奥地利专利AT512778A4 Device for handling plate-shaped objects

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专利摘要:
A device for converting plate-shaped objects (5) (battery plates) from a removal point, in which the objects (5) are aligned substantially vertically, into a delivery point, in which the articles (5) are oriented essentially horizontally, has a removal gripper ( 2) which is reciprocable by a drive between the extraction point and the discharge point and which is rotated during movement. The removal gripper (2) is rotatably arranged on a lever (6) relative to the lever (6). The lever (6) is pivoted by a drive (7) back and forth. The picking gripper (2) is connected to a shaft (11) rotatably mounted in the lever (6) on which a wheel (12) is mounted. About the wheel (12) an elongate, flexible element (13) is set, which is fixed immovably in the direction of its longitudinal extent. When pivoting the lever (6), the wheel (12) on the elongated member (13) rolls off. Thus, the reciprocating movement of the removal gripper (2) is superimposed by a rotational movement of the removal gripper (2).
公开号:AT512778A4
申请号:T987/2012
申请日:2012-09-10
公开日:2013-11-15
发明作者:Hans Schnur；Franz Albert Ing Jansky
申请人:Rosendahl Masch Gmbh；
IPC主号:

专利说明:

The invention relates to a device for handling (moving) plate-shaped objects in order to remove them from a stack of such plate-shaped objects and to place them at a distance from the stack, for example onto a conveying device (conveyor belt).
In particular, the invention relates to a device for handling plate-shaped objects, with the plate-shaped, juxtaposed objects, such as battery plates or Akkumulatorplatten, taken from a recorded in a substantially horizontal magazine stack and can be stored on a conveyor belt. The device has a removal gripper having, for example, at least one suction cup and which is located between a " sampling point " and a " delivery point " in which the article is released from the picking gripper and which is associated with, for example, a sheet-shaped article conveying device, is reciprocally movable.
From AT 241 565 B and AT 352 198 B devices are known which receive plate-shaped objects one above the other in a magazine. This superimposed arrangement of the plate-shaped objects in the stack has the consequence that, in particular for larger stacks in the removal of the respective lowermost plate-shaped object considerable frictional forces occur, which hinder the separation of the plate-shaped objects. This is especially true if the plate-shaped objects accommodated in the magazine are plates or separators for accumulators. In AT 352 198 B, therefore, it has already been proposed to provide a clamping device that can be actuated independently of the removal devices at a distance above the removal point, in order to absorb the weight of the stack during the withdrawal process.
GB 1,522,154 A and GB 1,581,764 A disclose devices for converting plate-shaped objects. These known
Devices require provided at the sampling point, fold-away restraints. These restraint devices are problematic in that they must be synchronized with the movements of the removal gripper. However, such retaining devices in the form of retaining plates or wings are necessary in the known devices, since there are provided for advancing the plate-shaped objects at these attacking from below conveyor chains.
Devices for removing plate-shaped objects from stacks of such objects are further known from AT 387 294 B, US Pat. No. 5,503,519 A and EP 1 044 151 A.
Other devices for handling plate-shaped objects are known from AT 379 565 B and AT 398 256 B.
The AT 398 256 B relates to a device for removing Akkumulatorplatten from a stack and for storing the Akkumulatorplatten on a conveyor. This has two alternately one accumulator plate detecting gripper.
The grippers are alternately moved back and forth in a removal point which detects the first accumulator plate of the stack and in a delivery point which is associated with the delivery device. The grippers are mounted on in the device pivotally mounted levers. Each gripper is mounted on its lever about a pivot axis parallel to the axis of rotation aligned 360 ° rotatable and can be rotated by a drive in one direction. In order to improve the detection of a battery plate, the grippers are against the lever carrying them silent when they are in their pivot point corresponding to the removal point.
All known devices for handling plate-shaped objects, in particular battery or Akkumulatorplatten use relatively complex controls and lever assemblies to the removal gripper between the
Entnahmestelle and the delivery point to move, since in this movement, the removal gripper not only has to be moved back and forth between said places, but must also perform a pivoting of the plate-shaped objects covered by it by angles in the order of 90 °.
A device for handling battery plates has become known as part of a machine type BMV10 Eintasch- and stacking machine Rosendahl Maschinen GmbH in Pischelsdorf (Austria). In this known device, the removal gripper is moved by an elaborate lever mechanism between the removal and the dispensing position back and forth. In order to carry out the movement between the removal point and the delivery point, the removal gripper is associated with a lever mechanism, which by means of a crank mechanism, comprising a connecting rod and a crank, is pivotable back and forth. Since the removal gripper must be pivoted in the removal point relative to the delivery point by an angle of the order of 90 °, the removal gripper is additionally guided during the previously described reciprocating motion over a backdrop and in conjunction with a lever that a fixed pivot point the suspension and one on the removal gripper has pivoted by an angle of the order of 90 °.
This device has proven itself well, but has encountered in terms of their performance at mechanical limits, so that there is a need for a device of the type mentioned, which works faster and more reliable than the known devices.
The invention has for its object to propose a device of the type mentioned, in which the drive for the combined reciprocating and pivoting movement of the removal gripper is achieved by simple means.
