JPH08309600A - Piston type accumulator - Google Patents

Abstract

PURPOSE: To suppress the pulsation of return oil and to lessen maintenance by providing the end of a hydraulic chamber for shock absorption with an orifice part closable by movement of a piston and communicating the orifice part with the hydraulic chamber for shock absorption. CONSTITUTION: The return oil from a cylinder 3 for driving a ram is recovered through a returning circuit 7 into an oil tank 5. If the return oil is low or high in pressure, the oil partly enters a hydraulic chamber 13 for absorbing the return oil and a piston 9 moves downward by a slight amt., by which the return oil is reduced in pressure and the pulsation in the return circuit 7 is suppressed. At this time, a piston rod 15 extrudes the oil of the hydraulic chamber 23 for shock absorption downward and injects the oil from the annular orifice part 25, thereby maintaining the oil balance in the hydraulic chamber 23 for shock absorption and lowering the moving speed of the piston 15. As a result, a gas chamber is not disposed in an accumulator and therefore, the maintenance is lessened and the impact of the piston type accumulator is averted by the suppression of the pulsation of the return oil.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pulsation suppressing piston type accumulator disposed in the middle of a return circuit connecting a ram driving hydraulic cylinder and an oil tank in a press machine such as a punch press.

[0002]

2. Description of the Related Art A conventional piston type accumulator for pulsation suppression, which is disposed in the middle of a return circuit that connects a ram driving hydraulic cylinder and an oil tank in a punch press as an example of a press machine, will be briefly described. The piston type accumulator is based on an accumulator body having a piston, and a return oil absorbing hydraulic chamber communicating with a return circuit is provided on one side of the piston in the accumulator body. Further, on the other side of the piston in the accumulator body, a spring capable of urging the piston in one direction is provided, or a gas chamber filled with gas is provided.

Therefore, when the ram drive hydraulic cylinder is appropriately operated, the return oil having a pressure corresponding to the stroke of the ram drive hydraulic cylinder is recovered from the ram drive hydraulic cylinder through the return circuit into the oil tank. . At this time, a part of the return oil flows into the return oil absorbing hydraulic chamber, and the piston moves in the other direction against the urging force of the spring or the gas pressure to reduce the pressure of the return oil,
The pulsation of return oil in the return circuit is suppressed.

[0004]

However, when the gas chamber is provided on the other side of the piston in the accumulator body, the amount of gas in the gas chamber decreases depending on the number of times the piston type accumulator is used, the time of use, etc. However, it is necessary to frequently perform maintenance on the piston type accumulator, which causes a problem that a series of press working operations becomes complicated.

On the other hand, when a spring is provided in place of the gas chamber on the other side of the piston in the accumulator body, since no gas is used, the above problem does not occur, but the following problem occurs. That is, when the spring constant of the spring is large, even if high-pressure return oil flows into the return oil absorption hydraulic chamber, the piston moves in the other direction against the urging force of the spring, and the return oil is depressurized. Therefore, the pulsation of the return oil in the return circuit can be suppressed, but even if low-pressure return oil flows into the return oil absorption hydraulic chamber, the piston does not move in the other direction against the urging force of the spring, so the return oil in the return circuit There was a problem that it was not possible to suppress the pulsation of. On the other hand, when the spring constant of the spring is small, when low-pressure return oil flows into the return oil absorption hydraulic chamber, the piston moves in the other direction against the urging force of the spring, and the return circuit in the return circuit returns. Although oil pulsation can be suppressed, when high-pressure return oil flows into the return oil absorption hydraulic chamber, the piston moves abruptly in the other direction, causing a large impact on the piston-type accumulator itself, causing the piston-type accumulator to There was a problem of causing damage.

[0006]

In order to solve the above-mentioned conventional problems, the first means of the present invention is, as a first means, in the middle of a return circuit for connecting a ram driving hydraulic cylinder and an oil tank in a press machine. In the piston type accumulator, the accumulator body provided with the piston is provided, and the return oil absorbing hydraulic chamber communicating with the return circuit is provided on one side of the piston in the accumulator body, and the piston is unidirectional. A spring for urging the shock absorber is provided, a shock absorbing hydraulic chamber is provided on the other side of the piston (piston rod provided in the piston) in the accumulator body, and an orifice portion is provided on one end side of the shock absorbing hydraulic chamber. The part is configured so that it can be closed by moving the piston in the other direction. Characterized by comprising communicating the other end of the parts and the shock-absorbing hydraulic chamber by a tie circuit.

