阅读说明：本技术 一种废旧蓄电池电解液倾倒装置 (Waste storage battery electrolyte dumping device ) 是由 王宏雯 于 2021-01-08 设计创作，主要内容包括：本发明公开了一种废旧蓄电池电解液倾倒装置,包括主体,所述主体内设有工作腔,所述工作腔内设有传送组件,所述传送组件包括与所述工作腔后端壁转动安装的四个形成矩形的传送轴,左上侧所述传送轴后侧动力连接有与所述工作腔后端壁固定安装的电机,所述传送轴上固定安装有通过链条连接的链轮,将废旧蓄电池放置在进料槽内,蓄电池夹具夹紧蓄电池,夹具运动至下侧时切割组件将蓄电池从中间切开,两侧夹具反向转动打开,蓄电池内的电解液流至电解液腔内收集,夹具运动至右侧时松开蓄电池,拍打板拍打蓄电池将蓄电池拍下落至蓄电池腔内收集。(The invention discloses a waste storage battery electrolyte dumping device which comprises a main body, wherein a working cavity is arranged in the main body, a conveying assembly is arranged in the working cavity, the conveying assembly comprises four conveying shafts which are rotatably installed with the rear end wall of the working cavity and form a rectangle, the rear side of the conveying shaft at the upper left side is in power connection with a motor fixedly installed with the rear end wall of the working cavity, chain wheels connected through chains are fixedly installed on the conveying shafts, waste storage batteries are placed in a feeding groove, storage battery clamps clamp the storage batteries, the storage batteries are cut off from the middle by a cutting assembly when the clamps move to the lower side, the clamps at the two sides rotate reversely and are opened, electrolyte in the storage batteries flows into the electrolyte cavity to be collected, the storage batteries are loosened when the clamps move to the right side, and the storage batteries are beaten and dropped into.)

1. The utility model provides a device is emptyd to old and useless battery electrolyte, includes the main part, its characterized in that: the conveying assembly comprises four conveying shafts which are rotatably arranged on the rear end wall of the working cavity and form a rectangle, the rear side of the conveying shaft at the upper left side is in power connection with a motor fixedly arranged on the rear end wall of the working cavity, a chain wheel connected through a chain is fixedly arranged on the conveying shaft, four first conveying blocks are fixedly arranged on the chain at equal distances, the first conveying blocks are far away from the chain side and are fixedly provided with a clamp box, a clamp assembly is arranged in the clamp box and comprises two clamp rotating shafts which are symmetrically and rotatably arranged on the rear end wall of the clamp box, a clamp rotating rod with a clamping groove in the middle is fixedly arranged on the clamp rotating shaft, four side end walls of the clamping groove are provided with four clamp sliding grooves which take the center of the clamping groove as a symmetric center, and a sliding clamp rod connected with the clamp sliding grooves through a clamp spring is arranged in the clamp sliding grooves, the fixture sliding rod is fixedly provided with a clamping block close to the clamping groove side, the fixture sliding rod is provided with a first positive magnet far away from the clamping groove side, the lower side of the working cavity is communicated with and provided with a cutting sliding cavity, a cutting assembly is arranged in the cutting sliding cavity and comprises a cutting sliding box which is arranged in the cutting sliding cavity in a left-right sliding mode and is connected with the left end wall of the cutting sliding cavity through a cutting spring, a cutting lifting cavity with the upper side communicated with the working cavity is arranged in the cutting sliding box, the left end wall of the cutting lifting cavity is provided with a cutting lifting box with a through hole at the upper side in an up-down sliding mode, the right end wall of the cutting lifting box is rotatably provided with a cutting rotating shaft, a cutting knife which extends upwards through the through hole is fixedly arranged on the cutting rotating shaft, a cutting transmission cavity is arranged at the lower side of the cutting lifting cavity, and a cam rotating shaft which, the cutting lift intracavity be equipped with cam axis of rotation fixed mounting's the space cam that contains the spacing groove, cutting lift case right side fixed mounting have with spacing groove sliding fit's stopper, the working chamber left and right sides is equipped with the business turn over material subassembly.

