SU962343A1 - Automatic cocoon winder feeder - Google Patents

Description

one

FIELD OF THE INVENTION The invention relates to the textile industry and relates to a feeder of a cocomotal machine.

The coconut machine feeder is known, the C9 holding the cocoon spreader into the pelvis, the inclined guide and the mechanism for controlling the hopper, including an eccentric drive, a rotary lever in contact with it, an electromagnet electrically connected to the control device, and a gripper 1 interacting with the electromagnet.

The electromagnet is mounted on a traverse that is movable from the pivot arm, and the grip is connected to the plipper (feeding frame). When the control device is triggered, the electromagnet attracts a grip, which, clinging to the traverse, raises the feeding frame, as a result of which the cocoon is thrown into the pelvis of the coconutal automaton.

A disadvantage of the known feeder is the low lifting speed of the toss, due to its kinematic connection through the hook to the control mechanism, as well as low reliability.

The purpose of the invention is to increase the reliability and speed of operation.

Claims (3)

This goal is achieved by the fact that in the feeder containing the picker of cocoons into the pelvis, the inclined guide and the control mechanism of the hopper, includes an eccentric drive in contact with it, 5 a rotary lever, an electromagnet electrically connected to the control device, and a gripper interacting with the electromagnet , the flip-flop is equipped with a float mounted on its .20 bottom, the swivel arm is rigidly fixed on the axle, while the flip-flop is connected to the axle of the swivel arm by means of a pull This is a pivotally connected 3S with a hopper, and on the other it has a ring freely mounted on the axis of the pivot arm, and the grip is made in the form of an angular unbalanced lever, one arm cooperating with the rod and the other with an electromagnet, and the axis of the pivoting lever is provided a finger mounted to engage with a pull to lower the thrower, and also that the gripping arm interacting with the electromagnet is provided with a float of ferromagnetic material, and the axis of the rotary lever is made of conductive material, provided with a dielectric insert located along the diameter of the axis of the axis, and included in the electrical circuit of the connection of the electromagnet with the control device. FIG. 1 shows schematically the feeder in FIG. 2 is the same, top view in FIG. 3 electrical control circuit of the feeder. The feeder contains a cocoon spreader into the pelvis of the coconutary automatic machine, made in the form of a rod 1 with a float 2 fixed at its lower end, in contact with an inclined guide 3, which is drawn by the wall of the preceding page, and a bar control mechanism consisting of an eccentric mounted on the drive the shaft 5 of the automatic machine, the pivot arm 6 rigidly fixed on the axis and carrying at its end the load 8 for standing contact with the eccentric 4, the finger 9 fixed on the axis 7 ti 10, connecting the axis 7 and the rod 1, gripper 11, interaction There is a shoulder with a thrust of 10, and the other, on which the float 12 of a ferromagnetic material is mounted, with an electromagnet 13, electrically connected with the control device Ik (Fig. 3). The 10 hectares are pivotally connected at one end with the rod 1, and at the other end has a ring 15, freely mounted on axis 7. It also has a lining 16 for engagement, with which finger 9 and gripper 11. Axis 7 is made of conductive material provided with a dielectric insert 17 located along the diameter of the axial section, and connected to an electrical connection circuit of an electromagnet 13 with a control apparatus k (Fig. 3). Dp of the cocoons from predasal 18 to pelvis 19 are served by cheeks 20 installed in the zone of movement of the rod 1 (Fig. 2). The feeder works as follows. With the flow of water, in the predaze 18, the cocoons attached to the tension roller 21 are fitted in the direction of the cheek 20 and one of them. occupies a position above the upper end of the rod 1, which is located in the opening of the intermediate bottom 22 of predaz 18 and rests on the inclined wall 3 of the predaz. The boom hopper 1 at this time is in the lower position and fixed by the gripper 11. The axis 7 rotates reversibly by an angle. When the raw silk thread is thinned through the safety gear 23 of the machine, the control device 14 is activated, as a result of which the block contacts 2k of the electromagnet 13 are closed. However, its supply circuit does not close for some time before the axis 7 turns to Close contact 25. This happens when the finger is raised 9, i.e. when it is not in contact with a clamp 16 t g 10 and is in a vertical position. When blocking the contact 25, current flows into the winding of the electromagnet 13, which, attracting the ferromagnetic float 12, turns the gripper 11. The abraded boom 1, under the action of the buoyancy force of water, rushes upwards along the guide 3 and at high speed having abruptly stopped when the float 2 strikes the intermediate bottom 22 of the predaze, it throws the sagging cocoon into the basin 19, where it enters the rose, and its thread is attached to the raw silk thread. Axis 7, continuing reverse rotation, finger 9 returns rod 1 to the lower position, acting on the projection 16 ti 10 and opens the block-contact 25, resulting in an electromagnet. 13 is de-energized, and the gripper 11 returns to its original position, locking it to 10. The use of the proposed device allows for reliable and quick throwing of the cocoons into their unwinding zone, which ultimately leads to an improvement in the quality of the raw silk thread. Claim 1. Feeder of coconutary automatic machine containing a cocoon spreader into that slope guide and a mechanism of controlling a spreader, including a driving eccentric, a rotary lever in contact with it, an electromagnet connected to the control unit, and interacting with an electromagnet; the fact that, in order to increase the reliability and speed of operation, the spreader is equipped with a float mounted on its lower part, the swivel lever is rigidly fixed on the axis, with The topper is connected to the axis of the pivot arm by means of a pull, which is pivotally connected to the pod to one side, and on the other has a ring freely mounted on the axis of the pivoting lever, and the grip is in the form of an angular unbalanced lever that interacts with the leg and the other with an electromagnet, the axis of the pivoting lever being provided with a finger mounted with the possibility of interacting with the pull to lower the thrower. 2. A feeder according to claim 1, characterized in that the gripping arm, interacting with the electromagnet, is provided with a float of ferromagnetic material. 3. Feeder on PP. t and 2, about t and h with the fact that the axis of the swivel lever is made of conductive material, equipped with a dielectric insert located along the diameter of the axis section, and is connected and an electric circuit connecting the electromagnet with the control apparatus. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 539991, cl. O 01 B 7/0, 1975. Fe /./