KR0132951Y1 - Accumulator relative to hydraulic control device of a/t - Google Patents

Abstract

The purpose is to effectively eliminate the Engage shock generated by the friction elements of the automatic transmission and to reduce the number of accumulator parts.

This object can be realized by accumulating the accumulator 5 suitable for the hydraulic control device of the automatic transmission as a conical single piece between the bottom of the piston 3 and the bottom of the housing 1.

The spring is formed such that its diameter increases from the contact portion with the piston 3 to the contact with the housing 1, so that the graph represented by the spring displacement and the spring constant creates a secondary curve. Therefore, it is possible to more effectively solve the Engage shock generated in the friction element.

Description

Accumulator suitable for hydraulic control of automatic transmission

The present invention relates to an accumulator suitable for a hydraulic control device of an automatic transmission, and more particularly, in the hydraulic control device of an automatic transmission for a vehicle, to gradually change the hydraulic pressure supplied to the friction element and to minimize the shift shock. The present invention relates to an accumulator suitable for hydraulic control of an automatic transmission.

Automotive transmissions are equipped with friction elements to control the operation of the planetary gears.

These friction elements are hydraulically actuated clutches and brakes, the solenoid valve being controlled in accordance with the control signal of the transmission control unit, and the hydraulic pressure supplied by the control of the solenoid valve engages the friction element.

As such, when the friction element is engaged, shift shock occurs because the hydraulic pressure supplied by the control of the solenoid valve suddenly engages the friction element.

Thus, in order to reduce the shift shock when the friction element is engaged, the accumulator is provided in a pipeline through which the hydraulic pressure controlled by the solenoid valve controlled by the signal of the TCU is supplied to the friction element.

As shown in FIG. 3, the accumulator includes a spring 105 having a piston 103 embedded in a housing 101 of which one side is open, and applying an elastic force to the bottom of the piston 103.

In addition, the piston 103 is formed in a cylindrical shape on the opposite side of the upper surface on which the hydraulic pressure acts.

The spring 105 is installed on the inner surface of the housing 109 from the rear of the piston 103 to absorb the hydraulic engagement gauge supplied to the friction element.

In addition, the spring is installed in the second spring 107 having a small diameter in the first spring 106 having a large diameter in order to enhance the engagement gauge absorption effect.

The second spring 107 is shorter in length than the first spring 106 so that the second spring 107 does not exert an elastic force on the non-large hydraulic signal.

As a result of the double installed spring 9119, the accumulator effectively absorbs the hydraulic engagement gauge supplied to the friction element.

However, such an accumulator has a double spring structure consisting of a first spring and a second spring;

Since the spring constant changes rapidly when the second spring exerts a repulsive force, it becomes a factor that reduces the hydraulic gauge shock absorbing effect of the accumulator.

In addition, the accumulator has a structure in which the first and second springs are built, and the cost increases due to the increase in the number of parts of the accumulator.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to construct a single spring absorbing the hydraulic engagement gauge, to increase the impact of the engagement gauge, reducing the number of parts of the accumulator It is to provide an accumulator with reduced manufacturing costs.

Accumulator according to the present invention for realizing this,

A piston which is embedded in a cylindrical housing in which one side is opened, and moves forward and backward;

The piston is an elastic means for absorbing the hydraulic engagement gauge when the piston is in the forward and backward operation according to the change in the hydraulic pressure, the graph of the change of the spring displacement and the change of the spring constant is widened from the top so as to become the secondary curve The losing includes a conical spring.

As described above, the spring of the accumulator according to the present invention is formed in a conical shape that widens from top to bottom;

Since the spring constant according to the spring displacement shows the secondary curve, it effectively absorbs the hydraulic engagement gauge.

1 is a schematic diagram showing where the accumulator according to the present invention is applied.

2 is a cross-sectional view of the accumulator according to the present invention.

3 is a cross-sectional view of an accumulator according to the prior art.

4 is a graph showing the change of the spring constant according to the spring displacement,

A graph is according to the prior art,

B graph is according to the present invention.