2. The device for pouring out the electrolyte of waste accumulators according to claim 1, characterized in that: the anchor clamps subassembly still include with the anchor clamps sliding tray is kept away from four ejector pad sliding tray that press from both sides groove side intercommunication and communicate each other, it is equipped with the inclined plane ejector pad through inclined plane sliding fit each other to slide in the ejector pad sliding tray, the inclined plane ejector pad is close to press from both sides the groove side be equipped with can with first anodal magnet repulsion's second anodal magnet keeps away from the chain side keeping away from of ejector pad sliding tray press from both sides groove side intercommunication and is equipped with the forked tail sliding tray, slide in the forked tail sliding tray and be equipped with and correspond inclined plane ejector pad fixed connection and with the forked tail sliding tray passes through reset spring and connects's forked tail sliding block, forked tail sliding tray one side fixed mounting has the electro-magnet, the forked tail sliding block is close to electro-magnet side fixed mounting have can with electro-magnet complex iron plate.

3. The device for pouring out the electrolyte of waste accumulators according to claim 2, characterized in that: the anchor clamps subassembly still include with the anchor clamps case is close to the anchor clamps transmission shaft that chain side end wall rotated the installation, the anchor clamps transmission shaft is close to chain side fixed mounting has the anchor clamps gear, anchor clamps transmission shaft and anticlockwise side the anchor clamps axis of rotation is located the anchor clamps case is through a set of bevel gear pair transmission, two the anchor clamps axis of rotation is located the anchor clamps case is through a set of cross belt pulley transmission, working chamber rear end wall fixed mounting has and is located the chain downside and can with anchor clamps gear engagement's first rack, working chamber front end wall fixed mounting has and is located the chain upside and can with anchor clamps gear engagement's second rack.

4. The device for pouring out the electrolyte of waste accumulators according to claim 3, characterized in that: cutting assembly still include with cutting transmission chamber upper end wall rotates the installation and upwards extends to the cutting transmission shaft in cutting lift chamber, cutting lift intracavity be equipped with the cutting integral key shaft of cutting transmission shaft through cutting spline muffjoint, the cutting integral key shaft with the cutting axis of rotation is located the cutting lift case is connected through a set of bevel gear pair transmission, the cutting transmission shaft with the cam axis of rotation is located the cutting transmission chamber is connected through a set of belt pulley transmission, cam axis of rotation downside fixed mounting has and is located the cutting gear of cutting slip case downside, cutting slip chamber rear end wall fixed mounting have can with cutting gear engagement's third rack.

5. The device for pouring out the electrolyte of waste accumulators according to claim 4, characterized in that: the cutting assembly further comprises a fixed pushing block fixedly mounted at the upper end of the right side of the cutting sliding box, four second conveying blocks located on one side of the first conveying block in the anticlockwise direction are fixedly mounted at equal distances on the chain, a telescopic groove is formed in each second conveying block, a telescopic rod connected with each second conveying block through a telescopic spring is slidably arranged in each telescopic groove, and a trapezoidal block capable of being in sliding fit with the telescopic rod is fixedly mounted at the rear end wall of the working cavity.

6. The device for pouring out the electrolyte of waste accumulators according to claim 5, characterized in that: the feeding and discharging assembly comprises an electrolyte cavity which is communicated with the lower end wall of the working cavity and is positioned on the right side of the cutting sliding cavity, the lower end wall of the working cavity is communicated with a storage battery cavity positioned on the right side of the electrolyte cavity, the left side of the working cavity is communicated with a feeding cavity, the rear end wall of the feeding cavity is rotatably provided with a feeding rotating shaft which is connected with the front end wall of the feeding cavity through a torsion spring, a feeding plate containing a battery groove is fixedly arranged on the feeding rotating shaft, a discharging cavity is communicated with the right side of the working cavity, a discharging rotating shaft is rotatably arranged on the rear end wall of the discharging cavity, a discharging cam is fixedly arranged on the discharging rotating shaft, the wall of ejection of compact chamber right side slide be equipped with the end wall passes through ejection of compact spring coupling under the ejection of compact chamber and extends to the play flitch of working chamber, ejection of compact axis of rotation and upper right side the conveying axle is connected through a set of belt pulley transmission.

