JPH0612243U - Grommet seal for master cylinder reservoir - Google Patents

Abstract

(57) [Summary] [Purpose] To improve the sealing performance of the grommet seal installed at the connection between the master cylinder and the reservoir. [Structure] A rubber grommet seal G mounted between the cylindrical mounting portion 11 _{1 of the} master cylinder main body and the cylindrical leg portion 17 ₁ of the reservoir main body is radially inward from the lower end of the cylindrical main body portion 22. toward comprising a sealing lip 24 _U, 24 _L of the upper and lower projecting bifurcated by. If the pressure in the space 25 increases when the master cylinder is pressurized and filled with hydraulic oil, the upper seal lip 24 _U will move the seat ₁ on the lower surface of the tubular leg 17 1.
With close contact to 7a, the underside of the seal lip 24 _L is in close contact with the seat 11b of the tubular mounting portion 11 _first bottom surface to prevent leakage of hydraulic oil. Since the pressure acts on the grommet seal G outward in the radial direction indicated by the arrow a, the grommet seal G is not pushed out from the cylindrical mounting portion 11 ₁ and the sealing performance is not deteriorated.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention provides a space between a pair of cylindrical mounting portions formed on the upper surface of the master cylinder body and a pair of cylindrical leg portions formed on the upper surface of the reservoir body and fitted on the inner circumference of the cylindrical mounting portion. The present invention relates to a grommet seal for a master cylinder reservoir mounted on the.

[0002]

[Prior art]

 Conventionally, as a grommet seal for such a master cylinder reservoir, one described in Japanese Patent Publication No. 57-36182 is known. The lower end of this grommet seal is formed with a pair of seal lips that open in a bifurcated manner toward the master cylinder body side.The seal lip on the inside in the radial direction contacts the outer circumference of the cylindrical leg of the reservoir body and The outer seal lip is brought into contact with the inner circumference of the cylindrical mounting portion of the master cylinder body, and when the internal pressure of the master cylinder body rises, both seal lips are urged in the direction to separate from each other, and the cylindrical leg and the cylindrical body It is designed to make a seal by abutting on the mounting part.

[0003]

[Problems to be solved by the device]

 By the way, the filling of the brake system with hydraulic oil after the completion of vehicle assembly is performed by supplying pressurized hydraulic oil from the oil supply port of the reservoir. When the pressurized hydraulic oil is filled into the master cylinder body from the reservoir at this time, pressure acts on the lower surface of the pair of seal lips formed at the lower end of the grommet seal, and this pressure causes the grommet seal to master. Push it up to separate it from the cylinder body. As a result, the seal lip of the grommet seal is displaced from the fixed position, the sealability between the master cylinder body and the reservoir body is deteriorated, and oil leakage may occur from the grommet seal portion.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to prevent the hydraulic oil from leaking from the grommet seal when the hydraulic oil is pressurized and filled in the master cylinder.

[0005]

[Means for Solving the Problems]

 In order to achieve the above-mentioned object, the present invention provides a cylindrical leg formed on the upper surface of the master cylinder body and a cylindrical leg formed on the lower surface of the reservoir body and fitted on the inner circumference of the cylindrical attachment part. In the grommet seal of the master cylinder reservoir that is installed between the cylinder body and the base, the radial inward direction is applied to the lower end of the cylindrical body that is sandwiched between the cylindrical mounting portion of the master cylinder body and the cylindrical leg of the reservoir body. A pair of upper and lower sealing lips that project bifurcated are formed on the upper part of the reservoir, and the upper sealing lip is brought into contact with the lower surface of the cylindrical leg of the reservoir body, and the lower sealing lip of the cylindrical mounting part of the master cylinder body. It is characterized by abutting on the bottom.

[0006]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings.

