DE323427C - Fluid drive with latch device for signal wing - Google Patents

Description

The invention relates to a fluid drive for signal flights], which also causes the signal wing to stop automatically when Interrupting the electrical coupling current allows.

According to the invention, there is a special control element between the pump and the drive cylinder attached, which in its rest position a connection of the cylinder spaces above and

ο causes this connection below the piston and in its end position picks up and the amount of liquid delivered by the pump the way to only one of the releases both sides of the piston. The control element can be in a flat or piston valve consist of the fluid pressure generated by the pump from its central position moved out to an end position or with the help of mechanical transmission, e.g.

o Is moved wisely by friction wheels, by the pump or the motor.

Some exemplary embodiments of the invention are shown in the drawing.

In Fig. Ι ι is the working pump, 2 of the the working piston that adjusts the signal and moves in cylinder 3. Between pump and The control piston 4, which is under the influence of the spring 5, is switched on. Depending on its position, this piston enables

s development either the connection of both sides of the piston through the channels 6 and 7 with each other or at the end of the channel 6, the connection of the pump to the lower cylinder space through channels 8 and 9.

Is the working piston in its lower position and if the signal is to be set to "drive", the fluid pressure the working pump of the piston 4 shifted to the left against the tension of the spring 5, thereby the channel 6 is blocked and the access by connecting the channels 8 and 9 the liquid to the cylinder 3 allows. The piston is in its uppermost position when it arrives, it is in its end position, for example, by an electrically releasable lock held. The pump can be switched off and the control piston 4 goes back to its initial position under the influence of the spring 5. He gives the Channel 6 free, so that after triggering the lock for the working piston this again can go down, whereby through the channels 6 and 7 the balance of the liquid takes place above and below the flask.

Fig. 2 shows a double-acting arrangement that prevents the signal from falling Involvement of the pump permitted. Parts 1 to 7 correspond to those also designated Parts of Fig. 1. Through the channels 8 and 9, the fluid moved by the pump depending on the direction of rotation of the pump reach above or below the control piston 4. The piston 4 is held in the central position by the spring 5 when the pump is at a standstill. Included are again the spaces above and below the working piston 2 through the channels 6 and 7 and the screwed-in groove of the control piston 4 connected to one another. The pump turns

in the direction of the arrow, the Kolbeu 4 pushed up. The edge 10 then closes off the channel 6, while the edge 11 the channel 7 remains free. If the edge 12 has opened the channel 8, this is a Connection between channel 7 and channel 8 via the screwed-in groove of the control piston created. The channels 6 and 9 are also connected to each other by the rising control piston been connected. The pump sucks liquid out of the cylinder room above the working piston and presses it into the room via channels 9 and 6 under the working piston. The working piston goes up and sets up the signal wing Journey. If the signal has reached the driving position, it can be locked in held in this position. The pump is then switched off and the control piston 4 guided by the spring 5 into its central position. The rooms above and below of the working piston are thereby connected to one another via the control piston 6, so that for example when the coupling current is interrupted by the working piston with the signal can sink downwards.

If one leaves for the stopping of the signal \

the pump runs in the opposite direction j

as for the setting, so will the tax!

piston-4 moved down. The through- j

foot canals are thereby in corresponding.

controlled in the opposite way to driving;

position so that the working piston 2 through!

the liquid delivered by the pump .

is inevitably moved downwards. . j

Another type of construction is shown in Fig. 3. There is again 1 the working pump, 2 the working piston, coupled to the signal wing, 3 the Working cylinder, 4 a control piston which is under the influence of the spring 5, 6 and 7 die channels connected to the two cylinder sides above and below the piston, The control piston 4 is mechanically driven from the pump by friction wheels 8 and 9, namely it is raised with each direction of rotation of the pump, whereby the channels 6 and 7 are closed. the Pump ι is through the channels 10 and ix with connected to the two cylinder chambers above and below the piston.

Operates the pump in either direction, the spool 4 by means of the friction wheels 8 and 9 is first raised against the tension of the spring 5 and ■ stands by closure of the channels 6 and 7. FIG. the connection between the two cylinder chambers. The working piston 2 is consequently shifted up and down by the fluid pressure created by the pump 1, depending on the direction of rotation thereof. When the pump comes to a standstill ^; the control piston 4 returns to its lower position under the influence of the spring 5 and thus connects the channels 6 and 7 with one another again. As a result, the piston 2 can fall back into its lower position.

Claims (3)

Patent Claims: 1. Liquid drive with latch device for signal wings, marked by a control member that is moved mechanically or by fluid pressure by the pump motor, which is activated when the Pump closes a connecting channel between the two sides of the piston and the liquid delivered by the pump opens access to the working cylinder. 2. Liquid drive according to claim 1, characterized by a one-sided or double-acting control piston, which when the pump is at a standstill by spring pressure in a Rest position is held and in this position both piston sides of the working cylinder with each other connects, removes this connection when moving and transfers the amount of liquid delivered by the pump to the working piston works. 3. Liquid drive according to claim i, characterized by one of the pump drive mechanically moved slide or cock that moves when the pump is at a standstill sets in the rest position and in this connects both piston sides of the working cylinder with each other. 1 sheet of drawings.