DE1475269A1 - Disk spring friction clutch - Google Patents

Description

Disk spring friction clutch The invention relates to diaphragm or Disk spring friction clutches and is primarily concerned with providing of improvements in the means connecting the plate spring to the clutch actuation thrust bearing device get in touch.

According to the invention there is a thrust ring on one side of the plate spring for the transmission of the load or power from the clutch actuation thrust bearing device after the plate spring for the purpose of clutch disengagement provided while a annular resilient component on the other side of the disc spring is arranged, said thrust ring and the aforementioned annular resilient compliant component extend around the central recess in the disc spring and wherein means for holding the thrust ring and the annular resilient member are provided against the disc spring and that side surface of the thrust ring, which lies opposite the plate spring, with projections provided at a distance from one another each with one of the radial slots in the disc spring can be coupled, whereby the disc spring, the thrust ring and the annular resilient Component able to rotate together. The invention will now be more detailed with the aid of the drawing which shows them for example, namely shows Fig. 1 is a section of a portion of the means which the plate piers with the clutch actuation thrust bearing device bring in connection, while FIGS. 2 and 3 are views of a diaphragm spring clutch reproduce, in which the means according to Fig. 1 come to .Application, Fig. FIG. 2 shows a sectional view from the right in FIG. 3, while FIG a section along the line Ih-III in Fig. 2 (or a front view of Fig; 2) is-. As can be seen from Fig. 1, a thrust ring 1 is on one side of the plate spring 2 of a clutch for transmitting the load or the torque provided by the clutch actuation thrust bearing device, which is indicated generally by the reference numeral -3. An annular yielding one Component 4 is provided on that side of the plate spring which is opposite the side is on which the thrust ring 1 is arranged, the thrust ring and the annular resilient member around the central recess 5 in the Extend the disc spring.

The thrust ring 1 and the annular resilient component are shown in their position is held by a sleeve 6, which extends through the middle recess 5 the plate spring extends, wherein the outer surface of the sleeve 6 is an annular Has groove 7 to a projection 8.on the thrust ring and the inner peripheral edge of the include annular resilient component. The length or extent of the groove between its end edges 9 is such that the thrust ring l and the annular resilient Component 4 are held against the disc spring.

That side surface of the thrust ring 1, which the plate = spring 2 is opposite, is equipped with spaced apart projections 10, each of which can be coupled to one of the radial slots in the disc spring, where resp.

so that the disc spring, the thrust ring and. the annular yielding one Component able to rotate together.

The sleeve can be made from a metal tube of suitable length The assembly is done in such a way that the sleeve passes through the central recess 5 the disc spring is pushed through, the thrust ring 1 and the annular nachgieoige Component 4 are threaded onto the sleeve and finally the opposite end pieces the sleeve can be bent or crimped radially outward, making a U-shaped sleeve Cross-section arises whose flange-shaped peripheral edges - through the outward formed flanged opposite ends - forming the end walls 9, wherein said end walls also stop surfaces each for the thrust ring and create or form the annular compliant member.

The annular resilient component, which, for example, is a "Belleville" washer or a coil spring, each carries slack or tension in the Assembly bill and also serves as an anti-chopper device.

The thrust ring 1 can be made of cast iron, a sintered material, a embossed forged steel or any other suitable material. The thrust ring can have a perfectly circular surface. Alternating can said surface have flats or flat spots, which in the same Are arranged spaced from each other. It has been shown that the arrangement of the flats all around the thrust ring surface, for example three or four flat spots in the same Distance from one another, is advantageous, especially if the thrust ring consists of a sintered material, whereby by the provision of flats a "- @ ui-eken" / "squeal" /, which occurs when this material is used, reduced or eliminated will. The components of the present invention can be used in any coupling be installed, which has a disc spring. For example, as in Figures 2 and 3 of the drawing, the components which are shown in Figure 1 and in Figure 3 has been generally identified with the reference letter A. are in a Single-disc clutch installed, the diaphragm spring 2 by means of a ring of Rivets 11 are attached to the clutch facing 12. The disc spring acts between the thrust ring 1 and a clutch pressure plate 13, and-whose clutch lining works.mit the friction linings 14 of the clutch plate 15 together, which by the splined or grooved bearing bush 16 is held, with a spring insert, which generally the reference number 17 is provided between the coupling plate and the bearing bush is.

The invention also relates to modifications of the enclosed. Claim 1 outlined embodiment and relates above all to all features of the invention, individually or in combination - throughout the description and drawing are disclosed.

Claims (1)

Claims 1. Diaphragm spring clutch, characterized in that a thrust ring (1) on the. one side of the plate spring (2) for the transmission the load or performance of the clutch actuation thrust bearing device the plate spring (2) is provided for the purpose of clutch disengagement, and an annular one resilient component (4) arranged on the other side of the plate spring (2) is, wherein the thrust ring (1) and the annular resilient component (4) extend around the central recess (5) in the plate spring (2) that means for holding the thrust ring (1) and the annular flexible component (4) against the plate spring (2) are provided, and that that side surface of the thrust ring (1), which is opposite the plate spring (2), provided at a distance from one another Projections (10) are provided, each of which is provided with one of the radial slots can be coupled in the disc spring, in such a way that the disc spring (2), the thrust ring (1) and the. annular flexible component (4) able to rotate together. 2. Coupling according to claim 1, characterized in that the thrust ring (1) and the annular resilient component (¢) are arranged around a sleeve (6), which extends through the central recess (5) in the plate spring (2), wherein said sleeve (6) has an annular groove in its outer periphery, the opposite end edges (9) abutment surfaces for the thrust ring (1) and the Form annular resilient component (4). 3. Coupling according to claim 2, characterized in that the sleeve (6) is formed from a metal tube, and the opposite ends thereof are each surrounded by an outer flange with said flanges forming the abutment surfaces. 4. Coupling after Claim 1 to 3, characterized in that the annular, resiliently flexible Component (4) is a "Bellevillel" washer. 5. Coupling according to claim 1 up to 4, characterized in that the ring-shaped resilient component (4) as a diver's feather!; e is formed.