1 to 4 show an embodiment of the present invention. FIG. 1 is a sectional view of a master cylinder and a reservoir, FIG. 2 is a sectional view taken along line 2-2 of FIG. 1, and FIG. 3 is an enlarged view of part 3 of FIG. 1, and FIG. 4 is a sectional view of the grommet seal alone.

As shown in FIG. 1, a tandem master cylinder M for an automobile includes a master cylinder body 1 having a substantially cylindrical shape. In the cylinder hole 2 of the master cylinder body 1, a pair of front and rear pistons 4 ₁ and 4 ₂ are slidably fitted so as to define first and second hydraulic chambers 3 ₁ and 3 ₂ independent of each other. To be dressed. These pistons 4 ₁ and 4 ₂ are biased in the backward direction by return springs 5 ₁ and 5 ₂ , respectively.

The retracting limit of the front piston 4 ₁ is restricted by supporting the piston 4 ₁ by the tip portion of the stop bolt 6 screwed to the lower wall of the master cylinder body 1. The retraction limit of the rear piston 4 _2, bearing 7 fixed to the rear end inner wall of the cylinder bore 2 is restricted by supporting the piston 4 _2. The rear piston 4 ₂ is fitted and supported on the front end of the piston rod 8 which is slidably supported by the bearing 7, the output rod of the vacuum booster which is operated by a brake pedal (not shown) at the rear end of the piston rod 8 9 are connected. A first output port 10 ₁ and a second output port 10 ₂ connected to a brake cylinder (not shown) are opened in the first hydraulic chamber 3 ₁ and the second hydraulic chamber 3 ₂ , respectively.

A pair of front and rear cylindrical mounting portions 11 ₁ and 11 ₂ are integrally formed on the upper surface of the master cylinder body 1. A relief port 12 ₁ and a supply port 13 ₁ which communicate with the first hydraulic chamber 3 ₁ are formed on the bottom surface of the front cylindrical mounting portion 11 _{1 so} as to be spaced apart from each other in the front-rear direction. A relief port 12 ₂ and a supply port 13 ₂ which communicate with the second hydraulic chamber 3 ₂ are formed on the bottom surface of _{2 so} as to be separated from each other in the front-rear direction.

The reservoir R supported on the upper portion of the master cylinder M includes a reservoir body 14 integrally formed of synthetic resin, and a cap 15 formed on the upper surface of the reservoir body 14 for opening and closing the oil supply port. A partition wall 16 is provided on the upper surface of the bottom wall of the reservoir body 14 so as to partition the inside thereof into front and rear. The partition wall 16 retains the hydraulic oil in the front half and the rear half of the reservoir R when the reservoir R is inclined in the front-rear direction so that the supply of the hydraulic oil to the first hydraulic chamber 3 ₁ and the second hydraulic chamber 3 ₂ is not interrupted. Function. Further, the bottom surface of the bottom wall of the reservoir body 14 is connected to the pair of front and rear cylindrical mounting portions 11 ₁ and 11 ₂ formed on the master cylinder body 1 via rubber grommet seals G and G, respectively. The cylindrical leg portions 17 ₁ and 17 ₂ are integrally formed.

As is clear from FIG. 2 as well, the mounting bracket 18 protruding from the bottom surface of the reservoir body 14 is superposed on the mounting bracket 18 protruding from the upper surface of the master cylinder body 1. , Are connected by bolts 20. At this time, a metal distance collar 21 is attached to the mounting bracket 19 of the reservoir body 14 so that the tightening force of the bolt 20 does not directly act on the synthetic resin mounting bracket 19.

As is apparent from FIGS. 3 and 4, the grommet seal G is provided in the cylindrical mounting portion 11 on the master cylinder body 1 side.₁, 11₂Inner circumference of the cylindrical leg 17 on the side of the reservoir body 14 ₁ , 17₂The cylindrical main body 22 is sandwiched between the main body 22 and the outer circumference. At the upper end of the tubular body portion 22, the tubular mounting portion 11 is projected outward in the radial direction.₁, 11₂The flange portion 23 is formed between the stepped portion 11a formed on the upper surface of the and the lower surface of the reservoir body 14.

