DE4120292A1 - VALVE, ESPECIALLY CONTINUOUS VALVE FOR PNEUMATIC MEDIA - Google Patents

Abstract

In a valve for pneumatic media, an electromagnet (2), whose armature (6) cooperates with a valve closure member (7), is secured on a valve housing (1) having media ports (A, P), a first valve seat (8) associated with the closure member (7) and a second valve seat (9) associated with a second valve closure member (10). In order to compensate for alignment errors and due to the need to employ an economical production without fine tolerances, the second valve closure member (10), which is more remote from the electromagnet (2), consists of a valve disc (13) with guide rods (14a, 14b) extending coaxially on both sides, and is formed separately from the valve closure member (7), which in turn comprises at least one stem shaft (16) and a valve disc (15). The closure members (7, 10) which are arranged coaxially are urged into mutual abutment by pressure and/or spring force and provide simultaneous control of flow through the valve seats (8, 9) on actuation of the electromagnet (2). <IMAGE>

Description

It is known (DE-A1-29 34 181), a one-piece valve body for two successive valves that can be operated depending on the type to use.

Here, a first pressure medium flow associated with the first valve Entrance chamber and a second assigned to the second valve Pressure medium input chamber and a pressure medium output chamber provided which over the first valve and the second valve simultaneously with the first pressure medium input chamber and the second Pressure medium input chamber is connectable or lockable against it.

By arranging two pressure medium input chambers, which over the two valves simultaneously with the pressure medium outlet chamber are connectable, it is possible with small strokes of the valve body to be able to release large passage cross sections.  

The disadvantage of the known arrangement with two rigidly together connected valve bodies that it cannot be excluded that z. B. due to manufacturing tolerances one of the two valve bodies contributes to a closing process of the two valves is not exactly on his associated valve seat is seated, so that leakages can occur.

Another disadvantage of the known valve device is that the Manufacture of plunger and housing must be done extremely precisely because otherwise the plunger may jam. Especially the Disadvantage of an extremely accurate, d. H. expensive manufacture of valve body and valve housing make the known embodiment uneconomical.

The invention specified in claim 1 addresses the problem that Production of valve body and valve housing more economical and to enable more precisely to pinch the valve body or leakage avoid.

The advantages achieved with the invention are in particular that with separate valve bodies both the manufacture of the simpler Valve body and the manufacture of the valve housing are sufficiently precise, but can be done with less precise tolerances, whereby e.g. B. the housing holes can be edited from two sides that simpler parts in the form of separate valve body achieved be, so that simplified manufacturing and assembly can be achieved.

Advantageous embodiments of the invention are in the subclaims specified.

So it is also advantageous to avoid leakages that the Valve seat disks opposite the valve sealing edge with each  are provided with a sealing ring.

An advantageous measure with regard to the separate valve body also results from the fact that with the electromagnetic armature cooperating second plunger shaft one for receiving the Has electromagnetic armature hollow shaft part.

The valve also fulfills different functions by the electromagnet from a pulling or pushing Proportional magnet or consists of a switching magnet.

Embodiments of the invention are shown in the drawing and are described in more detail below. Show it

Fig. 1 is an axial cross-section through the valve as a first embodiment with a pulling proportional magnet or a solenoid,

Fig. 2 shows a substantially same axial cross section as Fig. 1 through a second embodiment with a pressing proportional magnet,

Fig. 3 is an axial cross-section like FIG. 1 as a third embodiment with a pressing proportional magnet and

Fig. 4 is an axial cross section like Fig. 1 as a fourth embodiment with a pressing proportional magnet.

The valve, a continuous valve, such as. B. a directional control valve for pneumatic media, has a valve housing 1 with an electromagnet 2 . The valve housing 1 is closed by a cover 3 with a sealing element 4 and connected by means of screws 5 . Media connections A (working line) and P (pressure line) are provided on valve housing 1 and cover 3 . The electromagnet armature 6 of the electromagnet 2 interacts with a first valve body 7 of a first valve seat 8 . A second valve seat 9 with a second valve body 10 is also provided. The valve seat 8 with the valve body 7 form a first valve 11 , and the valve seat 9 with the valve body 10 form a second valve 12 .

The two valve seats 8 and 9 are each formed by means of separate valve bodies 7 and 10 . The second valve body 10, which is more distant from the electromagnet 2 , consists of a second valve seat disk 13 which is produced in one piece with guide rods 14 a and 14 b running coaxially on both sides. The other, interacting with the electromagnetic armature 6 , the first valve body 7 consists of a flat, smooth first valve seat disc 15 , to which the solenoid armature 6 is molded a plunger shaft 16 , which either abuts the end face of a solenoid end face 6 a ( FIGS. 1 to 3) or forms the electromagnetic armature 6 itself ( Fig. 4).

The one guide rod 14 a of the more distant, second valve body 10 rests against the flat valve seat disk 15 under the spring force of a conical spring 17 .

