JPH06193736A - Seal ring made of synthetic resin - Google Patents

Abstract

PURPOSE:To improve the fitting performance by temporarily fixing and holding a seal ring in a ring groove when the seal ring is fitted into the ring groove by applying the shape setting so as to cross at the parts on the inside from both the edge parts, as for a seal ring which is made of synthetic resin having both the edge parts. CONSTITUTION:A seal ring 1 which is made of synthetic resin and has both edge parts is fitted with a ring groove such as the oil pump assembly of an automatic transmission, and the seal ring 1 is formed nearly in the same shape of a ring groove 3, in other words, the inside diameter is formed to the equal diameter to the bottom surface of the ring groove 3. In such the seal ring 1, shape setting is applied by setting the vicinity of the A point which is symmetrical at both the edge parts, inside the ring, so that each part on the inside from both the edge parts cross other. A superposed quantity is applied to both the edge parts by this shape setting, and when the seal ring 1 is spread on the diameter and fitted in the ring groove, the fixation holding to the ring groove of the seal ring 1 is performed by the return force to the inside diameter side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a synthetic resin seal ring having both ends. In general, a seal ring is attached to a piston, a rotary shaft, a reciprocating shaft, or the like in an automobile or the like in order to enhance the adhesion of a contact portion of the piston or the rotary shaft.

[0002]

2. Description of the Related Art FIGS. 3A to 3C show various conventional synthetic resin seal rings.
The synthetic resin seal ring 10 shown in (a) is a general one having a cut portion, and has both end portions 2A and 2B. The synthetic resin seal ring 10 is attached to an oil pump assembly 17 attached to an automatic transmission (AT) as shown in FIGS. That is, the oil pump assembly 17 is provided with the shaft portion 5 that is inserted into the hole portion 4A of the housing (AT housing) 4 of the automatic transmission. The shaft portion 5 of the oil pump assembly 17 is provided with two ring grooves 3, and the seal rings 1 are respectively provided in these grooves 3.
0 is attached.

In this way, the oil pump assembly 1
FIG. 4 shows a partial view in which the seal ring 10 is attached to the shaft portion 5 of No. 7 and set in the AT housing 4. As shown in FIG. The liquid tightness of the hydraulic passage to the inside can be sufficiently ensured. Now, as described above, the seal ring 10 shown in FIG. 3A has both end portions 2A and 2A.
It has a substantially circular shape with both ends 2A and 2B in contact with each other. And this seal ring 10
The inner surface has a diameter (inner diameter) substantially equal in shape and size to the diameter of the bottom wall of the ring groove 3 into which it is mounted.

The synthetic resin seal ring 10 is
As its material, a synthetic resin such as a tetrafluoroethylene resin material (for example, Teflon (trade name)) is generally used. In addition, this resin has an appropriate softness. Due to the softness of such a material, the seal ring 10 has its both end portions 2A and 2B expanded.
It is mounted in the ring groove 3 of the oil pump assembly 17. When the seal ring 10 is attached, paraffin is applied to the ring in order to improve the function of the seal ring.

That is, by applying paraffin to the seal ring 10, all of the inner surface of the seal ring 10 is securely fixed and held to the bottom wall of the ring groove 3 at the time of mounting. Thus, the seal ring 1 when inserted
When 0 is securely fixed and held, its diameter returns to the size before the mounting, and the diameter of 0 is set without protruding from the side wall of the ring groove 3. As a result, as shown in FIG. 6A, the hole 4 of the mating housing (AT housing) 4 is formed.
Since the amount of protrusion from the chamfered portion 4A-1 at the inlet of A disappears, the seal ring 10 is inserted into the AT at the time of insertion.
It hardly hits the chamfered portion 4A-1 of the housing 4.

When the effect of paraffin disappears and the seal ring 10 is peeled off from the ring groove 3, the seal ring 10 is slightly expanded in diameter to secure the seal pressure due to the low fluid pressure during use. That is, due to the softness of the tetrafluoroethylene resin material, the seal ring 10 presses the inner wall surface of the AT housing 4 when receiving the fluid pressure. As a result, the shaft portion 5 of the oil pump assembly 17
The liquid tightness between the housing and the AT housing 4 is secured.

The above-mentioned synthetic resin seal ring 10 (hereinafter referred to as paraffin ring 10) can be attached to other pistons, rotary shafts, reciprocating shafts and the like in the same manner. Further, in the above example, paraffin was used to temporarily hold the ring in the ring groove 3, but grease or vaseline may be used instead.

3 (b) and 3 (c) show a conventional habit-forming synthetic resin seal ring 11. As shown in FIG. In this pre-attachment state, the habit-forming synthetic resin seal ring 11 is habit-formed so that the portions inside the both end portions 2A and 2B overlap each other. Then, the diameter (inner diameter) of the inner surface of the seal ring 10 is
The diameter of the bottom wall of the ring groove 3 in which it is mounted and the end portions 2
It is smaller than A and 2B because the inner parts overlap each other.