A pair of upper and lower seal lips 24 _U and 24 _L protruding inward in the radial direction are formed at the lower end of the tubular main body 22. The upper surface of the upper seal lip 24 _U elastically abuts the annular seat portion 17a formed on the bottom surface of the cylindrical legs 17 ₁ and 17 ₂ of the reservoir body 14 via the stepped portion, and The lower surface of the seal lip 24 _L is elastically attached to an annular seat portion 11 b formed by inclining the bottom surface of the cylindrical mounting portions 11 ₁ and 11 ₂ of the master cylinder body 1 so that the outer side in the radial direction is slightly higher. Abut. The portion sandwiched between the pair of upper and lower seal lips 24 _U and 24 _L faces the space 25 communicating with the inside of the master cylinder body 1 and the reservoir body 14. A slight gap is previously formed between the tip of the upper seal lip 24 _U and the outer periphery of the lower ends of the cylindrical legs 17 ₁ and 17 ₂ .

Three annular projections 26 ... And two annular projections 27 ... are provided on the outer circumference and the inner circumference of the tubular main body 22, respectively, and the three outer circumferential annular projections 26 ... While being in contact with the inner circumferences of 11 ₁ and 11 ₂ and being slightly compressed, the three annular projections 27 on the inner circumference are in contact with the outer circumferences of the cylindrical leg portions 17 ₁ and 17 ₂ and are slightly compressed. .

Next, the operation of the embodiment of the present invention having the above-mentioned configuration will be described.

The rear piston 4 pressed by the output rod 9 of the negative pressure booster₂Return spring 5₂Compress port and move forward to relieve port 12₂The second hydraulic chamber 3₂Brake oil pressure generated in the second output port 10₂Transmitted to the brake cylinder to brake the corresponding wheel. The rear piston 4₂Return spring 5₂Resilience of the second hydraulic chamber 3₂Brake oil pressure generated in the front piston 4₁Return spring 5 ₁ Move forward while compressing. Front piston 4₁But relief port 12₁The first hydraulic chamber 3₁Brake oil pressure generated in the first output port 10₁Is transmitted from the brake cylinder to the brake cylinder and brakes the corresponding wheel.

By the way, when the cap 15 of the reservoir body 14 is removed and the brake system is pressurized and filled with hydraulic fluid after the vehicle is assembled, the hydraulic fluid is stored inside the tubular legs 17 ₁ and 17 ₂ of the reservoir body 14. And into the master cylinder M through the space 25, and then into the brake cylinder through the pipe.

At this time, the filling pressure is a pair of upper and lower seal lips 24 of the grommet seal G facing the space 25._U, 24_LThe upper and lower sides of the seal lip 24_UThe upper surface of the cylindrical leg 17₁, 17₂Of the lower seal lip 24. _L The lower surface of the cylindrical mounting portion 11₁, 11₂It is pressed against the seat portion 11b. As a result, the pair of seal lips 24 of the grommet seal G_U, 24_LIs the cylindrical leg 17₁, 17₂And tubular mounting part 11₁, 11₂Both of them adhere to each other, and the leakage of operating oil from the grommet seal G is reliably prevented.

At this time, the pressure of the hydraulic oil acting on the grommet seal G is toward the outside in the radial direction of the grommet seal G, as indicated by the arrow a in FIG. Therefore, even if the pressure of the hydraulic oil acts, the grommet seal G is not pushed upward from the cylindrical mounting portions 11 ₁ and 11 _{2 of the} master cylinder body 1, and the deterioration of the sealing performance is prevented.

