DE19612577A1 - Elastic coupling sleeve for bolt couplings - Google Patents

Abstract

The coupling sleeve has a sleeve-like intermediate member (36) of rubber material with at least one channel (64) which reduces the radial material cross-sectional surface of the intermediate member (34) and extends over a part or all of the length of same so that the radial spring stiffness of the sleeve (14) is reduced over the length of the channel compared to the radial spring stiffness without the channel. The channel can be divided into two axially spaced sections separated by a material web. The outer sleeve (18) may be divided by a slit (60) extending over the entire length.

Description

The invention relates to an elastic Coupling sleeve according to the preamble of claim 1 and one formed with such coupling sleeves elastic pin coupling.  

State of the art

DE-PS 9 17 760
DE-OS 19 36 210
DE 35 26 274 A1
US 18 20 750.

literature

RYBICKI, Robert: The Sikorsky Elastomeric Rotor. In: Journal American Helicopter Society, Jan. 1981, pp. 34-45.

The object of the invention is to be achieved to create a way through which the Spring stiffness and the damping of elastic Bolt couplings during or after their Manufacturing are changed in a simple way can be optimized.

The invention has the following advantages: Recesses in the coupling sleeves cause one Reduction of radial spring stiffness and influence the damping of the coupling sleeves and the pin couplings formed with them. The Recesses can be made during or after the Manufacture of the coupling sleeves are formed.

The invention is described below with reference to the Drawings based on several preferred Embodiments and forms of application as Examples described. Show in the drawings  

Fig. 1 is an axial longitudinal section through a flexible pin coupling with elastic coupling sleeves,

Fig. 2 is an axial longitudinal section through a further embodiment of an elastic bolt coupling with elastic coupling sleeves,

Fig. 3 seen an axial section through an elastic coupling sleeve of FIG. 1 according to the invention, in the plane III-III of Fig. 4,

Fig. 4 is an end view of the coupling sleeve of Fig. 3,

Seen Fig. 5 is an axial section of another embodiment of a flexible coupling sleeve according to the invention, in the plane VV of Fig. 6,

Fig. 6 is an end view of the coupling sleeve of Fig. 5.

The elastic pin coupling shown in FIG. 1 serves for the elastic coupling of two shaft ends 2 and 4 , which are arranged along a common shaft axis 6 , which is also the axis of rotation of the pin coupling 1 . One or the first shaft end 2 is connected to a first coupling body 8 and the other or second shaft end 4 is connected to a second coupling body 10 in a rotationally fixed manner. According to other embodiments not shown, the one or the other or both coupling bodies 8 and 10 can be connected to a brake disk, flywheel or a gearwheel instead of being connected to a shaft, or can be designed to form such an element, or have the shape of another rotating body or another Rotational body to be connected. The first coupling body 8 has, along a circular line around the axis of rotation 6 and at circumferential spacing from one another, coupling bores 12 , into which elastic annular coupling sleeves 14 are inserted. Each coupling sleeve has a coupling sleeve bore 16 , the central axis 18 of which is parallel to the axis of rotation 6 . In the coupling sleeve bore 16 , an end portion 20 of a coupling bolt 22 is inserted, which is attached at one end to the second coupling body 10 and the other end protrudes from the coupling sleeve 14 and is axially secured by a washer 24 and a locking ring 26 . The coupling pin 22 can be pressed into the coupling sleeve bore 16 . One end section 28 of the coupling bolt 22 can be fastened to the second coupling body 10 by being pressed into a bore 30 formed in the coupling body, which is axially aligned with the coupling bore 12 opposite it. The coupling bolts 22 can transmit a torque between the two coupling bodies 8 and 10 and from them to the shaft ends 2 and 4 . Instead of the coupling bolts 22 pressed into the second coupling body 10 , coupling threaded bolts 23 can be used, which are axially secured at their end facing away from the locking ring 26 by a screw nut 27 on the end face of the second coupling body 10 facing away from the first coupling body 8 . Instead of a circlip 26 , the threaded bolt 23 can have a screw head.