The material used for the seal ring 11 is generally synthetic resin such as tetrafluoroethylene resin material (for example, Teflon (trade name)) as in the case of the paraffin ring 10. Is. This is because this resin is provided with appropriate softness,
This is because it also has the property that it can be habituated by a simple heat treatment.

For this reason, in the manufacturing process of this kind of habit-forming synthetic resin seal ring 11, first, a ring portion is manufactured by a normal method and then heat-processed by a heater so that both ends of the ring are They are habituated to overlap. As described above, since the seal ring 11 is made to have a habit, when the seal ring 11 is mounted in the ring groove 3 with the distance between the both ends 2A and 2B widened, the following occurs. That is, the seal ring 11 is
Since the ring groove 3 having a diameter larger than the diameter before mounting is provided, the ring groove 3 is temporarily tightened at the bottom after mounting and fixedly held at the bottom.

In the meantime, the oil pump assembly 17 having the seal ring 11 is attached to the AT housing 4
Inserted in. As a result, the insertion at this time becomes smooth and the load on the seal ring 11 is reduced. After the oil pump assembly 17 is inserted into the AT housing 4 as described above, the seal ring 11 is expanded by the low fluid pressure at the time of use so as to seal the seal ring 11 as in the case of the paraffin ring 10 described above. Secure pressure.

[0012] It should be noted that this seal ring 11 made of synthetic resin can be mounted in the same manner on other pistons, rotary shafts, reciprocating shafts and the like.

[0013]

However, although such a conventional paraffin ring can prevent the deterioration of the seal ring function, it is very inefficient in the actual ring mounting work, resulting in a high cost of the product. There is a problem of leaving. In addition, there is a problem that when the temperature becomes high as in summer, the viscosity of the paraffin itself decreases and it becomes impossible to perform its function. Furthermore, if paraffin is applied and placed on the seal ring before mounting at such a high temperature, there is a problem that the seal rings adhere to each other. On the contrary, when the temperature is low as in the winter, the paraffin is hardened to deteriorate the mountability in the seal ring mounting groove.

In addition, the habit-forming synthetic resin seal ring has a problem that when it is mounted in the ring groove, it becomes elliptic due to the habit-forming due to heat treatment and cannot be securely fixed and held on the bottom surface of the ring groove. . That is, at the time of wearing,
A part is fixedly held on the bottom surface of the ring groove, but the vicinity of both ends and the vicinity of the relative position float from the bottom of the ring groove, and the amount of protrusion from the chamfered portion of the mating housing increases.

The reason is that not only the ring groove is tightened from the both ends to the symmetrical positions of the both ends but also the habitual shape is restored to some extent, so that a distance is formed between the both ends. This is because there is a portion that largely protrudes from the ring groove as shown in FIG. 6B.
For this reason, the contact with the opening edge of the mating housing becomes large in the vicinity of both ends of the seal ring and in the vicinity of their relative positions, and a large load is applied to the seal ring when the oil housing is inserted. The load at this time causes deterioration of the material of the seal ring, and there is a problem that the function of the seal ring may be deteriorated. In addition, (a) of FIG.
Paraffin ring 10 and seal ring 1 shown in (b)
Although the cross section of No. 1 has the same size, the cross section of the seal ring 11 is intentionally drawn thin in order to clarify the difference in the position in the drawing.

Further, as shown in FIG. 6 (c), in order to reduce the load due to the contact, the chamfered portion 4A-1 of the mating housing 4 is increased in chamfering dimension to reduce the load at the time of insertion. A method of reducing the number is conceivable, but in that case, there is a problem that the size of the device must be increased because the housing as a whole must be made large. The present invention has been devised in view of such problems, without using a coating agent such as paraffin,
An object of the present invention is to provide a synthetic resin seal ring that reliably fixes the inner surface of the seal ring to the bottom of the ring groove to prevent contact with the mating housing.

[0017]

Therefore, in the synthetic resin seal ring of the present invention, in the synthetic resin seal ring having both ends, each portion inside the both ends of the seal ring intersects each other. Characterized by being addicted.

[0018]

In the above-mentioned synthetic resin seal ring of the present invention,
When the both ends of the seal ring are installed in the ring groove while expanding, the inner surfaces of the seal ring are temporarily fixed and held in the ring groove because the inner parts of the seal ring intersect each other. .

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIGS. 1 (a) to 1 (c) show a synthetic resin seal ring 1 according to this embodiment. The seal ring 1 has both ends 2A and 2B. Then, as shown in FIG. 1A, the seal ring 1 is formed so as to intersect each portion inside both end portions 2A and 2B.

This synthetic resin seal ring 1 is mounted on an oil pump assembly 17 for an automatic transmission as shown in FIG.
It is used instead of 0 and 11. That is, the seal ring 10 is mounted in each ring groove 3 of the oil pump assembly 17 as in the conventional example. As a result, sufficient adhesion is obtained between the shaft portion 5 of the oil pump assembly 17 and the AT housing 4,
It has a high oil-tightness. This allows
The hydraulic pressure for operating the multi-disc clutch can be reliably supplied.