As a second means, in a piston type accumulator arranged in the middle of a return circuit for communicating a ram driving hydraulic cylinder and an oil tank in a press machine, an accumulator body having a piston is provided, and the accumulator body is provided. A return oil absorbing hydraulic chamber communicating with the above return circuit is provided on one side of the piston inside, and a stopper part for restricting movement of the piston in one direction is provided inside the accumulator body. A spring for urging the piston in one direction is provided so as to come into contact with the piston portion, and a shock absorbing hydraulic chamber is provided on the other side of the piston (piston rod provided in the piston) in the accumulator body. An orifice is provided at one end of the Closable so constituted by another movement of the emissions, characterized by comprising communicating the other end of the orifice portion and the shock-absorbing hydraulic chamber by a tie circuit.

As a third means, in addition to the constitutional requirements of the first or second means, the communication circuit is characterized in that at least a part thereof is provided with a stretchable rubber hose.

[0009]

In the above structure, when the ram drive hydraulic cylinder is appropriately operated, the return oil having a pressure corresponding to the stroke of the ram drive hydraulic cylinder passes from the ram drive hydraulic cylinder through the return circuit to the inside of the oil tank. Be recovered to.

Under the above operation, when the return oil has a low pressure and a high pressure, a part of the return oil flows into the return oil absorbing hydraulic chamber, and the piston resists the urging force of the spring to generate a small amount. By moving only in the other direction, the return oil is depressurized, and the pulsation of the return oil in the return circuit can be suppressed. At this time, while the piston can push the oil in the shock absorbing hydraulic chamber in the other direction, part of the pushed oil is injected from the orifice into the shock absorbing hydraulic chamber, so that the shock absorbing hydraulic chamber It is possible to achieve an oil balance in the chamber and reduce the moving speed of the piston. The return oil that has flowed into the return oil absorbing hydraulic chamber is recovered in the oil tank from the shock absorbing hydraulic chamber through the return circuit as the piston moves in one direction by the urging force of the spring. Further, according to the third means, the volume change of the shock absorbing hydraulic chamber that occurs when the piston moves by a small amount in the other direction is absorbed by the elongation of the rubber hose.

Further, even when the return oil has a higher pressure, the piston similarly moves in the other direction against the urging force of the spring, so that the pulsation of the return oil in the return circuit can be suppressed, while the piston When the other end of (the piston rod of the piston) closes the orifice, the piston does not move in the other direction, and as a result, the piston does not move largely in the other direction against the biasing force of the spring.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to this embodiment will be described below with reference to the drawings.

Referring to FIG. 1, a piston type accumulator 1 according to this embodiment has a return circuit 7 which connects a hydraulic cylinder 3 for driving a ram of a punch press and an oil tank 5.
Is provided in the middle of, and has an effect of suppressing the pulsation of the return oil in the return circuit 7. The piston type accumulator 1 is a tubular accumulator body 1 having a piston 9 movable in the vertical direction (vertical direction in FIG. 1).
1, the return oil absorbing hydraulic chamber 13 connected to the return circuit 7 is provided above the piston 9 in the accumulator body 11. The piston 9 is provided with a piston rod 15 extending downward, and a guide block 17 for supporting the piston rod 15 of the piston 9 movably in the vertical direction is fixedly provided at the center of the accumulator body 11. is there. A stopper portion 19 for restricting the upward movement of the piston 9 is provided on the upper side in the accumulator body 11, and a part (upper side portion) of the piston 9 contacts the stopper portion 19 in a normal state. A spring 21 capable of urging the piston 9 upward is provided above the guide block 17 in the accumulator body 11.

A shock absorbing hydraulic chamber 23 is provided below the piston rod 15 in the accumulator body 11 (in other words, below the guide block 17), and the shock absorbing hydraulic chamber 23 has an upper end portion. Is provided in the annular orifice portion 25. Here, the orifice portion 25 is closed by the piston 9 moving downward by L from the normal state shown in FIG. 1, and the value of this L indicates the downward moving speed of the piston 9. Since it is a determining factor, it is set to a desired value.

The guide block 17 has an orifice portion 25.
Is provided with a communication port 27 communicating with the left end (the left end in FIG. 1), and the right end of the communication port 27 and the lower end of the shock absorbing hydraulic chamber 23 are connected by a communication circuit 29. Here, the communication circuit 29 is provided with a rubber hose capable of expanding and contracting at least partially.

Next, the invention according to this embodiment will be described.

When the ram drive hydraulic cylinder 3 is appropriately operated, the return oil having a pressure corresponding to the stroke of the ram drive hydraulic cylinder 3 passes through the return circuit 7 from the ram drive hydraulic cylinder 3 into the oil tank 5. Be recovered to.