The coupling sleeves 14 each have a rigid or rigid cylindrical outer sleeve 32 , a rigid or rigid cylindrical inner sleeve 34 arranged coaxially at a radial distance therein, and an annular intermediate body 36 made of elastic material, preferably an elastomer, in particular filling the radial space between the two sleeves Natural rubber, chloroprene polymer or nitrile rubber. Rigid means that the rigidity of the inner sleeve 34 and the outer sleeve 32 is substantially higher than the rigidity of the elastic intermediate body 36 . The elastic intermediate body 36 is connected to the two sleeves 32 and 34 in a non-slip, ie non-slip, manner by means of an adhesive connection. The adhesive connection is preferably formed by vulcanizing the intermediate body 36 onto the two sleeves 32 and 34 delimiting it. Glue can be used instead of vulcanization.

Fig. 2 shows two other possible applications of the invention. One possible application is to fasten, preferably vulcanize, the annular elastic intermediate body 36 along its entire length by means of an adhesive connection to the associated coupling bolt 23 . This eliminates the inner sleeve 34 . The other possible application is to alternately fasten part, preferably half, of the coupling bolt 23 to one coupling body 8 and the other coupling bolt 23 to the other coupling body 10 , and to insert the elastic intermediate bodies 36 into coupling bores 12 of the other concerned or a coupling body 10 or 8 .

Referring to FIGS. 3 and 4 are distributed in the elastic intermediate member 36 symmetrically about the central axis 18 parallel to the axis through-holes 64 formed through which reduces the radial spring rigidity of the flexible coupling sleeve 14 and the damping can be varied. If, in addition, the outer sleeve 32 has at least one continuous longitudinal slot 60 or is divided into a plurality of ring segments by a plurality of continuous longitudinal slots 60 , the coupling sleeve 14 can be compressed radially more easily and thus be inserted more easily into a coupling sleeve bore 16 , and the coupling sleeve 14 can be used after the Insert a radial preload.

In the embodiment according to FIGS. 5 and 6, the axially parallel bores are not through bores, but blind bores 64.1 and 64.2 , which are separated from one another in the axial center of the elastic intermediate body 36 by a web 70 of the intermediate body 36 . The outer sleeve 32 can be undivided according to FIGS. 5 and 6 or, as has been described with reference to FIGS. 3 and 4, divided into circular segments or shell parts.

Claims (3)

1. Elastic coupling sleeve of a pin coupling, with the following features: a sleeve-shaped intermediate body ( 36 ) made of rubber or rubber-like elastic material with a theoretical central axis ( 18 ), a rigid outer sleeve ( 32 ) around the intermediate body ( 36 ) coaxial to the central axis ( 18 ), a rigid inner element ( 34 ; 23 ) axially to the central axis ( 18 ) in a through opening of the intermediate body ( 34 ), each has a non-slip adhesive connection between the intermediate body ( 34 ) on the one hand and the outer sleeve ( 32 ) and the inner element ( 34 ) on the other hand, characterized in that the elastic intermediate body ( 36 ) is provided with at least one channel ( 64 ) which reduces the radial cross-sectional material area of the intermediate body and extends over part or the entire length of the elastic intermediate body ( 36 ), such that that over the length of the channel ( 64 ) the radial spring stiffness of the coupling sleeve ( 1 4 ) is reduced compared to the radial spring stiffness without this channel. 2. Elastic coupling sleeve according to claim 1, characterized in that the channel ( 64 ) on two axially one behind the other by a material web ( 70 ) separate sections ( 64.1 and 64.2 ) is divided. 3. Elastic coupling sleeve according to one of the preceding claims, characterized in that the outer sleeve ( 18 ) is divided by at least one slot ( 60 ) extending over its entire length.