JPH0735121Y2 - Steel ball retaining structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a structure for preventing a steel ball press-fitted as a blind plug from coming out from a port formed in a housing of a fluid device or the like.

(Prior Art) In the conventional structure shown in FIGS. 4 and 5, a port 2 is formed in an aluminum housing 1 of a fluid device, and an end portion 2a of the port 2 has an inner diameter larger than that of other portions. Making it big. A steel ball 3 having a diameter slightly smaller than the inner diameter thereof is press-fitted into the end portion 2a, and a stopper member 4 is press-fitted outside the steel ball 3. The stopper member 4 has a centering hole 4a formed at the center of a disc having a predetermined plate thickness, and is bent conically from the centering hole 4a.
Moreover, the outer diameter of the stopper member 4 is
2a is slightly larger than the inner diameter, and slits 4b are formed at predetermined locations to give elasticity.

In order to mount the steel ball 3 and the stopper member 4 as described above, the following is done. That is, the steel ball 3 and the stopper member 4 are superposed on each other as shown in FIG. 4 and are pushed in by a jig 5. Since the jig 5 has a protrusion 5a at its tip, The protrusion 5a protrudes from the centering hole 4a and pushes the steel ball 3, and the stopper member 4 is pushed at a place other than this protrusion 5a, so that both are simultaneously pressed into the end 2a.

When the steel ball 3 is press-fitted as described above, for example, when pressure acts from the direction of the arrow P, the stopper member 4 bites into the inner surface of the end portion 2a,
The steel ball 3 can be prevented from coming out.

(Problems to be solved by the present invention) In the conventional structure as described above, since the stopper member 4 having a larger diameter than the inner diameter of the end 2a of the port 2 is press-fitted, the inner surface of the end 2a is scraped off. There was a problem of causing burr.

An object of the present invention is to provide a structure in which burr does not occur even when a stopper member is press-fitted, and moreover, the steel ball is surely prevented from coming off.

(Means for Solving the Problems) This invention presses a steel ball as a blind plug into a port formed in a housing of a fluid device, and
It is premised on a steel ball retaining structure in which a stopper member is press-fitted into this port to prevent the steel ball from coming off.

Then, based on the above-mentioned structure, the present invention uses a stopper member made of metal having a thickness capable of maintaining elasticity, and inclining a plurality of flange portions in a certain direction around a disk portion having a diameter smaller than the port inner diameter. And form it radially,
The outer diameter of the slanted collar portion is made larger than the inner diameter of the port, and the stopper member is bent in a direction in which the outer diameter of the collar portion shrinks with respect to the press-fitting direction, and with respect to the withdrawal direction, the outer diameter It is characterized in that it is bent in the direction in which the diameter expands.

(Operation of the present invention) Since the present invention is configured as described above, when the stopper member is press-fitted, the flange portion inclines in the direction of reducing the diameter. Further, when pressure is applied to the steel ball, the flange portion inclines in the direction in which it expands, so that the tip of the flange portion bites into the inner surface of the port.

(Effect of the present invention) According to the steel ball retaining structure of the present invention, when the stopper member is press-fitted, since the diameter of the flange portion is reduced, the inner surface of the port is not scraped. Moreover, due to its elasticity, the stopper member inserted into the port
The reduced diameter collar expands and stays in the port. Also,
When pressure is applied to the steel ball, the flange portion further expands and bites into the inner surface of the port, so that the steel ball can be reliably prevented from being pulled out.

(Embodiment of the present invention) The greatest feature of the embodiment of the present invention shown in FIGS. 1 to 3 is the stopper member S, in which the steel ball 3 is press-fitted into the end 2a of the port 2 formed in the housing 1. Is exactly the same as before.

Therefore, the structure of the stopper member S will be specifically described. The stopper member S is made of a metal having a thickness capable of maintaining elasticity to some extent, and the central portion thereof is the disk portion 6. A centering hole 7 is formed in the central portion of the disc portion 6, and a plurality of flange portions 8 are radially formed around the disc portion 6.

As is apparent from FIG. 3, the brim portion 8 maintains the angle θ in a normal state, but the outer diameter l at that time is made larger than the inner diameter of the end portion 2a of the port 2. .

Then, the steel ball 3 and the stopper member S are press-fitted into the port 2, but at this time, since the steel ball 3 enters the centering hole 7, the stopper member S is surely center-rigged. In this way, the stopper member S
When press-fitting, the collar portion 8 is, as shown by the dotted line in FIG. 3,
It will be further bent in the direction of inclination. In other words, while the flange 8 is bent in the forward direction, the end 2a of the port 2
Will be pressed into. In this way, the stopper member S
When press-fitting, the flange portion 8 is bent in the forward direction, so that the inner surface of the end portion 2a of the port 2 is not scraped off.

As described above, the steel ball 3 and the stopper member S
When the pressure in the direction of the arrow P acts on the steel ball 3 in the state of being pressed in, the acting force also acts on the stopper member S. At this time, the flange portion 8 of the stopper member S has the end portion 2a.
Due to the frictional force on the inner surface, the outer diameter is bent in the direction of expanding.
Therefore, the tip of the brim portion 8 bites into the inner surface of the end portion 2a to prevent the end portion 2a from being pulled out.

[Brief description of drawings]

1 to 3 show an embodiment of the present invention.
The figure is a sectional view, FIG. 2 is a front view of the stopper member, FIG. 3 is a sectional view of the stopper member, and FIG. 4 is a sectional view of a conventional example.
FIG. 5 is a front view of the stopper member. 1 ... Housing, 2 ... Port, 3 ... Steel ball, S ... Stopper member, 6 ... Disk portion, 8 ... Collar portion.

 ─────────────────────────────────────────────────── ─── Continuation of front page (56) Bibliography Sho 62-143862 (JP, U) Steady Sho 60-5158 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A steel ball as a blind stopper is press-fitted into a port formed in a housing of a fluid device,
In a steel ball retainer structure in which a stopper member is press-fitted into this port to prevent the steel ball from coming off, the stopper member is made of a metal having a thickness capable of maintaining elasticity, and the diameter of the disc portion is smaller than the inner diameter of the port. Around the periphery, a plurality of flanges are formed in a radial direction by inclining in a certain direction, and the outer diameter of the inclined flange is made larger than the inner diameter of the port, and the flange is pressed in the press-fitting direction of the stopper member. A steel ball retaining structure that bends in the direction that the outer diameter shrinks and bends in the direction in which the outer diameter expands when it is pulled out.