This object is achieved according to the invention with a device having the features of claim 1.
Preferred and advantageous embodiments of the invention are the subject of the dependent claims.
By connected to the removal gripper wheel, which rolls when pivoting the lever on the elongated, flexible element, the movement of the removal gripper between the extraction point and the delivery point is combined in a simple manner with the rotational movement of the removal gripper, wherein without complex control, a synchrony of the movements is guaranteed.
Since a drive, for example a crank mechanism, is provided in the device according to the invention for pivoting the carrier for the removal gripper, the device according to the invention can be easily connected to the remaining part of a system in which it is provided, for example a system for packing and destacking battery plates to be synchronized.
When the removal gripper of the device according to the invention is equipped with at least one suction nozzle (suction cup) subjected to vacuum, through which the plate-shaped object is held while the removal gripper moves from the removal point to the delivery point, it is necessary that the suppression in the delivery point, in FIG a plate-shaped object that is to be released (released) by the removal gripper and stored, for example, on a conveyor belt, is repealed. This is done in a preferred embodiment of the invention by a mechanical vacuum ventilation. In a preferred embodiment, this mechanical vacuum ventilation can have an actuating knob which runs onto a stop fixed to the machine frame when the removal gripper is in the delivery location. It is preferred if the stop on which the operating button for the mechanical vacuum ventilation runs, in its position is adjustable.
The rotational movement of the previously described removal gripper of the known device BMV10 is determined by the scenery and the movement of the crank mechanism. When Plattenplatten invention the rotational movement of the arrangement of an axis to the other axis and the different diameter of the, preferably designed as sprockets, drive elements and the stroke of the crank mechanism is specified. Due to the differentiated design of the mechanism and the absence of the backdrop, there is a movement of the removal gripper between the removal and the delivery point, which is rounder compared to the removal gripper of the known device BMV10. By using a kinematically optimized force triangle, higher cycle rates, a smaller torque requirement and protection of the mechanics are possible.
Due to the reduced and simplified mechanics and component arrangement, there are advantages in terms of maintenance and servicing as well as better accessibility. Another advantage of this mechanics is better adjustability.
In one embodiment, it may be provided that the lever has two spaced-apart, mutually parallel and interconnected plates and that the wheel mounted on the shaft of the removal gripper, the wheel mounted on the lever and the deflection plate are arranged between the plates.
Further details and features of the invention will become apparent from the following description of preferred embodiments with reference to the accompanying drawings. It shows:
1 schematically illustrates the basic principle of a device according to the invention for handling plate-shaped objects in a first position (removal gripper in the removal point),
FIG. 2 shows the device from FIG. 1 in a second position (removal gripper in the delivery point), FIG.
3 shows a practical embodiment of a device according to the invention in the position according to FIG. 1 (removal gripper in the removal point), Φ · ···· »» »» »» • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •.
Fig. 4 Fig. 5 Fig. 6 Fig. 7 Fig. 8 shows the device of Fig. 3 with removal gripper in the delivery point, the device of Fig. 3 and 4 with removal gripper in the removal point, the device in the position shown in FIG in another view, the device with removal gripper in the delivery point and the device in the position shown in FIG. 7 in another view.
The apparatus 1 shown schematically in FIGS. 1 and 2 for handling objects 5, in particular for removing battery plates from stacks 3, has a removal gripper 2 which is disposed between a stack 3 of plate-shaped objects 5, in particular its front end, associated removal point (FIG. Fig. 1) and a task-side end of a conveyor belt 4 associated discharge point (Fig. 2) is movable back and forth.
The removal gripper 2 is equipped with suction plates 30, which are subjected to negative pressure to record plate-shaped objects 5, such as battery plates, from the stack 3 and to hold during the transfer to the feed side end of the conveyor belt 4. If the removal gripper 2 in the position shown in FIG. 2 (delivery point), the suction plate 30 acting suppressing is released, so that the plate-shaped object 5 is released and stored on the conveyor belt 4.
In order to be able to carry out the movement between the removal point (FIG. 1) and the delivery point (FIG. 2), the removal gripper 2 is arranged on a lever 6, which by means of a crank drive 7, comprising a connecting rod 8 and a crank 9, in FIG The sense of the double arrow 10 is pivoted back and forth.
Since, as a comparison of FIGS. 1 and 2 shows, the removal gripper 2 moves in its movement from the removal point (FIG. 1) to ······ · · · · · t tt * * Mt * t *
2) must also be rotated (by an angle of the order of 90 °), the removal gripper 2 at the free end of the lever 6 via a shaft 11 is rotatably mounted. Connected to the shaft 11 in a rotationally fixed manner is a wheel 12, for example a toothed wheel, via which an elongate, flexible element 13, which may be a chain, a toothed belt, a V-belt or the like, is placed. The free ends of the element 13 are fixed in the arrangement of FIGS. 1 and 2 in frame-fixed points 17, so that the elongated member 13 can not move in the direction of its longitudinal extent. Together with the wheel 12, this results in the translation for the pivoting movement of the removal gripper 2. The lever 6 is pivotally mounted in a bearing 14 fixed to the machine frame. Since the element 13 is placed over the wheel 12, which is rotatably connected to the shaft 11 of the removal gripper 2, the removal gripper 2, as indicated by the double arrow 15 is rotated in carrying out pivotal movements of the lever 6 (double arrow 10) because the wheel 12 rolls on pivoting the lever 6 on the elongated element 13, which does not move in the direction of its longitudinal extension, it rotates in its movement from the discharge point to the discharge point of the one shown in Fig. 1, the stack 3 facing Rotary position in the shown in Fig. 2, the conveyor belt 4 facing rotary position.
