JP2828959B2 - Control valve body - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power assist rack and pinion steering system, and more particularly, to a power assist rack and pinion steering system provided with a ring type leaf spring for suppressing a roller housed in a groove formed in a valve body of a pinion valve body. The present invention relates to a control valve body.

[0002]

2. Description of the Related Art A hydraulic power steering apparatus for a motor vehicle is configured to adjust a flow rate discharged from an oil pump driven by an engine to adjust a steering boost.

FIG. 6 shows a conventional power steering apparatus, in which a pump 7 is driven by an engine (not shown).
When 0 is driven, the flow rate of the tank 80 flows into the control valve body 60 through the fluid supply line I.

The fluid is selectively supplied to the left chamber 93 or the right chamber 91 of the power cylinder 90 through the fluid discharge line R or L according to the fluid supply direction in the control valve body 60. Left chamber 93,
Alternatively, the fluid to be supplied to the right chamber 91 causes the piston 92 in the power cylinder 90 to operate as follows.

When the steering wheel 200 is rotated in the direction of arrow L1, the piston 92 moves in the direction of arrow L2 due to the fluid flowing into the left chamber 93, and the wheels 100R and 100L are moved to the L3 side ( Turn left).

On the other hand, when the wheel 100R is rotated in the direction R1 opposite to the above direction, the fluid flows into the right chamber 91, and the piston 92 moves in the direction of arrow R2. Turn right).

In an automobile provided with such a power steering device, an unexpected impact inputted from the road during traveling causes the pressure of the power steering device to increase instantaneously.

[0008] The impact is the wheel 100L or 100R
Is transmitted to the rack 94 via the
4 occurs. The movement of the rack 94 causes the output shaft 6 to move.
The third pinion 64 starts rotating. Then, the input shaft 61 not connected to the output shaft 63 rotates. This increases the amount of fluid supplied from the adjustment valve body 60 to the power cylinder 90, and causes the steering wheel 200 to swing.

On the other hand, the input shaft 6 generated by rotating the steering wheel 200 during middle / high speed traveling.
The torsion bar 62 has a torsion characteristic such that the input shaft 61 can be easily rotated with a small twist angle of the input shaft 61, that is, with a small torque.

[0010] Such a phenomenon causes the operating feeling of the steering wheel to be suddenly lost particularly at middle and high speeds. As a result, there is a problem that the steering feeling is deteriorated and the driver feels uneasy about the steering.

[0011]

SUMMARY OF THE INVENTION The object of the present invention is to
When the steering wheel is within a predetermined angle at high speed,
An object of the present invention is to provide a control valve body which is operated with a large torque.

It is another object of the present invention to provide an adjusting valve body in which a steering wheel is not affected by an impact transmitted from a road at middle and high speeds.

[0013]

According to one aspect of the present invention, there is provided an adjustment valve body having an input shaft connected to one end of a torsion bar, a pinion at one end, and connected to the other end of the torsion bar. An output shaft, means for preventing rotation of the input shaft when the input shaft rotates at a predetermined angle or less, and a housing for accommodating the input shaft, the output shaft, and the input shaft rotation prevention means; Is the input shaft
At least one groove formed in the outer peripheral surface, at least
Equipped with one slit, arranged on the outer periphery of the input shaft
Roller cage and housed in the slit of the roller cage
At least one rotatable partly seated in the groove.
Roller and the rollers roll along the outer peripheral surface of the input shaft.
With elastic means arranged on the outer circumference of the roller to move
The elastic means can be mounted on the outer periphery of the input shaft.
Ring-shaped plate splice with slits
Elastic means, and a slit inserted in the elastic means.
And a washer having a projection to be inserted.
And

Further , the control valve body according to the present invention is characterized in that
Lower the roller so that the shear contacts the shaft end surface of the roller.
The protrusion inserted into the slit formed in the cage
Are provided . In addition, the adjustment bar of the present invention.
The lube body is formed in a longitudinal direction on the side opposite to the outer peripheral surface of the input shaft.
The roller cage has two grooves formed therein.
It has two slits for accommodating rollers, and further,
A washer is inserted into the slit of the roller cage.
It is further characterized by further comprising a projection.

[0015]

FIG. 1 shows a pinion valve body 30 having an input shaft rotation preventing means according to an embodiment of the present invention.
FIG. 2 is a view of the pinion valve body viewed from above at the top. Hereinafter, the same reference numerals are given to the same elements as those in the related art, and the detailed description thereof will be omitted.

