| 1. | An apparatus for automatically stripping upwardly open molds advanced on a conveying surface from their content, c h a r a c t e r i z e d i n that it comprises a mold turnover means, which is pivotal about a horizontal axle loc¬ ated above the conveying surface between two end positions substantially in parallel with the conveying surface, for receiv¬ ing in one end position one or more molds approaching on the conveying surface to the mold turnover means , and a mold receiving means also pivotal about said axle between the mold turnover means and conveying surface for retaining the molds against the mold turnover means during a mold turningover operation, at which the mold turnover means, the molds and the mo3.d receiving means as one coherent unit can be pivoted to the other end position of the mold turnover means , and that the mold receiving means is provided with one or more openings, which in said other end position permit the content of the molds to fall through the mold receiving emans and down onto the conveying surface. |
| 2. | An apparatus as defined in claim 1, c h a r a c t e r ¬ i z e d i n that the mold turnover means comprises a plate, which is directed substantially radially from said axle, and the end of which remote from the axle is provided with one or more recesses agreeing with a portion of the outer outline of the molds . |
| 3. | An apparayus as defined in claim 2, c h a r a c t e r ¬ i z e d i that the openings of the mold receiving means have an opening crosssection exceeding slightly the opening crosssection of the molds. |
| 4. | An apparatus as defined in claim 1, c h a r a c t e r ¬ i z e d n that a first alternative mold remover comprises a pivotal arm located in a horizontal "plane above the mold receiving means and provided with one or more lifting members, which when the pivotal arm is in a position above the mold receiving means are intended to catch and lift the empty molds remaining after the mold stripping on the upper surface of the mold receiving means, and after the subsequent turning of the pivotal arm to a delivery position to deliver the empty molds outside the conveying surface. |
| 5. | An apparatus as defined in claim 1, c h a r a c t e r ¬ z e d i n that a second alternative mold remover comprises — I t a mo3.d scraper located at a short distance above the mc d remover in the de3.ivery position thereof, which scraper is horizontally reciprocated for acraping off the empty mo3.ds remaining after the mold stripping on the upper surface of the mold receiving means. B. An apparatus for automatica3.3.y stripping upwardly open mo3.ds advanced on a conveying surface from their content, c h a r a c t ¬ e r i z e d i n that it comprises a mold turnover means, which is pivota3. about a horizonta3. axle between two end positions substan ially in parallel with the conveying surface, for receiv ing in one end position one or more molds approaching. on the conveying surface to the mo3. |
| 6. | d turnover means , and for deliv¬ ering the molds in a second end position to a mold receiving mea rigidl attached above and in parallel with the conveying surface, which mold receiving means is provided with one or more openings permitting the content of the molds to fall through the mold receiving means and down onto the conveying surface. |
| 7. | An apparatus as defined in claim 6, c h a r a c t e r ¬ i z e d i n that the mold turnover means comprises a plate, which is directed substantially radially from said axle, and the end of which remote from said axle is provided with one or more recesses agreeing with a portion of the outer outline of the molds. |
| 8. | An apparatus as defined in claim 7, c h a r a c t e r ¬ i z e d i n that along each of the recesses of the mold turnover means an e3.evation is provided for engagement with the flanges of the molds, which flanges have downwardly open recesses. |
| 9. | An apparatus for automatically stripping upwardly open molds advanced on a conveying surface from their content, c h a r ¬ a c t e r i z e d i n that it comprises a mold turnover mean which is pivotal about a horizontal ax3.e between two end position substantially in parallel with the conveying surface, for receiving in one end position one or more molds approaching on the conveying surface to the mold turnover means, and a mold receiving means, which a3.so is pivotal about said exle between the mo]d turnover means and conveying surface, for retaining the molds against the mold turnover means during a turning over operation, at which the mold turnover means, and and the mo3.d receiving means as one coherent unit can be pivoted to the other end position of the mo3.d turnover means, and the mold receiving means comprises an endless conveying belt, which in said other end position feeds the content of the molds to the conveying surface. |
