DE2109770A1 - Magnetic control valve - Google Patents

Description

Magnetic Control Valve The invention relates to a magnetic control valve Control valve with a coil surrounded by an iron jacket and inside the coil protruding magnetic rings, which the magnetic flux over a piece of yoke protruding into the inside of the coil and conduct a magnetic core, as well as with a spring-loaded control slide, the is in operative connection with the magnetic core and the control channels open and close.

One known such magnetic control valve is a mn one Yoke piece is provided with a separate control valve housing, which has a large volume having.

Furthermore, a valve is known in which a fixed in a magnet yoke arranged non-magnetic pin in a slidably arranged inside the coil, Serving as a magnetic core control sleeve protrudes, the supply and discharge of the pressure medium takes place through several axial bores in the pin. Because the cone also necessary for the control grooves are necessary to achieve a sufficient Cross-section large diameter of the pin and control sleeve required.

The object of the invention is to create a magnetic control valve, which builds small with a large free flow cross-section.

To solve this problem, the invention provides that the control slide has a central through-hole, (time is part of the control channels, all control channels are arranged in the rest of the yoke piece and at least one Control edge of the control slide is in the area of the part of the yoke that goes into the inside of the coil protrudes.-Through this arrangement there is still a sufficient cross-section in the yoke piece for the passage of the magnetic flux and for the supply and discharge of the pressure medium, channels with a large cross section can be used. The influx inside the coil is not cut off, so that the pressure medium flowing through it cooling of the coil is achieved. In addition and for easier mobility of the Magnetic core, the central longitudinal bore is continued in the magnetic core, whereby the magnetic core has a recess into which the end of the control slide bearing the spring immersed so that the overall length can be kept particularly small. By the good Cooling through the pressure medium is a higher coil load and a special one small construction of the same possible, the yoke piece has two annular grooves, each with a control channel. are related and each of which is a tax federation of Control slide is assigned. Another control channel between the two ring grooves is led to the mounting hole of the control spool.

The connection of the control valve is particularly easy if all control channels are led to the face of the yoke piece. For an individual connection of the lines However, individual control channels can also be discharged radially.

A good mobility of the control slide is achieved in that it is provided with two collars that are guided in the mounting hole of the yoke piece are, wherein the frets are arranged at the greatest possible distance from one another. In order to achieve a good return flow of the pressure medium despite the collars, between every collar and every control collar a breakthrough leading into the through hole provided in the control slide.

In a further embodiment of the invention, the control slide has a middle rest position on and two each against by the force of a coil a spring caused working positions, with one of the end faces of the magnetic core comes to rest on a piece of yoke protruding into the inside of the coil "; dass.in the middle rest position all control channels closed against each other and a backflow of the pressurized medium is reliably prevented will. To achieve a short construction, the springs are each between the yoke piece and the magnetic core provided, the core for partially receiving and supporting the springs have a recess on both sides.

The use of the most suitable material and precise processing and simple assembly is achieved in that the control slide is the magnetic core penetrates concentrically, is held by a pin and the springs on both sides Magnetic core are arranged on the control slide. To compensate for manufacturing and assembly tolerances are advantageously both control collars of the control slide wider than the annular grooves in the yoke piece.

Good conduction of the magnetic flux is achieved by that a yoke part is provided between the two coils, which is magnetically conductive with is connected to a middle magnetic ring.

Further details of the invention will become apparent with reference to the drawing represents an example embodiment, explained in more detail.

1 shows the longitudinal section of a magnetic control valve, 2 shows a side view according to arrow II in FIG. 1 and FIG. 3 shows a longitudinal section by another embodiment.

In an iron jacket 1, a coil 2 is housed, which over the Connections 3 and 4 are connected to a connector 5. The coil 2 is on two magnetic rings 6 and 7 arranged, which are embedded in insulation 8 and 9.

In the interior of the coil 10, a magnetic core 11 is displaceable in the axial direction arranged.; Its end position is once in its rest position by a sealing plug 12 made of non-magnetic material and once in its working position when energized Coil through the abutment of its end face 13 on one protruding into the coil interior 10 Yoke piece 14 limited.