The exemplary embodiment of a device 1 according to the invention shown in FIGS. 3 to 8 will be described in more detail below.
The lever 6, in the embodiment shown in Figures 3 to 8, two, approximately pear-shaped plates 22 which is mounted on a shaft 20, which forms the bearing 14 of the lever 6, on a machine frame fixed bracket 21.
Between the plates 22 of the lever 6 strips 27 are provided, via which the plates 22 of the lever 6 are connected to each other at a distance from each other. Between the plates 22 of the lever 6 a deflecting plate 23 is arranged, which is not rotatable on the "
Wave 20 is sitting. So it is only the lever 6 relative to the shaft 20 pivotally.
The crank mechanism 7 engages with its connecting rod 8 at the front of the two plates 22 of the lever 6 below the shaft 20 and below the deflection plate 23 at.
At the upper end of the lever 6 in FIGS. 3 and 4, the shaft 11 of the removal gripper 2 is rotatably mounted. The removal gripper 2 is attached to the shaft 11 via a clamping body 28. On the shaft 11, the wheel 12 designed here as a toothed wheel is seated, via which the elongate element 13, which is designed here as an endless member, is placed.
The strands of the endless member 13 are placed over the deflection plate 23, which is rotatably on the shaft 20, so non-rotatably mounted. In this case, the region of the strands of the endless element 13, which bear against the deflecting plate 23, correspond to the points 17 of the arrangement of FIGS. 1 and 2, so that the endless element 13 can not move in the direction of its longitudinal extent. The endless member 13 is further placed over a gear 25 which sits on a shaft 26 which is fixed to the carrier 21. The gear 25 is arranged non-rotatably on the shaft 26 and serves to tension the element 13 and to fix it.
As shown in FIGS. 3 to 8, the picking gripper 2 is referred to as " vacuum gripper " equipped with several suction pads 30 that can be pressurized. The suction cups 30 of the removal gripper 2 are acted upon by a negative pressure port 31, a channel in the shaft 11 and the clamping body 28 with negative pressure.
Since the suction plates 30 of the removal gripper 2 in the discharge point shown in FIGS. 7 and 8 must not be subjected to negative pressure, so that a plate-shaped object 5 (battery plate) which has been grasped by the removal gripper 2 can be placed on the conveyor belt 4 a ···· • I Μ 4 · »4 ·« * • * * * »~ * · · · · · · ·) ···« · * «• · · · · ····· # ··· ··· # ♦ ·· * ## · «· mechanical vacuum ventilation 32 assigned. The vacuum ventilation 32 comprises for actuation a plunger 33 as an actuation button, which runs in the Äbgabestelle shown in Figs. 7 and 8 on a frame-fixed stop 34 and picks up the applied to the suction cup 30 suppresses, so that a plate-shaped object 5 is released and on the conveyor belt 4 is stored. Upon actuation of the plunger 33 during emergence on the stop 34 so a vent of the vacuum ventilation 32 is opened so that the suppression is canceled as soon as the removal gripper 2 is in the discharge point.
The position of the stop 34, which actuates the plunger 33 of the mechanical vacuum ventilation 32, is adjustable. The adjustability results from the fact that the stop 34, on which the plunger 33 runs, on a support 35 adjustable, namely rotatable and displaceable, via a slot 36 in the carrier sweeping screw 37 can be fixed. Furthermore, as can be seen, for example, as shown in FIG. 6, the carrier 35 is fixed on the shaft 20 by a clamp, so that this too is adjustable in its position. Thus, the timing at which the vacuum is released by operating the mechanical vacuum ventilation 32 can be adjusted.
On the shaft 20, as shown in FIGS. 5 to 8 show a Nutrolle 40 is provided, which is fixed by means of a holder and two screws on the shaft 20.
By operating (pivoting) of the lever 6 by means of the crank mechanism 7, the removal gripper 2 is moved from the removal point shown in FIGS. 5 and 6 into the delivery point shown in FIGS. 7 and 8, wherein it, effected by the endless over The gear 12 and the deflecting disc 23 placed element 13 on which the gear 12 rolls when pivoting the lever 6, at the same time performs a rotational movement about its axis defined by the shaft 11, so that a plate-shaped object 5, in particular a battery plate in the stack. 3 is arranged substantially vertically, over at the bottom around • ··· • · ♦ · «# · * * * * * ♦ •« j * (j · »· ** Is pivoted at an angle of about 90 ° and so can be placed on a substantially horizontally oriented conveyor belt 4.
In conclusion, an embodiment of the invention can be described as follows:
A device for converting plate-shaped objects 5 (battery plates) from a removal point, in which the articles 5 are aligned substantially vertically, in a delivery point, in which the articles 5 are aligned substantially horizontally, has a removal gripper 2, which by a drive between the sampling point and the delivery point is movable back and forth and is twisted during movement. The removal gripper 2 is arranged rotatably on a lever 6 relative to the lever 6. The lever 6 is pivoted by a drive 7 back and forth. The removal gripper 2 is connected to a lever 6 rotatably mounted in the shaft 11, on which a wheel 12 is attached. About the wheel 12, an elongated, flexible element 13 is laid, which is fixed immovably in the direction of its longitudinal extent. When pivoting the lever 6, the wheel 12 rolls on the elongated member 13 from. Thus, the reciprocating movement of the removal gripper 2 is superimposed by a rotational movement of the removal gripper 2.

