KR20130065414A - Control circuit for variable vane oil pump - Google Patents

Abstract

PURPOSE: A circuit for controlling a variable vane oil pump is provided to secure the required sufficient flow rate for controlling the pump and improve the responsiveness of the variable control. CONSTITUTION: A circuit for controlling a variable vane oil pump(20) feeds a working fluid to control an automatic transmission. The pump is respectively connected to a hydraulic line(21), a control line, and a suction line(23). A regulator valve(30) is installed on the hydraulic line through which the working fluid from the pump is discharged. A torque converter control valve(40) controls the pressure of the working fluid, and the pressure is required for a torque converter. The torque converter control valve has a discharging line(41) directly connected to the control line of the pump.

Description

CONTROL CIRCUIT FOR VARIABLE VANE OIL PUMP}

The present invention relates to a variable vane oil pump control circuit, and more particularly, to a variable vane oil pump control circuit capable of optimizing and controlling a cam ring of a variable vane oil pump used in an automatic transmission.

In general, the transmission control unit (TCU) of the automatic transmission controls a plurality of solenoid valves, thereby controlling friction elements (operating elements) such as clutches and brakes.

In general, fixed oil pumps have a low oil pressure at low speeds and high oil pressures at high speeds.

However, since the actual high pressure part of the engine system is a hot idle, the difference between the actual oil pressure and the required pressure eventually worsens fuel efficiency as a loss.

In the case of recent engines, high oil pressure is required in the high temperature hot idle region due to the application of VVT, VVL, and CDA.

In the case of the fixed flow type oil pump, in order to increase the oil pressure in the hot idle region, it is necessary to increase the oil pump capacity by increasing the rotor width, and this increase in the oil pump capacity causes friction to increase fuel efficiency. .

On the other hand, the variable oil pump (Variable Oil Pump) is a fuel-saving item that overcomes the limitations of the fixed oil pump (Fixed Oil Pump), the next generation fuel savings that engine parts companies are developing and preparing to apply to the engine oil pump The main component is the vane method, which was developed by European and North American component companies, mainly for variable oil pumps for engine applications.

The variable vane oil pump described above can be said to achieve a continuous change in the oil discharge amount for optimal control of oil pressure and flow rate required for internal lubrication of the transmission and operation of the operating element.

1 is a view showing the structure of a variable vane oil pump according to the prior art. The conventional variable oil pump structure has a housing (1) forming a port, a rotor (3) having a plurality of vanes (2) radially installed on an outer circumference, and a circumference of the rotor, as shown in FIG. It includes a cam ring (4) to be installed, a spring (5) elastically supporting the cam ring (4), a pivot pin (6) and a cover (7) rotatably fixing the cam ring to the housing.

The variable vane oil pump supplies a control pressure to the cam ring to change the discharge flow rate to change the eccentricity inside the pump to change the volume.

In order to form such a control pressure, the related art uses a solenoid or a pump discharge flow rate feedback or an EX flow rate of a regulator valve to form a control pressure of a variable vane oil pump.

However, in the case of the technique using the solenoid, there is a problem in that the layout setting is difficult due to the addition of the solenoid, the cost increases, and the discharge flow rate of the pump is fed back or the EX flow rate of the regulator valve as shown in FIG. 2. There is a problem that the response of the control to perform the variable control of the pump using the low pump suction performance is not properly secured.

An object of the present invention is to provide a variable vane oil pump control circuit capable of securing a sufficient flow rate required for variable vane oil pump control and improving the responsiveness of the variable control.

According to an embodiment of the present invention, a variable vane oil pump control circuit is provided as a means for solving the above problems. In some embodiments, the variable vane oil pump control circuit comprises a variable vane oil pump supplying a working fluid for controlling the automatic transmission; A regulator valve installed in a hydraulic line discharged from the variable vane oil pump; And a torque converter control valve for controlling the working fluid supplied from the regulator valve to a pressure required by the torque converter, wherein the variable vane oil pump is controlled by the flow rate of the working fluid discharged from the torque converter control valve. It may be characterized by.

The discharge line of the torque converter control valve may be connected to the control line of the variable vane oil pump to control the oil pump.

The working fluid of the exhaust line of the regulator valve may be recycled to the suction line of the variable vane oil pump.

The working fluid of the torque converter control valve flows into the oil filter and the oil pan through the first pipe branch branched from the discharge line, and the working fluid passing through the oil filter and the oil pan passes through the second pipe. It may be characterized in that the suction to the oil pump.

An orifice may be formed in the control line and the first conduit.

A discharge line of the torque converter control valve and an exhaust line of the regulator valve are connected to one third pipe, and the third pipe is connected to a control line of the variable vane oil pump to control the oil pump. can do.

It is introduced into the oil filter and the oil pan through the fourth pipe branch branched from the third pipe, the working fluid passing through the oil filter and the oil pan is sucked into the variable vane oil pump through the fifth pipe. can do.

