DE1151418B - Pneumatic delay valve - Google Patents

Description

Pneumatic delay valve in the automation of machine tools it is often necessary to pass on a pulse generated by the machine itself with a time delay. For example, on a milling machine, the milling table is actuated when the end position is reached of the return a valve, whereby the switching valve to be renewed by means of compressed air Switching on the milling movement is actuated. But since the ejection of the processed Part and loading the machine with a new piece takes a certain amount of time, the impulse triggered by the router table is sent to a delay valve and this is only passed on to the switching valve after the desired time.

A well-known delay valve works with a pressure vessel, the Compressed air can be supplied via a throttle device, and with one of the Pressure vessel downstream spring-loaded or weight-loaded valve closure part. If the compressed air released by the pulse valve flows to the pressure vessel, the pressure rises Pressure in it and under the closure part until the desired Time span the valve opens and the air flows to the downstream valve can.

In the delay valve according to the invention, the closure part not by a spring or a weight, but by magnetic force in the closed position held so that when this magnetic force is overcome by the in the pressure vessel the valve opens suddenly when the magnetic holding and attraction with the distance of the armature from the poles of the magnet very much rapidly drops to a small value.

On the drawing sheet are two embodiments of the invention drawn.

Fig. 1 shows the section of a delay valve in connection with a pressure vessel; Fig. 2 shows part of the same valve in the open state; Fig. 3 shows a guide sleeve; Fig. 4 shows a delay valve with a magnet mounted on the side.

In Figs. 1, 2 and 4, 1 denotes the body of the delay valve. Figs. 1, 2 and 3 belong to the same embodiment. A guide sleeve 3 is screwed into the threaded bore 2 of the valve body 1. In the guide sleeve 3 , the valve stem 4 is slidably mounted, it carries the valve disk 5, this is on both sides with the elastic coating 6, for example, made of synthetic Gununi be standing, provided. The guide neck 3, which is made of iron and serves as an armature for the magnet, is provided with the raised valve seat 7 and the valve body 1 with a valve seat 8 of the same type. The grooves 10 in the bore 9 of the guide sleeve 3 are used to vent the valve. The projecting from the guide sleeve 3 part of the valve stem 4 is provided with the bell-shaped magnet. 11 This consists of the sleeve-shaped permanent magnet 12, also of a sleeve 13 made of iron, which is provided with a base and a flange, and the spacer sleeve 14, made of non-magnetic material. The screw 15 located in the bottom of the sleeve 13 is used to set a possibly desired air gap between the magnet 11 and the guide sleeve 3 serving as an anchor. It is provided with the locking nut 16. 17 with the air inlet hole and 18 with the air outlet hole. The air inlet bore 17 is connected to the pressure vessel 20 through the nipple 19. The pressure vessel 20 is provided with the adjustable throttle 21, which in turn has a screw 22 provided with the cone 273 , by means of which the air inlet into the pressure vessel 20 can be adjusted. The air enters at 38 .

In the exemplary embodiment according to FIG. 4, a commercially available stick-type adhesive magnet 28 is used. It consists of the perineal magnet rod 29, also of the iron sleeve 30 provided with a bottom and the spacer sleeve 31 made of non-magnetic material. A bracket 32, which presses on the end of the valve stem 33 , is rotatably mounted in 34. At the opposite end it is provided with an iron plate 36 which can be adjusted by means of the screw 35 and serves as an anchor. Nut 37 is used to secure the setting.

The function is as follows: The compressed air flows through the adjustable throttle 21 into the pressure vessel 20, in which the pressure rises in the desired time. The tense air exercises - on the valve disk 5 a print out. As long as Faber the pressure acting on the valve disk 5 is less than the magnetic adhesive force of the magnet 11 on the guide sleeve 3, which serves as an armature, the valve remains tightly closed. But at the moment when the pressure acting on the valve disk is equal to or slightly exceeds the adhesive force of the magnet, the magnet is torn from the armature and the valve opens suddenly in the direction of arrow 24. The air now flows in pulses in the direction of arrows 26 and 27 to the organ to be controlled. At the same time, the plate 5 resting on the guide sleeve 3 closes the emptying grooves 9 . After the air has been released, the valve is closed by the magnetic force effect, which now predominates again, in that the magnet 11 and thus also the valve stem 4 move in the direction of the arrow 25. Here, the venting grooves 9 are released, and the compressed air in the valve can flow out through the same.

Permanent magnets have been used in the illustrated embodiments. The magnets can, however, also be corresponding electromagnets, with the adhesive and attractive force within wide limits. can be changed overall by changing the electric current. The invention is not limited to valves with a guide shaft, but with an appropriate arrangement of the magnet, flap, plate and ball valves can also be used.

Claims (1)

PATENT CLAIM-. Pneumatic delay valve, characterized by a pressure vessel (20) with a throttle device (21) for supplying compressed air and a valve (4 to 6) held in the closed position by magnetic force, which - as soon as the air pressure acting on the valve is greater than the magnetic force - as a result of the very rapid decrease, the magnetic force with increasing distance of the armature (3) from the Magaetpolen, (12) opens suddenly. Documents considered: German Patent No. 896 142; U.S. Patent Nos. 2,663,153, 2,716,015.