Technical Field

The invention relates to the technical field of waste battery treatment, in particular to a waste storage battery electrolyte dumping device.

Background

A battery is a device that converts chemical energy directly into electrical energy, and is a battery designed to be rechargeable, by reversible chemical reactions. The storage battery contains electrolyte, when the waste storage battery is recycled, the storage battery shell needs to be broken or broken, the electrolyte solution flows out and then is collected, but the storage battery is broken or broken, so that the situation that the electrolyte in the storage battery completely flows out of the storage battery shell is difficult to ensure, and the subsequent treatment work of the waste storage battery is influenced.

Disclosure of Invention

Aiming at the technical defects, the invention provides a waste storage battery electrolyte dumping device which can overcome the defects.

The invention relates to a waste storage battery electrolyte dumping device which comprises a main body, wherein a working cavity is arranged in the main body, a conveying assembly is arranged in the working cavity, the conveying assembly comprises four conveying shafts which are rotatably arranged on the rear end wall of the working cavity and form a rectangle, the rear side of the conveying shaft on the upper left side is in power connection with a motor fixedly arranged on the rear end wall of the working cavity, a chain wheel connected with the conveying shaft through a chain is fixedly arranged on the conveying shaft, four first conveying blocks are fixedly arranged on the chain at equal intervals, a clamp box is fixedly arranged on the first conveying block far away from the chain, a clamp assembly is arranged in the clamp box and comprises two clamp rotating shafts which are symmetrically and rotatably arranged on the rear end wall of the clamp box, a clamp rotating rod with a clamping groove in the middle is fixedly arranged on the clamp rotating shafts, and four side end walls of the clamping groove are provided with four clamp sliding grooves which take the center of the, a clamp sliding rod which is connected with the clamp sliding groove through a clamp spring and slides in the clamp sliding groove, a clamping block is fixedly installed on the side, close to the clamping groove, of the clamp sliding rod, a first positive magnet is arranged on the side, far away from the clamping groove, of the clamp sliding rod, a cutting sliding cavity is communicated with the lower side of the working cavity, a cutting assembly is arranged in the cutting sliding cavity, the cutting assembly comprises a cutting sliding box which is installed in the cutting sliding cavity in a left-right sliding mode and is connected with the left end wall of the cutting sliding cavity through a cutting spring, a cutting lifting cavity with the upper side communicated with the working cavity is arranged in the cutting sliding box, a cutting lifting box with a through hole on the upper side is arranged on the left end wall of the cutting lifting cavity in a vertical sliding mode, a cutting rotating shaft is installed on the right end wall of the cutting lifting box in a rotating, cutting lift chamber downside is equipped with cutting transmission chamber, cutting lift chamber lower extreme wall rotates and installs downwardly extending the cam axis of rotation in cutting transmission chamber, cutting lift intracavity be equipped with cam axis of rotation fixed mounting's the space cam that contains the spacing groove, cutting lift case right side fixed mounting have with spacing groove sliding fit's stopper, the working chamber left and right sides is equipped with the business turn over material subassembly.

