KR200256532Y1 - Hydraulic system stablizing line pressure - Google Patents

Abstract

The object of the present invention is to provide a line pressure control system that prevents instability of the transmission ratio due to instability of the line pressure.

The line pressure regulating system for realizing this is based on the combined pressure of the control pressure of the solenoid valve 1 and the elastic force of the elastic member 13 and the line pressure against this force. An orifice valve (5) and an accumulator (7) are provided in the regulator valve (3) for controlling and the control pressure line (9) for supplying the control pressure from the solenoid valve (1) to the regulator valve (3). have.

Description

Line pressure regulating system {HYDRAULIC SYSTEM STABLIZING LINE PRESSURE}

The present invention relates to a hydraulic system for a continuously variable transmission, and more particularly, to a line pressure regulating system for stabilizing continuously variable line pressure by supplying a drive and a driven pulley.

In general, the hydraulic system for controlling the continuously variable transmission has a line pressure regulating system for adjusting the line pressure supplied to the hydraulic chamber of each pulley in order to vary the diameter of the driving and driven pulleys.

This line pressure regulating system typically consists of a regulator valve 51 and a solenoid valve 53, as shown in FIG. The regulator valve 51 is a line that properly discharges the hydraulic pressure supplied from the oil pump 57 by the interaction of the duty control pressure of the solenoid valve 53 and the force of the spring 55 elastic force and the line pressure against this force Controlled by pressure.

In the regulator valve 51, the line pressure is determined by controlling the discharge of the hydraulic pressure as described above. That is, when the control pressure of the solenoid valve 53 increases, the line pressure also increases, and when the control pressure decreases, the line pressure also decreases.

However, the above-described line pressure control system has a disadvantage in that, when the malfunction of the regulator valve and the control pressure of the solenoid valve are unstable, the shift ratio is unstable due to the instability of the pulley due to the instability of the line pressure. In particular, when the regulator valve itself is unstable, low frequency vibration occurs, and when the control pressure of the solenoid valve and the operation of the regulator valve are resonant, the amplitude of the line pressure becomes unstable or the control of the line pressure becomes impossible.

Therefore, the present invention is devised to solve the above problems, an object of the present invention is to provide a line pressure control system for preventing the instability of the transmission ratio due to the instability of the line pressure.

1 is a block diagram of a line pressure control system according to the present invention.

2 is an operational state diagram of the orifice valve applied to the line pressure control system according to the present invention.

3 is a block diagram of a line pressure control system according to the prior art.

<Explanation of symbols for the main parts of the drawings>

1: solenoid valve, 3: regulator valve, 5: orifice valve, 7: accumulator, 9: control pressure line, 11: oil pump, 13: elastic member, 15: line pressure line

In order to realize this, the line pressure control system according to the present invention is a regulator valve for controlling the hydraulic pressure supplied from the oil pump to the line pressure by the force of the control pressure of the solenoid valve and the elastic force of the elastic member and the line pressure against this force. Include,

An orifice valve and an accumulator are installed in a control pressure line for supplying control pressure from the solenoid valve to the regulator valve, thereby speeding up the back pressure release characteristic of the regulator valve, delaying the control pressure action, and preventing back pressure from resonating when the regulator valve resonates. It is characterized in that it is configured to.

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

1 is a configuration diagram of a line pressure regulating system according to the present invention, and includes a solenoid valve 1, a regulator valve 3, an orifice valve 5, and an accumulator 7.

The solenoid valve 1 is configured and connected to duty-control the hydraulic pressure supplied to one side to the control pressure line 9 by duty control by the control pressure.

The regulator valve 3 is configured and connected to control the hydraulic pressure supplied by the oil pump 11 to line pressure. That is, the regulator valve 3 has a force of the control pressure of the solenoid valve 1 supplied to the control pressure line 9 and the elastic force of the elastic member 13 acting on one side thereof and the line pressure line 15 on the opposite side thereof. The line pressure supplied to the structure acts to control the line pressure by balancing the force and the line pressure.

The orifice valve 5 is installed in the control pressure line 9 and configured to speed up the back pressure release characteristic of the regulator valve 3 and delay the control pressure action, as shown in FIG. 2 (b). To this end, the orifice valve 5 has an orifice ball 22 in the center of the valve body 20, and a flow path 24 made of recessed grooves is formed in the surface facing the outer peripheral side and the solenoid valve. When the valve body 20 moves to the regulator valve 3 side, the hydraulic pressure is circulated to the orifice ball 22 only and gradually supplied. When the valve body 20 moves to the solenoid valve 1, the valve body 20 moves to the regulator valve 3. The hydraulic pressure that has been supplied is discharged through the orifice ball 22 and the flow passage 24, thereby quickly discharging.

The accumulator 7 is provided in the control pressure line 9 to prevent the back pressure of the regulator valve 3 from resonating when the regulator valve 3 resonates.

The operation of the line pressure control system configured as described above is as follows.

The hydraulic pressure generated in the oil pump 11 is supplied to the regulator valve 3. The hydraulic pressure supplied in this way is partially discharged by the regulator valve 3 and controlled by the line pressure. The line pressure thus controlled is supplied to a hydraulic chamber (not shown) of the driving and driven pulley (not shown) via various paths leading to the line pressure line 15.

On the other hand, the line pressure is supplied to the solenoid valve (1). This line pressure is adjusted to the control pressure by the duty control of the solenoid valve 1. This control pressure acts on one side of the regulator valve 3 together with the elastic member 13 to balance the line pressure and force acting on the opposite side thereof.

When the control pressure is supplied in this way, the orifice valve 5 is operated as in b of FIG. 2 to gradually supply the control pressure, and when the control pressure is discharged (back pressure), it is operated as a to quickly discharge the control pressure. Let's do it.

The accumulator 7 also prevents the discharge of the control pressure (back pressure) from resonating when the regulator valve 3 resonates.

As described above, the line pressure control system according to the present invention is installed in the control pressure line for supplying the orifice valve and the accumulator from the solenoid valve to the regulator valve, thereby speeding up the back pressure release characteristic of the regulator valve, delaying the control pressure action, and It is possible to stabilize the line pressure by preventing the back pressure from resonating during valve resonance. In addition, the speed ratio can be stabilized.

Claims (1)

A regulator valve 3 for controlling the hydraulic pressure supplied from the oil pump 11 by the pressure of the control pressure of the solenoid valve 1 and the elastic force of the elastic member 13 and the line pressure against this force; An orifice valve installed in a control pressure line 9 for supplying control pressure from the solenoid valve 1 to the regulator valve 1 to speed up the back pressure release characteristic of the regulator valve 3 and to delay the control pressure action ( 5) and; In the line pressure control system comprising an accumulator (7) for preventing the back pressure resonance when the regulator valve (3) resonates, The orifice valve 5 has an orifice ball 22 in the center of the valve body 20 to speed up the back pressure release characteristic of the regulator valve 3 (a) and to delay the control pressure action (b). , Line pressure control system, characterized in that formed on the outer circumferential side and the surface facing the solenoid valve formed of a flow path (24) consisting of a recess groove.