An orifice may be formed in the control line and the fourth conduit.

According to the variable vane oil pump control circuit according to an embodiment of the present invention, the variable control responsiveness is improved, and after generating the T / C pressure in the transmission, the optimum control of the required flow rate of the transmission can be performed and the effect of preventing the cavitation phenomenon is provided. have.

1 is an exploded perspective view of a variable vane oil pump.
2 is a block diagram of a variable vane oil pump control circuit according to the prior art.
3 is a block diagram of a variable vane oil pump control circuit according to an exemplary embodiment of the present invention.
4 is a configuration of a variable vane oil pump control circuit according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a configuration diagram of a variable vane oil pump control circuit 10 according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the variable vane oil pump control circuit 10 according to an embodiment of the present invention includes a variable vane oil pump 20 for supplying a working fluid for controlling the automatic transmission, and the variable vane oil pump ( A regulator valve 30 installed in the hydraulic line 21 discharged from 20) and a torque converter control valve 40 for controlling the working fluid supplied from the regulator valve 30 to a pressure required by the torque converter, The variable vane oil pump 20 is controlled by the flow rate of the working fluid discharged from the torque converter control valve 40.

The variable vane oil pump 20 is connected to a hydraulic line 21 through which the working fluid is discharged, a control line 22 for controlling the variable vane oil pump 20, and a suction line 23 for sucking the working fluid, respectively. .

The variable vane oil pump 20 has a housing forming an outlet, a rotor having a plurality of vanes radially installed at an outer circumference thereof, a cam ring provided at a circumference of the rotor, and a spring for elastically supporting the cam ring. It may include a pivot pin and a cover for rotatably fixing the cam ring to the housing.

The working fluid discharged from the variable vane oil pump 20 is supplied to the regulator valve 30 along the hydraulic line 21.

The regulator valve 30 according to the embodiment of the present invention is connected to the suction line 23 of the variable vane oil pump 20 whose Ex line 31 is shown in FIG. 3.

A part of the working fluid discharged from the variable vane oil pump 20 passes through the exhaust line 31 of the regulator valve 30 and is recirculated through the suction line 23 so that the variable vane oil pump 20 Flows into). As a result, the suction negative pressure of the variable vane oil pump 20 is increased, thereby preventing cavitation.

On the other hand, the control pressure adjusted by the regulator valve 30 is discharged through the supply line 32 of the regulator valve 30 is introduced into the torque converter control valve 40.

The torque converter control valve 40 is a part that serves to control the pressure required by the torque converter of the automatic transmission vehicle to control the torque converter through the control pressure of the working fluid flowing from the regulator valve 30.

In the variable vane oil pump control circuit 10 according to an exemplary embodiment of the present invention, as shown in FIG. 3, the discharge (Ex) line 41 of the torque converter control valve 40 is the variable vane oil pump 20. Is directly connected to the control line 22.

Therefore, the variable vane oil pump 20 is controlled by the flow rate of the working fluid discharged from the torque converter through the discharge line 41 and the line pressure and the required T / C (Torque Converter) inside the automatic transmission. Optimal control is possible after pressure generation.

In one or more embodiments the discharge line 41 of the torque converter control valve 40 is bifurcated into two branches as shown in FIG. 3, one of which is the control line 22 of the variable vane oil pump 20. Is connected to, and one may be configured to be connected to the first pipe 51, which is introduced into the oil filter 50 and the oil pan (60).

The oil filter 50 filters impurities inside the working fluid to reuse the working fluid used in the hydraulic circuit.

The oil fan 60 collects the discharge flow rate of the first pipe line 51 and the oil inside the transmission, and supplies it to the variable vane oil pump 20 through the second pipe line 52.

Since the structure and operation of the oil filter 50 and the oil pan 60 are well known to those skilled in the art, a detailed description thereof will be omitted.

As shown in FIG. 3, the second conduit 52 connected to the oil pan 60 and the recirculation flow path of the exhaust line 31 of the regulator valve 30 are connected to each other. Cavitation can be prevented more effectively because the suction flow rate of the regulator valve is added to the suction line 23 of the variable vane oil pump 20 with the discharge flow rate of the regulator valve added.

In addition, the orifice 70 is formed on the discharge line 41 and the first pipe line 51 of the torque converter control valve 40 to adjust the discharge flow rate to prevent a sudden pressure drop of the control flow passage 22. have. Orifice (70) is installed in the fluid flow path serves as an aperture, in the present invention is formed with a diameter smaller than the diameter of the pipe of the discharge line 41 and the first pipe line 51 discharge flow rate and The control pressure is adjusted.

As described above, according to the variable vane oil pump control circuit 10 according to the exemplary embodiment of the present invention illustrated in FIG. 3, the variable vane oil pump (B) using the discharge (Ex) flow rate of the torque converter control valve 40 ( 20) to control the flow rate and the optimum control of the hydraulic pressure and the control response is improved, and the discharge (Ex) flow rate of the regulator valve 30 is recycled by suction back to the variable vane oil pump (20) By doing so, it is possible to prevent the cavitation phenomenon.