Preferably, the anchor clamps subassembly still include with the anchor clamps sliding tray is kept away from four ejector pad sliding tray that press from both sides groove side intercommunication and communicate each other, it is equipped with the inclined plane ejector pad through inclined plane sliding fit each other to slide in the ejector pad sliding tray, the inclined plane ejector pad is close to press from both sides the groove side be equipped with can with the second anodal magnet that first anodal magnet is repulsive each other keeps away from the chain side keeping away from of ejector pad sliding tray the groove side intercommunication is equipped with the forked tail sliding tray, slide in the forked tail sliding tray be equipped with and correspond inclined plane ejector pad fixed connection and with the forked tail sliding tray passes through reset spring and is connected's forked tail sliding block, forked tail sliding tray one side fixed mounting has the electro-magnet, the forked tail is close to electro-magnet side fixed mounting have can with electro-magnet complex iron plate.

Preferably, the anchor clamps subassembly still include with the anchor clamps case is close to the anchor clamps transmission shaft that chain side end wall rotated the installation, the anchor clamps transmission shaft is close to chain side fixed mounting has the anchor clamps gear, anchor clamps transmission shaft and anticlockwise side the anchor clamps axis of rotation is located the anchor clamps case is through a set of bevel gear pair transmission, two the anchor clamps axis of rotation is located the anchor clamps case is through a set of belt pulley drive that intersects, working chamber rear end wall fixed mounting has and is located the chain downside and can with anchor clamps gear engagement's first rack, working chamber front end wall fixed mounting have be located the chain upside and can with anchor clamps gear engagement's second rack.

Preferably, the cutting subassembly still include with cutting transmission chamber upper end wall rotates the installation and upwards extends to the cutting transmission shaft in cutting lift chamber, cutting lift intracavity be equipped with the cutting integral key shaft of cutting transmission shaft through cutting spline muffjoint, the cutting integral key shaft with the cutting axis of rotation is located the cutting lift case is connected through a set of bevel gear pair transmission, the cutting transmission shaft with the cam axis of rotation is located the cutting transmission chamber is connected through a set of belt pulley transmission, cam axis of rotation downside fixed mounting has and is located the cutting gear of cutting slip case downside, cutting slip chamber rear end wall fixed mounting have can with cutting gear engagement's third rack.

Preferably, the cutting assembly further comprises a fixed pushing block fixedly mounted at the upper end of the right side of the cutting sliding box, four second conveying blocks located on one side of the first conveying block in the anticlockwise direction are fixedly mounted on the chain at equal distances, a telescopic groove is formed in each second conveying block, a telescopic rod connected with each second conveying block through a telescopic spring is slidably arranged in each telescopic groove, and a trapezoidal block capable of being in sliding fit with the telescopic rod is fixedly mounted at the rear end wall of the working cavity.

Preferably, the feeding and discharging assembly comprises an electrolyte cavity which is communicated with the lower end wall of the working cavity and is positioned at the right side of the cutting sliding cavity, the lower end wall of the working cavity is communicated with a storage battery cavity positioned on the right side of the electrolyte cavity, the left side of the working cavity is communicated with a feeding cavity, the rear end wall of the feeding cavity is rotatably provided with a feeding rotating shaft which is connected with the front end wall of the feeding cavity through a torsion spring, a feeding plate containing a battery groove is fixedly arranged on the feeding rotating shaft, a discharging cavity is communicated with the right side of the working cavity, a discharging rotating shaft is rotatably arranged on the rear end wall of the discharging cavity, a discharging cam is fixedly arranged on the discharging rotating shaft, the wall of ejection of compact chamber right side slide be equipped with the end wall passes through ejection of compact spring coupling under the ejection of compact chamber and extends to the play flitch of working chamber, ejection of compact axis of rotation and upper right side the conveying axle is connected through a set of belt pulley transmission.

The beneficial effects are that: the device simple structure, convenient operation, the device is at the during operation, place waste battery in the feed chute, the tight battery of battery anchor clamps clamp, cutting assembly cuts the battery from the centre under the effect of space cam when anchor clamps move to the downside, both sides anchor clamps antiport is opened, electrolyte in the battery flows to the electrolyte intracavity and collects, loosen the battery when anchor clamps move to the right side, the clapper is patted the battery and is clapped the battery and fall to the battery intracavity and collect, guarantee that electrolyte flows out completely, can not influence battery follow-up processing work.