| 10. | An apparatus as defined in previous claims c h a r¬ a c t e r i z e d i n that the mold receiving means is designed as a carrier of a packing unit into which the contents of the forms is directly emptied and then automatically packed. |
| 11. | An apparatus as defined in previous claims, c h a r¬ a c t e r i z e d i n that a packing unit is placed above and another beneath the stripper so that packing can be made either from above or beneath the stripper. |
This invention relates to an apparatus for automatically sepa ating the contents from a mold advanced on a conveying surfac
At a known apparatus of this kind the filled molds are advanc from a first belt conveyor to a rotary body, which is located to the side of the conveying belt and rotatable about a horiz ontal axle. The molds are moved to the rotary body by means of a transfer device in the form of a pair of endless chains carrying a.feeding plate. Each mold is retained by magnetic force at the rotary body, which after a rotation through half a revolution releases the mold down onto a second belt con¬ veyor located perpendicularly to the first belt conveyor, whi second belt conveyor advances the. ' old to a lifting means with a suction nozzle, which lifts the mold from its content and moves and positions the empty mold down onto a third belt conveyor. The contents of the mold discharged on the second belt conveyor fina3.1y is moved by a pusher up onto a fourth belt conveyor.
The present invention has the object to propose a mold stripp which has a simpler structural design and includes a small nur.ber of movable parts, and which comprises a unit for turni -over and removing the mold which can be installed easily in connection to an existing belt conveyor for the discharge of mo3.ds, for example from a baker's oven.
The mold stripper according to the invention comprises, at one embodiment thereof, a unit, which is located above a conveying surface, such as a conveying belt for the dischar of molds from an oven, and consists of a mold turn-over means and a mold receiving means, which are pivotal about a horiz¬ ontal axle located above said conveying surface. The mold turn-over means preferably is provided at its edge remote fro the axle with a number of open recesses, which in the startin position of the mold turn-over means are directed to the mold approaching on the conveying surface, so that the molds can supportingly be received by the mold turn-over means. The mold receiving means pivotal- in positions between the mold turn-over means and conveying surface is intended during the mold turn-over procedure to abut the upper surface of the mol and retain the molds against the mold turn-over means, in such a manner, that the mold turn-over means, molds and mold receiving means as one coherent unit are pivoted to a dischar position for the contents of the molds, which discharge posit is. in parallel with the conveying surface. The mold receiving means is provided with a number of openings slightly exceedin in size the openings of the retained molds and coinciding wit the same, so that the contents of the molds in the position o discharge can fall out of the molds through the openings of the mold receiving means and down onto the conveying surface.
For the empty molds remaining on the mold receiving means in the discharge position, according to the invention two altern
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ative embodiments of mold removers are proposed which may be rigidly mounted on the mold stripper.
The invention is described in greater detail in the following, with reference to the accompanying drawings showing embodiments of the inventionj in which drawings
Fig. 1 is a horizontal view of a mold stripper in straddle arrangement above a conveying belt for molds,
Fig. 2 is a front view of a mold stripper according to Fig. 1,
Fig. 3 is a front view of a mold stripper with a mold remover designed in .an alternative manner,
Fig . 4 a-f støow schematically part of the working procedure of the mold stripper,
Fig . S is a section along the line V-V in Fig. 3,
Fig . 6 is a horizontal view of a portion of a mold stripper with a rigidly mounted mold receiving means,
Fig . 7 is a section along the line VII-VII in Fig. 6,
Fig . 8 is a section on an enlarged scale through a portion of a mold received by the mold stripper according to Figs. 5 and 7, Fig. 9 is a. horizontal view of a portion of a mold stripper comprising a pivotal mold receiving means with an endless conveying belt, and Fig. 10 is a section along the line X-X in Fig. 9.
