CS252189B1 - Tension springs' winding machine - Google Patents

Abstract

The tension spring winder ensures effective production of small and medium series towing springs at minimal cost and without the need for qualified operators. It also solves the task of producing springs with extremely long lengths the end of the spring wire in particular u suspension springs. Extension spring winder It consists of a frame with an engine whose pinion fits into the gear gears firmly attached to the wheel the carrier is provided with a tooth which fits into the hollow spindle of the hollow mandrel provided groove and taper to which it abuts thrust bearing mounted on spindle which it is slidable with its thread in the swivel with a handle, control sleeve is provided with a stop located opposite the switches and the guide pulley opposite a regulated brake is mounted on the frame of the winder screw.

Description

The present invention relates to a tension spring winder with the possibility of rapidly changing the diameter of the coil spring, the length of the spring and the closing end of the spring wire, in particular for support springs.

For the production of tension springs, large-scale production uses single-purpose machines, which are very costly, in piece production winding springs on a lathe or similar device, requiring qualified service and production requires considerable time. Under normal conditions, there is no machine available to efficiently wind springs in small series without the need for skilled operators and complex equipment. Also, when winding small springs, a machine with a much higher power input than needed is used.

Manufacturing of springs requiring a different end of the spring wire end than the conventional closure over the spring diameter also causes considerable problems.

These drawbacks are solved by the invention of the device, wherein the gripper is provided with a tooth which fits into a notch of a hollow mandrel which is provided with a groove and a bevel on which an axial bearing mounted in a spindle bears. further, in that the control sleeve is provided with a stop located opposite the switch and a guide pulley, against which a screw-regulated brake is mounted on the winder frame.

The device is of simple construction allowing fast winding of tension springs of different diameters, different lengths as well as different length of the closing end of the spring wire. The device can be adapted for a machine with a low power input, it is small in size, allowing its mobility, relocation and storage as a fixture when the springs are not manufactured. It allows easy handling, especially easy removal of springs from the winding mandrel. The equipment is simple and thus cheap. It can effectively produce springs in both single-piece and small-series production and, due to its dimensions, can be placed on the workbench so that the operator can sit at work, which

The accompanying drawing shows schematically one possible embodiment of the tension spring winder according to the invention, the drawing being a partial section through the winder.

The hollow mandrel 4 provided with a notch 3, a groove 5 and a bevel 6 is mounted on a spindle 8 which is threaded 9, which is slidably mounted in the joint 10 and provided with a handle 11. An axial bearing 7 is mounted between the spindle 8 and the hollow mandrel 4. The hollow mandrel 4 is fitted with a control sleeve 12, which is provided with a stop 13 against the limit switch 14. The notch 3 of the hollow mandrel 4 fits the tooth 2 of the gripper 1, which is mounted on a gear 18 which fits into the pinion 19 of the motor 20. 12, the pulley 15 is fixed and a brake 16 with a screw 17 is fixed in front of the frame.

The spindle 8 is mounted in a joint 10 which allows the spindle Bis to be tilted by the hollow mandrel 4 and the control sleeve 12 slid from the carrier 2 of the carrier 1 by an angle α which is at least 30 °.

The assembly of the tension spring retractor according to the invention is apparent from the diagram in Fig. 1, with the engine switched off.

The spindle 8 is deflected by an angle α. The wire 21 is pulled over the pulley 15 around the control sleeve 12 and inserted through a groove 5 into the hollow mandrel 4 and, if necessary, threaded into the hollow mandrel 4 and spindle hole

8. If necessary, the wire can be pulled out of the spindle 8. The spindle 8 is then rotated at an angle until the notch 3 of the hollow mandrel 4 engages in the tooth 2 of the gripper 1. The wire 21 before the guide pulley 15 is inserted into the brake 18 and required wire tension 21.

Then, the motor 20 is started, on the shaft of which a pinion 19 is mounted, which starts to rotate the gear 18 and thus the rotary movement of the carrier 1 is started, whose tooth supported on the notch 3 rotates the hollow mandrel. 21, which starts to wind in the threads on the surface of the hollow mandrel 4 and pushes the control sleeve 12 over the surface of the hollow mandrel 4 until its stop 13 abuts the limit switch 14, which automatically switches off the motor 20.

Then the spring is separated after the brake. 16 between the guide pulley 15 and the groove 5 of the hollow mandrel 4. Using the threaded handle 11 in the joint 10, the spindle 8 with the hollow mandrel 4 is extended by the range of the tooth of the carrier tooth 2

1. The hollow mandrel 4 together with the spindle 8 is deflected by an angle α at the joint 10. The finished spring is withdrawn from the surface of the hollow mandrel 4 and the device is again ready for the next cycle as described above.

Said device allows the production of springs of different diameters, so that the hollow mandrel 4 can be manufactured in sets of different surface diameters. Likewise, the actuating sleeve 12 is varied according to the diameter of the hollow mandrel 4. The device also allows simple production of springs which require a support wire instead of a threaded thread, so that before the spring is wound it is bent to a right angle. spindle 8 and handle 11 to the desired length even outside the winding device. Then the wire 21 is inserted into the groove 5, the hollow spindle 4 together with the spindle 8 is rotated into the working position, so that the tooth 2 of the gripper 1 fits into the notch 3 of the hollow spindle 4. 8 to the thrust bearing 7 and through the hollow mandrel 4 a fixed connection is provided between the notch 3 of the hollow mandrel 4 and the tooth 2 of the carrier 1.

The tension spring retractor is designed especially for production of small and medium series of tension spring for which the production of special machines would be uneconomical. It can also be used in service operations, as well as in the production of special springs, for example, suspension objects

Claims (2)

Tension spring winder consisting of a frame with a motor, the pinion of which fits into a gear of a wheel firmly connected to a carrier, characterized in that the carrier (1) is provided with a tooth (2) which fits into a notch (3J of the hollow mandrel) provided with a groove (5) and a bevel (6) against which the thrust bearing (7) is mounted on a spindle (8), which is slidably mounted in β with its thread (9J) springs for small parts in anodizing baths with an extremely long spring wire end. BACKGROUND OF THE INVENTION a pivoting joint (10) and having a handle (11). Tension spring winder according to claim 1, characterized in that on the hollow mandrel (4) the control sleeve (12J) is provided with a stop (13) located opposite the switch (14) and a guide pulley (15) against which it is fixed to the winder frame. the brake (16) controlled by the screw (17).