CN111659628A

CN111659628A - Waste manganese dioxide battery power-containing battery detection and recovery equipment

Info

Publication number: CN111659628A
Application number: CN202010564955.5A
Authority: CN
Inventors: 揭佳和
Original assignee: Yongkangpozhang Lithium Battery Technology Co ltd
Current assignee: Yongkangpozhang Lithium Battery Technology Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-09-15
Also published as: GB202015359D0

Abstract

The invention discloses a device for detecting and recycling batteries containing electric quantity of waste manganese dioxide batteries, which comprises a machine body, wherein a conveying cavity is arranged in the machine body, a detection cavity with a downward opening is arranged in the upper inner wall of the conveying cavity, a battery continuous conveying mechanism for continuously conveying the batteries to be detected is arranged in the conveying cavity, a battery active removing mechanism for removing the waste batteries also containing electric quantity is also arranged in the conveying cavity, a battery content detecting mechanism for detecting the electric quantity of the waste batteries is arranged in the detection cavity, the device can continuously detect the electric quantity of a large number of manganese dioxide batteries, has higher detection efficiency, improves the detection accuracy by being provided with three groups of electric quantity detecting mechanisms, avoids the phenomenon of omission detection, can actively remove and intensively collect the batteries with certain electric quantity in the detection process, and can separately collect the waste batteries without electric quantity, for later disposal of the discarded batteries.

Description

Waste manganese dioxide battery power-containing battery detection and recovery equipment

Technical Field

The invention relates to the field of batteries, in particular to a device for detecting and recovering a battery with electric quantity of a waste manganese dioxide battery.

Background

The manganese dioxide battery is a widely used novel battery, is often used in remote controllers of various electric appliances and toys for children, and when the used manganese dioxide battery is discarded, residual batteries in the battery are not used up.

At present, when the battery content in the manganese dioxide battery is detected, the detection is generally performed manually by using an ammeter, and when the number of batteries to be detected is large, a large amount of manpower is required, and the detection efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing a device for detecting and recycling the electric quantity-containing battery of a waste manganese dioxide battery, solving the problems of low detection efficiency, incapability of separating and collecting according to a detection result and the like, improving the detection efficiency and increasing the function of incapability of separating and collecting according to the detection result.

The invention is realized by the following technical scheme.

The invention discloses a detection and recovery device for a waste manganese dioxide battery containing electric quantity battery, which comprises a machine body, wherein a conveying cavity is arranged in the machine body, a detection cavity with a downward opening is arranged in the upper inner wall of the conveying cavity, a battery continuous conveying mechanism for continuously conveying the battery to be detected is arranged in the conveying cavity, a battery active removing mechanism for removing the waste battery also containing electric quantity is also arranged in the conveying cavity, and an electric quantity detection mechanism for detecting the electric quantity of the waste battery is arranged in the detection cavity; the battery active picking mechanism comprises a first fixed block fixed on the rear inner wall of the conveying cavity, a picking cavity with an upward opening is arranged in the first fixed block, a push plate cavity with a forward opening is arranged in the rear inner wall of the picking cavity, a push block capable of moving back and forth is arranged in the push plate cavity, a connecting spring is connected between the rear end face of the push block and the rear inner wall of the push plate cavity, one end of a rope is connected with the rear end face of the push block, a clamping groove with a downward opening is arranged at the lower end of the rear end of the push block, a clamping block cavity with an upward opening is arranged on the lower inner wall of the push plate cavity, a clamping block cavity capable of moving up and down is arranged in the clamping block cavity, a telescopic spring is connected between the lower end face of the clamping block cavity and the lower inner wall of the clamping block cavity, a pressing block cavity with a forward opening is arranged on the rear inner wall of the lower end of the picking cavity, the inside first collection chamber that is equipped with the opening ascending of picking out intracavity lower wall, be equipped with the export of intercommunication external space in the inner wall before the first collection chamber, the fixed plate that is equipped with of first fixed block up end, the push pedal chamber with briquetting chamber and its inner structure equidistance are equipped with three groups and all are located pick out intracavity rear wall, first fixed block up end is fixed with the fixed plate, it is three to be equipped with three in the fixed plate respectively push pedal chamber upside and the downward intercommunication chamber of opening, the intercommunication intracavity is equipped with the lower conducting block that can up-and-down motion down, down the conducting block up end about both ends with be connected with two tension springs, it is three down to communicate between the intracavity upper inner wall.