In Fig. 1 the mold stripper generally designated by 10 is located above an endless conveying belt 29, for example of steel, which
upwardly in the Figure opens from an opening (not shown) of a baker's oven 28. On the belt 29 rows of molds 31 are advanced uninterruptedly in the direction of the arrow 30, which molds are filled with pastry 33, for example cake bottoms, baked in the oven 28. Between the oven 28 and a mold turn-over unit 11, 14 a mold aligner 23 is carried by the mold stripper 10 some distance above the belt 29 and transversely thereto. The mold aligner 23 has the configuration of a rod, on the " lower side of which a number of fixed guide bars 24 are mounted transversely to the belt 29. The guide ^ bars 24 are intended during the movement of the molds 31 with the belt 29 to engage with the outside surfaces of the molds and to align them in transverse direction on the belt before they are received by the mold turn-over means 11 described below. Between the mold aligner 23 and mold turn-over means 11 a pair of scanning members 25,26, for example a photoelectric .cell arrangement, are located at the outer surfaces of the belt 29 some distance above the belt and intended to emit signals via a control unit (not shown) to turning motors described below of the mold stripper 10.
The mold turn-over unit of the mold stripper 10 comprises subst¬ antially only two movable parts, viz. a mold turn-over means 11 and a mold receiving means 14, which are pivotal about an axle common to both.
The mold turn-over means 11 consists of a plate, which is pivotal about the axle 27 and substantially radially outward directed along the axle 27, and which in the starting position shown in
Fig. 4a is located a distance above and in ' parallel with the belt 29 and directed to the oven 28. The mold turn-over means 11 is provided a3.ong its side remote from the axle 27 with a plurality of equa3.1y spaced open recesses 12, each of which i formed in agreement with a portion of the outer outline of ea mo3.d 31. At the embodiment shown the molds 31 are circular, but may also have a different configuration, for example a.re angular one. Each mold 31 according to Fig. 4 preferably is provided with a flange 32 extending about the upper edge of t mold and intended during the initial phase of the turn-over operation described below to rest against the upper surface o the mold turn-over means 11 in the region of the correspondin recess 12 thereof.
The mold receiving means 14, which also is pivotal &out the ax3.e 27, consists 3.ike the mold turn-over means 11 of a plate which is substantially outward directed from the axle 27, and which in the starting position shown in Fig. 4a is locate some distence above and in parallel with the be3.t 29 and directed away from the oven 28. The mold receiving means 14 is provided over its 3.ength with a p3.urality of equally space openings 15, which are formed in agreement with the outline of the molds and have an opening cross-section insignificant3. exceeding the opening cross-section of the molds 31, so that the upper surfaces of the flanges 32 of the molds can rest against the upper surface of the mold receiving means in the position shown in Figs. 4e and 4f, while the contents of the molds can fall through the openings 15 down onto the belt 29, as wi 1 be explained further be3.ow.
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At the embodiment shown in Figs. 1 and 2 the mold turn-over unit is supported on a stand comprising two vertical stay member 21 and 22 located on both sides of the belt 29, which stay members can be attached to the support and/or to each other for providing a rigid structure. The scanning members 25,26 shown only in Fig. 1 and the mold aligner 23 are also supported on the stay members 21 and 22. At the upper portions of the stay members 21, 22 the respective axles 13 and 16 of the mold turn-over means 11 and mold receiving means 14 are mounted. The ax3.e 13 rigidly connected to the mold turn-over means 11 is coupled at the stay member 22 with a reversible turning motor 19, which is attached to the outside of the stay member 22 The axle 16 rigidly connected to one end of the mold receiving means 14 is coupled in a corresponding way with a turning motor 20, which is attached to the outside of the stay member 21. The axle 16 of the mold receiving means _at the embodiment shown is ho3.3.ow for receiving and supporting the adjacent end ofithe axle 13 of the mold turn-over means 11. The other end of the mold, receiving means 14 is attached to a s3.eeve 17, which is mounted rotatab3.y on the axle 13 of the mold turn-over means 11.
