CN211468926U - Battery case discharging device - Google Patents

Abstract

Battery case discharging device, including hopper (1), suction means (14), tilting mechanism (2), gliding passageway (3) and in bank platform (4), the exit of hopper (1) that holds the battery case in bulk is equipped with tilting mechanism (2), a suction means (14) for sucking the battery case from hopper (1) is located on tilting mechanism (2), the low reaches of tilting mechanism (2) for overturning the battery case that suction means (14) absorb and pushing gliding passageway (3) are equipped with gliding passageway (3), the exit of gliding passageway (3) is equipped with in bank platform (4) that are used for collecting a whole row of battery case. The utility model has the advantages of can be with battery case whole discharge from the hopper, the ejection of compact is neat, discharge efficiency height is high. The utility model belongs to the technical field of battery case production facility.

Description

Battery case discharging device

Technical Field

The utility model belongs to the technical field of battery case production facility, especially, relate to a battery case discharging device.

Background

After the battery case is manufactured, the battery case needs to be detected and then packaged, so as to be convenient for supplying and transporting to subsequent battery manufacturers or factories. At present, after the battery case is produced, the battery case is placed in a receiving hopper, the scattered and disordered battery case in the receiving hopper is manually boxed, and the battery case is detected by naked eyes after being boxed. However, manual boxing is low in automation degree, long in time and low in boxing efficiency. If can follow and connect the hopper in the whole row of ground discharge one row of battery case, then can directly be vanned one row of battery when the vanning to reduce the vanning time, improve vanning efficiency.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a battery case discharging device, it has can be with the battery case from the whole advantage of discharging in the hopper, the ejection of compact is neat, discharging efficiency height.

The battery case discharging device comprises a hopper, a suction mechanism, a turnover mechanism, a downward sliding channel and a row of platforms, wherein the turnover mechanism is arranged at an outlet of the hopper for containing the battery cases in bulk, the suction mechanism for sucking the battery cases from the hopper is arranged on the turnover mechanism, the downward sliding channel is arranged at the downstream of the turnover mechanism for turning over the battery cases sucked by the suction mechanism and pushing the battery cases into the downward sliding channel, and the row of platforms for collecting the whole row of battery cases are arranged at an outlet of the downward sliding channel.

Furthermore, the turnover mechanism comprises a roller, a turnover channel and a power assembly, the power assembly is connected with the roller, and the turnover channel for turning over the battery shell is fixed above the roller.

Further, the overturning channel comprises a channel plate and a limiting strip; the upper end and the lower end of each channel plate are arc-shaped, the two channel plates are arranged in parallel, and the distance between the channel plates is the same as the diameter of the battery shell; the upper end of the channel plate is provided with a limiting strip, the limiting strip is perpendicular to the channel plate, and the distance between the limiting strip and the outer cylindrical surface of the roller is smaller than the length of the battery case.

Furthermore, the limiting strips are arranged in parallel, and the distance between every two adjacent limiting strips is smaller than the length of the battery shell.

Further, the suction mechanism is a magnetic strip which is rectangular, and the plurality of magnetic strips are attached to the outer cylindrical surface of the roller in parallel.

Furthermore, the anti-bouncing device also comprises an anti-bouncing plate which is arranged at the upstream of the gliding channel.

Further, still include the fixed plate, the low reaches of gliding passageway are located to the fixed plate, and the installation is passed through elevating system at the fixed plate both ends, and the fixed plate is parallel with the central axis of gliding passageway.

Furthermore, the lower sliding channel comprises a lower sliding flat plate, a left inclined plate and a right inclined plate, the lower sliding flat plate is obliquely arranged from the turnover mechanism to the rows of platforms, the left inclined plate and the right inclined plate are respectively inclined towards the left direction and the right direction, and the lower ends of the left inclined plate and the right inclined plate are connected with the lower sliding flat plate; the positions and the number of the gliding channels correspond to those of the overturning channels.

Furthermore, the device also comprises a suction mechanism which is arranged on the outer side of the rows of platforms.

Furthermore, the device also comprises a thrust mechanism, and the thrust mechanism is arranged on the rows of platforms.

