CN111014061A - Automatic factory-qualification detection device for lithium battery of mobile phone - Google Patents
Automatic factory-qualification detection device for lithium battery of mobile phone Download PDFInfo
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- CN111014061A CN111014061A CN201911375651.8A CN201911375651A CN111014061A CN 111014061 A CN111014061 A CN 111014061A CN 201911375651 A CN201911375651 A CN 201911375651A CN 111014061 A CN111014061 A CN 111014061A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/02—Measures preceding sorting, e.g. arranging articles in a stream orientating
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/34—Sorting according to other particular properties
- B07C5/344—Sorting according to other particular properties according to electric or electromagnetic properties
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
- B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
- B07C5/36—Sorting apparatus characterised by the means used for distribution
- B07C5/361—Processing or control devices therefor, e.g. escort memory
- B07C5/362—Separating or distributor mechanisms
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The invention discloses an automatic factory-delivery qualification detection device for a lithium battery of a mobile phone, which comprises a detection box, a conveying cavity with a left opening and a downward opening is arranged in the detection box, a sliding block is arranged in the conveying cavity, the left side of the sliding block is provided with a clamping device which can clamp the lithium battery when the sliding block moves downwards, and controls the lithium battery to rotate rightwards when the sliding block moves rightwards, the right side of the conveying cavity is communicated with a storage cavity, the lithium battery current detection device comprises a storage cavity, a detection sleeve and a current connection block, wherein the detection sleeve is arranged on the inner wall of the storage cavity in a sliding mode from left to right, and the current connection block which can be used for detecting whether the current release of the lithium battery is qualified or not is fixedly arranged on the left side surface of the detection sleeve.
Description
Technical Field
The invention relates to the technical field of lithium batteries, in particular to an automatic factory qualification detection device for a lithium battery of a mobile phone.
Background
At present, with the rapid development of science and technology, the ordinary battery is difficult to support the equipment power continuation at the present stage, the lithium battery is taken as a novel energy loading device, and the lithium battery is widely applied to various electric power product equipment, wherein there is a mobile phone carrier, on the market, the accident of mobile phone lithium battery explosion happens occasionally, one of the reasons is that the lithium battery is when leaving the factory, the current release of the lithium battery is unstable, but is not detected, the drawback of manual detection is that, in a large amount of labor time, certain detection error can be generated certainly, in order to avoid the problem, it is necessary to design an automatic detection device, which can automatically detect unqualified lithium batteries, and classify the unqualified lithium batteries.
Disclosure of Invention
The invention aims to provide an automatic factory qualification detection device for a lithium battery of a mobile phone, which is used for overcoming the defects in the prior art.
The automatic factory eligibility detection device for the lithium battery of the mobile phone comprises a detection box, a conveying cavity with a left opening and a downward opening is arranged in the detection box, a sliding block is arranged in the conveying cavity, the left side of the sliding block is provided with a clamping mechanism which can clamp the lithium battery when the sliding block moves downwards and control the lithium battery to rotate rightwards when the sliding block moves rightwards, the right side of the conveying cavity is communicated with a storage cavity, a detection sleeve is arranged on the inner wall of the storage cavity in a left-right sliding mode, a current connecting block which can be used for detecting whether the current of the lithium battery is qualified or not is fixedly arranged on the left side measuring surface of the detection sleeve, a power cavity is arranged on the rear side of the conveying cavity, a transmission mechanism which can control the sliding block to move in a rectangular mode is arranged in the conveying cavity and the power cavity, and the transmission mechanism which can control the detection sleeve, the lithium battery.
