DE3501652A1 - Damping device - Google Patents

Abstract

This damping device serves for a reciprocating shaft of a tilt frame bearing a rotating bobbin, preferably a filament bobbin of a bobbin winder. The damping device comprises two tensioning bodies at a distance from one another which surround the shaft free from play, are secured against torsion and are tensioned by means of pressure springs against stop parts. Between the tensioning bodies and the stop parts there are provided friction elements which are made of plastic and are arranged floating on the shaft.

Description

Damping device

The invention relates to a damping device for a back and a rotating shaft of a rotating bobbin, preferably a thread bobbin Winding apparatus, supporting swivel frame.

Thread bobbins from winding apparatus are arranged through a swivel frame Arranged on a shaft, which vibrates in high frequency when the winder is in operation turns back and forth very quickly, with the amplitudes of these vibrations are relatively small, i.e. in the 1/10 mm range.

Such vibrations can be avoided with hydraulic damping devices not be effectively attenuated. Mechanical lamellar dampers are also for you This type of application is hardly suitable because it is due to oxidation of fit their dampening effect especially for high-frequency vibrations with small amplitudes is affected.

The object of the invention is therefore to provide a damping device for to create a shaft that supports a swing frame of a rotating spool, which efficiently dampens high-frequency vibrations with small amplitudes.

According to the invention, this object is achieved by the characterizing features of claim 1 solved. Further features embodying the invention are shown in FIG contained in the subclaims.

The main advantages achieved by the invention are therein to see that the arrangement and design of the spring-loaded clamping body, the friction members and the stop parts the high-frequency vibrations with small Wave amplitudes are functionally and safely attenuated. Included are these components, which represent a compact unit, are simple in construction and leave consequently produce inexpensively. The clamping body, which is backlash-free on the shaft are stored, are effective due to the adjustable preload of the springs pressed against the stop parts.

Holes in the clamping bodies ensure good storage and safe functioning of the springs. Prevent the plastic sleeves in the clamping bodies Fit oxidation in the bearing point. Finally, the cladding ensures that Dust or dirt particles kept away from the components causing the damping will.

In the drawing, an embodiment of the invention is shown, which is described in more detail below.

1 shows a partial view of a winding apparatus with the one according to the invention Damping device, FIG. 2 shows a detail X of FIG. 1 on a larger scale, FIG. 3 shows a view in the direction of arrow A of FIG. 2, partially in section, FIG. 4 shows a Section along the line IV-IV of FIG. 3, FIG. 5 shows a partial view of FIG. 3 another detail execution.

Represented by a winding apparatus 1 is a support column 2, a drive roller 3 and a filament spool 4. The filament spool 4 is in driving connection with the Drive roller 3 and is rotatably mounted at 5 on a swivel frame 6. The swivel frame 6 is arranged pivotably on bearing eyes 9 by means of a shaft 8.

During operation of the winding apparatus 1, the shaft 8 leads due to the interaction the drive roller 3 with the thread bobbin 4 reciprocating oscillating movements - around 20 Hz and above - from the resulting amplitudes being relatively small are; they are in the 1/10 mm range.

A damping device 10 serves to dampen these vibrations, which is arranged coaxially to the shaft 8. The damping device 10 comprises two Clamping body 11, 12 surrounding the shaft 8 free of play and spaced from one another are arranged and secured against twisting. Between the disk-like clamping bodies 11, 12 three evenly distributed compression springs 13 are effective. These springs push the clamping body 11, 12 against them limiting stop parts 13, 15, which are fixed with the shaft 8 are connected. The clamping bodies 11, 12 work with the stop parts 14, 15 with the interposition of relatively thin-walled, also disk-like Friction members 16, 17 together. The friction members 16, 17 are floating - so theirs Bores 18, 19 have a correspondingly large diameter - on the shaft 8 arranged and made of plastic, such as polytetrafluoroethylene, known also under the brand name 'Teflon.

