DE1140155B - Throttle device for automatic regulation of the flow rate in fluid lines, especially for toilet pressure flushers - Google Patents

Description

Throttle device for automatic control of the flow rate in Liquid lines, in particular for toilet flush valves The invention relates to a throttle device for automatic regulation of the flow rate in liquid lines, especially for toilet flushers, with a movable one under spring pressure Throttle part which cooperates with a second throttle part in such a way that the Flow cross-section decreases with increasing liquid pressure and with decreasing Increased fluid pressure, with the two throttle parts at the same time a check valve form.

In a known device of this type, the movable throttle part is stationary under relatively strong spring action and therefore only opens with a larger one Flow pressure. So this device is not usable for Spülventfle because these must also make full use of the lower line pressures for flushing.

The invention eliminates these disadvantages by being based on the movable Throttle part two springs lying one behind the other with different spring force act, which are arranged in such a way that initially when the liquid flows through the weaker spring is compressed, so that when the flow of liquid stops closed check valve is opened and the largest flow area the throttle device is achieved, and that then the stronger spring for the further Regulation of the flow is decisive. This has the advantage that the valve opens slightly, i.e. it responds even to low line pressures and the maximum delivery volume of the line, although in the rest position the Throttle device according to the invention, a backflow with can safety between prevents the springs acting on the moving throttle part from moving Be inserted sleeve. Next are the d # S supports for the springs on the sleeve provided approaches are advantageously arranged at a distance from the end edges of the sleeve, so that the end edges of the sleeve cause the stroke movement of the springs by their stop limit.

The execution of the Drosselvorrichtun g can be made according to the invention so that the movable throttle member an antibody directed against the flow birnenförmia, it is throttle body to which - seen in the flow direction - an annular shoulder is attached, which forms the closing body for the check valve, and that the fixed The throttle part is an annular disk, which at the same time forms the valve seat of the check valve.

Another advantageous embodiment of the throttle device is thereby obtained that the fixed throttle part is a bimetallic one pointing in the direction of flow Throttle body is at the foot of one with annularly arranged flow slots provided disc is attached, and that the movable throttle part is opposite the wall of the housing of the throttle device is sealed annular piston, the covers the flow slots in the closed position of the check valve.

In the drawing, the invention is illustrated in exemplary embodiments. It shows Fig. 1 is a central section through a throttle device in connection with an indicated flushing valve, Fig. 2 the throttle body according to Fig. 1 in the fully open position of the throttle device, FIG. 3, the throttle body shown in Fig. 2 in the end position for the smallest passage cross-section, that is to say at high fluid pressure, FIG. 4 shows a further embodiment of the throttle device and FIG. 5 shows a front view of the throttle device shown in FIG. 4.

In the thin-walled housing tube 1, which is pushed into the connecting piece 2 of the flushing valve, the annular disk 3 forming the valve seat is fixed. The throttle body 4, which is under the action of the springs 5 and 10 , works together with the annular disk 3 , which is guided with a tube attachment 6 on a pin 7 which is fixed in the housing tube 1 with an end disk 8. On the pipe socket 6 of the throttle body 4, a sleeve 9 is axially movable, against which the stronger spring 5 , which is used to regulate the flow, and the weaker spring 10 are supported . The sleeve 9 is dimensioned so that the springs 5 and 10 can only be compressed to a certain extent. The weaker spring 10 is intended to press the throttle body 4 against the annular disk 3 when there is no flow. The spring 10 and its path are dimensioned so that even at very low line pressure, the throttle body 4 moves into the position releasing the largest flow cross-section without any noticeable loss of pressure, as shown in FIG. Only when the throttle body 4 moves further does the spring 5 take effect.

The smallest diameter d 1 of the throttle body 4 determines the largest with the inner diameter d 3 of the annular disk 3 , the diameter d 2 of the throttle body 4 with the diameter d 3 of the annular disk 3 determines the smallest flow cross-section. This smallest flow cross-section is chosen so that it gives a sufficient flow rate at the highest occurring line pressures.

In the embodiment shown in Fig. 4, the z. B. a thin-walled housing tube 1 to be pushed into the flushing inlet nozzle at one end of a disk 11 which has through-slots 12. The throttle body 4 projecting centrally into the housing tube 1 is connected to the disk 11. The annular piston 13, which is guided like a piston in the housing tube 1 and closes the slots 12 of the disk 11 in the illustrated end position, interacts with the throttle body 4 as a valve closure body. The throttle body 4 and the free flow area of the annular piston 13 are sized as indicated for the embodiment shown in Fig. 1 to 3 embodiment. One end of the spring 5 serving to regulate the flow is supported against the annular piston 13 , while the other end rests against the sleeve 14, which is supported by the weaker spring 10 against the other end of the housing tube 1 . The design according to FIGS. 4 and 5 results in a particularly short overall length. The annular piston 13 can be designed as a sleeve piston and sealed against the tube 1.

The throttling device can also be used for other shut-off valves or drain taps are used; it can also be used in the mains are switched on.

Claims (2)

PATENT CLAIMS-1. Throttle device for automatic control of the flow rate. in liquid lines, especially for toilet flushers, with a movable throttle part under spring pressure, which cooperates with a second throttle part in such a way that the flow cross-section decreases with increasing liquid pressure and increases with falling liquid pressure, the two throttle parts simultaneously forming a check valve, characterized in that on the movable throttle part two springs (5 and 10) lying one behind the other act with different spring forces, which are arranged in such a way that when the liquid flows through, the weaker spring (10) is initially compressed, so that the non-return valve, which is closed when the flow of liquid stops, is opened and the The largest flow cross-section of the throttle device is achieved, and that the stronger spring (5) is then decisive for the further regulation of the flow. 2. Throttle device according to claim 1, characterized in that a movable sleeve (9 or 14) is inserted between the springs (5 and 10) acting on the movable throttle part. 3. Throttle device according to spoke 2, characterized in that the for supporting the springs (5 and 10) on the sleeve (9 or 14) provided approaches are arranged at a distance from the end edges of the sleeve, so that the end edges of the sleeve through their stop limit the stroke movement of the springs (5 and 10). 4. Throttle device according to one of claims 1 to 3, characterized in that the movable throttle part is a bimenförrniger throttle body (4) directed against the flow, to which - seen in the direction of flow - an annular shoulder is attached which forms the closure body for the check valve, and that the fixed throttle part is an annular disk (3) which at the same time forms the valve seat of the check valve (Fig. 1). 5. Throttle device according to one of claims 1 to 3, characterized in that the fixed throttle part is a pear-shaped throttle body (4) pointing in the flow direction, at the foot of which a disc (11) provided with annularly arranged flow slots (12) is attached, and that the movable throttle part is an annular piston (13) which is sealed against the wall of the housing (1) of the throttle device and which covers the throughflow slots (12) in the closed position of the check valve (FIG. 4). Documents considered: German Patent No. 501848; U.S. Patent No. 1159 214.