According to a further technical scheme, the clamping mechanism comprises two clamping blocks and a transmission block which are symmetrical up and down, clamping cavities are formed in the two clamping blocks close to each other, cushions are fixedly arranged on the inner walls of the clamping cavities, lithium batteries can be placed between the two clamping cavities, a supporting block is fixedly arranged on the right side face of each clamping block, a screw cavity with a left opening is arranged in the transmission block, first screws are rotatably arranged on the upper wall and the lower wall of the screw cavity, the two first screws are fixedly connected with each other and are opposite in thread, the supporting block is in threaded connection with the first screws, a square cavity is formed in the lower side of the screw cavity, a short shaft is rotatably arranged on the rear wall of the square cavity, a first bevel gear is fixedly arranged on the periphery of the short shaft, the downward extending part of the first screw positioned on the lower side extends into the square cavity, and a second bevel gear is fixedly arranged on the bottom face of the short, the second bevel gear is meshed with the first bevel gear, the backward extending part of the short shaft extends into the conveying cavity, a driven wheel is fixedly arranged on the bottom surface of the short shaft, the right side of the transmission block is provided, a fixed shaft is fixedly arranged between the upper wall and the lower wall, a transmission wheel is fixedly arranged on the periphery of the fixed shaft, the sliding block is rotatably arranged on the periphery of the fixed shaft, a first rack and a second rack are fixedly arranged on the rear wall of the conveying cavity, the first rack can be meshed with the driven wheel, and the second rack can be meshed with the transmission wheel.
According to a further technical scheme, the transmission mechanism comprises a first motor fixedly arranged on the bottom wall of the power cavity, a motor shaft is arranged on the front side of the first motor in a power connection mode, a transmission shaft and a rotating shaft are rotatably arranged on the front wall of the power cavity, first pulleys are fixedly arranged on the peripheries of the transmission shaft and the motor shaft, a first belt is arranged between the two first pulleys in a transmission connection mode, a wheel disc is fixedly arranged on the periphery of the transmission shaft, a contact block is fixedly arranged on the periphery of the wheel disc, a first controller is fixedly arranged on the top wall of the power cavity, an induction block is electrically connected to the left side of the first controller, a second motor is fixedly arranged on the bottom surface of the first controller, the second motor is electrically connected with the first controller, a power shaft is fixedly arranged on the right side of the second motor in a power connection mode, and a third bevel gear is fixedly arranged on the right side surface of the power shaft, and a fourth bevel gear is fixedly arranged on the periphery of the rotating shaft and meshed with the third bevel gear, the sensing block can be contacted with the contact block, and the first controller can control the first controller to operate when the sensing block is contacted with the contact block.
According to the technical scheme, the forward extending portion of the transmission shaft extends into the conveying cavity, a rotary sleeve is fixedly arranged on the front side face of the transmission shaft, a sliding cavity is formed in the rotary sleeve, a hinge rod is slidably arranged on the inner wall of the sliding cavity, the extending portion of the hinge rod is hinged to the rear side face of the sliding block, a spring is fixedly arranged between the right side face of the hinge rod and the right wall of the sliding cavity, two fixed blocks which are bilaterally symmetrical are fixedly arranged on the upper wall and the lower wall of the conveying cavity, a first sliding rod is fixedly arranged between the two fixed blocks which are bilaterally symmetrical, moving blocks are slidably arranged on the periphery of the first sliding rod, a second sliding rod is fixedly arranged between the two moving blocks, and the second sliding rod penetrates through the inner wall of the sliding block and is in sliding connection with the.
According to the technical scheme, the upper side of the storage cavity is communicated with a gear cavity, the forward extending part of the rotating shaft extends into the gear cavity, a gear is fixedly arranged on the periphery of the rotating shaft, the top surface of the detection sleeve is provided with teeth, and the gear is meshed with the top surface of the detection sleeve.
According to the technical scheme, the detection sleeve is internally provided with an annular conducting layer, a conducting block is fixedly embedded in the inner wall of the detection sleeve and is electrically connected with the annular conducting layer, the bottom surface of the conducting block is communicated with the storage cavity, a vertical conducting layer is arranged between the current detector and the storage cavity, and the vertical conducting layer is electrically connected with the conducting block.
A further technical scheme, detection mechanism is including setting firmly detect the third motor on the chamber diapire, the upside electric connection of third motor is equipped with the second controller, the second controller with current detector electric connection, third motor right side power connection is equipped with the cross axle, it is equipped with the swivel nut to rotate on the right wall of depositing the chamber, the swivel nut with all set firmly the second band pulley in the periphery of cross axle, deposit the chamber with it is equipped with logical chamber, two to detect the intercommunication between the chamber the transmission connection is equipped with the second belt between the second band pulley, the second screw rod with swivel nut threaded connection.