Further, the continuous battery conveying mechanism comprises a driving cavity positioned at the rear side of the conveying cavity, a motor is arranged in the rear inner wall at the left end of the driving cavity, the front end of the motor is in power connection with a driving shaft, a sector gear is arranged on the driving shaft, a first driving conveying shaft is rotatably arranged between the rear inner wall at the left end of the driving cavity and the front inner wall of the conveying cavity, a first driven driving wheel is rotatably arranged between the front inner wall and the rear inner wall at the right end of the conveying cavity, a first driving conveying wheel positioned in the conveying cavity is arranged on the first driving conveying shaft, a first driven driving wheel is arranged on the first driven driving wheel, a first conveying belt is in transmission connection between the first driven driving wheel and the first driving conveying wheel, sixteen limit holes are equidistantly arranged on the first conveying belt, and a feeding channel communicated with the external space is arranged on the upper inner wall at the right end, the battery-saving device is characterized in that a battery-saving device to be detected is arranged in the feeding channel, a second collecting cavity is arranged at the left end in the machine body, a through hole communicated with the conveying cavity is formed in the right inner wall of the upper end of the second collecting cavity, and a material taking port communicated with the external space is formed in the left inner wall of the lower end of the second collecting cavity.

Further, the electric quantity detection mechanism comprises an intermediate shaft rotating on the front and rear inner walls of the left end of the driving cavity, a rotating gear meshed with the sector gear is arranged at the rear end of the intermediate shaft, an intermediate chain wheel is arranged at the front end of the intermediate shaft, a lower chain wheel positioned in the driving cavity is arranged at the rear end of the first driving transmission shaft, a second driving transmission shaft rotates between the rear inner wall of the left upper end of the driving cavity and the front inner wall of the detection cavity, an upper chain wheel positioned in the driving cavity is arranged at the rear end of the second driving transmission shaft, the upper chain wheel, the intermediate chain wheel and the lower chain wheel are in transmission connection with a same chain, a second driving transmission wheel positioned in the detection cavity is arranged at the front end of the second driving transmission shaft, a second driven transmission shaft rotates on the front and rear inner walls of the right end of the detection cavity, and a second driven transmission wheel is arranged on the, the transmission is connected with the second drive belt between second driven drive wheel and the second initiative drive wheel, second drive belt inner circle is equipped with can electrically conductive inner circle, the equidistance is equipped with ten on the second drive belt and goes up the intercommunication chamber, it is equipped with the last conducting block that can up-and-down motion to go up the intercommunication intracavity, go up the conducting block up end with go up and be connected with two extension springs between the intercommunication intracavity upper inner wall, be equipped with the intercommunication on the electrically conductive inner circle the through hole in last intercommunication chamber, go up the conducting block with electrically connected with the wire between the electrically conductive inner circle.

Further, the fixed second fixed block that is equipped with on the inner wall around the detection chamber, be equipped with the transmission chamber in the second fixed block, be equipped with the motor in the inner wall of transmission chamber left side, motor right-hand member power is connected with the driving shaft, spline sliding connection is equipped with three sliding gear on the driving shaft, still be equipped with three on the driving shaft and be located threely respectively the commentaries on classics board on sliding gear right side, every change board left end face respectively with every be connected with two reset spring between the sliding gear right-hand member face, it just is located threely respectively to be equipped with three ability up-and-down motion in the transmission chamber the left movable plate of sliding gear, terminal surface under the movable plate with be connected with elasticity spring under the transmission chamber between the inner wall, terminal surface.

Further, be equipped with three on the inner wall around the transmission chamber and be located threely respectively the fixed casing on commentaries on classics board right side, be equipped with logical magnetism chamber in the fixed casing, the fixed electro-magnet that is equipped with of logical magnetism intracavity right-hand member, the electro-magnet right-hand member with electrically conductive inner circle between the electricity be connected with the circular telegram line, logical magnetism intracavity left end is equipped with the magnet that can the side-to-side motion, magnet left end face with be connected with elastic spring between the logical magnetism chamber left side inner wall, magnet left end face is fixed with the ejector pin.

The invention has the beneficial effects that: the device can continuously detect the content of electricity in a large number of manganese dioxide batteries, has high detection efficiency, improves the accuracy of detection by being provided with three groups of electricity quantity detection mechanisms, avoids the phenomenon of missed detection, can actively reject and collect the batteries with certain electricity quantity in the detection process, and can separately collect the discarded batteries without the electricity quantity so as to treat the discarded batteries at the later stage.

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.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, 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.

