JPS63280938A - Coil spring retaining device - Google Patents

Abstract

PURPOSE:To securely retain a coil spring by elastic deformation and to simplify assembling work by retaining the coil spring by an annular groove corresponding to the outside diameter of the coil spring and claw portions. CONSTITUTION:One end of a coil spring 3 is retained by an annular groove 12 and a pair of claw portions 14, 16. Accordingly, the coil spring 3 is restricted in one direction of a spring retainer 10 by the annular groove 12 and restricted in the other direction of the spring retainer 10 by a pair of claw portions 14, 16. The restriction is conducted by elastic deformation of the coil spring 3 and a counter-part. Thus, the coil spring 3 is securely retained at a designated position regardless of the centrifugal force acting in one direction of the spring retainer 10 and acceleration in the circumferential direction of the spring retainer 10. Furthermore, the annular groove 12 and the claw portions 14, 16 of the spring retainer 10 can be formed at the time of press working for the spring retainer 10.

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Field of Industrial Application The present invention relates to a coil spring holding device.

(B) Prior Art A conventional coil spring holding device is, for example, one shown in US Pat. No. 3,782,708. The coil spring holding device shown in this figure includes a spring retainer made with a burr ring to form a protrusion with a diameter corresponding to the inner diameter of the coil spring, a spring attached to this protrusion, and a punch inserted through the inner diameter of the coil spring into a hole in the protrusion. The coil spring is fixed by plastically deforming the protrusion in the diametrical direction.

Separately, a rivet with a head corresponding to the inner diameter of the coil spring is attached to the spring retainer, and the coil spring is attached by fitting the inner diameter of the coil spring to the head of this rivet. There is also.

(c) Problems to be solved by the invention However, in the case of the above U.S. patent, the top of the protrusion needs to be caulked, making the assembly work troublesome, and once the coil spring is assembled, it cannot be removed and repaired. It becomes difficult to

Furthermore, in the case of a method in which rivets are attached to the spring retainer in advance, the work of attaching the rivets is required, and there are also problems in that the number of parts increases, the weight increases, and the price also increases.

The present invention aims to solve the above-mentioned problems.

(d) Means for Solving the Problems The present invention solves the above problems by holding the coil springs using annular grooves and pawls provided in the retainer. That is, in the coil spring holding device according to the present invention, the spring retainer has an annular groove with a width that allows the outer diameter of the coil spring to fit into it, and a plurality of pairs of pawls formed by cutting and bending the bottom of the annular groove. The distance between the tips of the claws facing each other in each pair is slightly smaller than the outer diameter of the coil spring, and the bending height of the tips of the claws corresponds to the linear shape of the coil spring. The ends of this are sized so that they can be held elastically.

(E) One end of the working coil spring is held by an annular groove and a pair of pawls. Therefore, the coil spring is restrained by the annular groove in one direction of the spring retainer,
The spring retainer is restrained in the other direction by a pair of claws. This restraint is achieved by elastic deformation of the coil spring and the mating member. Thereby, the coil spring is reliably held at a predetermined position despite the effects of centrifugal force acting in one direction of the spring retainer and acceleration in the circumferential direction of the spring retainer. Furthermore, the annular grooves and claws of the spring retainer can be formed during press processing of the spring retainer, and since the coil spring is attached using elastic deformation, the assembly work is easy. The spring can also be easily removed.

(F) Embodiment FIG. 4 shows a clutch using a coil spring holding device according to the present invention. A piston 2, a coil spring 3, a spring retainer 10, a driven plate 4, a drive plate 5, a retainer plate 6, a snap ring 7, etc. are arranged in a rotatably supported clutch drum 1 as shown in the figure. The coil spring 3 always exerts a force on the piston 2 in the direction of pushing it back.