The pinion valve body 300 accommodates one end of the torsion bar 62, is spline-coupled to the input shaft 10 fixed by the through pin 11, and the other end of the torsion bar 62, and has a pinion 64 at its lower end. And an output shaft 63. Further, a valve body 65 that is rotatable at the inner diameter of the housing 67 is fixedly installed on the outer periphery of the input shaft 10.

The input shaft 1 adjacent to the upper part of the valve body 65
A vertical groove 12 is formed on the outer peripheral surface of the zero. In this embodiment, two grooves 12 are formed facing each other. The rollers 22 are arranged along the longitudinal axis of the input shaft 10 so as to be in contact with the grooves 12. A roller cage 24 is provided on the outer periphery of the input shaft 10 for guiding the roller 22 to rotate along the outer periphery of the rotating input shaft 10 while suppressing the movement of the roller 22.
Is installed.

In this embodiment, since two rollers 22 are provided corresponding to the number of grooves 12, the roller cage 24 is provided.
Were also arranged. Further, a leaf spring 26 is fitted on the outer periphery of the roller cage 24 so as to cover the outside of the roller 22 and is installed. At this time, if the slit 28 is formed in the plate spring 26, the plate spring 26 can be easily installed on the outer periphery of the roller cage 24 through the slit 28. Furthermore, the snap ring 30 is fitted and installed in the slot 32 of the input shaft 10 so that the roller cage 24 is in contact with the end surface 24U on the side opposite to the side in contact with the valve body 65. It does not come off with the spring 26.

FIG. 3 shows an example in which a washer 40 is arranged between the leaf spring 26 and the snap ring 30 of the pinion valve body 300 of FIG. The washer 40 has a first protrusion 41 protruding downward on the inner peripheral edge thereof, and a second protrusion 48 protruding downward on the outer peripheral surface thereof. The first protrusion 41 is provided in the groove 12 of the input shaft 10 and the roller cage 2.
4. Roller 22 installed between plate spring 26
However, in order to prevent it from slipping out to the washer 40 side,
The roller 22 is formed so as to be in contact with the open shaft end face 22U. The second protrusion 48 is provided in the slit 2 of the leaf spring 26.
8 to be inserted.

By the rotation of the input shaft 10, the roller 22 whose outside is covered by the plate spring 26 rotates while rotating.
The leaf spring 26 is rotated in a direction opposite to the input shaft 10. As a result, the slit 28 of the plate spring 26 comes closer to the roller 22, and the roller 22 separates from the plate spring 26 through the slit 28. In order to prevent this, the second protrusion 48 is formed to be separated from the first protrusion 41 by a predetermined distance so that the slit 28 of the leaf spring 26 is always separated from the roller 22 by a certain distance.

The control valve body provided with the input shaft rotation preventing means operates as follows. 4A, the roller 22 abuts against the groove 12 of the input shaft 10 by the suppression of the leaf spring 26, and positions the steering wheel so as to be suitable for straight running.

The impact given by the road is
L, 100R, pinion valve body 3 via rack 94
The 00 pinion 64 is rotated. This causes the output shaft 63 to rotate, transmitting torque to the input shaft 10. However, the elastic force of the leaf spring 26 transmitted to the input shaft 10 through the roller 22 is reduced by the blocking torque T shown in FIG.
Acting on d, the torsion angle θ of the input shaft 10 becomes 0, and the steering wheel 200 does not rotate.

On the other hand, the blocking torque Td acting on the elastic force of the leaf spring 26 (in the present embodiment, approximately 8 kgf /
4B in which the torque T is applied to the input shaft 10 for more than 2 cm), if the input shaft 10 rotates in the direction of the arrow R8, the inclined surface of the groove 12 abutting on the roller 22 And push it out. The leaf spring 26 suppresses the outward movement (movement in the direction of the arrow R9) of the roller 22, and the input shaft 10 is twisted little.

That is, in FIG. 5, the conventional example is a dotted line,
Although the present embodiment is a solid line, even if a large torque Tb acts, the same torsion angle θb of the input shaft 10 as in the related art is required. Thereafter, when the input shaft 10 is further rotated with a large torque (FIG. 4C), the roller 22 is completely removed from the groove 12 of the input shaft 10 so that the roller 22 exists on the circumferential surface of the input shaft 10. Become. Looking at this case in FIG.
When the torque of the input shaft is Tc (about 40 in this embodiment).
kgf / cm), the torsion angle of the input shaft is represented by θc (about 3 ° in this embodiment).

