FR2484085A1 - Bakery volumetric dough dividing depositor for loaf size pieces - has two coaxial depositor drums alternately discharging dough pieces - Google Patents

Abstract

A bakery dough dividing depositor of the type comprises a cylindrical depositor drum which is oscillated through a part revolution about its central axis of circular cross-section. The drum has a diametral passage through the axis of oscillation and a piston is reciprocated coaxially within the passage. At one end of the drum oscillation the piston is retracted sharply to draw a measure of dough into the passage from a supply hopper. At the opposite end of the drum oscillation, the piston is advanced to discharge the dough from the passage, e.g. on to a transfer conveyor. The machine now incorporates two or more coaxial depositor drums. The drum passages are angularly offset so that when the passage of at least one drum is being loaded at the dough hopper, the passage of another drum is being discharged of its dough. The drums' passages are pref. supplied from a common dough hopper. The machine is for volumetrically dividing dough into loaf-sized pieces. Each additional drum increases the output of the machine by 100 per cent of the output of a single drum machine.

Description

The present invention relates to a piston dosing machine for a pasty mass, in particular used in baking for the division of a large quantity of dough into equal fractions, for the preparation of dough pieces.

Already known, in particular by Spanish patent NO 149 474 of April 25, 1940, a metering machine comprising a loading hopper, the bottom of which is formed by the lateral surface of a cylindrical drum with a transverse axis. This drum is driven in an alternating oscillating movement around said axis and has a diametrical cavity which passes right through it and inside which is mounted a piston. For one of the extreme oscillation positions of the drum, said cavity is located opposite the hopper and the piston can draw dough into the cavity, while for the other extreme position of the drum, said cavity is placed in face of an evacuation device and the piston can eject, in the direction of this device, at least part of the dough previously aspirated.

Known metering machines of this type are dependent on mechanical members whose kinematic operation is very slow. As a result, the yield per unit of time of such machines is low and does not allow high rates without harming the quality of the dough.

The present invention overcomes this drawback.

To this end, according to the invention, the dosing machine for pasty mass, of the type with a transverse axis drum and driven in an alternating oscillating movement around said axis, said drum comprising a diametrical cavity fed by hopper, passing through it in part and inside which is mounted a piston animated by a reciprocating movement, drum for one of the extreme oscillation positions of which said cavity is opposite the hopper and the piston draws dough into the cavity, while for the other extreme position of the drum, said cavity is placed in front of a discharge device in the direction of which said piston ejects at least part of the dough previously worse, is characterized in that it comprises a plurality of coaxial drums synchronized in such a way that at a given instant, at least one of the drums is in one of the extreme oscillation positions while at least one other drum is in the other of said positions s extreme.

According to an advantageous embodiment, the machine according to the invention comprises two identical coaxial drums, one being in one of the extreme oscillation positions and the other, at the same time, in the other of the extreme positions.

Advantageously, the drums are actuated by identical mechanisms, each comprising a connecting rod and a continuously rotating disc, the discs being fixed on the same axis and each provided with a cam profile, the positions of the cam profiles on the circumference of each disc being offset angularly.

In one embodiment, the machine according to the invention may comprise a plurality of hoppers each supplying a drum. However, preferably, the machine according to the invention comprises a hopper simultaneously feeding at least two drums.

Advantageously, the area at the bottom of the hopper located between the two diametric cavities of two consecutive drums is provided with a partition wall with concave faces directed towards said cavities.

It can be seen that the machine according to the invention makes it possible to increase the yield while ensuring better regularity of production.

The figures of the appended drawing will make it clear how the invention can be implemented.

Figure 1 is a side view of a machine according to the invention, showing one of the drums, a panel of this machine being assumed to be removed.

Figure 2 shows, in top view, an embodiment of the machine according to the invention comprising two drums.

Figure 3 is a section along line III-III of Figure 2, and showing the second drum.

The embodiment of the machine according to the invention shown in the figures comprises two coaxial and identical drums. Figure 1 is a side view along arrow F indicated in Figure 2, and shows, at a given time, a drum and its drive members, the other drum being shown in Figure 3, at the same time.

The metering machine according to the invention shown in the figures comprises a feed hopper 1 carried by a frame 2. The frame 2 forms a box inside which the various organs of the machine are mounted.

In the frame 2 are mounted two cylindrical drums 3 and 3 'coaxial, whose axis XX is transverse to the direction of flow of the dough contained in the hopper 1. Each of these drums can oscillate between two extreme positions, thanks to a drive mechanism with 4 or 4 'connecting rod and 5 or 5' crank, driven by a 6 or 6 'disc rotating in one direction.