The utility model has the advantages that: the utility model discloses an exit at the hopper sets up tilting mechanism, tilting mechanism's cylinder is when rotating, and a plurality of battery casings will be absorbed from the hopper to the suction means on the cylinder, and the battery casing that is absorbed continues to rotate along with the cylinder, and when the battery casing was rotated to upset passageway department, every battery casing got into solitary upset passageway, through the carding and the upset of upset passageway, the battery casing got into the upset passageway with horizontal state, and the rethread gliding passageway becomes whole to be arranged and puts on the platform in bank, consequently the utility model discloses can be with the neat ejection of compact in bank in the battery casing follow hopper, discharging efficiency is high, degree of automation is high, need not the manual work, can reduce cost.

Drawings

Fig. 1 is a schematic structural diagram of a first viewing angle according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a second viewing angle according to an embodiment of the present invention.

Fig. 3 is a schematic view of the first viewing angle after the assembly of the middle turnover mechanism and the lower slide channel of the present invention.

Fig. 4 is a schematic view of a second viewing angle after the assembly of the middle turnover mechanism and the lower slide passage according to the present invention.

The device comprises a hopper, a turning mechanism, a sliding channel, a platform, a turning support, a thrust mechanism, a roller, a limiting strip, a channel plate, a turning channel, a left inclined plate, a right inclined plate, a sliding plate and a suction mechanism, wherein the hopper is 1, the turning mechanism is 2, the sliding channel is 3, the platform is arranged in rows, the turning support is 5, the thrust mechanism is 6, the roller is 7, the limiting strip is 8, the channel plate is 9, the turning channel is 10.

Detailed Description

The present invention will be further specifically described with reference to the accompanying drawings.

The battery case discharging device comprises a hopper, a suction mechanism, a turnover mechanism, a downward sliding channel and a row of platforms. The hopper, the turnover mechanism, the downward sliding channel and the row of platforms are arranged in sequence. The hopper is used for containing the battery shell in bulk. And the sucking mechanism is used for sucking the battery shell from the turnover mechanism and the hopper. And pushing the sucked battery case into the sliding channel after the battery case is overturned. And the downward sliding channel is used for conveying the turned battery cases into the rows of platforms. And the row of platforms are used for collecting a whole row of battery cases conveyed out from the lower sliding channel.

The hopper comprises a bottom plate and a baffle plate, the bottom plate is arranged below the hopper, the rear side of the hopper is a rear baffle plate, and the left side and the right side of the hopper are symmetrical baffle plates. The lower ends of the baffle plates on the left side and the right side and the rear baffle plates are fixedly connected with the bottom plate. The front side of the hopper is an outlet of the hopper. And a turnover mechanism is arranged at an outlet of the hopper.

The absorbing mechanism is a magnetic strip which is rectangular and is attached to the outer cylindrical surface of the roller; the magnetic stripes are arranged in parallel.

The turnover mechanism comprises a roller, a turnover channel and a power assembly. The power assembly is connected with the roller to drive the roller to rotate; the power component is a stepping motor. And a turnover channel for turning the battery case is fixed above the roller. A upset passageway passes through a battery case, and a plurality of upset passageways set up side by side, the length of a plurality of upset passageways and the length phase-match of magnetic stripe to the magnetic stripe of being convenient for absorb mechanism last absorption can both follow the upset of tilting mechanism and pass through. The turnover mechanism is arranged at the outlet of the hopper through a turnover support.

The overturning channel comprises a channel plate and a limiting strip; the upper end and the lower end of each channel plate are arc-shaped, the two channel plates are arranged in parallel, and the distance between the channel plates is the same as the diameter of the battery shell. The upper end of the channel plate is provided with a limiting strip, the limiting strip is perpendicular to the channel plate, and the distance between the limiting strip and the outer cylindrical surface of the roller is smaller than the length of the battery case. The spacing strips are many, many spacing strips parallel arrangement, and the distance between two adjacent spacing strips is less than the length of battery case. In this embodiment, spacing strip is two, and the distance between two spacing strips is less than the length of battery case to guarantee that the battery case is when the upset passageway passes through, last by spacing limit, prevent that the battery case from taking place the jump directly to fly away from the upset passageway when passing through. The first limiting strip is arranged behind the head end of the channel plate, namely, the front section of the channel plate is not limited, after the battery case is sucked by the sucking mechanism, the battery case which is sucked in a mess manner is combed by the overturning channel when passing through the front section of the overturning channel, so that one battery case correspondingly enters an independent overturning channel, and the redundant battery case is blocked by the overturning channel and falls into the hopper to wait for being sucked by the sucking mechanism next time. The second stop bar is located at 1/3 from the end of the channel plate.