When the predetermined torsion angle θc is exceeded,
The input shaft 10 rotates while the roller 22 is in rolling contact with the circumferential surface of the input shaft 10. Accordingly, the characteristic curve (solid line) is slightly larger than the conventional characteristic curve (dotted line), and increases.

The case where the input shaft 10 rotates clockwise (direction of the arrow R) as shown in FIGS. 4B and 4C due to the shock generated during traveling has been described above. However, the input shaft 10 rotates counterclockwise. In such a case, the direction changes in the lower left end of FIG.

FIG. 5 shows the characteristics of the talk generated by the rotation of the steering wheel 200 during middle / high speed running in the control valve body provided with such an input shaft rotation preventing means. The torsion angle θ of the input shaft 10 is a predetermined angle θc
In the following case, in order to obtain the same torsion angle θb,
It is understood that the conventional technique requires a small torque Tp, but in the present embodiment, a relatively large torque Tb should be applied.

[0028]

According to the control valve body provided with the input shaft rotation preventing means having the above-described structure, the roller is housed in the groove when the steering wheel is rotated within a predetermined torsion angle during middle / high speed running. The rotational torque of the steering wheel is required to be large due to the resistance of the ring-shaped plate spring that applies elastic force to the roller, and a sense of steering stability can be obtained.

Further, when an impact given on the road is to be transmitted to the input shaft via the tire, the elastic force of the ring-shaped leaf spring transmitted to the input shaft via the roller causes the input shaft to be applied to the steering wheel. Is not transmitted, so that the steering feeling can be improved.

[Brief description of the drawings]

FIG. 1 is a perspective view of a pinion valve body provided with an input shaft rotation preventing means according to the present invention.

FIG. 2 is a plan view seen from the direction of arrow X in FIG.

FIG. 3 is a perspective view showing another embodiment in which a washer is added to FIG. 1;

FIG. 4A is a diagram showing the position of the roller as the input shaft rotates, FIG. 4B is a diagram showing the position of the roller as the input shaft rotates, and FIG. 4C is a diagram showing the position of the roller as the input shaft rotates. .

FIG. 5 is a graph comparing the relationship between the input shaft torsion angle and the torque according to the present invention with that of the related art.

FIG. 6 is a cross-sectional view of a power steering device provided with a conventional pinion valve body.

[Explanation of symbols]

 Reference Signs List 10 input shaft 12 groove 22 roller 24 roller cage 26 leaf spring 62 torsion bar

Continuation of the front page (56) References JP-A-5-330439 (JP, A) JP-A-5-330438 (JP, A) JP-A-7-205825 (JP, A) JP-A-5-262244 (JP) , A) Actually open sho 59-183640 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) B62D 5/00-5/30

Claims (3)

(57) [Claims] 1. An input shaft connected to one end of a torsion bar, an output shaft having a pinion at one end, connected to the other end of the torsion bar, and an input shaft at a predetermined angle or less at which the input shaft rotates. Means for preventing rotation, comprising a housing for accommodating the input shaft, the output shaft and the input shaft rotation preventing means , wherein the input shaft rotation preventing means has at least one groove formed on the outer peripheral surface of the input shaft; At least one slit is provided on the outer periphery of the input shaft.
A roller cage arranged therein and housed in a slit of said roller cage, partially
At least one roller seated in the groove, and the roller rolls along the outer peripheral surface of the input shaft
Elastic means disposed on the outer periphery of the roller as described above,
The elastic means can be mounted on the outer periphery of the input shaft.
Ring-shaped leaf spring with slits
And elastic means that, word having a projection to be inserted into the slit of said elastic means
An adjustment valve body, comprising: a shear . 2. The shaft end face of the roller is provided with the washer.
Slit formed in the roller cage so that it abuts
The adjustment valve body according to claim 1, further comprising a projection inserted into the adjustment valve body. 3. A longitudinal direction on an opposite side of an outer peripheral surface of the input shaft.
The roller cage has two grooves formed in the roller cage.
It has two slits to accommodate two rollers,
The washer is inserted into the slit of the roller cage.
3. The apparatus according to claim 2 , further comprising a projection to be inserted.
The control valve body according to claim 1.