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 an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure C-C in FIG. 3 according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: 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 electrolyte dumping device for the waste storage battery comprises a main body 10, wherein a working cavity 37 is arranged in the main body 10, a conveying assembly is arranged in the working cavity 37, the conveying assembly comprises four conveying shafts 18 which are rotatably arranged on the rear end wall of the working cavity 37 and form a rectangle, the rear side of the conveying shaft 18 on the left upper side is in power connection with a motor 57 fixedly arranged on the rear end wall of the working cavity 37, a chain wheel 17 connected with the conveying shaft 18 through a chain 11 is fixedly arranged on the conveying shaft 18, four first conveying blocks 33 are fixedly arranged on the chain 11 at equal intervals, a clamp box 32 is fixedly arranged on the side, far away from the chain 11, of each first conveying block 33, a clamp assembly capable of clamping the waste storage battery and rotating is arranged in the clamp box 32, the clamp assembly comprises two clamp rotating shafts 70 which are symmetrically and rotatably arranged on the rear end wall of the clamp box 32, the clamp rotating shaft 70 is fixedly provided with a clamp rotating rod 38 with a clamp groove 69 in the middle, four side end walls of the clamp groove 69 are provided with four clamp sliding grooves 66 with the center of the clamp groove 69 as a symmetrical center, a clamp sliding rod 63 connected with the clamp sliding grooves 66 through a clamp spring 65 slides in the clamp sliding groove 66, a clamp block 64 is fixedly arranged on the side of the clamp sliding rod 63 close to the clamp groove 69, a first positive magnet 67 is arranged on the side of the clamp sliding rod 63 far away from the clamp groove 69, the clamp sliding rod 63 and the clamp block 64 clamp the storage battery when sliding towards the side close to the clamp groove 69, the clamp spring 65 is compressed, the clamp sliding rod 63 and the clamp block 64 loosen the storage battery when sliding towards the side far away from the clamp groove 69, a cutting sliding cavity 22 is communicated with the lower side of the working cavity 37, and a cutting assembly for cutting the waste storage battery from the middle is arranged in the cutting sliding cavity 22, the cutting assembly comprises a cutting sliding box 20 which is arranged in a cutting sliding cavity 22 in a left-right sliding mode and is connected with the left end wall of the cutting sliding cavity 22 through a cutting spring 19, a cutting lifting cavity 40 with the upper side communicated with the working cavity 37 is arranged in the cutting sliding box 20, a cutting lifting box 45 with the upper side containing a through hole 41 is arranged on the left end wall of the cutting lifting cavity 40 in a vertical sliding mode, a cutting rotating shaft 42 is rotatably arranged on the right end wall of the cutting lifting box 45, a cutting knife 39 extending upwards through the through hole 41 is fixedly arranged on the cutting rotating shaft 42, a cutting transmission cavity 49 is arranged on the lower side of the cutting lifting cavity 40, a cam rotating shaft 51 extending downwards to the cutting transmission cavity 49 is rotatably arranged on the lower end wall of the cutting lifting cavity 40, and a space cam 53 containing a limiting groove 54 and fixedly arranged on the cam rotating shaft 51 is arranged in, the right side of the cutting lifting box 45 is fixedly provided with a limiting block 52 in sliding fit with the limiting groove 54, the left side and the right side of the working cavity 37 are provided with feeding and discharging assemblies of waste storage batteries, and the space cam 53 drives the limiting block 52 and the cutting lifting box 45 to slide up and down in the cutting lifting cavity 40.

