DE563511C - Reducing device with pressurized water loading - Google Patents

Description

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Reducing devices for pressurized water are used to shut off the pressurized water flow coming from a pressure source (accumulator, air tank or pump) when the desired operating pressure at the point of consumption has been reached. Most of these reducing devices work in such a way that the pressure reached at the point of consumption moves a piston against a load and thereby actuates _{the closing element t.} In the case of common reducers, the load on the reducer piston usually consists of a counterweight or a spring. This type of loading has the disadvantage that the reducing piston must not exceed certain dimensions, especially at high operating pressures, if the counterweight or the spring is not to be given shapeless dimensions. The smaller the reducing piston, the lower the sensitivity of the reducing apparatus. Reducing apparatuses are also known in which the loading of the reducing piston is effected by the pressurized water coming from the pressure source. These apparatuses are usually designed in such a way that a differential piston is used, on whose full surface the reduced pressure rests and on whose annular surface the full pressure coming from the pressure source rests. However, these devices only allow a fixed ratio between reduced and full pressure. Reducers are also known in which the load on the reducing piston is carried out partly by pressurized water and partly by spring or weight loading. With these, however, the pressure reduction is only permitted within certain limits.

Furthermore, reducers have become known in which the full pressure on the Lower surface of a valve and the reduced pressure rests on a piston. The valve and the piston are hinged to a two-armed lever so that the valve is closed as soon as the pressure on the piston prevails. By shifting the The reduction can be changed with the fulcrum of the lever. These reducers are usable for low pressures, for example steam, gas, air, but not for high pressures, as they are common in hydraulic operations, because then the pressure on the point of articulation, which corresponds to the sum of the pressures on valve and piston, becomes very high.

The invention relates to a hydraulic pressure reducer in which there are also two pistons, one under full pressure and the other is under reduced pressure, and which are connected to a lever. The feature of the invention is characterized in that the two pistons act in opposite directions and are connected to two points of the lever, which lie on the same side of the pivot point. This ensures that the pressure on the hinge point is equal to the difference of the

both piston pressures. The fulcrum of the lever can be moved in a known manner, however, the above-described reduction in the bearing pressure results in the shift relieved.

The closing organ for the pressure line

can be arranged separately from the piston. However, one of the two pistons designed as a piston valve

ίο and thus serves as a closing organ.

The accompanying figure shows an embodiment of the new reducer, α is a hydraulic piston, the bottom of which is connected to the

t5 consumption point is connected. The piston is articulated at the top with the lever δ, c is a second hydraulic piston, the top of which is loaded with the full pressure coming from the pressure source.

ao is burdened. The piston c is also articulated to the lever b by the tie rods d. The lever b is based on a roller, which thus forms the fulcrum of the lever δ. The piston «is designed as a piston valve. The cavity of the same is connected to the outside by two rows of holes. In the position shown, the pressurized water entering at / can pass the reducing piston «and exits at g after the consumption tax. A pressure drop occurs through the passage through the holes in the piston, so that the water exiting at g has a lower pressure than that entering at /.

As soon as the pressure under the piston "rises so far that the moment generated by the piston" on the lever b overcomes the moment of the piston c , which is under full pressure, the piston "and the lever b move upwards. This closes the lower holes of the reducing piston and blocks the entry of pressurized water from / to g . If the pressure under the piston drops, the opposite piston movement occurs and the pressurized water flow is opened again. The roller e is displaceable by the screw spindles Ii and the handwheel /, so that. the ratio of the lever arms and the torques can be changed and thus also the ratio between the level of the full pressure and the reduced pressure.

The figure shows only one embodiment. The piston can just as well be under full pressure and the piston c under reduced pressure, in which case, however, the cross-sectional ratios of the two pistons and the arrangement of the control element have to be changed. The piston c can just as well be designed as a control element.

Fig. 2 shows another arrangement in which the piston «is offset and both the annular upper surface of the piston f1 and the upper surface of the piston c are under full pressure. The apparatus described above is particularly suitable for large flow cross-sections, since the apparatus is also small in size.

Claims (2)

Patent claims: 1. Reducing device with pressurized water loading with a reduced by Pressure and another piston loaded by full pressure, which are articulated with a lever, thereby characterized in that the pressure of the two pistons is effective in opposite directions, and that both pistons open arranged on one side of the pivot point of the lever, which is displaceable in a known manner are. 2. Reducer according to claim 1, characterized in that on his Pistons standing under reduced "pressure are deposited on the full surface and on the opposite ring surface by full pressure is burdened. 1 sheet of drawings