CN210795020U - Button cell sabot device - Google Patents

Abstract

The utility model relates to a button cell sabot device, include the straight heavy groove that is used for the battery dish to place and from preceding backward sliding, straight heavy groove divide into in proper order along the battery dish slip direction and fold the dish section, the sabot section, become the dish section, it has a plurality of battery dish to pile up the chamber and vertically pile up to be equipped with on the straight heavy groove of folding the dish section, bottommost battery dish front side is equipped with and is used for ejecting to the movable block of sabot section with this battery dish, the movable block is through the sliding motion around first actuating mechanism drive carries out, the straight heavy groove top of sabot section is equipped with and carries out vertically through the drive of second actuating mechanism, a plurality of sucking disc of vertical movement, the sucking disc absorbs button cell and puts on the battery dish circular slot of sabot section. The button cell tray loading device is simple in structure.

Description

Button cell sabot device

Technical Field

The utility model relates to a button cell sabot device.

Background

The button cell needs to be mounted on a cell disc after being manufactured, so that subsequent packaging and transportation are facilitated. The traditional tray loading can only be carried out by taking the battery trays one by a worker to a tray loading station, and is low in efficiency.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of prior art, the utility model aims to solve the technical problem that a button cell sabot device is provided, not only simple structure, convenient high efficiency moreover.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a button cell sabot device, include the straight heavy groove that is used for the battery dish to place and slide backward from the preceding, straight heavy groove divide into in proper order along the battery dish slip direction and fold the dish section, the sabot section, become the dish section, it has a plurality of battery dishes to be equipped with on the straight heavy groove of fold dish section and pile up the chamber and vertically to pile up, bottommost battery dish front side is equipped with and is used for ejecting to the movable block of sabot section with this battery dish, the movable block carries out fore-and-aft sliding motion through the drive of first actuating mechanism, the straight heavy groove top of sabot section is equipped with and carries out vertically through the drive of second actuating mechanism, a plurality of sucking disc of vertical movement, the sucking disc absorbs button cell and puts on the battery dish circular slot of sabot section.

Preferably, a yielding groove which is communicated from front to back is arranged at the bottom of the middle groove of the straight sinking groove.

Preferably, it comprises four vertical angle irons to pile up the chamber, and the shape of battery dish is squarely, and four angle irons set up respectively in the left front, left back, right front, right back position of the straight heavy groove of stacking the dish section, form the square chamber of piling up that is used for stacking the battery dish between the interior angle of four angle irons, and the width of the straight heavy groove is the same with the width of battery dish, and the length, the width of piling up the chamber are the same with the length, the width of battery dish, wherein: the bottom ends of the two angle irons in front of the disc stacking section are sealed with the bottom of the straight sinking groove in front, a gap is formed between the bottom ends of the two angle irons in back of the disc stacking section and the bottom of the straight sinking groove in back, and the gap is larger than or equal to the thickness of a single battery disc and is smaller than twice the thickness of the battery disc.

Preferably, become to be equipped with on the straight heavy groove of dish section and become a set chamber, become a set chamber and constitute by four vertical angle irons, the shape of battery dish is squarely, four angle irons set up respectively in the left front, left back, right front, right back position that becomes the straight heavy groove of dish section, form the square dish chamber that becomes that is used for holding single battery dish between the interior angle of four angle irons, the width that directly sinks the groove is the same with the width of battery dish, become length, the width in dish chamber and the length of battery dish, the width is the same, wherein: the bottom ends of the two angle irons behind the coiling section are sealed with the bottom of the straight sinking groove, a gap is formed between the bottom ends of the two angle irons in front of the coiling section and the bottom of the straight sinking groove, and the gap is larger than or equal to the thickness of a single battery tray and is smaller than twice of the thickness of the battery tray.

Preferably, the sum of the lengths of the disc stacking section, the disc loading section and the disc forming section is equal to three times of the length of the battery disc.

Preferably, the upper surface of the battery plate is longitudinally and uniformly distributed with a plurality of rows of circular grooves, each circular groove row consists of a plurality of circular grooves which are transversely and uniformly distributed, and the distance between the circle centers of adjacent circular grooves of the same circular groove row is equal to the inner diameter of the circular groove which is twice as large as the inner diameter of the circular groove.

Preferably, the first driving mechanism comprises a first air cylinder located on the abdicating groove, the first air cylinder transversely extends, a piston rod is forwards fixedly connected with the movable block, and the top surface of the movable block is located below the upper surface and above the lower surface of the bottommost battery tray.

Preferably, a plurality of suckers transversely extend and are installed on a transfer block, the number of suckers is the same as that of circular grooves of a single circular groove row, and the distance between every two adjacent suckers is twice the inner diameter of the circular grooves.