The battery detection and recovery device for the electric quantity of the waste manganese dioxide battery, which is described in conjunction with the attached drawings 1-4, comprises a machine body 10, wherein a conveying cavity 35 is arranged in the machine body 10, a detection cavity 13 with a downward opening is arranged in the upper inner wall of the conveying cavity 35, a battery continuous conveying mechanism 86 for continuously conveying the battery to be detected is arranged in the conveying cavity 35, a battery active removing mechanism 88 for removing the waste battery with electric quantity is also arranged in the conveying cavity 35, an electric quantity detection mechanism 87 for detecting the electric quantity of the waste battery is arranged in the detection cavity 13, the battery active removing mechanism 88 comprises a first fixed block 22 fixed on the rear inner wall of the conveying cavity 35, a removing cavity 23 with an upward opening is arranged in the first fixed block 22, a push plate cavity 70 with a forward opening is arranged in the rear inner wall of the removing cavity 23, a push block 24 capable of moving back and forth is arranged in the push plate cavity 70, a connecting spring 69 is connected between the rear end face of the push block 24 and the rear inner wall of the push plate cavity 70, the rear end face of the push block 24 is connected with one end of a rope 46, a clamping groove 71 with a downward opening is arranged at the lower end of the rear end of the push block 24, a clamping block cavity 66 with an upward opening is arranged on the lower inner wall of the push plate cavity 70, a clamping block cavity 68 capable of moving up and down is arranged in the clamping block cavity 66, a telescopic spring 67 is connected between the lower end face of the clamping block cavity 68 and the lower inner wall of the clamping block cavity 66, a pressing block cavity 27 with a forward opening is arranged on the rear inner wall of the lower end of the picking cavity 23, a pressing block 25 capable of moving up and down is arranged in the pressing block cavity 27, a pressure spring 63 is connected between the lower end face of the pressing block 25 and the lower inner wall of the pressing block cavity 27, a first collecting cavity 74 with an upward opening is, fixed plate 28 that is equipped with of first fixed block 22 up end, push away board chamber 70 with briquetting chamber 27 and its inner structure equidistance are equipped with three groups and all are located pick out in 23 back inner walls in chamber, first fixed block 22 up end is fixed with fixed plate 28, it is three respectively to be equipped with in the fixed plate 28 push away board chamber 70 upside and opening decurrent lower intercommunication chamber 32, be equipped with the lower conducting block 31 that can up-and-down motion in the intercommunication chamber 32 down, both ends about the conducting block 31 up end down with be connected with two tension spring 33, three down between the intercommunication chamber 32 upper inner wall down communicate the chamber 32 upper inner wall all open.

Advantageously, the continuous battery conveying mechanism 86 includes a driving chamber 84 located at the rear side of the conveying chamber 35, a motor 78 is disposed in the rear inner wall of the left end of the driving chamber 84, a driving shaft 77 is dynamically connected to the front end of the motor 78, a sector gear 76 is disposed on the driving shaft 77, a first driving conveying shaft 38 is rotatably disposed between the rear inner wall of the left end of the driving chamber 84 and the front inner wall of the conveying chamber 35, a first driven transmission wheel 20 is rotatably disposed between the front inner wall and the rear inner wall of the right end of the conveying chamber 35, a first driving conveying wheel 37 disposed in the conveying chamber 35 is disposed on the first driving conveying shaft 38, a first driven transmission wheel 21 is disposed on the first driven transmission wheel 20, a first conveying belt 29 is drivingly connected between the first driven transmission wheel 21 and the first driving conveying wheel 37, sixteen limit holes 34 are equidistantly disposed on the first conveying belt 29, the upper inner wall at the right end of the conveying cavity 35 is provided with a feeding channel 18 communicated with the external space, a battery 19 to be detected is arranged in the feeding channel 18, the left end in the machine body 10 is provided with a second collecting cavity 40, the right inner wall at the upper end of the second collecting cavity 40 is provided with a through hole 39 communicated with the conveying cavity 35, and the left inner wall at the lower end of the second collecting cavity 40 is provided with a material taking port 36 communicated with the external space.

