SU120565A1 - Machine for semi-automatic winding wire resistance - Google Patents

Description

For semi-automatic winding of wire resistances, machines are used that are equipped with a measuring device to control the value of the ohmic resistance of the product during the winding process, affecting the electromagnetic mechanisms controlling the machine.

The proposed machine is more perfect, as it provides a smooth stepless adjustment of the winding pitch, reduces the possibility of wire breakage during the start and stop of the machine, and also reduces the idle time of the machine.

This is achieved in that it uses a ball variable of the rotational speed of the driven shaft of the conductor feeder.

The drawing shows the kinematic scheme of the proposed machine.

The machine winds the wire resistances onto the tubular ceramic frames with continuous control of the value of the resistance of the wire wound.

In order to more fully utilize the running time of the bead, it is made duplex. The single spindle bushing is produced during automatic operation. The tubular frame of the winding resistance is installed in the centers between the front and rear two headstocks.

A spindle is placed in the headstock to drive the carcass into rotation and a device for supplying voltage from the sensor of the electrical measuring device to the beginning of the wire wound on the product. The spindles are driven from the electric motor 5 via a belt drive 4 and a two-speed gearbox 5 with automatic solenoid control. The gear ratio of the gearbox 5 varies depending on the activation of the electromagnet 6. At the beginning

No. 120565

the winding process and before the end of its spindle rotates at a slow speed, which reduces the breakage of fine wire and improves the accuracy of the sensor of the electrical measuring device. The electromagnet 6 is turned on by a command of cams 7 and S operating from adjustable stops on the carriage.

To the working spindle, the rotation from the gearbox 5 is transmitted by two round belts 9 through the electromagnetic clutches 10. Each of these clutches has three positions: the left one in which the spindle rotates from the drive; right at which the spindle is inhibited; and the average is when the spindle is free and can be rotated manually (to winder wire or wind off excess turns). Clutches 1G are turned on by pressing the machine control pedal and are electrically interlocked so that only the right or left spindle can be alternately connected to the drive. The spindles are disconnected from the drive and at the same time the electromagnets of the brakes are activated when a command is issued from the electrical measuring device of the machine.

The machine has two carriages 11c. conductors, carrying out the direction of the winding wire, laying it on the resistance frame in accordance with the predetermined step and ensuring reliable contact between the uninsulated winding wire and the elements of the measuring device circuit. Each carriage // is moved on rollers along guides, fastened to the machine frame. The carriages are supplied by two constantly rotating spindle screws 12 and 13, of which screw 13 serves for accelerated reversing and is driven by the belt from the stepped pulley 14. The screw 12, which is located for the carriage travel, is rotated from the sprocket 15 through ball variator 16 and two pairs of gears 17 and 18. The spindles 12 and 13 rotate continuously in opposite directions.

Each of the carriages // of the machine is equipped with two uterine semi-nuts 19 fixed to the pivotally mounted levers and alternately brought into contact with the driving screws 12 and 13. When the electromagnet 20 is actuated, the semi-nut 19 tells the carriage 11 a working feed from screw 12. At the end of the stroke, the electromagnet 20 releases this half-nut, but at the same time the electromagnet 21 is turned on, which puts the second button in contact with the screw 13 of the reverse accelerated feed.

A coarse change in the feed amount is made by moving one of the gears 17; more precise control is carried out by the ball variator 16. The angle of rotation of the variator handle is measured according to the scale on it.

A safety friction clutch 22 was used to protect the ballistic variator mechanisms from overloading.

To guide the coiled wire and adjust its tension, two conductors are used, consisting of a system of spring-loaded arms 23 and 24, carrying rollers that guide the wire, which is unwound from the rollers; the rollers are mounted on rotating centers 25.

Subject invention

1. A machine for semi-automatic winding of wire resistances, equipped with a measuring device for monitoring the value of the ohmic resistance of the product during the winding process, affecting the electromagnetic mechanisms controlling the machine, which also differs in that. In order to smoothly change the winding pitch, it uses a ball variator. The speed of rotation of the driven mechanism of the feed shaft of conductors.

2. Machine by n. 1, characterized in that, in order to reduce the possibility of wire breakage at the beginning of the winding process, it uses a two-speed gearbox with automatic solenoid control.

3. Machine on PP. 1 and 2, characterized in that, in order to reduce the idling time, it employs an additional spindle screw which cooperates with the conductors during their reverse course.

- 3 No. 120565

Committee for Inventions and Discoveries of the USSR Council of Ministers

Editor L. A. BlatovaGr. 91, 97

Information department. Sub. to pec. 10.VI-59.

Volume 0.34 p. L. Zak 3857 Circulation 1170 Price 50 kop.

The printing house of the Committee for Inventions and Discoveries at the Council of Ministers of the USSR

Moscow, Petrovka, 14.