Further, in the state where the grommet seal G is attached, the three annular projections 26 protruding from the outer circumference of the cylindrical main body portion 22 are in close contact with the inner circumferences of the cylindrical mounting portions 11 ₁ and 11 _2. The two annular projections 27, which are compressed and project from the inner circumference of the cylindrical main body 22, are in close contact with the outer circumferences of the cylindrical legs 17 ₁ , 17 ₂ and are compressed, whereby the pair of seals In combination with the sealing action of the lips 24 _U , 24 _L , the leakage of hydraulic oil is prevented more reliably.

Further, since the distance between the pair of tubular mounting portions 11 ₁ and 11 ₂ does not match the distance between the pair of tubular leg portions 17 ₁ and 17 ₂ , the corresponding tubular mounting portions 11 ₁ and 11 ₂ , Even when the relative positions of 11 ₂ and the cylindrical legs 17 ₁ , 17 ₂ in the radial direction are deviated, the above-mentioned error can be absorbed by the amount of compression of the annular protrusions 26, 27. At this time, a gap is formed in advance between the tip of the upper seal lip 24 _U and the outer circumferences of the lower ends of the tubular legs 17 ₁ and 17 ₂ , so that the above error affects the upper seal lip 24 _U. It is prevented from affecting.

Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-mentioned embodiments, and various design changes can be made.

For example, in the embodiment, the reservoir R is supported on the master cylinder M via the two grommet seals G, G, but the reservoir R is supported on the master cylinder M via the one grommet seal G. It is also possible.

[0025]

[Effect of device]

 As described above, according to the present invention, since a pair of upper and lower seal lips that project inward in the radial direction are formed at the lower end of the cylindrical main body of the grommet seal, hydraulic oil is added to the master cylinder from the reservoir. At the time of pressure filling, the pressure causes the upper seal lip to abut the lower surface of the tubular leg of the reservoir body, and the lower seal lip to abut the bottom surface of the cylindrical mounting portion of the master cylinder body. It is possible to reliably prevent the hydraulic oil from leaking. Moreover, since the pressure of the hydraulic oil acts outward in the radial direction of the grommet seal, the pressure prevents the grommet seal from being axially pushed out from the cylindrical mounting portion of the master cylinder body, and the pressure when filling the hydraulic oil is reduced. The deterioration of the cooling property is prevented.

[Brief description of drawings]

FIG. 1 is a sectional view of a master cylinder and a reservoir.

FIG. 2 is a sectional view taken along line 2-2 of FIG.

3 is an enlarged view of part 3 in FIG.

FIG. 4 is a sectional view of a single grommet seal.

[Explanation of symbols]

1 Master cylinder body 11 ₁ , 11 ₂ Cylindrical mounting part 14 Reservoir body 17 ₁ , 17 ₂ Cylindrical leg part 22 Cylindrical body part 24 _U Upper seal lip 24 _L Lower seal lip

Claims (1)

[Scope of utility model registration request] 1. A cylindrical mounting portion (11 ₁ , 11 ₂ ) formed on an upper surface of a master cylinder body (1) and a cylindrical mounting portion ( ₁ ) formed on a lower surface of a reservoir body (14).
Cylindrical legs (17 ₁ , 1 ₂ ) fitted to the inner circumference of 1 ₁ , 11 ₂ ).
7 ₂ ) in the grommet seal of the master cylinder reservoir mounted between the cylinder mounting portion (11 ₁ , 11) of the master cylinder body (1).
₂₎ a tubular Joashi portion of the reservoir body (14) (17 _1, 17
₂ ) is formed with a pair of upper and lower seal lips (24 _U , 24 _L ) protruding inward in the radial direction at the lower end of the tubular main body (22) sandwiched between the upper body and the upper seal lip (2
4 _U) a cylindrical Joashi portion of the reservoir body (14) (17 _1, 1
7 ₂ ), and the lower seal lip (24 _L ) is brought into contact with the bottom surface of the cylindrical mounting portion (11 ₁ , 11 ₂ ) of the master cylinder body (1). , Grommet seal for master cylinder reservoir.