Advantageously, the electric quantity detecting mechanism 87 comprises an intermediate shaft 80 rotating on the front and rear inner walls of the left end of the driving chamber 84, the rear end of the intermediate shaft 80 is provided with a rotating gear 81 engaged with the sector gear 76, the front end of the intermediate shaft 80 is provided with an intermediate chain wheel 82, the rear end of the first driving transmission shaft 38 is provided with a lower chain wheel 75 positioned in the driving chamber 84, a second driving transmission shaft 12 rotates between the rear inner wall of the left upper end of the driving chamber 84 and the front inner wall of the detecting chamber 13, the rear end of the second driving transmission shaft 12 is provided with an upper chain wheel 83 positioned in the driving chamber 84, the upper chain wheel 83 is in transmission connection with the intermediate chain wheel 82 and the lower chain wheel 75, the front end of the second driving transmission shaft 12 is provided with a second driving transmission wheel 11 positioned in the detecting chamber 13, and the front and rear inner walls of the right end of the detecting chamber 13 are provided with a second driven transmission shaft 17, the second driven transmission shaft 17 is provided with a second driven transmission wheel 16, a second transmission belt 14 is in transmission connection between the second driven transmission wheel 16 and the second driving transmission wheel 11, an electrically conductive inner ring 58 capable of conducting electricity is arranged on the inner ring of the second transmission belt 14, ten upper communication cavities 59 are equidistantly arranged on the second transmission belt 14, an upper conductive block 62 capable of moving up and down is arranged in each upper communication cavity 59, two extension springs 61 are connected between the upper end surface of each upper conductive block 62 and the upper inner wall of each upper communication cavity 59, a through hole 60 communicated with the upper communication cavity 59 is arranged on each conductive inner ring 58, and a lead 41 is electrically connected between each upper conductive block 62 and the corresponding electrically conductive inner ring 58.

Beneficially, the front and rear inner walls of the detection cavity 13 are fixedly provided with second fixed blocks 15, the second fixed blocks 15 are internally provided with transmission cavities 53, a motor 44 is arranged in the left inner wall of the transmission cavity 53, the right end of the motor 44 is in power connection with a driving shaft 56, the driving shaft 56 is provided with three sliding gears 43 in spline sliding connection, the driving shaft 56 is also provided with three rotating plates 57 respectively positioned at the right sides of the three sliding gears 43, two return springs 42 are respectively connected between the left end surface of each rotating plate 57 and the right end surface of each sliding gear 43, three moving plates 47 which can move up and down and are respectively positioned at the left sides of the three sliding gears 43 are arranged in the transmission cavity 53, an elastic spring 45 is connected between the lower end face of the moving plate 47 and the lower inner wall of the transmission cavity 53, and the lower end face of the moving plate 47 is connected with the other end of the rope 46.

Beneficially, the front inner wall and the rear inner wall of the transmission cavity 53 are provided with three fixed shells 52 respectively located on the right sides of the three rotating plates 57, a magnetic cavity 55 is arranged in each fixed shell 52, an electromagnet 54 is fixedly arranged at the right end in each magnetic cavity 55, an electrified wire 90 is electrically connected between the right end of each electromagnet 54 and the corresponding conductive inner ring 58, a magnet 51 capable of moving left and right is arranged at the left end in each magnetic cavity 55, an elastic spring 50 is connected between the left end face of each magnet 51 and the left inner wall of each magnetic cavity 55, and a push rod 49 is fixed on the left end face of each magnet 51.

In an initial state, the magnet 51 is located on the left side of the electromagnet 54 under the action of the elastic spring 50 and is in a non-contact state with the electromagnet 54, the sliding gear 43 is located on the right side of the rack 48 under the action of the return spring 42 and is in a non-meshing state with the rack 48, the pressing block 25 is located at the upper end of the pressing block cavity 27 under the supporting action of the pressure spring 63, the pulling rope 65 is in a loose state, the pressing block cavity 68 is located in the clamping groove 71, and the pushing block 24 is located in the pushing block cavity 70.