The invention has the beneficial effects that: the lithium battery current detection device can automatically detect whether the current release of the lithium battery is qualified or not, only the lithium battery needs to be manually installed and the device needs to be started, so that the manual labor is greatly reduced, errors caused by manual detection can be effectively reduced, the device is strong in linkage, high in transmission efficiency and lower in cost, the lithium battery can be clamped by the clamping mechanism and can be driven to rotate in the vertical direction, the sliding block can be driven by the transmission mechanism to do rectangular motion, the detection sleeve can be pushed out when the lithium battery moves to the right side, the detection mechanism can detect whether the current is qualified or not, and the lithium battery can be directly pushed down when the current is unqualified, so that the lithium battery is.
Drawings
FIG. 1 is a schematic view of the overall internal structure of the present invention;
FIG. 2 is a schematic view of the internal structure of the power chamber of the present invention;
FIG. 3 is a schematic view of the internal structure of the clamping mechanism of the present invention;
FIG. 4 is a schematic view of the internal structure of the detecting sleeve of the present invention.
Detailed Description
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.
Referring to fig. 1-4, an automatic factory eligibility detecting device for a lithium battery of a mobile phone according to an embodiment of the present invention includes a detecting box 11, a conveying cavity 40 having a left opening and a right opening is disposed in the detecting box 11, a sliding block 21 is disposed in the conveying cavity 40, a left side of the sliding block 21 is disposed with a clamping mechanism 101 capable of clamping the lithium battery 61 when the sliding block 21 moves downward and controlling the lithium battery 61 to rotate rightward when the sliding block 21 moves rightward, a storage cavity 28 is disposed on a right side of the conveying cavity 40 in a communicating manner, a detecting sleeve 27 is slidably disposed on an inner wall of the storage cavity 28 in a left-right direction, a current connecting block 74 capable of detecting whether current release of the lithium battery 61 is qualified is fixedly disposed on a left side of the detecting sleeve 27, a power cavity 49 is disposed on a rear side of the conveying cavity 40, and rectangular movement of the sliding block 21 is controllable in the conveying, and when the slide block 21 moves rightwards, the transmission mechanism 102 is used for simultaneously controlling the detection sleeve 27 to move leftwards, a detection cavity 34 is formed in the lower side of the storage cavity 28, a current detector 35 is fixedly arranged on the left wall of the detection cavity 34, the current detector 35 can receive current conducted by the current connecting block 74 and transmit qualified electric signals, a moving cavity 57 is communicated with the right side of the detection sleeve 27, a rectangular block 56 is arranged on the inner wall of the moving cavity 57 in a left-right sliding mode, a second screw 31 is fixedly arranged on the left side face of the rectangular block 56, and a detection mechanism 103 is arranged in the detection cavity 34 and used for controlling the second screw 31 to move leftwards when the current detector 35 detects unqualified current, so that the detection sleeve 27 is pushed to push the lithium battery 61 leftwards.
