are in sliding connection with pressure limiting blocks 40, limiting springs 39 are connected between the pressure limiting blocks 40 and the sliding blocks 42, the sliding blocks 42 on the rear side are provided with one side of a horizontal oil pipe 19, a sliding chute 56 is arranged in the pressure limiting block 40, a piston pressure rod 55 which is connected with the sliding chute 56 in a sliding way is connected in the oil pipe 19 in a sliding way, the rotating screw rod 44 rotates to enable the front sliding block 42 and the rear sliding block 42 to approach each other, under the action of the limiting spring 39, the fixed pressure of the extrusion is maintained, so that the chemical substances in the waste battery are uniformly mixed, so that the waste batteries can be recharged, the lower side of the inspection groove 67 is communicated with the screening chamber 29, inside said screening chamber 29, processing means are provided, comprising a collecting tank 32 on the left side of said screening chamber 29, a connecting channel 31 is communicated between the collecting groove 32 and the screening cavity 29, a discharge channel 26 is communicated between the screening cavity 29 and the outer side of the right end of the detection machine body 70, the charged waste batteries fall out through the discharge channel 26, and the completely-charged batteries fall into the collecting groove 32.

Advantageously, the extrusion device further comprises a bevel gear meshing groove 23 drawn on the right side of the rotating cavity 22, a meshing groove 68 is formed in the left side of the rotating cavity 22, a pulley groove 10 is formed in the left side of the meshing groove 68, a driving shaft 11 penetrates through and is rotatably matched with a wall body between the bevel gear meshing groove 23 and the pulley groove 10, the driving shaft 11 is positioned in the rotating cavity 22 and is fixedly connected with a rotating wheel 21, a connecting groove 20 is formed in the rotating wheel 21, a rotating gear 14 is connected in a spline mode in the rotating cavity 22 and is positioned in the meshing groove 68, an annular groove 15 is formed in the rotating gear 14, a piston push rod 17 rotatably connected with the annular groove 15 is slidably connected in the annular groove 15, the right wall of the meshing groove 68 is provided with the other side of the oil pipe 19 in the horizontal direction, and a connecting spring 18 is connected to the wall body between the driving, the left wall of the meshing groove 68 is in running fit with a transmission shaft 13 positioned on the upper side of the driving shaft 11, the transmission shaft 13 is positioned in the meshing groove 68 and is fixedly connected with a transmission gear 16 capable of meshing with the rotating gear 14, the transmission shaft 13 extends leftwards to the left end of the meshing groove 68 and is in power connection with a transmission motor 12 embedded in the wall body of the detection machine body 70, the lower side of the bevel gear meshing groove 23 is provided with a translation groove 65 communicated with the detection groove 67, the wall body between the bevel gear meshing groove 23 and the translation groove 65 is in running fit with a rotating half gear 24, the driving shaft 11 is positioned in the bevel gear meshing groove 23 and is fixedly connected with a transmission bevel gear 71, the rotating half gear 24 is positioned in the bevel gear meshing groove 23 and is fixedly connected with a connecting half bevel gear 73 meshed with the transmission bevel gear 71, and a meshing torsion spring 72 is connected between the rotating half gear 24 and the bottom, the rotating half gear 24 is located in a translation groove 65, a rotating gear 63 is fixedly connected in the translation groove 65, a transmission rack 61 meshed with the rotating gear 63 is connected in the translation groove 65 in a sliding mode, the left wall of the translation groove 65 is communicated with a horizontal part on one side of an oil pipe 19, a piston extension rod 64 is connected in the oil pipe 19 in a sliding mode, a fitting spring 66 is connected between the piston extension rod 64 and the left wall of the translation groove 65, a connecting shaft 33 is matched with the right wall of the pulley groove 10 in a rotating mode, the connecting shaft 33 and the driving shaft 11 are located in the pulley groove 10 and connected through belt transmission, and the driving shaft 11 rotates to drive the connecting shaft 33 to rotate.

Advantageously, the extruding device further comprises sliding grooves 37 symmetrically communicated with the left side and the right side of the inner wall of the detection groove 67, gear engaging grooves 36 are symmetrically formed in the sliding grooves 37 on the central end surface of the detection groove 67, a matching groove 53 is formed in the left side of the gear engaging groove 36, a transmission groove 34 is formed in the left side of the matching groove 53, a matching shaft 35 located at the rear side of the connecting shaft 33 is rotatably matched with a wall body between the transmission groove 34 and the bevel gear transmission groove 47, a butting shaft 51 is rotatably matched with the right wall of the front side of the connecting shaft 33, the connecting shaft 33 and the butting shaft 51 are located in the matching groove 53 and connected through belt transmission, a rear spline bevel gear 48 is fixedly connected in the bevel gear transmission groove 47 located at the rear side of the matching shaft 35, a front spline bevel gear 48 is fixedly connected in the bevel gear transmission groove 47 located at the front side of the butting shaft 51, an annular connecting groove 52 is formed in the spline bevel gear 48, a horizontal part at the other side of the oil pipe 19 is formed in the left wall of the bevel gear transmission groove 47, a piston mandril 49 which is rotatably connected with the annular connecting groove 52 is connected in the oil pipe 19 in a sliding manner, the sliding groove 43 is positioned in the bevel gear transmission groove 47 and is fixedly connected with a rotating bevel gear 46 which can be meshed with the spline bevel gear 48, a connecting torsion spring 45 is connected between the rotating lead screw 44 and the wall body of the bevel gear transmission groove 47, a connecting lead screw 57 is rotatably matched with the wall body between the gear meshing groove 36 and the sliding groove 37, the connecting lead screw 57 and the connecting shaft 33 are positioned in the gear meshing groove 36 and are connected through a gear pair, the connecting lead screw 57 is positioned in the sliding groove 37 and is connected with a threaded block 38 in a threaded manner, an abutting groove 58 is formed in the threaded block 38, and the abutting groove, when the pressure limiting blocks 40 are close to each other, the screw blocks 38 are also close to each other to detect the battery charge.

