CN212134023U - Intelligent full-automatic lithium battery drop test platform - Google Patents

Abstract

The utility model provides an intelligent full-automatic lithium battery drop test platform, which comprises a drop test bench and a lithium battery conveying frame which is in butt joint with one side of the drop test bench and is used for conveying lithium batteries; a battery transfer rail is further arranged at the side edge part on the inner side of the drop test board, and a transfer manipulator is arranged on the battery transfer rail; the controller is further arranged in the drop test platform, and the touch control panel is arranged on the front face of the drop test platform; falling the mechanism including falling the stand, being in fall the stand downside and fall the groove and install in fall the removal loading board on the stand, among the practical application process, utilize the transfer manipulator to carry out the position transfer to the lithium cell, shift to the removal loading board that falls the mechanism on, when moving to predetermined height on, utilize the push pedal to release the lithium cell, can accomplish and fall the process, this application structural design is reasonable, and the application effect is outstanding.

Description

Intelligent full-automatic lithium battery drop test platform

[ technical field ]

The utility model relates to a lithium battery test equipment technical field especially relates to a structural design is reasonable, the full-automatic lithium cell drop test platform of intelligence that the application effect is outstanding.

[ background art ]

In recent years, with the continuous development and progress of science and technology, electronic products have been widely popularized and applied, however, the commonly used electronic products generally adopt rechargeable lithium batteries as energy supply, the "lithium batteries" are batteries using lithium metal or lithium alloy as negative electrode material and using non-aqueous electrolyte solution, and substances in waste lithium ion batteries enter the environment to cause heavy metal nickel and cobalt pollution (including arsenic), fluorine pollution, organic matter pollution, dust and acid-base pollution.

In the service environment of lithium cell, the check out test set kind that is used for carrying out the detection to the lithium cell is various, and the function differs, however, current charger detects still to have more weak point, if adjust convenient and fast inadequately, the practicality is not strong, the function is abundant inadequately etc. has brought a lot of inconveniences for actual use.

In order to better solve the above problems, those skilled in the art have made a lot of research and development and experiments, and have improved and improved the specific structure and function of the lithium battery detection device, and have achieved better results.

[ contents of utility model ]

For overcoming the problem that prior art exists, the utility model provides a structural design is reasonable, the full-automatic lithium cell drop test platform of intelligence that the application effect is outstanding.

The utility model provides a solution to the technical problem of providing an intelligent full-automatic lithium battery drop test platform, which comprises a drop test bench and a lithium battery conveying frame which is butted with one side of the drop test bench and is used for conveying lithium batteries; the drop test platform is provided with a plurality of lithium battery test slots, a drop mechanism for completing drop actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail is further arranged at the side edge part on the inner side of the drop test board, and a transfer manipulator is arranged on the battery transfer rail; the controller is further arranged in the drop test platform, and the touch control panel is arranged on the front face of the drop test platform; the falling mechanism comprises a falling upright post, a falling groove positioned on the lower side of the falling upright post and a movable bearing plate arranged on the falling upright post; a bearing plate driving motor for driving the movable bearing plate to move up and down on the falling upright post is further arranged on one side of the falling upright post; the push plate is arranged at the upper part of the movable bearing plate; a driving cylinder for driving the push plate to move back and forth is arranged on the movable bearing plate; the transfer manipulator comprises a sliding block arranged on the battery transfer track, a first support rod arranged on the upper part of the sliding block, a telescopic rod arranged on the first support rod, a second support rod connected with the other end of the telescopic rod opposite to the first support rod, a third support rod connected with the other end of the second support rod opposite to the telescopic rod, and a sucker arranged at the end of the third support rod; a plurality of suckers are distributed on the sucker body in a matrix mode.

Preferably, a wireless transmission unit electrically connected with the controller and used for receiving an external wireless control signal is further arranged in the drop test platform; the wireless transmission unit comprises a Bluetooth module, a 2.4G wireless communication module or a wireless WiFi module.

