DE149236C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

. The present invention relates to an electric valve control for through liquid or pressurized gas

, Railway signaling and switch machines.

The enclosed drawing shows the valve in connection with a motor, namely shows

Fig. Ι a front view,

ίο Fig. 2 is a longitudinal section according to line AB,

Fig. 3 shows a frame for controlling the inlet and outlet valve.

Fig. 4 shows an embodiment of the

1-5 inlet valve in longitudinal and cross sections.

The motor shown as an example in Fig. Ι and 2 is a single-acting lifting cylinder and is especially intended for signaling.

The valve control consists of an electromagnet i, on whose armature 2 two vertical rods 3 are attached, which are connected at their lower ends by a cross member 4 and form the control frame. The housing 5 of the electromagnet rests on a dish-shaped recessed plate 6 made of non-magnetic material, in which the rising and falling armature 2 is arranged and in which the two frame bars 3 are guided. The plate 6 is screwed to the valve housing 7. The latter is connected to the lifting cylinder 29 by means of the pipe 8. The channel 9 of the connecting pipe 8, on one side with the spaces below the piston 28 through the opening 10, on the other hand Getting Connected with an axial bore 11 of the valve housing in \ ^7, which connects the gas inlet chamber 18 to the gas discharge chamber. 13 If the armature 2 is attracted by the electromagnet 1, the frame 3, 4 lifts the outlet valve 14 onto its seat, thus closing the lower opening of the axial bore 11. If the excitation of the magnet 1 ceases and the armature 2 falls off due to its own weight , so the inlet valve 15 is pressed onto the upper opening of the channel 11, and the outlet valve 14 is opened.

The outlet valve 14 consists of a cylindrical, conically tapering upward Body that runs out into a projection 16, the diameter of which is smaller than the bore 11 into which it protrudes. The length of this approach 16 of the exhaust valve 14 is dimensioned such that when Lift the outlet valve 14 its lower end against the lower end of the Inlet valve 15 sets and the latter lifts off its seat.

The inlet valve 15 is either pierced axially (17) in accordance with FIG. 2 and at the same time radially (18) in the vicinity of the lower end or, as shown in FIG To put in touch. The chamber 19 communicates with the inlet pipe 21 through channel 20. The compressed gas container (not shown) is connected to the pipe 21 by means of the clamp 22 and pipe 23. The inlet valve 15 is passed through a sleeve 2i ^a , which

is firmly connected to the valve housing. This sleeve separates the two chambers 12 and 19 from each other.

The outlet valve goes through the cover 26, which the outlet chamber 23 downwards completes, through and is firmly connected to the frame 3, 4. The outlet chamber 13 is in communication through channel 27, pipe 24 and line 25 with the atmosphere (Fig. 1).

The working principle of the valve is as follows: Is current through the winding of the electromagnet ι sent through, the latter attracts its anchor 2. This lifts by means of of the frame 3, 4 located thereon, the outlet valve 14 and presses it onto the lower one

Opening of the hole 11. Lifts at the same time

. the approach 16 the inlet valve 15 of his Sit at the upper end of the through hole 11 so that the pressurized gas through the line 23, Pipe 21, bore 20, chamber 19, valve bore 17, 18, inlet chamber 12, channel 9, Opening 10 in the cylinder 29 under the piston 28 can occur. Through the gas the piston 28 is raised and the air above it is passed through the openings 30 driven out. The piston rod 31 is by cross head 32 with the Signal or point control rod in connection.

As long as the electromagnet 1 is energized, the admission valve 15 remains open, the outlet valve 14 closed, and the gas pressure is constantly acting on the underside of the piston 28, so that the piston remains in its end position and the signal or the switch remain set.

If the current to the electromagnet 1 is interrupted, the armature 2 falls down, the associated frame 3, 4 pulls the exhaust valve 14 from its seat, and the inlet valve 15 falls on the upper opening of the channel 11. Since the width of the Valve bore 17 respectively. its edge channels 36 compared to the entire cross-section of the \ ^ entils 15 is only small, it expresses in the gas located in the chamber 19, the valve 15 on its seat.

The control housing can be detachably connected to the lifting cylinder by means of a support 34 for the purpose of being able to exchange the same with the electromagnet. Instead of arranging the cylinder as shown in FIG. 1, it can also be reversed so that it works downwards. The cylinder can also be positioned horizontally arrange, in which case the connecting pipe 8 'is attached to the bottom of the cylinder so that valve housing and electromagnet in the vertical extension of the Cylinder.

Claims (1)

Patent claim: An electric valve control for railway signaling and point setting devices, characterized in that the outlet valve (14) is connected to an armature (2) of an electromagnet (1) Frame (3, 4) is attached and a shoulder (16) carries the when closing of the outlet valve (14) lifts the inlet valve (15) from its seats while when opening the outlet valve (14) through the into the lower inlet chamber (12) passing through holes in the valve body from the upper inlet chamber (19) Pressurized gas the inlet valve is pressed onto its seat. 1 sheet of drawings.