Beneficially, the clamp assembly further includes four push block sliding grooves 62 communicating with the clamp sliding groove 66 far away from the clamp groove 69 and communicating with each other, inclined push blocks 68 sliding fitted with each other through inclined surfaces are slidably disposed in the push block sliding grooves 62, the inclined push blocks 68 are disposed near the clamp groove 69 and provided with second positive magnets 71 capable of repelling with the first positive magnets 67, the push block sliding grooves 62 far away from the chain 11 are communicated with the clamp groove 69 and provided with dovetail sliding grooves 48, dovetail sliding grooves 48 are slidably disposed therein and provided with dovetail blocks 72 fixedly connected with the corresponding inclined push blocks 68 and connected with the dovetail sliding grooves 48 through return springs 73, an electromagnet 43 is fixedly mounted on one side of the dovetail sliding grooves 48, an iron block 31 capable of fitting with the electromagnet 43 is fixedly mounted on the side of the dovetail sliding blocks 72 near the electromagnet 43, when electro-magnet 43 does not switch on reset spring 73 is in normal tension state, second positive magnet 71 with first positive magnet 67 does not cooperate, anchor clamps slide bar 63 the clamp splice 64 is located and keeps away from the double-layered groove 69 side, anchor clamps spring 65 is in normal tension state, adsorb when electro-magnet 43 switches on iron plate 31, reset spring 73 is tensile, thereby drives forked tail sliding block 72 is to being close to the electro-magnet 43 sideslip, thereby drives inclined plane ejector pad 68 is in slide in the ejector pad sliding tray 62, second positive magnet 71 with first positive magnet 67 is repulsive each other, thereby drives anchor clamps slide bar 63 the clamp splice 64 is to being close to the clamp groove 69 moves and sideslips the battery, anchor clamps spring 65 compresses.

Advantageously, the clamp assembly further comprises a clamp transmission shaft 61 rotatably mounted with the clamp box 32 near the side end wall of the chain 11, the clamp transmission shaft 61 is fixedly mounted with a clamp gear 56 near the side of the chain 11, the clamp transmission shaft 61 and the counterclockwise side clamp rotation shaft 70 are located at the clamp box 32 and are driven by a set of bevel gear pairs, two clamp rotation shafts 70 are located at the clamp box 32 and are driven by a set of crossed pulleys, a first rack 23 located at the lower side of the chain 11 and capable of meshing with the clamp gear 56 is fixedly mounted at the rear end wall of the working chamber 37, a second rack 36 located at the upper side of the chain 11 and capable of meshing with the clamp gear 56 is fixedly mounted at the front end wall of the working chamber 37, and when the clamp gear 56 meshes with the first rack 23, the clamp rotation rod 38 is driven to rotate ninety degrees open towards both sides around the clamp rotation shaft 70, the clamp gear 56, when engaged with the second rack 36, drives the clamp rotation lever 38 to rotate ninety degrees inboard about the clamp rotation axis 70.

Advantageously, the cutting assembly further comprises a cutting transmission shaft 47 rotatably mounted on the upper end wall of the cutting transmission cavity 49 and extending upward to the cutting lifting cavity 40, a cutting spline shaft 44 connected with the cutting transmission shaft 47 through a cutting spline sleeve 46 is arranged in the cutting lifting cavity 40, the cutting spline shaft 44 and the cutting rotation shaft 42 are located in the cutting lifting box 45 and are in transmission connection through a set of bevel gear pairs, the cutting transmission shaft 47 and the cam rotation shaft 51 are located in the cutting transmission cavity 49 and are in transmission connection through a set of pulleys, the rotation speed of the cutting transmission shaft 47 is greater than that of the cam rotation shaft 51, a cutting gear 50 located on the lower side of the cutting sliding box 20 is fixedly mounted on the lower side of the cam rotation shaft 51, a third rack 21 capable of meshing with the cutting gear 50 is fixedly mounted on the rear end wall of the cutting sliding cavity 22, when the cutting sliding box 20 slides rightwards, the cutting spring 19 is stretched, and the cutting gear 50 is meshed with the third rack 21, so that the cam rotating shaft 51 is driven to rotate, the space cam 53 is driven to rotate, meanwhile, the cam rotating shaft 51 drives the cutting transmission shaft 47 to rotate, the cutting spline shaft 44 is driven to rotate, the cutting rotating shaft 42 is driven to rotate, and the cutting knife 39 is driven to rotate.