In addition, in one embodiment, the clamping mechanism 101 includes two clamping blocks 58 and a transmission block 68 which are symmetrical up and down, a clamping cavity 60 is formed on each of the two clamping blocks 58 close to each other, a cushion 59 is fixedly arranged on the inner wall of the clamping cavity 60, the lithium battery 61 can be placed between the two clamping cavities 60, a supporting block 63 is fixedly arranged on the right side surface of the clamping block 58, a screw cavity 64 with a leftward opening is formed in the transmission block 68, first screws 65 are rotatably arranged on the upper and lower walls of the screw cavity 64, the two first screws 65 are fixedly connected with each other and have opposite threads, the supporting block 63 is in threaded connection with the first screws 65, a square cavity 69 is formed on the lower side of the screw cavity 64, a short shaft 71 is rotatably arranged on the rear wall of the square cavity 69, a first bevel gear 70 is fixedly arranged on the outer periphery of the short shaft 71, and the downward extending portion of the first screw 65 on the lower side extends into the square cavity 69, a second bevel gear 73 is fixedly arranged on the bottom surface of the conveying cavity 40, the second bevel gear 73 is meshed with the first bevel gear 70, the backward extending part of the short shaft 71 extends into the conveying cavity 40, a driven wheel 72 is fixedly arranged on the bottom surface of the short shaft, 8878 is arranged on the right side of the transmission block 68, a fixed shaft 66 is fixedly arranged between the upper wall and the lower wall of the 8878, a transmission wheel 67 is fixedly arranged on the periphery of the fixed shaft 66, the sliding block 21 is rotatably arranged on the periphery of the fixed shaft 66, a first rack 19 and a second rack 23 are fixedly arranged on the rear wall of the conveying cavity 40, the first rack 19 can be meshed with the driven wheel 72, the second rack 23 can be meshed with the transmission wheel 67, when the sliding block 21 moves downwards, the first rack 19 is meshed with the driven wheel 72, so that the short shaft 71 can drive the first screw rod 65 to rotate, and then the two supporting blocks 63 can drive the clamping blocks 58 to mutually close, the lithium battery 61 can be clamped in the clamping cavity 60, when the sliding block 21 moves rightwards, the driving wheel 67 is meshed with the second rack 23, the fixed shaft 66 can drive the driving block 68 to rotate rightwards, and the clamping block 58 can drive the lithium battery 61 to rotate rightwards.
In addition, in one embodiment, the transmission mechanism 102 includes a first motor 48 fixed on the bottom wall of the power cavity 49, a motor shaft 47 is connected to the front side of the first motor 48, a transmission shaft 45 and a rotation shaft 26 are rotatably arranged on the front wall of the power cavity 49, first pulleys 44 are fixed on the peripheries of the transmission shaft 45 and the motor shaft 47, a first belt 46 is connected between the two first pulleys 44, a wheel disc 43 is fixed on the periphery of the transmission shaft 45, a contact block 42 is fixed on the periphery of the wheel disc 43, a first controller 51 is fixed on the top wall of the power cavity 49, an induction block 50 is arranged on the left side of the first controller 51 in an electrically connected manner, a second motor 52 is fixed on the bottom surface of the first controller 51, the second motor 52 is electrically connected with the first controller 51, a power shaft 53 is connected to the right side of the second motor 52, a third bevel gear 54 is fixedly arranged on the right side surface of the power shaft 53, a fourth bevel gear 55 is fixedly arranged on the periphery of the rotating shaft 26, the fourth bevel gear 55 is meshed with the third bevel gear 54, the sensing block 50 can be contacted with the contact block 42, and when the contact is made, the first controller 51 can control the first controller 51 to operate, the motor shaft 47 can drive the transmission shaft 45 to rotate through the operation of the first motor 48, and then the contact block 42 can rotate anticlockwise, so that the contact block 42 can be contacted with the sensing block 50, further the second motor 52 can operate, and the power shaft 53 can drive the rotating shaft 26 to rotate.
In addition, in one embodiment, a forward extending portion of the transmission shaft 45 extends into the conveying cavity 40, a rotary sleeve 16 is fixedly arranged on a front side surface of the transmission shaft, a sliding cavity 17 is formed in the rotary sleeve 16, a hinge rod 15 is slidably arranged on an inner wall of the sliding cavity 17, an extending portion of the hinge rod 15 is hinged with a rear side surface of the sliding block 21, a spring 18 is fixedly arranged between a right side surface of the hinge rod 15 and a right wall of the sliding cavity 17, two fixed blocks 12 which are bilaterally symmetrical are fixedly arranged on an upper and lower wall of the conveying cavity 40, a first sliding rod 14 is fixedly arranged between the two fixed blocks 12 which are bilaterally symmetrical, moving blocks 13 are slidably arranged on a periphery of the first sliding rod 14, a second sliding rod 20 is fixedly arranged between the two moving blocks 13, the second sliding rod 20 penetrates through the inner wall of the sliding block 21 and is slidably connected with the sliding block 21, and by rotation of the transmission shaft 45, the rotating sleeve 16 can drive the hinge rod 15 to rotate, and then the sliding block 21 can make a rectangular movement.