The mold stripper 10 operates as follows, with reference to Figs 1 and 4a-f. The row of molds 31, which during the movement in the direction of the arrow 30 on the belt 29 are next in turn to be stripped from the contents 33 of the mo.ds, b3.ock or interrupt the scanning beam 34 of the scanning members 25,26 after the molds have passed the mold aligner 23. Thereafter the molds in the row are .advanced to engagement with the mold turn-o
means 11, whereby the flanges 32 of the molds abut the upper surface of the mold turn-over means 11 or are located slightly above the same in the region of the recesses 12. In this position the blocking of the beam 34 ceases, and the scanning members 25,26 emit over said control unit a signal for starting the turning motor 20 of the mold receiving means 14, so that the mold receiving means starts rotating counter-clockwise according to Fig. 4b. (Alternatively, the mold receiving means may wait for the molds lifted by the mold turn-over means in the position shown in Fig. 4b). When ,the mold receiving means 14 has assumed the position shown ' in Fig. 4c, the turning motor 19 of the mold turn-over means 11 receives via the control unit a starting signal by a limit switch (not shown) actuated by the mold receiv¬ ing means 14. Thereafter the motor 19 of the mold turn-over means 11 turns the coherent unit of mold turn-over means 11, molds 31 and mold .receiving means 14 clockwise according to Fig. 4d. It is hereby preferably attended to that the mold receiving means 14 during this turning motion abuts the molds with a small holding-together force by friction or spring action. When the motor 20 is.a hydrostatic motor, this force advantageously can be obtained from the internal friction in the hydraulic liquid, while the motor* 20 during this motion can. operate as an (unloaded) pump. The position according to Fig. 4e preferably is assumed with a s3.ight touch, so that the contents 34 of the molds is permitted to fa3.1 more easily by means of gravity from the molds 31 through the openings 15 of the mo3.d receiving means down onto the be3.t 29. In order to retain the molds 31 in position during the turn-over operation, the mold receiving means 14 is
provided on its outside with a flange 18 of slightly coufiter- -clockwise direction. Upon assuming the position according to Fig. 4e, the mo3.d turn-over means 11 or mold receiving means 14 actuate a further 3.imit switch (not shown) , which via said control unit emits a signal for starting the turning motor 19 of the mo3.d turn-over means to carry out a return movement back to the starting position according to Fig. 4f, while the empty molds remain on the mold receiving means 14. Thereafter the contro3. unit emits a signal for starting one of the mold removers used a3.ternatively and described below.
Alternatively, the mold receiving means 14' according to Figs. 6 and 7 may be rigidly mounted on the stand, and the mold turn- -over unit of the mold stripper 10' comprises substantially only one movable part, viz. the mold turn-over means 11' , which in starting position is located s3.ightly c3.oser to the conveying be3.t, and which in this case is so designed that upon its lifting of the mo3.d 31 (Fig. 8) an upwardly projecting arc-shaped shoulder 12' on the upper surface of the mold turn-over means penetrates in be3.ow the f3.ange of the mold 31, which flange has a cross- -section resembling an inverted U, and retains the mold in place during the turn-over* operation.
According to the invention, as shown in Figs. 1,2 and, respect¬ ively, 3,5, a3.so two embodiments of devices for removing the row of molds 31 remaining after the turn-over operation on the mold receiving means are proposed. The mo3d remover 40 shown in Figs. 1 and 2 comprises a horizontal
arm 42, which is pivotal by a reversible turning motor 41 and in one end position indicated by fully drawn lines according to Figs. 1 and 2 extends at a distance above the openings 15 . of the mold receiving means. In the other end position indicated by dash-dotted lines the horizontal arm 42 extends above an endless return belt 45 indicated by dash-dotted line, which belt is intended to move the molds 31 delivered by the pivotal arm as described below to a region at the input side (not shown) of the oven 28. On the pivotal arm 42 shown angular only by way of example and provided with a counterweight, a number of vertic linear adjusting members, for example pneumatic cylinders 43, are mounted., the retractable and extensible piston rods 44 of Which in the position indicated by fully drawn 3.ines in Figs. 1 and 2 each are 3.ocated aligned with the central points of the respective openings 15 of the mold receiving means 14.. On the free end of each piston rod 44 a ^ gripping member 45 is mounted, which is intended with magnetic or suction force in extended position of the piston rod to catch the empty mold 31 lying on the upper surface of the mold receiving means 14 accordi to ' Fig. 4f in order upon retracting of the piston rod 44 to lift the mo3.d to the pivotal arm 42. This arm then is pivoted with the mo3.ds to the position shown by dash-dotted line in Fig. 1 where the mo3.ds, possib3.y after repeated lowering of the piston rods 44 are de3.ivered onto the return belt 46 for being conveved, for exaπrole, to the region at the input side of the • oven 28 for their further handling, such as washing-up or the like (cleaning and thereafter oiling of the molds).