4 is a configuration diagram of a variable vane oil pump control circuit 10 according to another embodiment of the present invention.

As shown in FIG. 4, the variable vane oil pump control circuit 10 according to another embodiment of the present invention includes a variable vane oil pump 20 for supplying a working fluid for controlling the automatic transmission, and the variable vane oil pump. A regulator valve 30 installed in the hydraulic line 21 discharged from the 20 and a torque converter control valve 40 for controlling the working fluid supplied from the regulator valve 30 to a pressure required by the torque converter. The discharge line 41 of the torque converter control valve 40 and the exhaust line 31 of the regulator valve 30 are connected to one third conduit 53, and the third conduit 53 is connected to the exhaust line 31 of the torque converter control valve 40. The variable vane oil pump 20 is connected to the control line 22 of the variable vane oil pump 20 by the flow rate of the working fluid discharged from the torque converter control valve 40 and the regulator valve 30. Characterized by being controlled .

As shown in FIG. 4, the working fluid discharged from the variable vane oil pump 20 is supplied to the regulator valve 30 along the hydraulic line 21, and exhaust (Ex) of the regulator valve 30 is provided. The line 31 is connected to the discharge (Ex) line 41 of the torque converter control valve 40 to form one third conduit 53.

The third conduit 53 is connected to the suction line 23 of the variable vane oil pump 20.

Accordingly, the third conduit 53 with the Ex flow rate provided along the exhaust line 31 of the regulator valve 30 and the Ex flow rate provided through the discharge line 41 of the torque converter control valve 40 combined. Since the variable vane oil pump 20 is controlled to pass through, the variable vane pump control flow rate is sufficiently secured to significantly improve the variable control response.

In one or more embodiments, the third conduit 53 is bifurcated, as shown in FIG. 4, one connected to the control line 22 of the variable vane oil pump 20, and one to the above. It may be configured to be connected to the fourth pipe (54) flowing into the oil filter 50 and the oil pan (60).

The oil fan 60 (Oil Fan) collects the discharge flow rate of the fourth conduit 54 and the oil inside the transmission and supplies it to the variable vane oil pump 20 through the fifth conduit 55.

In addition, an orifice 70 may be formed on the control line 22 and the fourth conduit 54 to adjust the flow rate. Orifice 70 is a part installed in the fluid flow path to act as an aperture, in the present invention is formed to a diameter smaller than the diameter of the pipe of the control line 22 and the fourth pipe line 54 to control the flow rate Done.

As described above, according to the variable vane oil pump control circuit 10 according to the exemplary embodiment of the present invention illustrated in FIG. 4, the discharge of the regulator valve 30 is performed at the discharge flow rate of the torque converter control valve 40. (Ex) Since the variable vane oil pump 20 is controlled by adding a flow rate, the control response is remarkably improved.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

10: variable vane oil pump control circuit 20: variable vane oil pump
30: regulator valve 40: torque converter control valve
50: oil filter 60: oil pan
70: orifice

Claims (8)

In the variable vane oil pump control circuit of an automatic transmission vehicle,
A variable vane oil pump supplying a working fluid for controlling the automatic transmission;
A regulator valve installed in a hydraulic line discharged from the variable vane oil pump; And
And a torque converter control valve controlling the working fluid supplied from the regulator valve to a pressure required by the torque converter.
The variable vane oil pump control circuit is controlled by the flow rate of the working fluid discharged from the torque converter control valve. The method of claim 1,
And a discharge line of the torque converter control valve is connected to a control line of the variable vane oil pump to control the oil pump. The method of claim 2,
And a working vane of the exhaust line of the regulator valve is recycled to the suction line of the variable vane oil pump. The method of claim 3,
The working fluid of the torque converter control valve flows into the oil filter and the oil pan through the first pipe branch branched from the discharge line, and the working fluid passing through the oil filter and the oil pan passes through the second pipe. Variable vane oil pump control circuit, characterized in that sucked into the oil pump. 5. The method of claim 4,
Variable vane oil pump control circuit, characterized in that the orifice is formed in the control line and the first conduit. The method of claim 3,
A discharge line of the torque converter control valve and an exhaust line of the regulator valve are connected to one third pipe, and the third pipe is connected to a control line of the variable vane oil pump to control the oil pump. Variable vane oil pump control circuit. The method according to claim 6,
It is introduced into the oil filter and the oil pan through the fourth pipe branch branched from the third pipe, the working fluid passing through the oil filter and the oil pan is sucked into the variable vane oil pump through the fifth pipe. Variable vane oil pump control circuit. The method of claim 7, wherein
Variable vane oil pump control circuit, characterized in that the orifice is formed in the control line and the fourth conduit.

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