Beneficially, the cutting assembly further includes a fixed push block 55 fixedly mounted on the upper end of the right side of the cutting sliding box 20, four second conveying blocks 35 located on one side of the first conveying block 33 in the counterclockwise direction are fixedly mounted on the chain 11 at equal intervals, a telescopic groove 60 is arranged in the second conveying block 35, a telescopic rod 34 connected with the second conveying block 35 through a telescopic spring 59 is slidably arranged in the telescopic groove 60, a trapezoidal block 58 capable of being slidably matched with the telescopic rod 34 is fixedly mounted on the rear end wall of the working chamber 37, when the second conveying block 35 is located on the lower side of the chain 11, the telescopic rod 34 is in inclined contact with the trapezoidal block 58, the telescopic rod 34 slides to be close to the lower end wall of the working chamber 37, the telescopic spring 59 compresses, and when the telescopic rod 34 abuts against the fixed push block 55, the cutting sliding box 20 is driven to slide rightward, when the telescopic rod 34 is disengaged from the trapezoidal blocks 58, the telescopic rod 34 slides away from the lower end wall side of the working chamber 37 due to the action of the telescopic spring 59, the telescopic rod 34 is disengaged from the fixed push block 55, and the cutting slide box 20 slides to the left due to the action of the cutting spring 19 and is reset.

Beneficially, the feeding and discharging assembly comprises an electrolyte cavity 24 communicated with the lower end wall of the working cavity 37 and located on the right side of the cutting sliding cavity 22, a storage battery cavity 25 located on the right side of the electrolyte cavity 24 is communicated with the lower end wall of the working cavity 37, a feeding cavity 15 is communicated with the left side of the working cavity 37, a feeding rotating shaft 13 connected with the front end wall of the feeding cavity 15 through a torsion spring 14 is rotatably installed on the rear end wall of the feeding cavity 15, a feeding plate 12 containing a battery groove 16 is fixedly installed on the feeding rotating shaft 13, a discharging cavity 29 is communicated with the right side of the working cavity 37, a discharging rotating shaft 28 is rotatably installed on the rear end wall of the discharging cavity 29, a discharging cam 30 is fixedly installed on the discharging rotating shaft 28, the right end wall of the discharging cavity 29 is slidably arranged, is connected with the lower end wall of the discharging cavity 29 through a discharging spring 26 and extends to the discharging plate 27 of, ejection of compact axis of rotation 28 and upper right side conveying axle 18 is connected through a set of belt pulley transmission, the battery place in battery jar 16, anchor clamps case 32 is located when 11 left sides of chain anchor clamps groove 69 from last to overlapping on the battery down and pressing from both sides tight battery, anchor clamps dwang 38 promotes feed plate 12 round feed plate axis of rotation 13 rotates, torsional spring 14 twists reverse, anchor clamps dwang 38 with when feed plate 12 breaks away from feed plate 12 because torsional spring 14 is used for winding feed axis of rotation 13 rotates and resets, ejection of compact axis of rotation 28 rotates and drives ejection of compact cam 30 rotates, thereby drives ejection of compact plate 27 slides from top to bottom, ejection of compact plate 27 beats and is located 11 right sides of chain battery on the anchor clamps case 32 beats the battery and goes into in the battery chamber 25.

In the initial state, the cutting sliding box 20 is located at the leftmost side, the cutting spring 19 is in the normal stretching state, the cutting lifting box 45 and the limiting block 52 are located at the lowermost side, the electromagnet 43 is not electrified, the return spring 73 is in the normal stretching state, the clamp sliding rod 63 and the clamping block 64 are located at the side far away from the center of the clamping groove 69, and the clamp spring 65 is in the normal stretching state.