In addition, in an embodiment, the upper side of the storage cavity 28 is communicated with a gear cavity 24, a forward extending portion of the rotating shaft 26 extends into the gear cavity 24, a gear 25 is fixedly arranged on the periphery of the rotating shaft 26, the top surface of the detection sleeve 27 is provided with teeth, the gear 25 is engaged with the top surface of the detection sleeve 27, the gear 25 can drive the detection sleeve 27 to move leftwards through the rotation of the rotating shaft 26, and the current connection block 74 can be electrically connected with the lithium battery 61.
In addition, in an embodiment, an annular conductive layer 76 is disposed in the detection sleeve 27, a conductive block 77 is fixedly embedded in the inner wall of the detection sleeve 27, the conductive block 77 is electrically connected to the annular conductive layer 76, the bottom surface of the conductive block 77 is communicated with the storage cavity 28, a vertical conductive layer 39 is disposed between the current detector 35 and the storage cavity 28, the vertical conductive layer 39 is electrically connected to the conductive block 77, and the current of the lithium battery 61 can be led into the current detector 35 through the annular conductive layer 76, the conductive block 77 and the vertical conductive layer 39.
In addition, in one embodiment, the detection mechanism 103 includes a third motor 38 fixed on the bottom wall of the detection cavity 34, a second controller 36 is electrically connected to the upper side of the third motor 38, the second controller 36 is electrically connected to the current detector 35, a transverse shaft 37 is connected to the right side of the third motor 38 in a power connection manner, a threaded sleeve 30 is rotatably arranged on the right wall of the storage cavity 28, second pulleys 29 are fixed on the peripheries of the threaded sleeve 30 and the transverse shaft 37, a through cavity 32 is communicated between the storage cavity 28 and the detection cavity 34, a second belt 33 is arranged between the two second pulleys 29 in a transmission connection manner, the second screw 31 is in threaded connection with the threaded sleeve 30, when the current detector 35 detects that the current output of the lithium battery 61 is not appropriate, the second controller 36 can control the third motor 38 to operate, and then the cross shaft 37 can drive the screw sleeve 30 to rotate, so that the second screw 31 can drive the detection sleeve 27 to move leftwards, and then the detection sleeve 27 can drive the lithium battery 61 to fall downwards.
In the initial state, the clamping block 58 is located outside, the sliding block 21 is located on the left upper side, the supporting block 63 is in a left-right horizontal state, the contact block 42 is not in contact with the induction block 50, the detection sleeve 27 is located in the storage cavity 28, and the second screw 31 is located on the rightmost side of the moving cavity 57.
When the sliding block 21 moves downwards, the first rack 19 is meshed with the driven wheel 72, so that the short shaft 71 drives the first screw rod 65 to rotate, and then the two supporting blocks 63 drive the clamping blocks 58 to approach each other, so that the lithium battery 61 is clamped in the clamping cavity 60, when the sliding block 21 moves rightwards, the transmission wheel 67 is meshed with the second rack 23, so that the fixed shaft 66 drives the transmission block 68 to rotate rightwards, so that the clamping block 58 drives the lithium battery 61 to rotate rightwards, through the operation of the first motor 48, the motor shaft 47 drives the transmission shaft 45 to rotate, so that the contact block 42 rotates anticlockwise, so that the contact block 42 is contacted with the induction block 50, and further the second motor 52 operates, so that the power shaft 53 drives the rotating shaft 26 to rotate, through the rotation of the transmission shaft 45, the rotating sleeve 16 drives the hinge rod 15 to rotate, so that the sliding block 21 moves rectangularly, through the rotation of rotation axis 26, can make gear 25 drive detection cover 27 and move left, and then can make current connecting block 74 and lithium cell 61 electric connection, through annular conducting layer 76, conducting block 77 and vertical conducting layer 39, can make the leading-in current detector 35 of electric current of lithium cell 61 in, when current detector 35 detects lithium cell 61 current output is improper, the steerable third motor 38 of second controller 36 operates, and then can make cross axle 37 drive swivel nut 30 and rotate, then can make second screw rod 31 drive detection cover 27 and move left, then can make detection cover 27 promote lithium cell 61 and drop downwards.