The overturning bracket comprises a supporting frame at the lower end and a mounting frame at the upper end. The support frame comprises two support plates, the two support plates are symmetrically arranged on the left side and the right side, and the two support plates support the mounting frame; the mounting frame is fixedly connected with the support frame. The mounting bracket comprises a lower side plate, a left side plate, a right side plate and a front side plate. One end of the lower side plate is fixedly connected with the bottom plate of the hopper, and the other end of the lower side plate is fixedly connected with the front side plate; the left side board and the right side board are symmetrically arranged. A drum is installed between the left and right side plates. The front ends of the left side plate and the right side plate are connected through a front side plate. The upper ends of the left side plate and the right side plate are connected through the upper side plate. The hopper is arranged on the mounting frame.

The gliding channel comprises a gliding flat plate, a left sloping plate and a right sloping plate. The lower sliding flat plate is obliquely arranged from the turnover mechanism to the row of platforms; that is, the dull and stereotyped upper end of gliding is connected with the preceding curb plate of mounting bracket, and the dull and stereotyped slope of gliding from top to bottom. The left inclined plate inclines leftwards, and the right inclined plate inclines rightwards respectively. The lower ends of the left inclined plate and the right inclined plate are connected with the lower sliding flat plate. The positions and the number of the gliding channels correspond to the turning channels of the turning mechanism; the battery shell overturned from each overturning channel enters the corresponding sliding-down channel.

In this embodiment, the anti-bouncing device further comprises an anti-bouncing plate and a fixing plate. The anti-bouncing plate is arranged at the upper stream of the gliding channel and used for preventing the battery case from jumping out of the device when entering the gliding channel by the turnover mechanism, and the production efficiency is reduced. The fixed plate is arranged at the downstream of the gliding channel, two ends of the fixed plate are installed through the lifting mechanism, and the fixed plate is parallel to the central axis of the gliding channel. The fixed plate and the anti-bouncing plate are parallel to the lower sliding plate. When hugging closely the gliding passageway through the fixed plate, the fixed plate compresses tightly one row of battery case to when having stored one row of battery case on the platform of bank, it is fixed with the battery case in the gliding passageway, prevent that the battery case in the gliding passageway from continuing to descend and influence the battery case of neatly arranging on the platform of bank.

And a row of platforms are arranged at the outlet of the downward sliding channel, and are common placing platforms. The outer sides of the rows of platforms are provided with shell blocking plates. The shell blocking plate is fixed with a suction mechanism which can be a magnet block. When a row of battery cases slide down from the parallel sliding channels to enter the row of platforms, the row of battery cases are sucked by the suction mechanism, so that the row of platforms are fixed by the suction mechanism, and the problem that the battery cases are not orderly arranged after entering the row of platforms from the sliding channels, which brings inconvenience to the subsequent pushing of the whole row of battery cases, is avoided.

The device also comprises a thrust mechanism, and the thrust mechanism is arranged on the rows of platforms. The thrust mechanism comprises a rodless motor and a push plate. The rodless motor is arranged on a shell baffle plate on the outer side of the row of platforms, the rodless motor is connected with the push plate, and the push plate is arranged on the row of platforms. The rodless motor drives the push plate to move, and the push plate pushes the battery shells in the whole row forwards so that the battery shells in the whole row enter the next working procedure.