5 is a graph showing the change in the hydraulic pressure according to the operation time of the accumulator,

A graph is according to the prior art,

B graph is according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Housing 3: Piston

5: elastic member

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

1 is a schematic diagram showing that the accumulator according to the present invention is applied, where a is a transmission control unit, b is solenoid valves, c is valves, d is an oil pump, e is an accumulator, and f is a friction element. to be.

The accumulator is installed on the conduit between the friction element and the valve to cushion the hydraulic pressure gauge generated when the oil pressurized by the oil pump pressurizes the friction element through the valve.

2 is a cross-sectional view of the accumulator according to the present invention, and reference numeral 1 is referred to as the accumulator housing.

The housing 1 has a cylindrical shape in which one side is opened and has a piston 3 and an elastic member 5 therein.

The piston (3) slidably in close contact with the inner circumference of the housing (1) is formed in a cylindrical shape with an open lower portion.

The elastic member 5 is the upper end is located on the bottom of the piston 3, the lower end is coupled to the bottom surface of the housing (1).

The elastic member 5 is formed in a conical shape which is integrally formed to prevent the spring constant from changing abruptly when absorbing the hydraulic gauge shock.

4 is a graph illustrating the comparison between the spring characteristics of the prior art and the spring of the present invention, A graph shows a change of the spring constant according to the spring displacement of the prior art, B graph is a It shows the change of spring constant.

Referring to the spring characteristic of the prior art according to FIG. 3, the point (a) shown in the A graph is a point where the spring constant is changed drastically, and the second spring exerts a repulsive force to absorb the hydraulic engagement gauge. to be.

Referring to the spring characteristics of the present invention according to Figure 4, as shown in the graph B, the graph of the spring displacement and the spring constant is shown as a secondary curve in which the slope gradually increases so as to effectively respond to the hydraulic engagement gauge. In addition, it is possible to improve the hydraulic engagement gauge function of the accumulator by eliminating the sudden change in one point of the conventional graph.

5 is a graph showing a comparison between the hydraulic pressure change by the operation of the prior art and the hydraulic pressure change by the operation of the present invention, A graph shows the change in the hydraulic pressure according to the spring operating time of the prior art, B graph The change in hydraulic pressure according to the spring action time of the present invention is shown.

Referring to FIG. 5, first, the change in hydraulic pressure caused by the operation of the prior art, the section (ab) shown in the A graph is the change in hydraulic pressure when the first spring acts, and the section (bc) is the As a change in hydraulic pressure at the same time, the slope of the graph appears different for each section, and in particular, it can be seen that the slope changes at a specific reference point.

Referring to the hydraulic change by the operation of the present invention according to FIG. 5, the graph change in the (de) section, which is a normal operation section of the accumulator, as shown in the graph B, is represented by a quadratic curve. As the spring of the accumulator invented increases, the degree of absorption increases evenly without sudden change.

Therefore, the elastic member 5 of the accumulator according to the present invention eliminates the sudden change in the hydraulic pressure, thereby increasing the effect of reducing the gauge pressure of the accumulator.

As described above, the spring of the accumulator according to the present invention has a smooth secondary curve of the change of the spring constant according to the spring displacement and the change of the hydraulic pressure according to the hydraulic action time, and the spring of the accumulator is a friction element of the accumulator. It will absorb the supplied gauge shock more effectively.

Therefore, the auto transmission to which the accumulator of the present invention is applied can improve its function and extend its life.

In addition, cost savings can be realized by reducing the number of accumulator parts.

Claims (1)

A housing 1 having a space for giving a change in the hydraulic pressure generated from the oil pump; A piston (3) located inside the housing (1) and linearly moving in accordance with the change in hydraulic pressure; It includes an elastic member (5) that resists the movement of the piston (3) when the piston (3) moves in accordance with the hydraulic change, the elastic member (5) from the portion in contact with the piston (3) Accumulator suitable for hydraulic control of automatic transmission, which is formed as a single spring whose diameter gradually increases as it comes into contact with the body.