As with the conventional example, the seal ring 1 is made of synthetic resin such as tetrafluoroethylene resin material. Further, the shape of the seal ring 1 before being subjected to heat treatment is almost the same as the shape of the ring groove 3. That is, the diameter (inner diameter) of the inner wall has the same size and shape as the diameter of the bottom surface of the ring groove 3.

As described above, the seal ring 1 is formed so that the inner portions of the both ends 2A and 2B intersect with each other. Symmetrical A of both ends 2A, 2B of 1
Bend around the point to the inside of the ring. As described above, since the above-mentioned habit is made using the synthetic resin, the synthetic resin seal ring 1 has the two end portions 2A and 2A.
When B is expanded and mounted in the ring groove 3 (see FIG. 1B), the bottom of the ring groove 3 is tightened to fix itself.

At this time, as shown in FIGS. 1 (c) and 2, the seal ring 1 has a small elliptic amount and is almost a perfect circle when mounted in the ring groove 3, unlike the conventional example. It is attached in the form. As a result, as shown in FIG. 6 (a '), the seal ring 1 when mounted is fixedly held in the ring groove 3 in a state where the amount of protrusion is small. In this case, the smaller the overlap amount (the distance between the two end portions 2A and 2B provided by the habit), the smaller the elliptic amount can be made. However, if the overlap amount is too small, the seal ring 1 itself will work well. 3 is no longer fixedly held, so that it is mounted within the range of the overlapping amount shown in FIG. As a result, the oil pump assembly 17
Seal ring 1 and AT housing 4 when inserting
The resistance (guide effect) due to the contact with the chamfered portion 4A-1 is reduced. As a result, the oil pump assembly 17 is hardly loaded on the seal ring 1.
Is inserted. The oval amount referred to here is the length obtained by subtracting the length of the short diameter from the length of the long diameter when the seal ring 1 is attached. Further, the cross section of the seal ring 1 shown in FIG. 6 (a ') is the same size as the seal ring 11 and the paraffin ring 10 described in the conventional example, but in order to clarify the difference in their positions in the drawing. , Especially thinner than the cross section of the other rings.

After the oil pump assembly 17 is inserted into the AT housing 4, the seal ring 1
During use, due to the softness of the tetrafluoroethylene resin material, the diameter is expanded with a low fluid pressure to secure the sealing pressure. Therefore, the seal ring 1 presses the inner wall surface of the hole 4A of the AT housing 4 instead of forming a gap between the seal ring 1 and the ring groove 3 to ensure liquid tightness.

The habit-forming synthetic resin seal ring 1 can be mounted on other pistons, rotary shafts, reciprocating shafts, etc. in the same manner. in this way,
Since the seal ring 1 is formed so as to intersect the inner portions of both ends 2A and 2B of the seal ring 1, liquid tightness between the shaft portion 5 of the oil pump assembly 17 and the AT housing 4 is secured. Besides, the pop-out amount of the seal ring 1 can be made smaller than that of the conventional example.

That is, as shown in FIG. 2, unlike the conventional example, when the seal ring 1 is mounted in the ring groove 3,
The amount of ellipse is small, and it can be mounted in a shape close to a perfect circle. As a result, when the seal ring 1 is inserted into the opening edge of the inner peripheral surface of the other party, the guide effect due to the contact becomes small, and therefore, the seal ring 1 is hardly loaded at the time of insertion. It is possible to prevent deterioration of the seal ring function.

Moreover, the use of a coating agent such as paraffin is omitted, and while maintaining the rationalization of workability, high cost performance is maintained, and the effect of protecting the seal ring is almost the same as when a coating agent such as paraffin is used. Can have

[0028]

As described above in detail, according to the synthetic resin seal ring of the present invention, in the synthetic resin seal ring having both ends, each portion inside the both ends of the seal ring intersects. By such a habit, it is possible to obtain a reliable seal ring protecting effect by a simple operation and similar to the case of using a coating agent such as paraffin.

[Brief description of drawings]

FIG. 1 is a diagram showing a synthetic resin seal ring according to an embodiment of the present invention.

FIG. 2 is a graph showing the relationship between the overlap amount and the elliptic amount of a synthetic resin seal ring.

FIG. 3 is a view showing a synthetic resin seal ring in a conventional example.

FIG. 4 is a partial cross-sectional view of an automatic transmission.

FIG. 5 is a perspective view showing an oil pump assembly.

FIG. 6 is a diagram showing a relationship between a protrusion amount of a synthetic resin seal ring and a chamfered portion of a mating housing.

[Explanation of symbols]

 1 Synthetic Resin Seal Rings 2A, 2B Both Ends 3 Ring Groove 4 AT Housing 4A Hole 4A-1 Chamfer 5 Shaft 10 Paraffin-treated Synthetic Resin Seal Ring 11 Kinetic Synthetic Resin Seal Ring 17 Oil Pump Assembly

Claims (1)

[Claims] 1. A synthetic resin seal ring having both ends, characterized in that each portion inside the both ends of the seal ring is formed so as to intersect with each other.