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Together with the mo3.d remover 40 described above also a mold receiving means 14" of alternative design according to Figs.
.9 and 10 can be used, which like the mold receiving means accor ing to Fig. 1 is mounted pivotally at the stand, with the difference, however, that the mold receiving surface consists of an endless conveying belt 62. Said endless conveying belt 62 runs over two spaced axles 63 and ' 64 in order in the
•inclined position according to Fig. 10 of the mold receiving means 14" to move the contents of the mo.ds to and down onto the conveying belt 29 of the oven. The axles 63 and 64 are mounted at the sides of the be3.t 62 in two lateral attachments 61 (of which only one is shown), which in their turn are mounte pivotally about the pivotal ax3:e 27. At the outside of one lateral attachment 61 a motor 60, for example an electric motor is mounted for driving the end3.ess belt 62 via the axle 63. By means of the mold receiving means 14" described above the contents of the mo3.ds can be delivex_ed more careful3.y onto the belt 29. The mold remover 50 shown in Fig. 3 comprises a mold scraper 52, which is mounted vertically at a horizontal pneumatic cylinder for examp3.e ' of the type 0RIGA (R without piston rod, and in the position ' of the mo3.d stripper shown in Fig. 4f is intended to be moved to the left in Fig. 3, so that its lower end gets in contact with and moves the empty mold 31 located closest to sai end to the 3.eft. The mold in its turn contacts the next mold, and so on, so that the molds leave the mold receiving means 14 at the left-hand end thereof. At this end a closed, vertical, curved groove 53 can be 3.ocated which is provided with an uppe
inlet opening and a lower outlet opening according to. Figs. 3 and 5. When the molds 31 have left the mold receiving means 14 they fall down v into the groove 53, in which they are moved by gravity to a be].t conveyor 55, on which they are conveyed to some region for their further hand3.ing. After completed working stroke, the scraper 52 of the mo3.d remover 50 returns immediatel to the starting position to the side of the mold receiving means 14 according to Fig. 3.
The control, unit (not shown) for the various operation movements, preferably consists of a programmable electronic sequency contro3. device, which is known on the market and in a way well- -known per se is intended to receive signals from the aforesaid scanning members 25,26 and limit switches (not shown) and in a definite sequence to emit start and stop signals to the differ¬ ent adjusting devices 19,20 and 41, 43 or 51. .
The unit of the mold stripper and the mold remover can be designe with a stand, or be mounted on a stand, which can be lifted and lowered manua3.3.y or automatically in relation to the belt 29. Thi is not shown because many embodiments can be imagined. The mo3.d turn-over unit of the mold stripper 10 is not restricted only to the embodiments shown by way of example in the drawings, but a great number of modifications are possible within the scope of the invention. The mold turn-over means 11, for example, can be provided, instead of with the recesses 12, with a single recess for receiving a single large mold, which in its turn can be divided into several smaller molds, for example for cookies and the " like, while simultaneously the mold receiving means is modified in a suitable wav in agreement with such mold turn-over means. C.vrr
Alternatively, the mold receiving means (14) can be carrier of a packing unit in which the contents of the forms is directly emptied to facilitate the packing of the contents from the emptied forms.
In cases when the contents of the forms has to be completely turned over (about 360 ) , two strippers can alternatively be connected behind eachother, and then the strjpper in the las row is designed to receive the contents from the emptied for
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