The invention has the beneficial effects that: the lithium battery current detection device can automatically detect whether the current release of the lithium battery is qualified or not, only the lithium battery needs to be manually installed and the device needs to be started, so that the manual labor is greatly reduced, errors caused by manual detection can be effectively reduced, the device is strong in linkage, high in transmission efficiency and lower in cost, the lithium battery can be clamped by the clamping mechanism and can be driven to rotate in the vertical direction, the sliding block can be driven by the transmission mechanism to do rectangular motion, the detection sleeve can be pushed out when the lithium battery moves to the right side, the detection mechanism can detect whether the current is qualified or not, and the lithium battery can be directly pushed down when the current is unqualified, so that the lithium battery is.
It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.
Claims (7)
1. The utility model provides a cell-phone lithium cell automatic checkout device that dispatches from factory, includes the detection case, its characterized in that: a conveying cavity with a left opening and a downward opening is formed in the detection box, a sliding block is arranged in the conveying cavity, the left side of the sliding block is provided with a clamping mechanism capable of clamping the lithium battery when the sliding block moves downwards and controlling the lithium battery to rotate rightwards when the sliding block moves rightwards, the right side of the conveying cavity is communicated with a storage cavity, a detection sleeve is arranged on the inner wall of the storage cavity in a left-right sliding mode, a current connecting block capable of detecting whether the current of the lithium battery is qualified or not is fixedly arranged on the left measuring surface of the detection sleeve, a power cavity is formed in the rear side of the conveying cavity, a transmission mechanism capable of controlling the sliding block to move in a rectangular mode is arranged in the conveying cavity and the power cavity, and when the sliding block moves rightwards, a transmission mechanism capable;
the lithium battery.
2. The automatic factory-eligibility detection device for the lithium battery of the mobile phone according to claim 1, wherein: the clamping mechanism comprises two clamping blocks and a transmission block which are symmetrical up and down, clamping cavities are formed in the two clamping blocks close to each other, cushions are fixedly arranged on the inner walls of the clamping cavities, lithium batteries can be placed between the two clamping cavities, a supporting block is fixedly arranged on the right side face of each clamping block, a screw cavity with a left opening is formed in the transmission block, first screws are rotatably arranged on the upper wall and the lower wall of the screw cavity, the two first screws are fixedly connected with each other and are opposite in thread, the supporting block is in threaded connection with the first screws, a square cavity is formed in the lower side of the screw cavity, a short shaft is rotatably arranged on the rear wall of the square cavity, a first bevel gear is fixedly arranged on the periphery of the short shaft, the downward extending part of the first screw at the lower side extends into the square cavity, a second bevel gear is fixedly arranged on the bottom face of the square cavity, and is meshed with the first bevel gear, the rear extension part of the short shaft extends into the conveying cavity, a driven wheel is fixedly arranged on the bottom surface of the rear extension part, the right side of the transmission block is arranged, a fixed shaft is fixedly arranged between the upper wall and the lower wall, a transmission wheel is fixedly arranged on the periphery of the fixed shaft, the sliding block is rotatably arranged on the periphery of the fixed shaft, a first rack and a second rack are fixedly arranged on the rear wall of the conveying cavity, the first rack can be meshed with the driven wheel, and the second rack can be meshed with the transmission wheel.
3. The automatic factory-qualification testing device for the lithium battery of the mobile phone according to claim 2, characterized in that: the transmission mechanism comprises a first motor fixedly arranged on the bottom wall of the power cavity, a motor shaft is arranged on the front side of the first motor in a power connection mode, a transmission shaft and a rotating shaft are arranged on the front wall of the power cavity in a rotating mode, first pulleys are fixedly arranged on the peripheries of the transmission shaft and the motor shaft, a first belt is arranged between the two first pulleys in a transmission connection mode, a wheel disc is fixedly arranged on the periphery of the transmission shaft, a contact block is fixedly arranged on the periphery of the wheel disc, a first controller is fixedly arranged on the top wall of the power cavity, an induction block is electrically connected to the left side of the first controller, a second motor is fixedly arranged on the bottom surface of the first controller and electrically connected with the first controller, a power shaft is fixedly arranged on the right side of the second motor in a power connection mode, a third bevel gear is fixedly arranged on the right side of the power shaft, and a fourth bevel gear is fixedly arranged on the periphery of the rotating shaft, the fourth bevel gear is meshed with the third bevel gear, the sensing block is contactable with the contact block, and when the sensing block is contacted with the contact block, the first controller can control the first controller to operate.