Preferably, a plurality of cooling fans are distributed at the bottom of the lithium battery storage tank in a matrix manner; and a metal supporting net for separating the heat radiation fan and the lithium battery is arranged at the upper part of the heat radiation fans.

Preferably, a conveying belt and a conveying driving motor for driving the conveying belt to run are arranged on the lithium battery conveying frame.

Preferably, support columns are arranged at four diagonal positions at the bottom of the drop test platform; and a plastic cushion pad is arranged at the root of the support column.

Preferably, a lithium battery detection column used for conducting electrical conduction with a lithium battery to be tested is arranged in the lithium battery test slot; and a transparent protective cover plate is arranged at the upper part of the lithium battery test slot.

Preferably, the signal indicator lamp is arranged outside the test slot of the lithium battery.

Preferably, a first driving motor for driving the sliding block to move on the battery transfer track is arranged in the sliding block, a second driving motor for driving the first supporting rod to axially rotate and a telescopic driving cylinder for driving the telescopic rod to stretch and retract are arranged in the first supporting rod, a third driving motor for driving the second supporting rod to rotate around a connecting shaft with the telescopic rod is arranged at the top of the telescopic rod, and a fourth driving motor for driving the third supporting rod to rotate around the connecting shaft with the second supporting rod is arranged at the end of the second supporting rod; and a fifth driving motor for driving the sucker body to rotate axially is arranged in the second supporting rod.

Compared with the prior art, the intelligent full-automatic lithium battery drop test platform is provided with the drop test bench 11 and the lithium battery conveying frame 12 which is butted with one side of the drop test bench 11 and is used for conveying lithium batteries; the falling test platform 11 is provided with a plurality of lithium battery test slots 112, a falling mechanism for completing falling actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail 141 is further arranged at the side part of the inner side of the drop test platform 11, and a transfer manipulator 14 is arranged on the battery transfer rail 141; a controller is further arranged in the drop test platform 11, and a touch control panel 111 is arranged on the front face of the drop test platform 11; fall the mechanism including falling stand 13, being in fall the drop groove 113 of stand 13 downside and install in fall the removal loading board 131 on the stand 13, and still being provided with and being used for the drive falling stand 13 one side remove loading board 131 and be in fall the loading board driving motor who reciprocates on the stand 13, the practical application in-process utilizes transfer manipulator 14 to carry out the position transfer to the lithium cell, shifts to on falling the removal loading board 131 of mechanism, when moving to predetermined height on, utilizes push pedal 132 to release the lithium cell, can accomplish and fall the process, and this application structural design is reasonable, and the application effect is outstanding.

[ description of the drawings ]

Fig. 1 and fig. 2 are the utility model relates to a full-automatic lithium cell drop test platform's of intelligence three-dimensional state structure schematic diagram.

[ detailed description of the invention ]

To make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, the intelligent full-automatic lithium battery drop test platform 1 of the present invention includes a drop test platform 11 and a lithium battery conveying frame 12 connected to one side of the drop test platform 11 and used for conveying lithium batteries; the falling test platform 11 is provided with a plurality of lithium battery test slots 112, a falling mechanism for completing falling actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail 141 is further arranged at the side part of the inner side of the drop test platform 11, and a transfer manipulator 14 is arranged on the battery transfer rail 141; a controller is further arranged in the drop test platform 11, and a touch control panel 111 is arranged on the front face of the drop test platform 11; the falling mechanism comprises a falling upright post 13, a falling groove 113 positioned at the lower side of the falling upright post 13 and a movable bearing plate 131 arranged on the falling upright post 13; a bearing plate driving motor for driving the movable bearing plate 131 to move up and down on the falling upright column 13 is further arranged on one side of the falling upright column 13; a push plate 132 disposed on the upper portion of the movable carrier plate 131; a driving cylinder for driving the push plate 132 to move back and forth is arranged on the movable bearing plate 131; the transfer manipulator 14 comprises a sliding block arranged on the battery transfer track 141, a first support rod arranged on the upper part of the sliding block, a telescopic rod arranged on the first support rod, a second support rod connected with the other end of the telescopic rod opposite to the first support rod, a third support rod connected with the other end of the second support rod opposite to the telescopic rod, and a sucker arranged at the end of the third support rod; a plurality of suckers are distributed on the sucker body in a matrix mode.

