SU1059054A2 - Stream energy attenuator - Google Patents

Abstract

FLOW ENERGY FLOWER on author. St. No. 987014, which is also distinguished by the fact that, in order to increase the reliability of its operation by expanding the effective quenching range, the extinguisher plates are mounted on racks with the possibility of vertical movement and are made with walls located along their perimeter.

Description

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  S 8 The invention relates to hydraulic structures and can be used as a quencher of kinetic energy of flow. According to the main author. St. No. 987014 is known, a flow energy damper, including a cylindrical water well, a flow divider and two conduits tangentially connected to a well, the damper being equipped with two plates fixed to the side walls of the well. At the same time, the width of the plates increases towards the downstream and in. Holes made holes l. A disadvantage of the known extinguisher is that it works efficiently with an optimal flow rate, if the flow rate is higher or lower than the optimal one, the efficiency and reliability of the extinguisher decreases as the extinguisher plates are fixed to the side walls of the well. The aim of the invention is to increase the reliability of the quencher by expanding the effective quenching range. This goal is achieved by the fact that the quencher plates are mounted on racks with the possibility of vertical movement and are made with walls located along their perimeter. In FIG. 1 of the semiconductor, the flow extinguisher, view in plan; in fig. 2 the same, a cut through the supply channel and the slab. Ha; The flow energy indicator includes a supply channel 1, diverging conduits 2 tangentially connected to a watering well 3. In a watering well 3, racks 4 are installed with vertical movement of the plate 5, which i are made with walls 6 forming the load-carrying capacity 7. Holes 8 are made in the plates 5. The flow energy damper works as follows. The flow from the supply channel 1 is separated by the diverging conduits 2 and enters the water well 3. The flow jets pass under the plates 5 and collide at the outlet of the water well 3, providing mutual damping. As the flow rate in the channel increases, the pressure of the jets from below onto the plates 5 results in an upward movement of the plates 5, which are movably mounted on the uprights 4. Thus, with an increase or decrease in the flow passing under the plates, the living section of the flow under energy efficiency is quenched by them. In accordance with the change in the flow rate, the filling of the supply tanks 7 with water entering through the holes 8 also changes. This allows the weight of the plates to vary depending on the flow rate course and adjust the position of the plates 5 in the stream. Such an embodiment of the energy flow quencher expands the range of effective quenching of the excess energy of the flow and noBibaaaeT construction reliability. Due to the possibility of vertical movement of the quencher plates that accept dynamic loads, the effect of this load on both the plates and the absorber as a whole is reduced.

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Claims (1)

FLOW ENERGY EXTINGUISHER by ed. St. * "987014, characterized in that, in order to increase the reliability of its operation by expanding the effective quenching range, the damper plates are mounted on racks with the possibility of vertical movement and are made with walls located along their perimeter. Fig /