权利要求:
Claims (12)
[1]
Device for transferring plate-shaped objects (5) from a removal point, in which the objects (5) are aligned essentially perpendicularly, into a delivery point, in which the articles (5) are aligned substantially horizontally, with a removal gripper (2) characterized in that the removal gripper (2) on a lever (6) opposite to the lever (6) is rotatably arranged that is rotatable by a drive between the removal point and the delivery point and is rotated during movement, and the lever (6) is pivotable back and forth by a drive (7), that the removal gripper (2) is connected to a shaft (11) rotatably mounted in the lever (6), that a wheel (12) is mounted on the shaft (11) ), that over the wheel (12) an elongate, flexible element (13) is placed and that the flexible element (13) is fixed immovably in the direction of its longitudinal extent. Apparatus according to claim 1, characterized in that the flexible element (13) is endless, that the endless element (13) on the one hand via the wheel (12) on the shaft (11) of the removal gripper (2) and on the other hand via a lever ( 6) in the region of the shaft (11) of the removal gripper (2) opposite end fixed wheel (25) is placed. Apparatus according to claim 1 or 2, characterized in that the endless element (13) is a toothed belt or a roller chain. Device according to one of claims 1 to 3, characterized in that the strands of the endless element (13) between the on the shaft (11) of the removal gripper (2) fixed to the wheel (12) and the lever (6) fixed to the wheel (25 ) abut against a deflecting disc (23) and that the lever (6) is opposite the stationary deflecting disc (23) ·· Φ ····· «Is pivotable.
[2]
5. Apparatus according to claim 4, characterized in that the deflection disc (23) coaxial with the pivot axis (20) of the lever (6) is arranged.
[3]
6. Apparatus according to claim 4 or 5, characterized in that the diameter of the deflection disc (23) is greater than the diameter of the wheel (12) on the shaft (11) of the removal gripper (2) and the lever (6) fixed wheel (25).
[4]
7. Device according to one of claims 1 to 6, characterized in that the drive (7) for pivoting the lever (6) is a crank mechanism.
[5]
8. Apparatus according to claim 7, characterized in that the pivot axis (14) of the lever (6) between the shaft (11) of the removal gripper (2) and the end of the lever, on which the drive (7) engages, is arranged.
[6]
9. Apparatus according to claim 7 or 8, characterized in that the connecting rod (8) of the crank drive (7) on the lever (6) in the region of the shaft (11) of the removal gripper (2) opposite end of the lever (6) engages.
[7]
10. Device according to one of claims 1 to 9, characterized in that the removal gripper (6) is arranged at least one acted upon with suppressive suction plate (30).
[8]
11. The device according to claim 10, characterized in that the suction plate (30) via a in the shaft (11) of the removal gripper (2) provided channel is oppressive acted upon.
[9]
12. Apparatus according to claim 10 or 11, characterized ·· «« ·· * »· ··· ·