The magnetic flux is from the iron jacket 1 via disks 15 and 16 made of magnetic material to the magnet ring 6, from which it radially in the magnetic core 11 crosses. A crack 17 between the magnetic core 11 and the yoke piece 14 is counter to the action of a magnetic force Spring 18 is closed, so that the magnetic flux passes through the end face 13 in the yoke piece 14 the magnetic ring 7 and a disk 19 to the iron jacket 1 is continued.

In the yoke piece 14, a control slide is in a receiving bore 20 21 arranged, which is provided with a concentric through hole 22 which is continued through the magnetic core 11 as a bore 23, the control slide 21 is provided with two control collars 24 and 25, which have control edges 26-29 and which work together with annular grooves 30 and 31 in the yoke piece 14.

For precise guidance of the control slide: 21 in the mounting hole 20 this is also provided with two collars 32 u, 33, the gap 34 between the collar 32 and the control collar 25 via an opening 35 and the space 36 between the collar ~ 33 and the control collar 24 via an opening 37 with the through hole 22 of the control spool 2T "-in connection.

The receiving bore 20 and the through bore 22 give a control channel 38, which ends concentrically in the end face 39 of the yoke piece 14.

It serves as a return for the pressure medium, which flows through a control channel 40 opens into the receiving bore 20 between the annular groove 30 and 31. About more Control channels 41 and 42 are the annular grooves 30 and 31 with consumers, not shown tied together. All control channels 38, 40 and 42 are to the end face 39 of the yoke piece 14 out, provided there with seals 45, so that the magnetic control valve Via four screws 44 arranged in through-bores 43 in the area of the corners can be connected to a machine or the like.

The end 46 of the control slide 21 protrudes into a recess 47 of the Magnetic core 11 and carries the spring 18, on the one hand by a locking ring 48 on the control slide 21 and on the other hand by a disc 49, which is in a Recess 50 of the yoke piece 14 is inserted, is held. By the spring 18 the control slide 21 is pulled into its rest position against the disc 49, in that of the control channel 40 via the annular groove 30 with the control channel 41 is connected, while at the same time the control channel 42 via the annular groove 31 with the control channel 38 is in communication.

If the coil 2 is connected to a voltage source, then through the magnetic flux of the magnetic core 11 is drawn against the Jochstück'l4 and thus the control slide 21 brought into its working position in which the control channel 40 is connected to the control channel 42 via the annular groove 31, while at the same time the control channel 41 is connected to the control channel 38 via the annular groove 30.

Another embodiment is shown in Fig. 3 in the rest position. The yoke piece 14 'is designed identically as in the embodiment according to FIG. 1 and 2. On the other hand, two coils 2 'and 2 "are next to each other in an iron jacket 1' provided separated from one another by a yoke part 51. The yoke part 51 is magnetic conductively connected to a further magnetic ring 52, der.den magnetic core 14 'with the exception encloses its ends 53 and 54, The control slide 21 'has also has a through hole 22 ', which has an opening 37' with a Gap 36 'between a control collar 24-t and a collar 33' for guidance in the receiving bore 20 'and through openings 55 u, 56 with the coil interior 10' is in communication and the control channel 38 'emits. The control slide 21 'penetrates the magnetic core 11 'and is connected to it by a pin 57. the End faces 13 'and 58 each have a recess 47' and 59, in which a spring 18 'or 60 is partially received and supported. The spring 18 'supports on the disk 49 'which is inserted in a recess 50' of the yoke piece 14 ' is, while the spring 60 is supported on a disc 61 on the control slide 2-1 'is held by a locking ring 62 and is located in a recess 63 a yoke piece 64 protruding into the inside of the spool 10 'can be supported, in the in 3 is the annular groove 30 'and through the control collar 241' the annular groove 31 'closed by the control collar 25', so that all control channels 38 ', 40', 41 'and the control channel (not shown) which opens into the annular groove 31' separated from each other are.

If the coil. 2 'is connected to a power source, then through the magnetic flux pulls the end 54 of the magnetic core 11 'against the yoke piece 14', and thus the control channels 38 'and 41' and the control channel 40 'with the annular groove 31t connected.

If, on the other hand, the coil 2 'is excited, the end 53 of the magnetic core becomes 11 'drawn against the yoke piece 64 and thus by the displacement of the control slide 21 'the control channel 40' with the control channel 41 'and the control channel 38' with the Annular groove 31 'connected.