4. The automatic factory-qualification testing device for the lithium battery of the mobile phone according to claim 3, characterized in that: the transmission shaft extends forwards to the inside of the conveying cavity, a rotary sleeve is fixedly arranged on the front side face of the transmission shaft, a sliding cavity is formed in the rotary sleeve, a hinge rod is arranged on the inner wall of the sliding cavity in a sliding mode, the extending portion of the hinge rod is hinged to the rear side face of the sliding block, a spring is fixedly arranged between the right side face of the hinge rod and the right wall of the sliding cavity, two fixing blocks which are bilaterally symmetrical are fixedly arranged on the upper wall and the lower wall of the conveying cavity, a first sliding rod is fixedly arranged between the two fixing blocks which are bilaterally symmetrical, moving blocks are arranged on the periphery of the first sliding rod in a sliding mode, a second sliding rod is fixedly arranged between the two moving blocks, and the second sliding rod penetrates through the inner wall of the sliding block and is.
5. The automatic factory-qualification testing device for the lithium battery of the mobile phone according to claim 3, characterized in that: the upper side of the storage cavity is communicated with a gear cavity, the forward extending part of the rotating shaft extends into the gear cavity, a gear is fixedly arranged on the periphery of the rotating shaft, the top surface of the detection sleeve is provided with teeth, and the gear is meshed with the top surface of the detection sleeve.
6. The automatic factory-eligibility detection device for the lithium battery of the mobile phone according to claim 1, wherein: the detection sleeve is internally provided with an annular conducting layer, a conducting block is fixedly embedded in the inner wall of the detection sleeve and electrically connected with the annular conducting layer, the bottom surface of the conducting block is communicated with the storage cavity, the current detector is connected with the storage cavity through a vertical conducting layer, and the vertical conducting layer is electrically connected with the conducting block.
7. The automatic factory-eligibility detection device for the lithium battery of the mobile phone according to claim 1, wherein: detection mechanism is including setting firmly detect the third motor on the chamber diapire, the upside electric connection of third motor is equipped with the second controller, the second controller with current detector electric connection, third motor right side power connection is equipped with the cross axle, it is equipped with the swivel nut to rotate on the right wall of depositing the chamber, the swivel nut with all set firmly the second band pulley in the periphery of cross axle, deposit the chamber with it is equipped with logical chamber, two to detect the intercommunication between the chamber the transmission is connected and is equipped with the second belt between the second band pulley, the second screw rod with swivel nut threaded connection.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911375651.8A CN111014061B (en) | 2019-12-27 | 2019-12-27 | Automatic factory-qualification detection device for lithium battery of mobile phone |
| JP2020083032A JP2021108276A (en) | 2019-12-27 | 2020-05-11 | Automatic inspection device of lithium battery performance for mobile phone at shipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911375651.8A CN111014061B (en) | 2019-12-27 | 2019-12-27 | Automatic factory-qualification detection device for lithium battery of mobile phone |
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| Publication Number | Publication Date |
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| CN111014061A true CN111014061A (en) | 2020-04-17 |
| CN111014061B CN111014061B (en) | 2020-11-13 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201911375651.8A Active CN111014061B (en) | 2019-12-27 | 2019-12-27 | Automatic factory-qualification detection device for lithium battery of mobile phone |
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| JP (1) | JP2021108276A (en) |
| CN (1) | CN111014061B (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN114355196A (en) * | 2022-01-21 | 2022-04-15 | 烟台工程职业技术学院(烟台市技师学院) | Electronic equipment lithium battery conduction testing device |
| CN114951030A (en) * | 2022-06-08 | 2022-08-30 | 合肥工业大学智能制造技术研究院 | Be applied to surface defect detection device of lithium cell |
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| JP2021108276A (en) | 2021-07-29 |
| CN111014061B (en) | 2020-11-13 |
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