Advantageously, the processing apparatus further comprises an electric push rod 30 fixedly mounted on the bottom wall of the screening chamber 29, a screening block 27 fixedly connected to the upper side of the electric push rod 30, and a screening spring 28 located at the right side of the electric push rod 30 is connected between the screening block 27 and the bottom wall of the screening chamber 29, when the waste batteries are pressed and charged, the electric push rod 30 operates to enable the batteries to fall out of the machine body through the discharge channel 26, and when the waste batteries are pressed and discharged, the waste batteries fall into the collecting tank 32 through the connecting channel 31 to be collected, and the using steps herein will be described in detail with reference to fig. 1 to 3: in the initial state, the rotating gear 14 is meshed with the transmission gear 16, the connecting spring 18 is in a relaxed state, the connecting torsion spring 45 is in a relaxed state, the abutting spring 50 is in a relaxed state, the limiting spring 39 is in a relaxed state, the matching spring 59 is in a relaxed state, the matching spring 66 is in a relaxed state, the abutting spring 50 is in a relaxed state, the screening cavity 29 is communicated with the inspection groove 67, and the spline bevel gear 48 is not meshed with the rotating bevel gear 46.

When power detection needs to be carried out on waste batteries, the batteries are placed into the connecting groove 20, the transmission motor 12 is powered on, the transmission gear 16 rotates to drive the rotating gear 14 to rotate, in the process, the driving shaft 11 rotates to drive the rotating half gear 24 to rotate, so that the transmission rack 61 moves leftwards, the batteries fall into the detection groove 67 but cannot fall into the screening cavity 29 under the action of the transmission rack 61, at the moment, the transmission rack 61 presses the piston connecting rod 64 leftwards to increase the oil pressure in the oil pipe 19, at the moment, the spline bevel gear 48 is meshed with the rotating bevel gear 46, the driving shaft 11 drives the connecting shaft 33 to rotate, the connecting shaft 33 drives the matching shaft 35 and the abutting shaft 51 to rotate to drive the rotating screw rod 44 to rotate, the sliding blocks 42 are made to approach each other, under the action of the limiting spring 39, the limiting block 40 extrudes the batteries under certain pressure, and informs the connecting, the thread blocks 38 are mutually close, whether the battery is electrified or not is detected by lapping the two poles of the battery through the detection block 60, meanwhile, the oil pressure of the oil pipe 19 is increased to enable the rotating gear 14 to be disengaged from the transmission gear 16, the driving shaft 11 rotates reversely under the action of the connecting spring 18, the rotating half gear 24 rotates reversely, so that the transmission rack 61 is opened, the oil pressure in the oil pipe 19 is reduced to enable the spline bevel gear 48 to be disengaged from the rotating bevel gear 46, the rotating screw rod 44 rotates reversely under the action of the connecting torsion spring 45, and therefore the sliding blocks 42 are mutually far away.

When the electric push rod 30 is electrified and extends after the detection of the detection block 60, the batteries fall out of the detection body 70 from the discharge channel 26 for reuse, and the batteries without single batteries fall into the collecting groove 32 through the connecting channel 31 for collection so as to be processed uniformly.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a detection apparatus whether old and useless battery can recycle, includes and detects the organism, its characterized in that: the upper side of the detection machine body is communicated with a rotating cavity, an extrusion device is arranged in the rotating cavity, the extrusion device comprises a detection groove communicated with the lower side of the rotating cavity, sliding grooves are symmetrically communicated on the inner walls of the front side and the rear side of the detection groove, bevel gear transmission grooves are symmetrically formed in the detection groove relative to the direction of the central end face of the detection groove, a rotating lead screw is rotatably matched with the wall body between the bevel gear transmission groove and the sliding grooves, the rotating lead screw is positioned in the sliding grooves and is connected with a sliding block in a threaded manner, a pressure limiting groove is formed in the sliding block and is connected with a pressure limiting block in a sliding manner, a limiting spring is connected between the pressure limiting block and the sliding block, the sliding block at the rear side is provided with one side of the oil pipe in a horizontal manner, a sliding chute is formed in the pressure, the rotary screw rod rotates to enable the front sliding block and the rear sliding block to be close to each other, and the extrusion fixed pressure is maintained under the action of the limiting spring, so that chemical substances in the waste batteries are uniformly mixed, the waste batteries are recharged, the lower side of the inspection groove is communicated with the screening cavity, a processing device is arranged in the screening cavity, the processing device comprises a collecting groove in the left side of the screening cavity, a connecting channel is communicated between the collecting groove and the screening cavity, the screening cavity is communicated with the outer side of the right end of the detection machine body, a discharge channel is communicated between the screening cavity and the outer side of the right end of the detection machine body, the charged waste batteries fall out through the discharge channel, and the batteries completely without power fall into.