The control collars 24 'and 25' are made wider than the annular grooves 30 'and 31', so that with manufacturing tolerances and assembly tolerances in the rest position nevertheless all control channels 38 ', 40', 41 'and the annular groove 31' are secure against each other Are completed.

The advantages achieved with the invention are in particular that a magnetic control valve was created that takes up little space, is insensitive to overload and has large free flow cross-sections. A solenoid valve results in a confined space high performance that Accumulating heat is beneficial because the medium flows back through the inside of the magnet discharged. Since the magnetic flux is extremely small in the center area, this is According to the invention, space is used for the line bushing. Due to the low Number of parts results in a low cost in the manufacture and assembly of the valve.

Claims (14)

Claims C ZMagnetic control valve with an iron jacket Coil and magnetic rings protruding into the inside of the coil, which transmit the magnetic flux conduct a piece of yoke protruding into the inside of the coil and a magnetic core, as well as with a spring-loaded control slide that is in operative connection with the magnetic core and the control channels opens and closes, characterized in that the control slide (14, 14 ') has a central through hole (22, 22') which is part of the Control channels (38, 38 '), all control channels (40, 41, 42, 40', 41 ') otherwise are arranged in the yoke piece (14, 74 ') and at least one control edge (26) of the Control slide (21, 21 ') in the region of the part of the yoke piece (14, 14') which into the coil interior (10, 10 ') protrudes, 2. Magnetic control valve according to claim 1, characterized in that the central through hole (22) in the magnetic core (11) is continued, the magnetic core (11) has a recess (47) into which the the The end (46) of the control slide (21) carrying the spring (18) is immersed. 3. Magnetic control valve according to claim 1, characterized in that that the yoke piece (14) has two annular grooves (30, 31), each with a control channel (41, 42) are related and those respectively. a control collar (24, or 25) of the Control slide (21) is assigned. 4-. Magnetic control valve according to claim 3, characterized in that that another control channel (40) between the two annular grooves (30, 31) to the receiving bore (20) of the control slide (21) is guided. 5. Magnetic control valve according to claim 3 and 4, characterized in that that all control channels (38, 40-42) lead to the end face (39) of the yoke piece (14) are. 6. Magnetic control valve according to claim 3, characterized in that that the control slide (21) has two spaced apart collars (32, 33) in the mounting hole (20) of the yoke piece (14) are led. 7. Magnetic control valve according to claim 6, characterized in that that -between each collar (32 or, 33) and tax collar (24 or 25) a through hole (22) leading through hole (35 'or. 37) is provided in the control slide (21). 8. Magnetic control valve according to claim 1, characterized in that that the yoke piece (14) on the side of the magnetic core - (11) has a recess (50) has, in which a disc (49) comes to rest against the one on the Control slide (21) arranged spring (18) supports 9. Magnetic control valve according to claim 1, characterized in that the control slide (18 ') is a central one Has rest position and two each by the force of a coil (2 'resp. 2l) against a spring)? (18 'or 60) caused working positions, each with a of the end faces of the magnet core (11 ') on one protruding into the coil interior (10') Yoke piece (14 'or 64) for the plant. comes, 10. Magnetic control valve according to claim 9, characterized in that the springs (18 'or, 60) each between the yoke piece (14 'or 64) and the magnetic core (11') are provided and for this purpose the core (11 ') for partial absorption and support of the springs (18 'resp. 60) has a recess (47 'or 59) on both sides. 11. Magnetic control valve according to claim 10. characterized in that the spring (18 'or 60) via a disc (49 'or, 61) on the yoke piece which can be moved to a limited extent on the control slide (21) (14 'or 64). 12. Magnetic control valve according to claim 9, characterized in that that the control slide (21 ') penetrates the magnetic core (11') concentrically through a pin (57) is held and the springs (18 'or 60) on both sides of the magnetic core (11'3 are arranged on the control slide (21 '), 13. Magnetic control valve according to claim 3 and 9, dndurcii characterized, thin acid control collars (24 ', 25') of the control slide (21 ') are made wider than the annular flow (30 ', 31 ') in the yoke piece (14'). 14. Magnetic control valve according to claim 9, characterized in that that between the two coils (2 ', 2 ") a yoke part (51) is provided which is magnetically is conductively connected to a central magnetic ring (52).