The lithium battery falling test device is provided with a falling test platform 11 and a lithium battery conveying frame 12 which is butted with one side of the falling test platform 11 and is used for conveying lithium batteries; the falling test platform 11 is provided with a plurality of lithium battery test slots 112, a falling mechanism for completing falling actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail 141 is further arranged at the side part of the inner side of the drop test platform 11, and a transfer manipulator 14 is arranged on the battery transfer rail 141; a controller is further arranged in the drop test platform 11, and a touch control panel 111 is arranged on the front face of the drop test platform 11; fall the mechanism including falling stand 13, being in fall the drop groove 113 of stand 13 downside and install in fall the removal loading board 131 on the stand 13, and still being provided with and being used for the drive falling stand 13 one side remove loading board 131 and be in fall the loading board driving motor who reciprocates on the stand 13, the practical application in-process utilizes transfer manipulator 14 to carry out the position transfer to the lithium cell, shifts to on falling the removal loading board 131 of mechanism, when moving to predetermined height on, utilizes push pedal 132 to release the lithium cell, can accomplish and fall the process, and this application structural design is reasonable, and the application effect is outstanding.

The present application does not relate to the improvement of the software portion and the circuit portion, and each functional component is a functional component known to those skilled in the art, such as the transfer robot 14, the control program of the controller, etc., and the present application protects the whole structure of the testing apparatus.

Preferably, a wireless transmission unit electrically connected with the controller and used for receiving an external wireless control signal is further installed in the drop test bench 11; the wireless transmission unit comprises a Bluetooth module, a 2.4G wireless communication module or a wireless WiFi module.

The intelligent degree is promoted.

Preferably, a plurality of cooling fans are distributed at the bottom of the lithium battery storage tank in a matrix manner; and a metal supporting net for separating the heat radiation fan and the lithium battery is arranged at the upper part of the heat radiation fans.

Preferably, the lithium battery conveying frame 12 is provided with a conveying belt and a conveying driving motor for driving the conveying belt to run.

Preferably, support columns are arranged at four diagonal positions at the bottom of the drop test bench 11; and a plastic cushion pad is arranged at the root of the support column.

Preferably, a lithium battery detection column for electrically conducting with a lithium battery to be tested is arranged in the lithium battery test slot 112; and a transparent protective cover plate is arranged at the upper part of the lithium battery test slot 112.

Preferably, the signal indicator lamps are disposed outside the testing slots 112.

Preferably, a first driving motor for driving the sliding block to move on the battery transfer track 141 is arranged in the sliding block, a second driving motor for driving the first supporting rod to axially rotate and a telescopic driving cylinder for driving the telescopic rod to stretch and retract are arranged in the first supporting rod, a third driving motor for driving the second supporting rod to rotate around a connecting shaft with the telescopic rod is arranged at the top of the telescopic rod, and a fourth driving motor for driving the third supporting rod to rotate around the connecting shaft with the second supporting rod is arranged at the end of the second supporting rod; and a fifth driving motor for driving the sucker body to rotate axially is arranged in the second supporting rod.