2. The apparatus for detecting the reusability of waste batteries according to claim 1, wherein: the extrusion device also comprises a bevel gear meshing groove pulled on the right side of the rotating cavity, wherein the left side of the rotating cavity is provided with the meshing groove, the left side of the meshing groove is provided with a belt wheel groove, a wall body between the bevel gear meshing groove and the belt wheel groove is penetrated through and matched with a driving shaft in a rotating manner, the driving shaft is positioned in the rotating cavity and fixedly connected with a rotating wheel, the rotating wheel is internally provided with a connecting groove, the rotating cavity is positioned in the meshing groove and is connected with a rotating gear in a spline manner, the rotating gear is internally provided with an annular through groove, the annular through groove is connected with a piston push rod in a sliding manner, the piston push rod is rotatably connected with the annular through groove, the right wall of the meshing groove is provided with the other side of the oil pipe in the horizontal direction, the wall body between the driving shaft and the meshing groove is connected with a connecting spring, the left wall of the meshing groove, the transmission shaft extends leftwards to the tail end of the left side of the meshing groove and is in power connection with a transmission motor embedded in the wall body of the detection machine body, a translation groove communicated with the detection groove is formed in the lower side of the bevel gear meshing groove, a rotating half gear is in rotating fit with the wall body between the bevel gear meshing groove and the translation groove, a transmission bevel gear is fixedly connected with the driving shaft in the bevel gear meshing groove, the rotating half gear is fixedly connected with a connecting half bevel gear meshed with the transmission bevel gear in the bevel gear meshing groove, a fit torsion spring is connected between the rotating half gear and the bottom wall of the bevel gear meshing groove, a rotating gear is fixedly connected with the rotating half gear in the translation groove, a transmission rack meshed with the rotating gear is connected in the translation groove in a sliding mode, and the horizontal part on one side of an oil pipe is communicated with the, and a piston connecting rod is connected in the oil pipe in a sliding manner, a fitting spring is connected between the piston connecting rod and the left wall of the translation groove, and a connecting shaft is rotationally matched with the right wall of the pulley groove.

3. The apparatus for detecting the reusability of waste batteries according to claim 1, wherein: the extruding device also comprises sliding grooves symmetrically communicated with the left side and the right side of the inner wall of the detection groove, the sliding grooves are symmetrically provided with gear meshing grooves around the central end surface of the detection groove, the left side of the gear meshing grooves is provided with matching grooves, the left side of the matching grooves is provided with transmission grooves, a wall body between the transmission grooves and the bevel gear transmission grooves is rotationally matched with a matching shaft positioned at the rear side of the connecting shaft, the right wall at the front side of the connecting shaft is rotationally matched with a butting shaft, the connecting shaft and the butting shaft are positioned in the matching grooves and are in belt transmission connection, the matching shaft is positioned in the bevel gear transmission grooves at the rear side and is fixedly connected with a spline at the rear side, the butting shaft is positioned in the bevel gear transmission grooves at the front side and is fixedly connected with the bevel gear at the front side, a ring connection groove is arranged in the spline bevel gear, the left wall of the bevel gear transmission grooves is provided with a, the oil pipe is connected with a piston ejector rod in a sliding mode, the piston ejector rod is connected with the annular connecting groove in a rotating mode, the sliding groove is located in the bevel gear transmission groove, the piston ejector rod can be fixedly connected with a rotating bevel gear meshed with the spline bevel gear, a connecting torsion spring is connected between the rotating screw rod and the wall body of the bevel gear transmission groove, the gear meshing groove is in rotating fit with the wall body between the sliding grooves, a connecting screw rod is connected with the connecting shaft, the connecting screw rod is located in the gear meshing groove and is connected through a gear pair, a threaded block is connected with the inner threads of the sliding groove, a butting groove is formed in the threaded block, and the butting groove is connected with a detection block.

4. The apparatus for detecting the reusability of waste batteries according to claim 1, wherein: the processing device further comprises an electric push rod fixedly installed on the bottom wall of the screening cavity, and a screening block fixedly connected to the upper side of the electric push rod, wherein a screening spring located on the right side of the electric push rod is connected between the screening block and the bottom wall of the screening cavity.