The state in which the coil spring 3 is held by the spring retainer 10 is shown in detail in FIGS. 1 to 3. The spring retainer 10 is provided with an annular groove 12. The width direction dimension of the annular groove 12 is approximately the same as the outer diameter of the coil spring 3 at the bottom side of the annular groove 12, and the width between the inlet side ends of the annular groove 12 is slightly smaller than the outer diameter of the coil spring 3. It's small. That is, the annular groove 12 is designed so that the width dimension becomes larger toward the back side. A pair of pawls 14 and 16 are provided at the bottom of the annular groove 12.

The pawls 14 and 16 are formed by cutting out the bottom of the annular groove 12 in a V-shape and bending it upward as shown in FIG. The dimension between the tip of the claw portion 14 and the tip of the claw portion 16 is set to be slightly smaller than the outer diameter of the coil spring 3. Further, the amount of upward deformation of the claw portions 14 and 16 is approximately equal to the linear shape of the coil spring 3. Furthermore, the claw portions 14 and 16 have width and length dimensions that have sufficient elasticity. The number of such pairs of pawls 14 and 16 equal to the number of coil springs 3 held by the spring retainer 10 are arranged at equal intervals within the annular groove 12.

When assembling the coil spring 3 to the spring retainer 10, the pawl portion 14 in the annular groove 12 and the pawl portion 1
It is sufficient to push one end of the coil spring 3 into the space between 6 and 6.

The dimension between the pawl portions 14 and 16 can be expanded by elastic deformation, and the width dimension on the entrance side of the annular groove 12 can also be expanded by elastic deformation. Furthermore, since the coil spring 3 itself can be elastically deformed in a direction to reduce the outer diameter, the coil spring 3 can be assembled as shown in FIGS. 2 and 3.

In this state, the lower end of the coil spring 3 has an annular groove 12.
It is pinched by the claws 14 and 16, and also receives elastic force from the claws 14 and 16.

Therefore, the coil spring 3 is reliably held despite the centrifugal force and rotational acceleration accompanying the rotation of the clutch drum 1.

In the above embodiment, the width of the annular groove 12 is larger on the back side, but it is not necessary to have such a structure. It is also possible to have a size that is approximately equal to the diameter and Gf. Note that the coil spring can also be held by two pairs of pawls without providing the annular groove. In other words, if two pairs of claws (similar to those shown in Figure 3) are provided in the flat part of the spring retainer in directions perpendicular to each other, and the coil spring is attached by elastically deforming these, the annular shape can be obtained. There is no need to provide grooves. In addition, the claw part is 3 pieces for 12
They can also be arranged at 0° intervals.

(g) As described in detail, according to the present invention, the coil spring is held by the annular groove and the pawl corresponding to the outer diameter of the coil spring, so that the coil spring can be held securely by elastic deformation. It becomes possible to hold it, and assembling work is simplified because caulking work and the like are not required. Furthermore, once the coil spring is attached to the spring retainer, it can be easily removed, which simplifies repair work.

[Brief explanation of drawings]

FIG. 1 is a diagram showing an embodiment of the present invention, and FIG. 2 is a diagram showing an embodiment of the present invention.
A cross-sectional view along the l-Il line, Figure 3 is III-I in Figure 1.
FIG. 4, a sectional view taken along line II, is a diagram showing a clutch in which the coil spring holding device of the present invention is used. 3... Coil spring, 10... Spring retainer, 12... Annular groove, 14.16... Pawl portion.

Claims (1)

[Claims] 1. A coil spring is arranged in a spring retainer,
In a coil spring holding device that holds one end of a coil spring in contact with a spring retainer, the spring retainer has an annular groove wide enough to fit the outer diameter of the coil spring and a cut at the bottom of the annular groove. It has multiple pairs of claws formed by bending, and the distance between the tips of the claws facing each other in each pair is slightly smaller than the outer diameter of the coil spring, and the distance between the tips of the claws facing each other is slightly smaller than the outer diameter of the coil spring. A coil spring holding device characterized in that the bending height is set to a size that allows the ends of the coil spring to be elastically held in accordance with the linear shape of the coil spring and the winding state of the seat. 2. The width of the annular groove is smaller on the entrance side than on the back side, and the width on the entrance side is slightly smaller than the outer diameter of the coil spring. coil spring retention device.