Preferably, the second driving mechanism comprises a second cylinder installed on a longitudinal moving block, a piston rod of the second cylinder is vertically and fixedly connected with the transfer block downwards, the longitudinal moving block is driven by the ball screw pair to move longitudinally, longitudinally extending guide rods symmetrically penetrate through the front side and the rear side of the longitudinal moving block, and the guide rods are installed on the external rack.

Preferably, the side of directly sinking the groove is provided with the lateral drive and extends, be used for from going to the conveyer belt of back lateral transport button cell, the conveyer belt is located under the sucking disc, the upper segment area body top bilateral symmetry of conveyer belt is equipped with and sets firmly encloses the fender curb plate in outside frame, two enclose and keep off the equal lateral extension of curb plate, two are enclosed the interval that keeps off between the curb plate and equal to the button cell external diameter, it has the clearance that is less than button cell thickness to enclose to keep off between curb plate bottom and the upper segment area body, two are enclosed and have set firmly limit baffle between the rear end of keeping off the curb plate, the clearance that has the clearance that is less than button cell thickness between limit baffle bottom.

Compared with the prior art, the utility model discloses following beneficial effect has: this button cell sabot device's simple structure, it has a plurality of battery dishes to pile up the chamber and vertically pile up to be equipped with on the straight heavy groove of stacking the dish section, bottommost battery dish front side is equipped with and is used for ejecting to the movable block of sabot section with this battery dish, the movable block carries out fore-and-aft sliding motion through the drive of first actuating mechanism, the movable block can be with the battery dish that piles up the chamber according to the order and down send to the sabot section one by one from bottom to top during the use, replace artifical battery dish of taking one to sabot station, it is efficient.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a side view of an embodiment of the present invention (with a battery tray).

Fig. 2 is a top view (with battery tray) of an embodiment of the present invention.

Fig. 3 is a side view of an embodiment of the invention (batteryless tray).

Fig. 4 is a view of the battery tray, the vertical sinking groove and the angle iron in fig. 1 in the direction of a.

Fig. 5 is a view of the battery tray, the vertical sinking groove and the angle iron in fig. 1 in the direction of B.

Fig. 6 is a side view of the conveyor belt.

Fig. 7 is a first schematic view of an operating state of the embodiment of the present invention.

Fig. 8 is a schematic view of a second operating state according to an embodiment of the present invention.

Fig. 9 is a third schematic view of an operating state of the embodiment of the present invention.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1-9, a button cell sabot device, including for battery dish 1 place and from the straight heavy groove 2 of forward backward slip, straight heavy groove divide into in proper order along the battery dish slip direction and fold the dish section 3, sabot section 4, become the dish section 5, it has a plurality of battery dishes to pile up the chamber and vertically to pile up to be equipped with on the straight heavy groove of folding dish section, bottommost battery dish front side is equipped with and is used for ejecting to the movable block 6 of sabot section with this battery dish, the movable block carries out the fore-and-aft slip motion through the drive of first actuating mechanism, the straight heavy groove top of sabot section is equipped with and carries out vertically through the drive of second actuating mechanism a plurality of sucking disc 7 that vertically removes, the sucking disc absorbs button cell 8 and puts on the battery dish circular slot 9 of sabot section.

In the embodiment of the present invention, the middle bottom of the straight sinking groove is provided with a front and back through recess 10.

The embodiment of the utility model provides an in, pile up the chamber and comprise four vertical angle irons 11, the shape of battery dish is squarely, and four angle irons set up respectively in the left front, left back, right front, right back position of the straight heavy groove of stacking the disk section, form the square chamber of piling up that is used for stacking the battery dish between the interior angle of four angle irons, and the width in straight heavy groove is the same with the width of battery dish, and the length, the width that pile up the chamber are the same with the length, the width of battery dish, wherein: the bottom ends of the two angle irons at the front of the disc stacking section are sealed with the bottom of the straight sinking groove, a gap is formed between the bottom ends of the two angle irons at the rear of the disc stacking section and the bottom of the straight sinking groove, the gap is larger than or equal to the thickness of a single battery disc and smaller than two times of the thickness of the battery disc, and the gap is used for enabling the battery disc to penetrate through the disc loading cavity from the stacking cavity.

The embodiment of the utility model provides an in, be equipped with into a set chamber on becoming the straight heavy groove of dish section, become a set chamber and constitute by four vertical angle irons, the shape of battery dish is squarely, four angle irons set up respectively at the left front, left back, right front, right back position that become the straight heavy groove of dish section, form the square one-tenth dish chamber that is used for holding single battery dish between the interior angle of four angle irons, the width that directly sinks the groove is the same with the width of battery dish, become the length in dish chamber, the width is the same with the length of battery dish, the width is the same, wherein: the bottom ends of the two angle irons behind the tray forming section are closed with the bottom of the rear straight sinking groove, a gap is formed between the bottom ends of the two angle irons in front of the tray forming section and the bottom of the front straight sinking groove, the gap is larger than or equal to the thickness of a single battery tray and smaller than two times of the thickness of the battery tray, and the gap is used for enabling the battery tray to penetrate from the tray loading cavity to the tray forming cavity.

