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METHOD TO OPERATE A GRINDER

20180185852 ยท 2018-07-05

    Inventors

    Cpc classification

    International classification

    Abstract

    The present invention relates to a method to grind meat in grinder wherein the meat is provided to the grinder via a hopper (5) and transported by a feeder worm (2) to a rotating processing worm (3) which conveys the meat towards a cutting set (4) which grinds the meat and wherein the feeder worm (2) initially rotates in a first direction. In case the feeder worm (2) is overloaded, its direction of rotation is reversed to a second direction for a certain period of time and then reversed back to the first direction.

    Claims

    1. A method to grind meat in a grinder, comprising: providing the meat to the grinder via a hopper; transporting the meat by a feeder worm to a rotating processing worm, which conveys the meat towards a cutting set; grinding the meat with the cutting set; wherein the feeder worm initially rotates in a first direction, and if the feeder worm is overloaded, a direction of rotation of the feeder worm is reversed to a second direction for a certain period of time and then the direction of rotation is reversed back to the first direction; and wherein the processing worm maintains its direction of rotation while feeder worm rotates in the second direction.

    2. The method according to claim 1, wherein initially the feeder worm and the processing worm rotate in the same direction.

    3. The method according to claim 1, wherein the feeder worm rotates between 0.5 and 3 revolutions in the second direction.

    4. The method according to claim 1, wherein the method comprises detecting the overload of the feeder worm by a power-consumption of the feeder worm.

    5. The method according to claim 1, wherein the method comprises detecting the overload of the feeder worm by a speed of rotation of the feeder worm.

    6. (canceled)

    7. The method according to claim 1, wherein the method comprises maintaining a speed of the processing worm during rotation of the feeder worm in the second direction.

    8. The method according to claim 1, wherein the method comprises reversing back a rotation speed of the feeder worm to a same speed of rotation as an initial speed of rotation of the feeder worm.

    9. The method according to claim 1, wherein the method comprises manually or automatically reversing the direction of rotation of the feeder worm.

    10. The method according to claim 1, wherein the method comprises automatically shutting down the grinder when two overload situations occur within 3-8 minutes.

    11. The method according to claim 1, wherein the method comprises detecting the overload of the feeder worm by measuring torque required to rotate the feeder worm.

    12. The method according to claim 1, wherein an axis of rotation of the feeder worm is generally parallel to an axis of rotation of the processing worm.

    13. A method to grind meat in a grinder, comprising: providing the meat to a grinder via a hopper; transporting the meat by a feeder worm to a rotating processing worm, which conveys the meat towards a cutting set; grinding the meat with the cutting set; detecting an overload of the feeder worm; and rotating the feeder worm in a first direction, and if the overload of the feeder worm is detected, reversing a rotational direction of the feeder worm to a second direction for a certain period of time and then reversing the rotational direction of the feeder worm back to the first direction; maintaining a rotational speed of the processing worm during the rotation of the feeder worm in the second direction; maintaining a rotational direction of the processing worm while the feeder worm rotates in the second direction; reversing back a rotational speed of the feeder warm to a same speed of rotation as an initial rotational speed of rotation of the feeder worm; and wherein initially, the feeder worm and the processing worm rotate in a common direction.

    14. The method according to claim 13, wherein the method comprises manually or automatically reversing the rotational direction of the feeder worm.

    15. The method according to claim 14, wherein an axis of rotation of the feeder worm is generally parallel to an axis of rotation of the processing worm.

    16. The method according to claim 15, wherein the method comprises automatically shutting down the grinder when two overload situations occur within 3-8 minutes.

    17. The method according to claim 16, wherein the feeder worm rotates between 0.5 and 3 revolutions in the second direction.

    18. The method according to claim 17, wherein the overload of the feeder worm is detected by a power-consumption of the feeder worm.

    19. The method according to claim 17, wherein the overload of the feeder worm is detected by a speed of rotation of the feeder worm.

    20. The method according to claim 17, wherein the overload of the feeder worm is detected by measuring torque required to rotate the feeder worm.

    21. A method to grind meat in a grinder, comprising: providing the meat to a grinder via a hopper; transporting the meat by a feeder worm to a rotating processing worm, which conveys the meat towards a cutting set; grinding the meat with the cutting set; detecting an overload of the feeder worm; rotating the feeder worm in a first direction, and if the overload of the feeder worm is detected, reversing a rotational direction of the feeder worm to a second direction for a certain period of time and then reversing the rotational direction of the feeder worm back to the first direction; automatically shutting down the grinder when two overload situations occur within 3-8 minutes; maintaining a rotational speed of the processing worm during the rotation of the feeder worm in the second direction; maintaining a rotational direction of the processing worm while the feeder worm rotates in the second direction; wherein initially, the feeder worm and the processing worm rotate in a common direction; wherein the feeder worm rotates between 0.5 and 3 revolutions in the second direction; reversing back a rotational speed of the feeder worm to a same speed of rotation as an initial rotational speed of rotation of the feeder worm, manually or automatically reversing the rotational direction of the feeder worm, wherein an axis of rotation of the feeder worm is generally parallel to an axis of rotation of the processing worm, wherein the overload of the feeder worm is detected by: a speed of rotation of the feeder worm, or by a power-consumption of the feeder worm, or by measuring torque required to rotate the feeder worm.

    Description

    [0014] The invention is now explained according to the only FIG. 1.

    [0015] FIG. 1 shows a grinder on which the inventive method can be executed. This grinder comprises a hopper 5, which accommodates the meat to be ground, e.g. blocks of frozen meat. At the bottom of the hopper 5 a feeder worm 2 is provided, which is driven by a motor and rotates during processing in a first direction around its longitudinal axis. Additionally, here below the feeder worm 2, a processing worm 3 is provided, which conveys the meat towards a cutting set 4, but which also comprises means to compress the meat. The cutting set comprises at least a perforated plate and a knife, which is driven by the processing worm and rotates relative to the perforated plate. Due to the cooperation of the perforated plate and the knife, minced meat is produced. During normal process conditions, the feeder worm and the processing worm rotate in the same direction of rotation.

    [0016] In case of an overload situation, e.g. in case the power-consumption of the motor which drives the feeder worm in exceeds a certain level, the rotation of the feeder worm is stopped and reversed for a certain amount of revolutions, preferably 0.5-3 revolutions. Then the feeder worm is stopped again and reversed back to its initial direction of rotation. During this change of direction of rotation of the feeder worm the processing worm maintains its direction of rotation as well as its speed of rotation. After the reversed rotation of the feeder worm, the feeder worm rotates in the same direction and at the same speed as prior to the overload situation.

    [0017] This reverse of direction of rotation can be initiated manually or automatically, by means of a sensor, which senses for example the power uptake and/or the speed of rotation of the feeders worm and/or torque needed to rotate the feeder worm. In case, an overload situations occurs twice in a certain period of time, which can be set by the operator, the grinder is automatically shut down in order to avoid damage of the grinder.

    REFERENCE SIGNS

    1 Grinder

    [0018] 2 feeder worm
    3 processing worm
    4 cutting set
    5 hopper