The utility model discloses a working process: collecting the battery shells manufactured by the battery shell manufacturing equipment in a hopper, and placing the battery shells in the hopper in a disordered state; when the turnover mechanism is started, the power component drives the roller to rotate when the power component is started, and when the roller rotates, the suction mechanism on the roller sucks a plurality of battery cases from the hopper, and the battery cases rotate along with the suction mechanism and the roller until the battery cases rotate to the turnover channel; at the moment, battery cases which are attached to the suction mechanism in a messy mode pass through the carding of the front section of the overturning channel, one battery case correspondingly enters the independent overturning channel, the battery case continues to be in the foreground along with the rotation of the roller, then the battery case is overturned and inverted through the resisting action of the limiting strips, so that the battery case is changed from the vertical direction to the horizontal direction, and the battery case passes through the overturning channel in the horizontal state; after the batteries pass through the overturning channel, the battery cases enter the lower sliding channel from the outlet of the overturning channel, the battery cases enter the row of platforms through the sliding of the lower sliding channel, and the row of overturned battery cases are orderly arranged on the row of platforms.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. Battery case discharging device, its characterized in that: the device comprises a hopper (1), a suction mechanism (14), a turnover mechanism (2), a downward sliding channel (3) and a row of platforms (4), wherein the turnover mechanism (2) is arranged at an outlet of the hopper (1) for containing bulk battery cases, the suction mechanism (14) for sucking the battery cases from the hopper (1) is arranged on the turnover mechanism (2), the downward sliding channel (3) is arranged at the downstream of the turnover mechanism (2) for overturning the battery cases sucked by the suction mechanism (14) and pushing the battery cases into the downward sliding channel (3), and the row of platforms (4) for collecting the whole row of battery cases are arranged at an outlet of the downward sliding channel (3).

2. The battery case discharging device according to claim 1, wherein: the battery case turnover mechanism is characterized in that the turnover mechanism (2) comprises a roller (7), a turnover channel (10) and a power assembly, the power assembly is connected with the roller (7), and the turnover channel (10) used for turning over a battery case is fixed above the roller.

3. The battery case discharging device according to claim 2, wherein: the overturning channel (10) comprises a channel plate (9) and a limiting strip (8); the upper end and the lower end of each channel plate (9) are arc-shaped, the two channel plates (9) are arranged in parallel, and the distance between the channel plates (9) is the same as the diameter of the battery case; the upper end of the channel plate (9) is provided with a limiting strip (8), the limiting strip (8) is perpendicular to the channel plate (9), and the distance between the limiting strip (8) and the outer cylindrical surface of the roller (7) is smaller than the length of the battery case.

4. The battery case discharging device according to claim 3, wherein: the limiting strips (8) are arranged in parallel, and the distance between every two adjacent limiting strips (8) is smaller than the length of the battery shell.

5. The battery case discharging device according to claim 2, wherein: the absorbing mechanism (14) is a magnetic strip which is rectangular, and a plurality of magnetic strips are attached to the outer cylindrical surface of the roller (7) in parallel.

6. The battery case discharging device according to claim 1, wherein: the anti-bouncing device also comprises an anti-bouncing plate which is arranged at the upper stream of the gliding channel (3).

7. The battery case discharging device according to claim 1 or 6, wherein: the device is characterized by further comprising a fixing plate, wherein the fixing plate is arranged at the downstream of the gliding channel (3), two ends of the fixing plate are installed through a lifting mechanism, and the fixing plate is parallel to the central axis of the gliding channel (3).

8. The battery case discharging device according to claim 2, wherein: the lower sliding channel (3) comprises a lower sliding flat plate (13), a left inclined plate (11) and a right inclined plate (12), the lower sliding flat plate (13) is obliquely arranged from the turnover mechanism (2) to the row of platforms (4), the left inclined plate (11) and the right inclined plate (12) are respectively inclined towards the left and the right, and the lower ends of the left inclined plate (11) and the right inclined plate (12) are connected with the lower sliding flat plate (13); the positions and the number of the lower sliding channels (3) correspond to those of the turning channels (10).

9. The battery case discharging device according to claim 1, wherein: the device also comprises a suction mechanism which is arranged on the outer side of the rows of platforms (4).

10. The battery case discharging device according to claim 1, wherein: the device also comprises a thrust mechanism (6) which is arranged on the rows of platforms (4).

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