The drum 3 or 3 'has a through cavity 7 or 7' of axis transverse to the axis of said drum, in which is disposed a piston 8 or 8 'secured to a rod 9 or 9' projecting from the drum and provided with a roller 10 or 10 'at its free end. For one of the extreme positions of each drum 3 or 3; the opening of said cavity 7 or 7 ', opposite the rod 9 or 9', is located opposite the hopper 1 as shown in Figure 1 for the drum 3, while for the other of said extreme positions, the same opening is directed towards a common evacuation device 11, for example an endless belt as shown in FIG. 3 for the drum 3 '.

The disc 6 or 6 'has on its edge, a cam profile 12 or 12' against which a roller 13 or 13 'bears, made integral with one of the branches of a bent lever 14 or 14' pivotally mounted at the location of his elbow. The end of the other branch of the lever 14 or 14 'cooperates with the roller 10 or 10' to pull the piston 8 or 8 '. A spring 15 or 15 'keeps the roller 13 or 13' against the cam profile 12 or 12 '.

A side pad 16 or 16 'on which the roller 10 or 10' can roll allows the piston 8 or 8 'to be retracted into the cavity 7 or 7' by pushing back the rod 9 or 9 ', when the drum 3 or 3' passes from its position opposite the hopper to its position directed towards the discharge device 11.

The piston 8 or 8 ', in the first position of the drum 3 or 3', sucks a certain amount of dough into the cavity 7 or 7 ', then in the second position of said drum, ejects this amount of dough sucked towards the device 11.

The drum 3 shown in FIG. 1 is represented at the moment when it is in the position corresponding to the suction of the dough, the cam profile 12 being ready to push the roller 13 and therefore to rotate the bent lever. 14, thus pulling down the piston 8. The drum 3 is shown in FIG. 3 at the same time and it is in the evacuation position.

In order to promote the flow of the dough in the direction of the cavities 7 and 7 ′ and to prevent a portion of the dough from stagnating on the bottom of the hopper 1, in particular between the openings of the cavities, it can be seen that there is a partition 17 with concave faces between two successive cavity openings. The cross section of this wall 17 and preferably that of an inverted V with concave walls.

Thus, in the machine according to the invention when one of the drums is in the extreme position corresponding to the suction of the dough, the other drum is, at the same instant, in the position corresponding to the other extreme position, namely that of evacuation of the dough. This synchronization of the drums makes it possible to obtain great flexibility in production and to avoid jolts. "

In the example now described, the machine has only two drums, but can obviously have more. At a given instant, each position of the drums then represents a stage of the machine operating cycle. In this case, the machine may have more than one drum in the extreme oscillation positions at a given time.

The number of drums and the number of hoppers are not limited by the embodiment shown in the figures. It is possible to place either a single hopper supplying a plurality of cavities, or one hopper per cavity.

The discs 6 and 6 'can be wedged on a common axis and thus drive each of the drums 3 and 3', only varying the position of the cam profiles 12 and 12 'on the circumference of the discs 6 and 6' in order to act on each bent lever 14 and 14 'at different times of the operating cycle.

Claims (6)

1.- Dosing machine for pasty mass of the drum type with transverse axis and driven by an alternating oscillating movement around said axis, said drum having a diametrical cavity fed by hopper, passing right through and inside of which is mounted a reciprocating piston, drum for one of the extreme oscillation positions of which said cavity is opposite the hopper and the piston sucks dough into the cavity, while for the other position end of the drum, said cavity is placed opposite a discharge device in the direction of which said piston ejects at least a portion of the dough previously aspirated, characterized in that it comprises a plurality of coaxial drums synchronized in such a way that 'at a given time at least one of the drums is in one of the extreme oscillation positions while at least one other drum is in the other of said extreme positions. 2.- Machine according to claim 1, characterized in that it comprises two identical coaxial drums, one being in one of the extreme positions of oscillation and the other, at the same time, in the other of the extreme positions . 3.- Machine according to one of claims 1 or 2, characterized in that the drums are actuated by identical mechanisms each comprising a connecting rod and a disc in continuous rotation, the discs being fixed on the same axis and each provided with a cam profile, the positions of the cam profiles on the circumference of each disc being angularly offset. 4.- Machine according to claim 1, characterized in that it comprises a plurality of hoppers each supplying a drum. 5.- Machine according to claim 4, characterized in that it comprises a hopper supplying at least two drums. 6.- Machine according to one of claims 1 to 5, characterized in that the bottom zone of the hopper located between two openings of consecutive diametric cavities, is provided with a separation with concave faces.