Tension regulator for a stranding machine
First Claim
1. In a stranding machine including a plurality of reels on which filament to be stranded is wound;
- means for stranding together, with a stranding speed, the filaments taken off the reels;
a separate, rpm-controllable motor operatively connected with each said reel;
rpm control means operatively connected to each reel motor for controlling the reel rpm with respect to the stranding speed to determine the tension of the filament running from the reel;
a separate compensating roller associated with each reel;
the filament running from each reel being at least partially trained about a respective said compensating roller;
a separate support component carrying a respective said compensating roller and being displaceable in opposite first and second directions;
each said support component being operatively coupled to the respective said rpm control means for controlling the rpm of the respective said reel drive motor as a function of displacement of said support component;
said filament, as it runs about the compensating roller, exerting a force on said support component, urging said support component in said first direction; and
a force exerting assembly operatively connected with each said support component for exerting a force on said support component in said second direction;
the improvement wherein said force exerting assembly comprises(a) an electromagnetic slip clutch including(1) a stator winding;
(2) a rotor cooperating with said stator winding;
(3) motor means for rotating said rotor for generating by said rotor a rotating electromagnetic field in an energized state of said stator winding;
(4) an armature exposed to a torque derived from said rotating electromagnetic field;
said armature being connected to said support component for exerting thereon said force acting in said second direction as a function of the magnitude of said torque;
(b) current supply means for applying current to said stator winding and(c) current control means connected to said current supply means for setting the intensity of the current applied to said stator winding for determining the strength of said electromagnetic field.
1 Assignment
0 Petitions
Accused Products
Abstract
A stranding machine including a plurality of reels on which filament to be stranded is wound; a separate, rpm-controllable motor connected with each reel; rpm control devices connected to each reel motor for controlling the reel rpm with respect to the stranding speed to determine the tension of the filament running from the reel; a separate compensating roller associated with each reel; and a separate support component carrying a respective compensating roller and being displaceable in opposite first and second directions. Each support component is coupled to the respective rpm control means for controlling the rpm of the respective reel drive motor as a function of displacement of the support component. The filament, as it runs about the compensating roller, exerts a force on the support component in the first direction. A force exerting assembly is connected with each support component for exerting a force on the support component in the second direction. The force exerting assembly has an electromagnetic slip clutch whose rotor is connected with a drive motor and whose armature is connected with the compensating arm and further, a device is provided to control the current supply to the stator of the slip clutch.
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Citations
10 Claims
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1. In a stranding machine including a plurality of reels on which filament to be stranded is wound;
- means for stranding together, with a stranding speed, the filaments taken off the reels;
a separate, rpm-controllable motor operatively connected with each said reel;
rpm control means operatively connected to each reel motor for controlling the reel rpm with respect to the stranding speed to determine the tension of the filament running from the reel;
a separate compensating roller associated with each reel;
the filament running from each reel being at least partially trained about a respective said compensating roller;
a separate support component carrying a respective said compensating roller and being displaceable in opposite first and second directions;
each said support component being operatively coupled to the respective said rpm control means for controlling the rpm of the respective said reel drive motor as a function of displacement of said support component;
said filament, as it runs about the compensating roller, exerting a force on said support component, urging said support component in said first direction; and
a force exerting assembly operatively connected with each said support component for exerting a force on said support component in said second direction;
the improvement wherein said force exerting assembly comprises(a) an electromagnetic slip clutch including (1) a stator winding; (2) a rotor cooperating with said stator winding; (3) motor means for rotating said rotor for generating by said rotor a rotating electromagnetic field in an energized state of said stator winding; (4) an armature exposed to a torque derived from said rotating electromagnetic field;
said armature being connected to said support component for exerting thereon said force acting in said second direction as a function of the magnitude of said torque;(b) current supply means for applying current to said stator winding and (c) current control means connected to said current supply means for setting the intensity of the current applied to said stator winding for determining the strength of said electromagnetic field. - View Dependent Claims (2, 3, 4, 5, 6, 7)
- means for stranding together, with a stranding speed, the filaments taken off the reels;
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8. In a stranding machine including a plurality of reels on which filament to be stranded is wound;
- means for stranding together, with a stranding speed, the filaments taken off the reels;
a separate, rpm-controllable motor operatively connected with each said reel;
rpm control means operatively connected to each reel motor for controlling the reel rpm with respect to the stranding speed to determine the tension of the filament running from the reel;
a separate compensating roller associated with each reel;
the filament running from each reel being at least partially trained about a respective said compensating roller;
a separate support component carrying a respective said compensating roller and being displaceable in opposite first and second directions;
each said support component being operatively coupled to the respective said rpm control means for controlling the rpm of the respective said reel drive motor as a function of displacement of said support component;
said filament, as it runs about the compensating roller, exerting a force on said support component, urging said support component in said first direction; and
a force exerting assembly operatively connected with each said support component for exerting a force on said support component in said second direction;
the improvement wherein said force exerting assembly comprises(a) an electromagnetic slip clutch including (1) a stator winding for generating an electromagnetic field; (2) an armature arranged to be exposed to a force derived from said electromagnetic field;
said armature being connected to said support component for exerting thereon the force acting in said second direction as a function of the force applied to said armature by said electromagnetic field;(b) current supply means for applying current to said stator winding and (c) current control means connected to said current supply means for setting the intensity of the current applied to said stator winding for determining the strength of said electromagnetic field. - View Dependent Claims (9, 10)
- means for stranding together, with a stranding speed, the filaments taken off the reels;
Specification