The clamping body 11 12, as well as the stop parts 14, 15 and the friction members 16, 17 have a circular cylindrical shape and are opposed by means of rods 20, 21 Twisting secured. The rods 21, 20 act via threads 22 with the clamping bodies 12, 11 together. The clamping bodies are on the opposite or free side 11, 12 with the help of guide fittings 23, 24 on a bearing pin 25 axially movable - direction B-B -arranged. The bearing pin 25 is in a thread 26 of the support column 2 and secured by a lock nut 27.

On the mutually facing sides C and D are the clamping bodies 11, 12 provided with bores 28 which serve to accommodate the compression springs 13. in the Embodiment, the clamping body are made of metallic material, preferably Steel, with plastic sleeves 30 being pressed into their bores 29 surrounding the shaft 8 are. The plastic sleeves 30 enclose the shaft zvar free of play, but relatively movable.

It would also be conceivable to use plastic as the material for the clamping bodies 11, 12 to use.

The stop parts 14, 15 are made of hardened steel. The stop part 14 is fixed with a grooved pin 31 on the shaft 8; the stop part 14 by means of a stud screw 32 extending radially to the shaft.

With 33 a lining is referred to, which the same diameter having and a structural unit forming clamping body 11, 12, friction members 16, 17 and stop parts 14, 15 protect against contamination.

According to FIGS. 2 and 3, the swivel frame 6 is fixed to the shaft 8 tied together. This connection is effected via a stud screw 34 which extends radially extends to the shaft 8.

It is also possible to have a freewheel between the swivel frame 6 and the shaft 8 35 to be provided, which takes the swivel frame 6 in one direction and in the other direction releases. This is shown schematically in FIG.

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Claims (14)

Claims 1. Damping device for a reciprocating Shaft of a rotating bobbin, preferably a thread bobbin, of a winding apparatus supporting swivel frame, characterized in that the damping device (10) is arranged coaxially to the shaft (8) and enclosing and backlash-free this shaft Clamping bodies attached at a distance from one another and secured against rotation (11, 12), between which at least one spring (13) is effective, which the clamping body (11, 12) in the direction of them limiting, firmly seated on the shaft (8) stop parts (14, 15) seeks to move, the clamping body (11, 12) and the stop parts (14, 15) interact with the intermediary of disk-shaped friction members (16, 17), made of plastic, such as polytetrafluoroethylene, are made and floating are arranged on the shaft (8). 2. Damping device according to claim 1, characterized in that the clamping bodies (11, 12) preferably have a circular cylindrical shape and are secured against rotation by means of two rods (20, 21). 3. Damping device according to claim 2, characterized in that each rod (20) interacts with the clamping bodies (12) by means of a thread (22), whereas on their free side they are axially movable on a bearing pin (25) is. 4. Damping device according to claim 3, characterized in that the rods (20, 21) with the interposition of guide fittings (23, 24) cooperate with the bearing pin (25). 5. Damping device according to claims 1 and 2, characterized in that that between the clamping bodies (11, 12) three evenly distributed compression springs are attached are. 6. Damping device according to claims 1, 2 and 5, characterized in that that the clamping body (11, 12) bores on the mutually facing sides (C and D) (28) for receiving the compression springs (13). 7. Damping device according to claims 1 and 2, characterized in that that the clamping body (11 and 12) are made of metallic material, in their the shaft (8) surrounding bores (29) plastic sleeves (30) are used. 8. Damping device according to claim 7, characterized in that the plastic sleeves (30) are pressed into the bores (29). 9. Damping device according to claim 1, characterized in that the clamping body (11, 12) the friction members (16, 17) and the stop parts (14, 15) have the same diameter. 10. Damping device according to claim 1, characterized in that that the stop parts (14) are made of hardened steel. 11. Damping device according to claims 1 and 10, characterized in that that däs a stop part (14) by means of a grooved pin (35) and the other stop part (15) by means of a stud screw (34) extending radially to the shaft (8) is. 12. Damping device according to one or more of the preceding Claims, characterized in that the by the clamping body (11, 12), the friction members (16, 17) and the stop parts (14, 15) formed by a panel (33) is surrounded. 13. Damping device according to claim 1, characterized in that that the swivel frame (6) is firmly connected to the shaft (8). 14. Damping device according to claim 11, characterized in that that the swivel frame (6) with the interposition of a freewheel (35) with the shaft (8) cooperates.