Under the above operation, when the return oil has a low pressure and a high pressure, a part of the return oil is in the return oil absorbing hydraulic chamber 1
3 and the piston 9 moves downward by a small amount against the urging force of the spring 27, the return oil is depressurized, and the pulsation of the return oil in the return circuit 7 can be suppressed. At this time, the piston rod 15 of the piston 9 can push the oil in the shock absorbing hydraulic chamber 23 downward, while a part of the pushed oil is injected from the orifice portion 25 into the shock absorbing hydraulic chamber 23. As a result, an oil balance can be achieved in the shock absorbing hydraulic chamber 23, and the moving speed of the piston 15 can be reduced. The return oil that has flowed into the return oil absorbing hydraulic chamber 13 moves from the shock absorbing hydraulic chamber 13 to the return circuit 7 when the piston 9 moves upward due to the urging force of the spring 21 and returns to the normal state. It is recovered through the oil tank 5. Further, the volume change of the shock absorbing hydraulic chamber 23 that occurs when the piston 9 moves downward by a small amount is absorbed by the expansion of the rubber hose forming a part of the communication circuit 29.

Further, even when the return oil has a higher pressure, the pulsation of the return oil in the return circuit 7 can be suppressed by moving the piston 9 downwardly against the urging force of the spring 25. On the other hand, when the piston rod 15 of the piston 9 closes the orifice portion 25, the piston 9 does not move downward, and as a result, the piston 9 does not move largely downward against the urging force of the spring 21.

According to the piston type accumulator 1 according to this embodiment as described above, the inside of the accumulator body 1
Since the structure in which the gas chamber filled with gas is not provided in 1 is freed from the trouble of frequent maintenance, the work efficiency of a series of press workings can be improved.

Further, even if the return oil has a low pressure or a high pressure, the pulsation of the return oil in the return circuit 7 is suppressed by the piston 9 moving downward against the urging force of the spring 21. On the other hand, since the piston 9 does not move largely downward, the piston type accumulator 1 itself does not have a large impact,
Damage to the piston type accumulator 1 can be avoided as much as possible.

[0022]

As can be understood from the above description of the embodiments, the piston type accumulators according to claims 1 to 3 have a structure in which a gas chamber filled with gas is provided in the main body of the accumulator. Because I have not taken it,
It is possible to improve the work efficiency of a series of press workings without being burdened with frequent maintenance.

Further, even if the return oil has a low pressure or a high pressure, the pulsation of the return oil in the return circuit can be suppressed by causing the piston to move in the other direction against the biasing force of the spring. On the other hand, since the piston does not move largely in the other direction, damage to the piston type accumulator can be avoided as much as possible without causing a large impact on the piston type accumulator itself.

[Brief description of drawings]

FIG. 1 is a diagram showing a piston type accumulator.

[Explanation of symbols]

 1 Piston type accumulator 3 Hydraulic cylinder for ram drive 5 Oil tank 7 Return circuit 9 Piston 11 Accumulator 13 Return oil absorption hydraulic chamber 15 Piston rod 19 Stopper part 21 Spring 23 Impact absorption hydraulic chamber 25 Orifice part 29 Communication circuit

Claims (3)

[Claims] 1. A piston type accumulator provided in the middle of a return circuit communicating a ram driving hydraulic cylinder and an oil tank in a press machine, wherein an accumulator body provided with a piston is provided, and a piston in the accumulator body is provided. A return oil absorbing hydraulic chamber communicating with the return circuit is provided on one side, a spring for urging the piston in one direction is provided, and a shock absorbing hydraulic chamber is provided on the other side of the piston in the accumulator body. An orifice portion is provided on one end side of the absorption hydraulic chamber, and the orifice portion can be closed by moving the piston in the other direction. The orifice portion and the other end side of the shock absorption hydraulic chamber are connected by a communication circuit. Piston type accumulator characterized by 2. A piston type accumulator, which is arranged in the middle of a return circuit for communicating a ram driving hydraulic cylinder and an oil tank in a press machine, wherein an accumulator main body provided with a piston is provided, and the piston in the accumulator main body is provided. A return oil absorbing hydraulic chamber that communicates with the return circuit is provided on one side, and a stopper portion that restricts movement of the piston in one direction is provided inside the accumulator body, and part of the piston contacts the stopper portion in a normal state. As described above, a spring for urging the piston in one direction is provided, a shock absorbing hydraulic chamber is provided on the other side of the piston in the accumulator body, and an orifice portion is provided at one end of the shock absorbing hydraulic chamber. Is configured so that it can be closed by moving the piston in the other direction. Piston type accumulator, characterized by comprising communicating by contact circuit and the other end side of the office part and the shock-absorbing hydraulic chamber. 3. The piston type accumulator according to claim 1, wherein the communication circuit is provided with a rubber hose capable of expanding and contracting at least in a part thereof.