Waste battery saving 19 is put into the feeding channel 18, the battery saving 19 at the lowest side is positioned in a limit hole 34 in the first transmission belt 29, the motor 78 is started, the motor 78 works to drive the driving shaft 77 to rotate, so as to drive the sector gear 76 to rotate, the sector gear 76 intermittently drives the rotating gear 81 meshed with the sector gear to rotate, the rotating gear 81 rotates to drive the middle shaft 80 and the middle chain wheel 82 on the middle shaft 80 to rotate, the middle chain wheel 82 rotates to drive the upper chain wheel 83 and the lower chain wheel 75 which are in transmission connection with the middle shaft through the same chain 79 to rotate, so as to drive the second driving transmission shaft 12 and the first driving transmission shaft 38 to intermittently rotate, so as to drive the second driving transmission wheel 11 and the first driving transmission wheel 37 to intermittently rotate, and finally drive the first transmission belt 29 and the second transmission belt 14 to intermittently rotate, the first transmission belt 29 rotates to drive one battery saving 19 in the limit hole 34 to move leftwards, when the first conveyor belt 29 moves leftwards to the lower end and contacts with the lower conductive block 31 and the upper end and contacts with the upper conductive block 62, if the battery 19 is a battery with a certain amount of electricity, the electromagnet 54 is powered through the lower conductive block 31, the wire 30, the upper conductive block 62, the lead 41 and the conductive inner ring 58 in the battery 19, the electromagnet 54 is magnetized after being powered, the magnet 51 and the electromagnet 54 repel each other in the same polarity, the magnet 51 moves leftwards and drives the ejector rod 49 to move leftwards, the sliding gear 43 moves leftwards under the pushing action of the ejector rod 49 and is meshed with the rack 48, the motor 44 is started, the motor 44 works to drive the driving shaft 56 and the three sliding gears 43 on the driving shaft 56 to rotate, the sliding gear 43 rotates to drive the rack 48 meshed with the sliding gear to move downwards and loosen the conductive rope 46, the rack 48 moves downwards to push the upper conductive block 62, the battery 19 and the lower conductive block 31 to, when the lower conductive block 31 moves downwards to press the press block 25 downwards, the pull rope 65 and the fixture block cavity 68 are tensioned, the fixture block cavity 68 moves downwards to leave from the fixture groove 71, the push block 24 moves forwards under the action of the elastic force of the connecting spring 69 after losing the tensile force of the rope 46 to push the battery 19 on the lower conductive block 31 forwards, so that the battery 19 with the detected electric quantity is pushed into the first collection cavity 74 to be collected, at the moment, the electromagnet 54 is powered off and loses magnetism, the magnet 51 and the ejector rod 49 move rightwards to reset under the tensile force of the elastic spring 50, the sliding gear 43 moves rightwards to reset under the tensile force of the reset spring 42, the rack 48 moves upwards to reset under the tensile force of the elastic spring 45, the rope 46 is tensioned again, the push block 24 moves backwards to reset under the tensile force of the rope 46, the fixture block cavity 68 enters the fixture groove 71 again, and the classified collection of the battery 19 with the electric quantity is completed, the three groups of mechanisms for detecting the electric quantity of the battery pack 19 can prevent the condition of missing detection, thereby improving the accuracy of detection; the uncharged battery 19 continues to be transported to the left and finally falls into the second collecting chamber 40 to be collected.

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 abandonment manganese dioxide battery contains electric quantity battery detection recovery plant, includes the fuselage, its characterized in that: a conveying cavity is arranged in the machine body, a detection cavity with a downward opening is arranged in the upper inner wall of the conveying cavity, a battery continuous transmission mechanism for continuously conveying a battery to be detected is arranged in the conveying cavity, a battery active removing mechanism for removing a waste battery with electric quantity is also arranged in the conveying cavity, and a power-containing detection mechanism for detecting the electric quantity of the waste battery is arranged in the detection cavity; the battery active picking mechanism comprises a first fixed block fixed on the rear inner wall of the conveying cavity, a picking cavity with an upward opening is arranged in the first fixed block, a push plate cavity with a forward opening is arranged in the rear inner wall of the picking cavity, a push block capable of moving back and forth is arranged in the push plate cavity, a connecting spring is connected between the rear end face of the push block and the rear inner wall of the push plate cavity, one end of a rope is connected with the rear end face of the push block, a clamping groove with a downward opening is arranged at the lower end of the rear end of the push block, a clamping block cavity with an upward opening is arranged on the lower inner wall of the push plate cavity, a clamping block cavity capable of moving up and down is arranged in the clamping block cavity, a telescopic spring is connected between the lower end face of the clamping block cavity and the lower inner wall of the clamping block cavity, a pressing block cavity with a forward opening is arranged on the rear inner wall of the lower end of the picking cavity, the inside first collection chamber that is equipped with the opening ascending of picking out intracavity lower wall, be equipped with the export of intercommunication external space in the inner wall before the first collection chamber, the fixed plate that is equipped with of first fixed block up end, the push pedal chamber with briquetting chamber and its inner structure equidistance are equipped with three groups and all are located pick out intracavity rear wall, first fixed block up end is fixed with the fixed plate, it is three to be equipped with three in the fixed plate respectively push pedal chamber upside and the downward intercommunication chamber of opening, the intercommunication intracavity is equipped with the lower conducting block that can up-and-down motion down, down the conducting block up end about both ends with be connected with two tension springs, it is three down to communicate between the intracavity upper inner wall.