The tappet shaft 16 is coupled to the electromagnet 2 via a release device. For this purpose, an anchor guide tube 18 is first guided ( FIG. 1) up to a recess 19 , sealed with an O-ring 20 and screwed by means of washers 21 and a threaded nut 22 . A longitudinal guide slot 23 is provided in the interior of the armature guide tube 18 and a discharge piece 24 in the electromagnetic armature 2 , against whose collar there is a compression spring 25 which is still supported against the tappet shaft 16 . The electromagnet 2 is also equipped with electrical contact springs 26 and 27 and, depending on the type of function of the valve, consists of a pulling proportional magnet or a switching magnet.

In the valve housing 3 a stepped seat bushing 29 is inserted from below into the valve bore 28 in the central bore 30, the guide rod 14 b is mounted displaceably. In addition, the seat bushing 29 is held in position by means of a ball rotation lock 31 , which is under the force of a grub screw 32 .

Another seat bushing 33 is provided for the first valve 11 by means of a sealing element 34 in the course of the stepped valve bore 28 .

Furthermore, the valve seat disks 13 and 15 are provided with a valve sealing edge 35 opposite each with a sealing ring 36 ( FIG. 2).

The plunger shaft 16 cooperating with the electromagnetic armature 6 has a hollow shaft part 37 for receiving the electromagnetic armature 6 , as is shown in the further exemplary embodiments.

The second embodiment according to FIG. 2 differs in some features from the first embodiment according to FIG. 1. The plunger shaft 16 has a tolerance compensation with a tolerance compensation disk 38 for the electromagnetic armature 6 . The tappet shaft 16 is also surrounded by a guide bush 39 , a seat bush 33 , in which a sealing element 34 is provided. The guide bush 39 and the seat bush 33 are therefore made in one piece. In the area of the second valve 12 , the guide rod 14 b is supported by a control spring 40 which is mounted in an adjusting bush 41 . The adjusting bush 41 is in turn received by the seat bush 29 , which is sealed in the valve bore 28 by means of a sealing ring 42 .

The third embodiment (Fig. 3) provides a solenoid armature 6, which rests directly with its a solenoid end face 6 against the plunger stem 16. The valves 11 and 12 are constructed as described. The seat bushing 33 with the sealing element 34 is also inserted as explained above, as is the seat bushing 29 with the seal 42 . Here too, a control spring 40 is used, on which the guide rod 14 b is supported. As in the previous exemplary embodiment, the seat bushing 29 is also equipped with a ball lock 31 . As can be seen, the media connections A and P are arranged opposite and in alignment.

The fourth embodiment ( FIG. 4) is constructed similarly to the first embodiment according to FIG. 1 with the essential difference that the tappet shaft 16 , which cooperates with the electromagnetic armature 6 , is made from a single part, on which the valve seat disc 15 is also molded is. The electromagnet 2 is a pressing proportional magnet, so that the control spring 40 can also be dispensed with here. The media flow is illustrated by the media connection P, a recess 43 and by the media connection A (working line) located behind the valves 11 and 12 .

The two tappet elements (each valve body 7 , guide rods 14 a, 14 b and the valve seat plate 15 ) in the version according to FIGS. 2 and 3 can also be designed identically.

Claims (4)

1.Valve, esp. Continuous valve for pneumatic media, with a valve housing on which an electromagnet is attached, the solenoid armature of which cooperates with a valve body, with a first valve seat in the valve housing, which is provided with media connections, and a first with a first valve body Valve forms and a second valve seat, which forms a second valve with a second valve body, are provided, and wherein the valve bodies with valve seat disks are arranged coaxially to one another and one behind the other, characterized in that the two valve seats ( 8 , 9 ) each by means of separate valve bodies ( 7 ; 10 ) are formed, of which the second valve body ( 10 ), which is more distant from the electromagnet ( 2 ), consists of a second valve seat disk ( 13 ) with guide rods ( 14 a, 14 b) running coaxially on both sides, and the other, with the electromagnet armature ( 6 ) interacting valve body ( 7 ) from a first valve seat disc e ( 15 ) on which one guide rod ( 14 a) of the more distant valve body ( 10 ) rests under pressure and / or spring force, with at least one tappet shaft ( 16 ) facing the electromagnet armature ( 6 ) on the first valve seat disc ( 15 ). is integrally formed, which either abuts the end face of the electromagnetic armature end face ( 6 a) or forms the electromagnetic armature ( 6 ) itself. 2. Valve according to claim 1, characterized in that the valve seat discs ( 13 ; 15 ) opposite the valve sealing edge ( 35 ) are each provided with a sealing ring ( 36 ). 3. Valve according to claim 1, characterized in that with the electromagnetic armature ( 6 ) cooperating second plunger shaft ( 16 ) has a hollow shaft part ( 37 ) for receiving the electromagnetic armature ( 6 ). 4. Valve according to claim 1, characterized in that the electromagnet ( 2 ) consists of a pulling or pushing proportional magnet or a switching magnet.