When the work is started, the storage battery is placed in the battery groove 16, the motor 57 is started, the conveying shaft 18 is driven to rotate anticlockwise, the chain wheel 17 is driven to rotate anticlockwise, the chain 11 drives the first conveying block 33, the second conveying block 35 moves anticlockwise, the clamp groove 69 is sleeved on the storage battery from top to bottom when the clamp box 32 is located on the left side of the chain 11, the electromagnet 43 is electrified to adsorb the iron block 31, the reset spring 73 is stretched, the dovetail sliding block 72 is driven to slide towards the side close to the electromagnet 43, the inclined plane pushing block 68 is driven to slide in the pushing block sliding groove 62, the second positive magnet 71 and the first positive magnet 67 are mutually repelled, the clamp sliding rod 63 is driven, the clamp block 64 slides towards the side close to the clamp groove 69 to clamp the storage battery, the clamp spring 65 is compressed, the clamp rotating rod 38 continues to move to push the feeding plate 12 to rotate around the feeding rotating shaft 13, the torsion spring 14 twists, when the clamp 38 is separated from the feeding plate 12, the When the second conveying block 35 is located at the lower side of the chain 11, the telescopic rod 34 is in inclined surface contact with the trapezoidal block 58, the telescopic rod 34 slides towards the lower end wall of the working chamber 37, the telescopic spring 59 is compressed, the cutting sliding box 20 is driven to slide rightwards when the telescopic rod 34 abuts against the fixed push block 55, the cutting spring 19 is stretched, the cutting gear 50 is meshed with the third rack 21, so that the cam rotating shaft 51 is driven to rotate for a circle, so that the space cam 53 is driven to rotate, the limit block 52 is in sliding fit with the limit groove 54, so that the limit block 52 is driven, the cutting lifting box 45 slides upwards and downwards once in the cutting lifting cavity 40, meanwhile, the cam rotating shaft 51 drives the cutting transmission shaft 47 to rotate, so that the cutting spline shaft 44 is driven to rotate, so that the cutting rotating shaft 42 is driven to rotate, so that the cutting knife 39 is driven to, when the telescopic rod 34 is disengaged from the trapezoidal block 58, the telescopic rod 34 slides towards the lower end wall side away from the working cavity 37 due to the action of the telescopic spring 59, the telescopic rod 34 is disengaged from the fixed pushing block 55, the cutting sliding box 20 resets by sliding leftwards due to the action of the cutting spring 19, the clamp gear 56 positioned on the lower side of the chain 11 is meshed with the first rack 23 to drive the clamp transmission shaft 61 to rotate, thereby driving the two clamp rotation shafts 70 to rotate reversely, thereby driving the clamp rotation shaft 38 to rotate ninety degrees around the clamp rotation shaft 70 towards both sides to open, the electrolyte flows into the electrolyte cavity 24, the upper right side transmission shaft 18 drives the discharge rotation shaft 28 to rotate, thereby driving the discharge cam 30 to rotate, thereby driving the discharge plate 27 to slide up and down, the discharge plate 27 beats the storage battery on the clamp box 32 positioned on the right side of the chain 11, the storage battery cavity 25 is beaten by the storage battery gear 56 positioned on the upper side of the chain 11 is meshed And resetting.

The beneficial effects are that: the device simple structure, convenient operation, the device is at the during operation, place waste battery in the feed chute, the tight battery of battery anchor clamps clamp, cutting assembly cuts the battery from the centre under the effect of space cam when anchor clamps move to the downside, both sides anchor clamps antiport is opened, electrolyte in the battery flows to the electrolyte intracavity and collects, loosen the battery when anchor clamps move to the right side, the clapper is patted the battery and is clapped the battery and fall to the battery intracavity and collect, guarantee that electrolyte flows out completely, can not influence battery follow-up processing work.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.