PL77408B2 - - Google Patents

Description

Priority: Application announced: May 30, 1973 Patent description was published: July 14, 1975 77408 KI. 60b, 3/10 60b, 3/08 MKP F15c3 / 10 F15c3 / 08 Inventor: Roman Korczyk Authorized under a temporary patent: Departmental Research and Development Center for Automation of Chemical Processes "Chemoautomatyka", Warsaw (Poland) Pneumatic switch controlled by a magnetic field The subject of the invention is Pneumatic switch controlled by a magnetic field. At present, miniature contacts controlled by a magnetic field, working in electric circuits, are widely used, but there are no miniature pneumatic switches controlled by a magnetic field, which can switch low and medium pressure pneumatic circuits, such that they would constitute a single component for use alone or in devices The pneumatic switching system controlled by the magnetic field of a permanent magnet is used, inter alia, in the level indicator. Such indicator is shown in figure 1. In a large hermetic chamber a permanent magnet 7 springs is mounted pivotally mounted. Stiffly stiffened by means of a lever with a set of two plugs 8, which are located opposite the nozzles 9. Opposite the pivotally mounted permanent magnet, on the outside of the chamber, a control magnet 10 is located behind the non-magnetic barrier. Due to the non-polar orientation of the magnets, the movement of the control magnet 10 causes the magnet 7 to snap through in an airtight chamber. This opens one of the nozzles and at the same time closes the other nozzle. A supply pressure is applied to the hermetic chamber. The air stream goes to one of the nozzles depending on the position of the magnets. This circuit is produced as an integral part of the level switch. It is large in size, with a heavy structure because it requires the use of large magnets that generate a strong magnetic field. A large number of elements of the system significantly hinders the performance, increases production costs and significantly reduces the reliability of the device. Control of such a pneumatic switching system is possible only by means of a movable control magnet, and in practice, you feel the need for a miniature pneumatic switching system controlled by a magnetic field of a moving magnet or a fixed winding with The aim of the invention is to develop a universal pneumatic switch, which would eliminate the need to use a large chamber with a pivoting magnet, would enable the construction of a miniature switch with standardized dimensions, would not require the method of producing a magnetic control field, would provide control of pneumatic elements such as amplifiers, bellows and diaphragm chambers and actuators, such as pneumatic valves, in which the circuit should be vented to the atmosphere after disconnecting the pneumatic supply, was simple in construction This aim was achieved by constructing a pneumatic switch composed of a hermetic chamber made of non-magnetic material constituting a housing to which a line of pneumatic conduit is connected. Inside the chamber there is a system of two nozzles, one of which is made of a non-magnetic material and the other of a soft magnetic material, with pneumatic lines. Inside the chamber there is also a flat bar, acting as a diaphragm, made of a soft magnetic material, one end of which is connected to the housing and the other end is closed by a nozzle made of non-magnetic material. A third pneumatic line is supplied to the hermetic casing. The controlling magnetic field created in any way, e.g. by the current flowing in the coil, is closed by a nozzle-diaphragm system made of a magnetic soft material, causing the diaphragm to move in such a way that it opens a nozzle made of a non-magnetic material and closes the nozzle made of a magnetically soft material. The invention will be explained in more detail in the drawing, in which Fig. 2 shows a pneumatic switch controlled by the magnetic field of permanent magnets and Fig. 3 shows the same pneumatic switch controlled by the magnetic field generated during the flow of current through the coil 6. The pneumatic switch shown in Fig. 2 consists of from a housing 1 made of a non-magnetic material, to which a pneumatic line 5 is connected. Inside the chamber there are nozzles, a nozzle 2 made of a non-magnetic material and a nozzle 3 made of a magnetically soft material. The resilient diaphragm 4 made of a magnetic soft material is attached to the housing in such a way that the force of elasticity closes the outlet of the nozzle 2. Under the influence of an external magnetic field, the free end of the diaphragm 4 is pulled against the nozzle 3 and as a result the outlet of the nozzle 2 is opened and the outlet of the nozzle 3 is closed. . PL PL

Claims (2)

1. Claims 1. Pneumatic switch controlled by a magnetic field, characterized in that it is made of a hermetic chamber (1) made of a non-magnetic material, to which a pneumatic line (5) is connected and inside the chamber there is a system of preferably two nozzles with pneumatic discharge to the outside, of which the nozzle (2) is made of a non-magnetic material and the nozzle (3) is made of a magnetic soft material, while the nozzle (2) is covered by the pressure force of the lower end, preferably a flat bar (4) made of a magnetic material soft, the other end of which is most preferably jointlessly attached to the housing (6). 2. Switch according to claim The method of claim 1, characterized in that the control magnetic field is closed by the nozzle (3) and the diaphragm (4) made of a soft magnetic material, causing the movement of the free end of the diaphragm such that it covers the nozzle (2) made of a non-magnetic material and closes the nozzle (3) ) made of a magnetic-soft material .KI. 60b, 3/10 60b, 3/08 77408 MKPF15c3 / 10 FI 5c 3/08 1 gg? 133E3SS2SIZE W- © Fic ,, a ^ XW :::::: ft- Fig. ZKI. 60b, 3/10 60b, 3/08 77408 MKPF15c3 / 10 FI 5c 3/08 Fij. 3 Prac. Typographer. UP PRL Zam. 81/75 edition 120 + 1 »Price 10 PLN. PL PL