DE2308671A1 - BARRIER WITH A SWIVELING FLAP - Google Patents

Description

ESCHER WYSS G.M.B.H., Ravensburg (Württbg.)

1. Additional patent application

to the main patent application No. P 22 IjJ 587 ·!

Shut-off element with a pivoting flap

The subject of the main patent is a shut-off device for regulating the flow of a flowing medium a channel closed on all sides, in particular for pressure lines of water power plants, with a two opposing wall parts of the channel attached, the channel traversing web, one Flap located in the channel and pivotably supported on the web to shut off the channel, and a drive mechanism to swivel the flap. According to the patent claim of the main patent, this shut-off device is characterized in that the drive mechanism has a servomotor, which on the one hand with the Flap, on the other hand, is connected to the web, the connecting means between the flap and servomotor or between the servomotor and the web essentially in a direction perpendicular to the pivot axis of the flap, the plane intersecting the canal.

According to claim 3 of the main patent, another advantageous embodiment of the shut-off device is that the servomotor is inside the duct.

Pt. W 120
7.2.1973-Sm / Kl
No. 5,471,088

409835/0488 " ² "

The described shut-off device can be improved in that the main axis of the servomotor is at least runs approximately in the direction of flow of the flowing medium, and further in that the servomotor on Ridge is in direct contact.

In the drawing, on the basis of which the invention is explained in more detail, is an embodiment of the subject matter of the invention shown in simplified form. Show it:

Pig. 1 shows an axial section through a shut-off device, and FIG. 2 shows a cross-section on a larger scale through a Bearing for centering the flap shown in FIG. 1.

In the shut-off device for pressure lines of water power plants shown in Fig. 1 and 2 is in one a channel that is closed on all sides and is rigidly attached to opposite wall parts of the channel, the channel traversing web 3 is provided. In Fig.l a flap 4 is shown in a central position. The medium flow coming from the left in the drawing is thus throttled. The from the existing on the flap 4 The load resulting from the pressure difference is taken over by the web 3 and onto the wall parts of the duct transfer.

The flap 4 is pivotably mounted on the web 3. The pivot axis of the flap 4 coincides with the axis of an edge 5 of the Stegs 3 together, which are used to transmit the Flap 4 exerted load on the web 3 is used. The cross section of the web 3 has a in the flow direction greater extent to than across it.

Pt. W 120
7.2.1973-Sm / Kl

409835/0488 " ³ "

As can be seen from Fig. 1, the web 3 is in the closed position of the flap 4 on the outflow side the flap and absorbs the force exerted by the flap 4 in the form of a line load. One Bending of the flap 4 along the pivot axis can thus be largely prevented by the web 3. The flap can be stiffened by ribs against a deflection occurring perpendicular to it Open position of the flap in the direction of flow and therefore only a small pressure loss for the Generate flowing medium.

In the pivot axis that coincides with the axis of the edge 5 of the web coincides, at least two bearings are arranged, which are dimensioned so that they take their own weight the flap 4 are able to carry and secure the centering of the flap 4 in the pivot axis. One of these Bearing is shown in FIG.

A servomotor 19 is screwed directly to the web 3, i.e. the servomotor 19 rests on the web 3. To this The power flow of the drive mechanism is closed by the shortest possible route. A torsional stress of the web 3 as a result of the dynamic forces of the acting on the flap when the flap is closed flowing medium can, if desired, by means of a support lying in the plane of the drawing or by means of The supports lying parallel to the plane of the drawing, which connect the web with the wall of the canal, can be reduced in size associate.

Pt. W 120

409835 / Q488

The main axis of the servomotor I9 runs in the direction of flow of the flowing medium, i.e. the medium to be controlled Pressurized water flow. In the open position of the flap, the flow resistance is all in the channel So parts are very cheap.

The pressure medium for the actuation of the servomotor is passed through holes in the web 3, which laterally, outside the channel can be connected to a control device, not shown. The servomotor 19 is designed as a double-acting servomotor with cylinder chambers 11 and 20. It can be print media are given into the cylinder space 20 in order to support the closing movement of the flap.

For the flap 4, a round bar welded to the web is used for support over the entire length of the web 3 21 is provided, which has a rounded edge 5 with a cylindrical sliding surface 22 on which the flap 4 is supported linearly and is pivotable about the axis of the surface 22. The round bar 21 bridged in the web 3 existing recesses 23 through which to the flap 4 attached bearing bracket 24 reach through. The advantage of such a type of support lies in the simple manufacturing method, which does not require tight tolerances.

The round rod 21 can for example consist of stainless steel, and the counter surface present on the flap can be formed by a bar 25 made of bronze. The brackets 24 can be attached to the round bar 21

Pt. W 120
7.2.1973-Sm / Kl

-5- 409835/0488

facing inside should be covered with bronze and enclose the round rod with so much play that any bending of the web 3 and the flap 4 is given sufficient freedom.

In the case of large flaps, it can be advantageous to use over the length of the web 3 more than one drive mechanism, i.e. for example two in each one perpendicular to the pivot axis Provide level arranged servomotors including connecting means.

The edge 5 * or the round bar 21 should overlap extend more than half of the existing in the pivot axis width of the flap.

Pt. W 120
7.2.1973-Sm / Kl

409835/0488

Claims (2)

2303671 claims 1. shut-off device according to claim 1 "of the main patent, characterized in that the main axis of the servomotor (19) at least approximately in the direction of flow of the flowing Medium runs. 2. shut-off device according to claim 1, characterized in that that the servomotor (19) is in direct contact with the web (3). pt. W 120
7.2.1973-Sm / Kl 409835/0488