In the embodiment of the present invention, the sum of the lengths of the stacking tray, the tray loading section and the tray forming section is equal to three times of the length of the battery tray.

The embodiment of the utility model provides an in, the vertical equipartition of upper surface of battery dish has a plurality of rows of circular slots to arrange, and the circular slot is arranged to constitute by the circular slot of the horizontal equipartition of a plurality of, and the centre of a circle distance of the adjacent circular slot of same circular slot row equals the circular slot internal diameter of twice.

The embodiment of the utility model provides an in, first actuating mechanism is including being located the first cylinder 12 on the recess of stepping down, and first cylinder lateral extension and piston rod link firmly with the movable block forward, and the top surface of movable block is located under the bottommost battery dish upper surface, on the lower surface.

The embodiment of the utility model provides an in, a plurality of sucking disc transversely extends and installs on a splice block 13, and sucking disc quantity is the same with the circular slot quantity of single circular slot row, and adjacent sucking disc interval is the circular slot internal diameter of twice.

In the embodiment of the present invention, the second driving mechanism includes a second cylinder 15 mounted on a longitudinal moving block 14, a piston rod of the second cylinder is vertically and downwardly fixedly connected with the transfer block, the longitudinal moving block is driven by a ball screw pair 16 to longitudinally move, longitudinally extending guide rods 17 are symmetrically arranged on the front and rear sides of the longitudinal moving block, and the guide rods are mounted on an external frame 18; the second cylinder controls the sucker to ascend and descend, so that the button cell can be conveniently sucked and put down, and the sucker can be longitudinally moved to be arranged (circular groove row) one by one for tray loading.

In the embodiment of the utility model, a conveyor belt 19 which extends in a transverse transmission way and is used for conveying the button cell transversely from front to back is arranged beside the straight sinking groove, the conveyor belt is positioned below the sucker, baffle side plates 20 which are fixedly arranged on an external frame are arranged above the upper section belt body of the conveyor belt in a bilateral symmetry way, the two baffle side plates extend transversely, the distance between the two baffle side plates is equal to the external diameter of the button cell, a gap which is smaller than the thickness of the button cell is arranged between the bottom of the baffle side plate and the upper section belt body, a limit baffle is fixedly arranged between the rear ends of the two baffle side plates, a gap which is smaller than the thickness of the button cell is arranged between the bottom of the limit baffle 21 and the upper section belt body, the button cell can, through the position of the design limit baffle, the button cell is exactly in one-to-one correspondence with the suckers, and the suckers can conveniently suck the corresponding button cells and place the button cells in corresponding circular grooves.

The embodiment of the utility model provides a detailed theory of operation does: the button batteries on the conveyor belt are abutted and grounded from front to back and conveyed from front to back, the button batteries are positioned between the two side plates of the enclosure baffle, the button batteries cannot move backwards continuously after reaching the limiting baffle, the positions of the button batteries are exactly in one-to-one correspondence with the suckers by designing the positions of the limiting baffle, and the suckers can conveniently suck the corresponding button batteries and place the button batteries in the corresponding circular groove rows by driving of the second driving mechanism; after the battery plate of the plate loading section is completely loaded, the first cylinder drives the movable block to push out the bottommost battery plate of the stacking cavity backwards, the bottommost battery plate simultaneously pushes the battery plate which is completely loaded to the plate forming section, when the battery plate which is completely loaded is positioned in the plate forming cavity, the bottommost battery plate is positioned in the plate loading section, the battery plate of the stacking cavity moves downwards under the action of gravity, when the movable block is reset forwards, the battery plate of the stacking cavity completely moves downwards, and the steps are repeated after the battery plate is completely loaded again; in the above steps, each time the battery tray pushed to the tray forming cavity needs to be taken away by a manual or existing manipulator before the next movable block works, so as to facilitate the tray pushing operation of the next movable block.

The present invention is not limited to the above preferred embodiments, and any one can obtain button battery tray loading devices of various forms. All the equivalent changes and modifications made according to the claims of the present invention shall fall within the scope of the present invention.