2. The device for detecting and recycling the battery with electric quantity of the waste manganese dioxide battery according to claim 1, is characterized in that: the continuous battery conveying mechanism comprises a driving cavity positioned at the rear side of the conveying cavity, a motor is arranged in the rear inner wall of the left end of the driving cavity, the front end of the motor is in power connection with a driving shaft, a sector gear is arranged on the driving shaft, a first driving conveying shaft is rotatably arranged between the rear inner wall of the left end of the driving cavity and the front inner wall of the conveying cavity, a first driven driving wheel is rotatably arranged between the front inner wall and the rear inner wall of the right end of the conveying cavity, a first driving conveying wheel positioned in the conveying cavity is arranged on the first driving conveying shaft, a first driven driving wheel is arranged on the first driven driving wheel, a first conveying belt is in transmission connection between the first driven driving wheel and the first driving conveying wheel, sixteen limiting holes are equidistantly formed in the first conveying belt, a feeding channel communicated with the external space is formed in the upper inner wall of the right end of the conveying cavity, and a power-, the left end is equipped with the second in the fuselage and collects the chamber, be equipped with the intercommunication in the right inner wall of second collection chamber upper end the through-hole in conveying chamber, be equipped with the material taking mouth that communicates external space in the left inner wall of second collection chamber lower extreme.

3. The device for detecting and recycling the battery with electric quantity of the waste manganese dioxide battery according to claim 1, is characterized in that: the electric quantity detection mechanism comprises an intermediate shaft rotating on the front and rear inner walls at the left end of the driving cavity, a rotating gear meshed with the sector gear is arranged at the rear end of the intermediate shaft, an intermediate chain wheel is arranged at the front end of the intermediate shaft, a lower chain wheel positioned in the driving cavity is arranged at the rear end of the first driving transmission shaft, a second driving transmission shaft rotates between the rear inner wall at the left upper end of the driving cavity and the front inner wall of the detection cavity, an upper chain wheel positioned in the driving cavity is arranged at the rear end of the second driving transmission shaft, the upper chain wheel, the intermediate chain wheel and the lower chain wheel are in transmission connection with a same chain, a second driving transmission wheel positioned in the detection cavity is arranged at the front end of the second driving transmission shaft, a second driven transmission shaft rotates on the front and rear inner walls at the right end of the detection cavity, and a second driven transmission wheel is arranged, the transmission is connected with the second drive belt between second driven drive wheel and the second initiative drive wheel, second drive belt inner circle is equipped with can electrically conductive inner circle, the equidistance is equipped with ten on the second drive belt and goes up the intercommunication chamber, it is equipped with the last conducting block that can up-and-down motion to go up the intercommunication intracavity, go up the conducting block up end with go up and be connected with two extension springs between the intercommunication intracavity upper inner wall, be equipped with the intercommunication on the electrically conductive inner circle the through hole in last intercommunication chamber, go up the conducting block with electrically connected with the wire between the electrically conductive inner circle.

4. The device for detecting and recycling the battery with electric quantity of the waste manganese dioxide battery according to claim 2, is characterized in that: fixed second fixed block that is equipped with on the inner wall around the detection chamber, be equipped with the transmission chamber in the second fixed block, be equipped with the motor in the inner wall of transmission chamber left side, motor right-hand member power is connected with the driving shaft, spline sliding connection is equipped with three sliding gear on the driving shaft, it is three still to be equipped with three respectively to be located on the driving shaft the commentaries on classics board on sliding gear right side, every change board left end face respectively with every be connected with two reset spring between the sliding gear right-hand member face, it just is located threely respectively to be equipped with three ability up-and-down motion in the transmission chamber the left movable plate of sliding gear, terminal surface under the movable plate with be connected with elasticity spring under the transmission chamber between the inner wall.

5. The device for detecting and recycling the battery with electric quantity of the waste manganese dioxide battery according to claim 3, is characterized in that: be equipped with three on the inner wall around the transmission chamber and be located threely respectively the fixed casing on commentaries on classics board right side, be equipped with logical magnetism chamber in the fixed casing, the fixed electro-magnet that is equipped with of logical magnetism intracavity right-hand member, the electro-magnet right-hand member with electrically conductive inner circle between the electricity be connected with circular telegram line, logical magnetism intracavity left end is equipped with the magnet that can the side-to-side motion, magnet left end face with be connected with elastic spring between the logical magnetism chamber left side inner wall, magnet left end face is fixed with the ejector pin.