JPS59140906A - Operating cylinder operated by pressure medium - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in a working cylinder actuated by a pressure medium as defined in the generic form of claim 1.

The actuation of such actuating cylinders with pressure medium is carried out using solenoid valves which are housed inside the distribution box together with a corresponding electronic control and are connected to the corresponding actuating cylinder via a conduit. It's normal.

Such a system has the advantage that all the control of the pressure medium can be conveniently configured in one place, and that problems caused by dust and the like can be prevented.

A disadvantage of such a device configuration with several working cylinders actuated by a known pressure medium is that, before obtaining the desired change in movement of the working cylinders, the pressure medium conduit communicating with the working cylinders must first be The problem is that the movement of the actuating cylinder is slightly delayed relative to the motion control signal because pressure must be released or pressure applied to the conduit.

It is an object of the invention to enable a working cylinder actuated by a pressure medium, which is defined in the generic form in claim 1, to be capable of rapidly converting a motion control signal into a change in the movement of a piston. It is to configure it so that.

The object of the invention is achieved by a working cylinder actuated by a pressure medium as defined in claim 1.

In the working cylinder of the present invention, since the automatic control valve is disposed directly and integrally within the working cylinder, the flow path between the working space of the working cylinder and the original control position is reduced. Extremely small.

Therefore, in the case of the working cylinder according to the invention, the piston stops as soon as the supply of pressure medium is interrupted, and conversely, as soon as the control valve opens, the piston begins to move.

The actuating cylinder according to the invention saves energy and is further advantageous since it is not necessary to pressurize or depressurize the conduit other than to obtain effective movement.

Further advantageous embodiments of the invention are specified in patent claims 2 to 5.

According to the configuration of the present invention described in claim (5), simple electronic elements can be used.

These electronic components integrate two initially independent automatic control valves into a single control valve with four logically different operating positions; , has only two positions.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

The actuating cylinder shown in the drawings includes a cover (12) and (
14) has a cylindrical body (10) closed on both sides. The piston (16) slides inside the cylinder (10).

The piston rod (18) passes through the cover r (14) without play and extends outward.

Connection passages (20) and (22) bored in the covers (12) and (14), respectively, connect the piston (16) and
It communicates with the working spaces (24) and (26) defined by the cylinder (lO) and the covers (12) and (14), respectively, and opens toward the outer surface of the working cylinder.

The openings of the connecting passages (20) and (22) are internally threaded, and 302-way switching solenoid valves (28) and (30) are screwed into them, respectively. The outlet sides of the solenoid valves communicate with the corresponding connection paths (20) and (22), respectively, and the inlet sides of the solenoid valves (28) and (30) are connected to high pressure conduits (
32) and a low pressure conduit (34) are connected. When using air as working medium, the low pressure conduit (34) can be omitted. Normally, the solenoid valves (28) and (3
0) is provided with an exhaust muffler communicating with the exhaust port.

The switching electromagnets for the solenoid valves (28) and (30) are connected to the control device (40) via control signal lines (36) and (38).
)It is connected to the.

Three key switches (42), (44) and
46) is provided in the control device (40), and one terminal of each key switch is connected to one pole of a DC power source.

The second terminals of the key switches (42) and (46) are
Each is connected to a corresponding input terminal of an OR gate (48) or (50). Central key switch (44)
The output terminal of is connected to further input terminals of OR gates (48) and (50). OR gate (48) and (
The output signal of 50) is transmitted to the power amplifiers (52) and (54).
are supplied to control signal lines (36) and (38) via.

The operating cylinder integrally provided with the control valve as described above is operated by the control device (40) as follows.

The solenoid valves (28) and (30) are solenoid valves that are normally biased to the closed position by a spring, and the operating opening of the valve is
Key switch (42) if connected to low pressure opening
, (44) and (46) are all realized (X, then
Since both solenoid valves (28) and (30) are not energized.

(No pressure is applied to the operating spaces (24) and (26))
.

When the key switch (42) is opened to select the solenoid valves (28) and (30), the solenoid valve (28) is moved without delay into the position where the pressure conduit (32) connects with the connection path (20). Can be switched. Then, the dead volume l of the connection path (20)
Since it is extremely small, the piston (16) immediately moves to the right in the drawing.

When the key switch (42) is opened again, the solenoid valve (28
) l, again communicating the working space (24) and the low pressure conduit (34), the piston (16) remaining in its position.

Movement of the piston (16) from right to left is similarly obtained by operating the key switch (46).

When the key switch (44) is operated, two operating spaces (
24) and (26) at the same time, the piston (16) again reaches the floating position;
26) is under pressure from

Via key switches (42), (44) and (46), four operating states of the actuating cylinder can be selected: forward;
Retraction, floating position when pressure is applied to the working space,
As well as providing a floating position when no pressure is applied to the working space.

Other operating states can easily be obtained by simple modification of the operating cylinders described above and their associated control devices.

For example, if instead of the key switch (42), a key switch energized to the open position is used, the piston (16), when in its normal state, assumes its final position on the right in the drawing and operates. The space (24) is always maintained under pressure.

As explained above, according to the present invention, energy can be saved with a very simple configuration, and changes in control signals can be quickly converted into changes in piston motion.
and can be achieved in a flexible manner.

[Brief explanation of drawings]

The drawing shows a compressed air actuated cylinder with an integrated control valve and an associated electronic control unit.

Claims (5)

[Claims] (1) having a piston disposed in the cylinder and at least one connection path provided in the wall of the cylinder for supplying a pressure medium to at least one working space defined by the piston and the cylinder; In the working cylinder actuated by a pressure medium, servo-actuated control valves (28), (30) are connected to the connecting channels (20), (22), respectively, and via said control valves the corresponding working space (24'
) (26) An actuating cylinder, characterized in that it is adapted to control the supply of pressure to (26). (2) The control valves (28) (30) are screwed into the threaded connecting passages (20) (22) in a sealed manner. working cylinder. (3) The operating cylinder according to claim 1 or 2, wherein the control valves (28) and (30) are 302-way switching valves. (4) The actuating cylinder according to any one of claims (1) to (3), wherein the control valves (28) and (30) are electromagnetic valves. (5) In the actuating cylinder according to any one of claims (1) to (4), in which a control valve is connected to the two connecting paths, the control device (40) valve(
28) A power amplifier (52) for each of (30)
) (54), the input terminals of the power amplifiers (52) (54) are connected with the output terminals of the corresponding OR gates, the input terminals of said OR gates having switches ( 42) is connected to the output terminal of (46), and the additional input terminal of OR gate (4B) (50) is connected to the output terminal of another switch (44). Actuating cylinder 8