Claims (10)

1. The utility model provides a button cell sabot device which characterized in that: including the straight heavy groove that places and slide backward from the front for the battery dish, straight heavy groove divide into in proper order along the battery dish direction of sliding and fold the dish section, the sabot section, become the dish section, it has a plurality of battery dishes to pile up the chamber and vertically pile up to be equipped with on the straight heavy groove of fold dish section, bottommost battery dish front side is equipped with and is used for ejecting to the movable block of sabot section with this battery dish, the movable block slides the motion around carrying out through the drive of first actuating mechanism, the straight heavy groove top of sabot section is equipped with and vertically carries out through the drive of second actuating mechanism, a plurality of sucking disc of vertical removal, the sucking disc absorbs button cell and puts on the battery dish circular slot of sabot section.

2. The button cell dishing device according to claim 1, characterized in that: the middle tank bottom of the straight sinking tank is provided with a yielding groove which is communicated from front to back.

3. The button cell dishing device according to claim 2, characterized in that: pile up the chamber and constitute by four vertical angle irons, the shape of battery dish is squarely, and four angle irons set up respectively in the left front, left back, right front, right back position of the straight heavy groove of stacking the dish section, form the square chamber of piling up that is used for stacking the battery dish between the interior angle of four angle irons, and the width of straight heavy groove is the same with the width of battery dish, and the length, the width that pile up the chamber are the same with the length, the width of battery dish, wherein: the bottom ends of the two angle irons in front of the disc stacking section are sealed with the bottom of the straight sinking groove in front, a gap is formed between the bottom ends of the two angle irons in back of the disc stacking section and the bottom of the straight sinking groove in back, and the gap is larger than or equal to the thickness of a single battery disc and is smaller than twice the thickness of the battery disc.

4. The button cell dishing device according to claim 2, characterized in that: become to be equipped with into a set chamber on the straight heavy groove of dish section, become a set chamber and constitute by four vertical angle irons, the shape of battery dish is squarely, four angle irons set up respectively in the left front, left back, right front, right back position of the straight heavy groove of dish section of becoming, form the square dish chamber of becoming that is used for holding single battery dish between the interior angle of four angle irons, the width of straight heavy groove is the same with the width of battery dish, become the length in dish chamber, width and the length of battery dish, the width is the same, wherein: the bottom ends of the two angle irons behind the coiling section are sealed with the bottom of the straight sinking groove, a gap is formed between the bottom ends of the two angle irons in front of the coiling section and the bottom of the straight sinking groove, and the gap is larger than or equal to the thickness of a single battery tray and is smaller than twice of the thickness of the battery tray.

5. The button cell dishing device according to claim 1, characterized in that: the sum of the lengths of the disc stacking section, the disc loading section and the disc forming section is equal to three times of the length of the battery disc.

6. The button cell dishing device according to claim 1, characterized in that: the upper surface of battery dish vertically the equipartition have a plurality of rows of circular slot to arrange, and the circular slot is arranged and is constituteed by the circular slot of a plurality of horizontal equipartition, and the centre of a circle distance of the adjacent circular slot of same circular slot row equals twice circular slot internal diameter.

7. The button cell dishing device according to claim 2, characterized in that: the first driving mechanism comprises a first air cylinder located on the yielding groove, the first air cylinder transversely extends, a piston rod is fixedly connected with the movable block forwards, and the top surface of the movable block is located below the upper surface and above the lower surface of the bottommost battery tray.

8. The button cell dishing device according to claim 6, characterized in that: a plurality of sucking discs transversely extend and are installed on a transfer block, the quantity of the sucking discs is the same as that of circular grooves of a single circular groove row, and the distance between every two adjacent sucking discs is twice the inner diameter of the circular groove.

9. The button cell dishing device according to claim 8, characterized in that: the second driving mechanism comprises a second cylinder installed on a longitudinal moving block, a piston rod of the second cylinder is vertically and fixedly connected with the transfer block downwards, the longitudinal moving block is driven by the ball screw pair to move longitudinally, longitudinally extending guide rods are symmetrically arranged on the front side and the rear side of the longitudinal moving block in a penetrating mode, and the guide rods are installed on the external rack.

10. The button cell dishing device according to claim 8, characterized in that: the side of directly sinking the groove is provided with the lateral drive extension, a conveyer belt for from going to back lateral transport button cell, the conveyer belt is located under the sucking disc, the upper segment area body top bilateral symmetry of conveyer belt is equipped with and sets firmly encloses the fender curb plate in outside frame, two enclose and keep off the equal lateral extension of curb plate, two are enclosed the interval that keeps off between the curb plate and equal to the button cell external diameter, it has the clearance that is less than button cell thickness to enclose to keep off between curb plate bottom and the upper segment area body, two are enclosed and have set firmly limit baffle between the rear end of keeping off the curb plate, the clearance that has the clearance that is less than button cell thickness between limit baffle bottom and the upper.

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