Pumps – Condition responsive control of drive transmission or pump... – Adjustable cam or linkage
Reexamination Certificate
1998-08-13
2001-08-28
Yuen, Henry C. (Department: 3747)
Pumps
Condition responsive control of drive transmission or pump...
Adjustable cam or linkage
C417S310000
Reexamination Certificate
active
06280150
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a variable-displacement vane pump for use in an apparatus using pressurized fluid, such as a power steering unit for reducing force required to steer a steering wheel of an automobile.
2. Description of the Related Art
As a pump for a power steering unit, a positive-displacement vane pump has usually been employed which is directly operated by an engine of an automobile. The discharge flow rate of the foregoing positive displacement pump is changed to correspond to the number of revolutions of the engine. Therefore, the positive displacement pump has a characteristic which is mutually contradictory to auxiliary steering force which must be provided for the power steering unit. The auxiliary steering force must be enlarged when the automobile is stopped or the automobile runs at low speed and reduced when the automobile runs at high speed. Therefore, the positive displacement pump must have a large capacity which enables a discharge flow rate to be maintained with which required auxiliary steering force can be obtained even if the automobile runs at low speed with a small number of revolutions of the engine. Moreover, a flow control valve must be provided which controls the discharge flow rate to be not larger than a predetermined quantity when the automobile runs at high speed with a large number of revolutions of the engine. Therefore, the positive displacement pump involves an increase in the required elements, a complicated overall structure and a complicated structure of passages. Thus, the overall size and costs cannot be reduced.
To solve the problems experienced with the above-mentioned positive displacement pump, variable-displacement vane pumps each of which is capable of reducing a discharge flow rate per revolution (cam cc/rev) in proportion to an increase in the number of revolutions have been disclosed. For example, variable-displacement vane pumps of the foregoing type have been disclosed in Japanese Patent Laid-Open No. 53-130505, Japanese Patent Laid-Open No. 56-143383, Japanese Patent Laid-Open No. 58-93978, Japanese Utility-Model Publication No. 63-1478, and Japanese Patent Laid-Open No. 7-243385. The foregoing variable displacement pumps do not need the flow control valve of the capacity type. Moreover, the variable displacement pump exhibits an excellent energy efficiency because waste of drive horsepower can be eliminated. Since a return to a tank can be prevented, a rise in the temperature of oil can be prevented, a rise in the temperature of oil can be prevented. Moreover, problems of leakage in the pump and deterioration in the capacity efficiency can be prevented.
An example of the foregoing variable-displacement vane pump will simply be described with reference to
FIG. 16
which shows the structure of the pump disclosed in Japanese Patent Laid-Open No. 7-243385. Referring to
FIG. 16
, reference numeral
1
represents a pump body,
1
a
represents an adapter ring and
2
represents a cam ring provided in an elliptic space
1
b
formed in the adapter ring
1
a
of the body
1
, the cam ring
2
being swingably supported through a support shaft portion
2
a
which serves as a fulcrum for a swinging operation. The cam ring
2
is urged by an urging means (compression coil spring) for urging the cam ring
2
in a direction indicated by a hollow arrow F show in FIG.
16
.
Reference numeral
3
represents a rotor eccentrically accommodated at a position adjacent to an end in the cam ring
2
in such a manner that a pump chamber
4
is formed at another end. Since the rotor
3
is rotated by an external power source, the rotor
3
forwards/rearwards moves a vane
3
a
which is held such that the vane
3
a
is able to move in the radial direction. Reference numeral
3
b
represents a drive shaft for the rotor
3
. The rotor
3
is rotated in a direction indicated by an arrow shown in FIG.
16
.
Reference numerals
5
and
6
represent fluid-pressure chambers formed in a pair on the two outer sides of the cam ring
2
, the fluid-pressure chambers
5
and
6
being arranged to serve as high and low pressure portions in the elliptic space
1
b
of the adapter ring
1
a
of the body
1
. In the chambers
5
and
6
, passages
5
a
and
6
a
for introducing fluid pressures across a variable metering orifice
12
provided for a pump discharge-side passage
11
for controlling the swinging operation of the cam ring
2
are opened through a spool-type control valve
10
to be described later. When the fluid pressures across the variable metering orifice
12
in the pump discharge-side passage
11
are introduced through the passages
5
a
and
6
a
, the cam ring
2
is swung to a required direction. Thus, the capacity in the pump chamber
4
is varied so that the discharge flow rate is controlled to correspond to a flow rate in the discharge portion of the pump. That is, the flow rate in the discharge portion is controlled in such a manner that the flow rate in the discharge portion is reduced in inverse proportion to enlargement of the number of revolutions of the pump.
Reference numeral
7
represents an opening (a suction port) in the suction portion of the pump, the opening
7
being opened to face a pump suction-side region
4
A of the pump chamber
4
. Reference numeral
8
represents an opening (a discharge port) in the pump discharge portion, the opening
8
being opened to face a pump discharge-side region
4
B of the pump chamber
4
. The openings
7
and
8
are provided for either of a pressure plate or a side plate (not shown), the plates being securing walls for holding a pump element incorporating the rotor
3
and the cam ring
2
from two side portions.
The cam ring
2
is urged by the compression coil spring from the fluid-pressure chamber
6
, as indicated with symbol F shown in the drawing. The cam ring
2
is pressed in a direction in which the capacity in the pump chamber
4
is maximized. Reference numeral
2
b
shown in the drawing represents a sealing member provided on the outer surface of the cam ring
2
so as to define the fluid-pressure chambers
5
and
6
in association with a bearing portion
2
a
, the chambers
5
and
6
being defined on the right-hand and left-hand portions in the pump chamber
4
.
Reference numerals
7
a
and
8
a
represent whisker-like notches formed continuously from ends of the opening
7
in the pump suction portion and the opening
8
in the pump discharge portion. When a pumping operation is performed by rotating the rotor
3
so that the leading end of each vane
3
a
is slid on the inner surface of the cam ring
2
, the notches
7
a
and
8
a
gradually relieve the fluid pressure from the high pressure portion to the low pressure portion in a region from a space adjacent to the ends of the openings
7
and
8
and held between the vanes to a space between the vanes adjacent to the foregoing space. Thus, surge pressure and pulsation are prevented.
The spool-type control valve
10
is operated by dint of different pressures P
1
and P
2
across a variable metering orifice
12
disposed at an intermediate position of the pump discharge-side passage
11
. When fluid pressure P
3
corresponding to the flow rate in the discharge portion of the pump is introduced into the fluid-pressure chamber
5
at a position on the outside of the cam ring
2
, a sufficiently high flow rate can be maintained in the initial stage of the operation of the pump. In particular, in a state where the different pressure across the variable orifice
12
is raised to be a level not lower than a predetermined level when a load is applied because of the operation of the apparatus using the fluid pressure, the control valve
10
introduces the fluid pressure P
1
upstream of the variable orifice
12
into the high-pressure-side fluid-pressure chamber
5
on the outside of the cam ring
2
, the fluid pressure P
1
being introduced as control pressure. Thus, any swing of the cam ring
2
can be prevented.
The variable-displacement vane pump having the a
Gimie Mahmoud M
Jidosha Kiki Co. Ltd.
Sughrue Mion Zinn Macpeak & Seas, PLLC
Yuen Henry C.
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