Compared with the prior art, the intelligent full-automatic lithium battery drop test platform 1 is provided with the drop test bench 11 and the lithium battery conveying frame 12 which is butted with one side of the drop test bench 11 and is used for conveying lithium batteries; the falling test platform 11 is provided with a plurality of lithium battery test slots 112, a falling mechanism for completing falling actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail 141 is further arranged at the side part of the inner side of the drop test platform 11, and a transfer manipulator 14 is arranged on the battery transfer rail 141; a controller is further arranged in the drop test platform 11, and a touch control panel 111 is arranged on the front face of the drop test platform 11; fall the mechanism including falling stand 13, being in fall the drop groove 113 of stand 13 downside and install in fall the removal loading board 131 on the stand 13, and still being provided with and being used for the drive falling stand 13 one side remove loading board 131 and be in fall the loading board driving motor who reciprocates on the stand 13, the practical application in-process utilizes transfer manipulator 14 to carry out the position transfer to the lithium cell, shifts to on falling the removal loading board 131 of mechanism, when moving to predetermined height on, utilizes push pedal 132 to release the lithium cell, can accomplish and fall the process, and this application structural design is reasonable, and the application effect is outstanding.

The above-mentioned embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (8)

1. The utility model provides a full-automatic lithium cell drop test platform of intelligence which characterized in that: the lithium battery falling test device comprises a falling test platform and a lithium battery conveying frame which is butted with one side of the falling test platform and is used for conveying lithium batteries; the drop test platform is provided with a plurality of lithium battery test slots, a drop mechanism for completing drop actions and a lithium battery storage slot for storing lithium batteries; a battery transfer rail is further arranged at the side edge part on the inner side of the drop test board, and a transfer manipulator is arranged on the battery transfer rail; the controller is further arranged in the drop test platform, and the touch control panel is arranged on the front face of the drop test platform; the falling mechanism comprises a falling upright post, a falling groove positioned on the lower side of the falling upright post and a movable bearing plate arranged on the falling upright post; a bearing plate driving motor for driving the movable bearing plate to move up and down on the falling upright post is further arranged on one side of the falling upright post; the push plate is arranged at the upper part of the movable bearing plate; a driving cylinder for driving the push plate to move back and forth is arranged on the movable bearing plate; the transfer manipulator comprises a sliding block arranged on the battery transfer track, a first support rod arranged on the upper part of the sliding block, a telescopic rod arranged on the first support rod, a second support rod connected with the other end of the telescopic rod opposite to the first support rod, a third support rod connected with the other end of the second support rod opposite to the telescopic rod, and a sucker arranged at the end of the third support rod; a plurality of suckers are distributed on the sucker body in a matrix mode.

2. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: the drop test bench is also internally provided with a wireless transmission unit which is electrically connected with the controller and used for receiving an external wireless control signal; the wireless transmission unit comprises a Bluetooth module, a 2.4G wireless communication module or a wireless WiFi module.

3. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: a plurality of radiating fans are distributed at the bottom of the lithium battery storage tank in a matrix manner; and a metal supporting net for separating the heat radiation fan and the lithium battery is arranged at the upper part of the heat radiation fans.

4. The intelligent full-automatic lithium battery drop test platform of any one of claims 1 to 3, wherein: the lithium battery conveying frame is provided with a conveying belt and a conveying driving motor for driving the conveying belt to run.

5. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: support columns are arranged at four opposite angle parts at the bottom of the drop test bench; and a plastic cushion pad is arranged at the root of the support column.

6. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: a lithium battery detection column used for conducting electrical conduction with a lithium battery to be tested is arranged in the lithium battery test slot; and a transparent protective cover plate is arranged at the upper part of the lithium battery test slot.

7. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: and signal indicating lamps are arranged outside the lithium battery test slots.

8. The intelligent full-automatic lithium battery drop test platform of claim 1, characterized in that: a first driving motor for driving the sliding block to move on the battery transfer track is arranged in the sliding block, a second driving motor for driving the first supporting rod to axially rotate and a telescopic driving cylinder for driving the telescopic rod to stretch are arranged in the first supporting rod, a third driving motor for driving the second supporting rod to rotate around a connecting shaft of the telescopic rod is arranged at the top of the telescopic rod, and a fourth driving motor for driving the third supporting rod to rotate around the connecting shaft of the second supporting rod is arranged at the end of the second supporting rod; and a fifth driving motor for driving the sucker body to rotate axially is arranged in the second supporting rod.

Images