characterized in that the channel is associated with a vacuum ventilation (32), which picks up in the delivery point to the suction plate (30) applied negative pressure.
[10]
13. The apparatus according to claim 12, characterized in that the vacuum ventilation (32) has an actuating plunger (33) which rests in the discharge point of the removal gripper (2) on a stop (34).
[11]
14. The apparatus according to claim 13, characterized in that the position of the stop (34) is adjustable.
[12]
15. Device according to one of claims 3 to 14, characterized in that the wheels (12, 25) are toothed.

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引用文献:

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AT379565B|1984-06-20|1986-01-27|Elbak Batteriewerke Gmbh|MAGAZINE FOR PLATE-SHAPED ITEMS|

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AT398256B|1993-01-25|1994-11-25|Elbak Maschinenbau Ges M B H|DEVICE FOR REMOVING PLATE-SHAPED OBJECTS|

AT405824B|1997-12-30|1999-11-25|Bm Battery Machines Maschinenb|DEVICE FOR REMOVING PLATES|

US7736121B2|2007-10-04|2010-06-15|Solbern Llc|Tortilla destacking device|

SE534190C2|2008-04-23|2011-05-24|Norden Machinery Ab|Method and apparatus for transferring packaging containers from a first to a second unit|CN108357921B|2018-01-25|2019-09-06|江苏理工学院|A kind of eccentric wheel feed device|

US11203492B2|2019-12-11|2021-12-21|Symbotic Canada, Ulc|Case reorientation system and method|

CN112478720A|2020-12-10|2021-03-12|朱欢欢|Material equal-division control mechanism|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA987/2012A|AT512778B1|2012-09-10|2012-09-10|Device for handling plate-shaped objects|ATA987/2012A| AT512778B1|2012-09-10|2012-09-10|Device for handling plate-shaped objects|

JP2015530237A| JP2015529607A|2012-09-10|2013-07-18|Apparatus for handling plate-type objects|

CN201380037528.XA| CN104470836B|2012-09-10|2013-07-18|For plate-form object to be transferred to the equipment delivery position from extracting position|

US14/404,506| US9573774B2|2012-09-10|2013-07-18|Device for handling plate-shaped objects|

BR112014033061A| BR112014033061A2|2012-09-10|2013-07-18|device for handling plate-shaped objects|

EP13756282.3A| EP2834175B1|2012-09-10|2013-07-18|Device for handling plate-shaped objects|

SI201330131T| SI2834175T1|2012-09-10|2013-07-18|Device for handling plate-shaped objects|

PCT/AT2013/000122| WO2014036576A1|2012-09-10|2013-07-18|Device for handling plate-shaped objects|

RU2014151480A| RU2014151480A|2012-09-10|2013-07-18|DEVICE FOR MANIPULATING SUBJECTS OF PLATE-FORM|

MX2015000935A| MX2015000935A|2012-09-10|2013-07-18|Device for handling plate-shaped objects.|

KR1020157009211A| KR101674613B1|2012-09-10|2013-07-18|Device for handling plate-shaped objects|

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