SU1087613A1 - Levelling-out tank - Google Patents

Abstract

1. EQUALIZING TANK including one hundred and one connected to a conduit, the lower part of which is divided into two compartments by a wall, and an overflow element in the form of a weir 15SSsibJf JjTcj OP characterized in that in order to reduce the overall dimensions of the structure, the tank is equipped with additional horizontal resistance elements: with the holes completely overlapping the first compartment, and the shelf overlapping the second compartment completely, and the first in that hour-hertz where the diaphragm has holes, the upper and lower groups of holes, with the diaphragm with holes attached to the top of the wall, the weir is made in the form of Continued wall, and the shelf is located above the crest of the weir with a gap ,. moreover, the top of the wall and the elements of Sivania's support are located between the maximal level of the water level in the reservoir and near the water level in the tank at the maximum discharge of water in the conduit. the highest level of ftenyiuvfcArar and / the mind of ffimic f and Chl Fiие1 I the Most Enlarged level

Description

2. The tank according to claim 1, characterized in that the top and bottom groups of holes are filled in

wall inclined to the horizon, with the intersection of the axes in the direction of the lower

the pool

The invention relates to hydraulic engineering, in particular, is carried out in the composition of a high-pressure conduit for energy or water use, in order to protect it from the hydraulic impact that occurs in water upon a sudden change in its water flow rate. A surge tank is known that includes a one hundred k connected to the water line, the lower part of which is divided into two compartments and resistance elements l D. A disadvantage of the known tank is that the resistance node is made at the junction of the drain with the water and therefore the lining of the conduit. A leveling tank is also known, including a lower part of which is connected to a conduit, the hundred part of which is divided by a wall into two compartments, and a resistance element in the form of a weir C2J. I The disadvantage of this tank is the large height of the sink due to the lack of effective resistance elements. The aim of the invention is to reduce the overall dimensions of the structure. This goal is achieved by the fact that the tank is equipped with additional horizontal elements of resistance: a diaphragm with openings completely covering the first compartment and a shelf covering the second section completely, and the first in the part where from-. versts, the upper and lower groups of holes are made in the wall, the diaphragm with holes is attached to the top of the wall, the weir is made as an extension of the wall, and the shelf is located above the weir crest with a gap, with the top of the wall and the resistance elements the reservoir and the water level in the tank at maximum flow. water in the conduit, with the upper and lower groups of holes, are made in the wall inclined to the horizon, with the intersection of the axes in the direction of the lower reach .. FIG. 1 shows a surge tank and a water line, a section along the structure axis} in FIG. 2 - section through the tank between the shelf and the diaphragm, the plan; in fig. 3 - section A-A on. FIG. 2. Equalization tank includes one hundred and two connected to water supply, the lower part 3 of which is divided by wall 4 into two compartments 5 and b, resistance elements in the form of a weir 7, diaphragm 8 with openings 9 in it, completely covering the compartment 5 and shelf 10 that completely covers compartment 6 and partially compartment 5 in that part where holes 9 are made in diaphragm 8, while diaphragm 8 with holes 9 is attached to the top of wall 4, weir 7 is made as an extension of wall 4, and shelf 10 is located above ridge 11 spillway 7 with a gap of 12, and the top of the wall 4 and the resistance elements 7-11 are located between the maximum water level 13 in the reservoir and the water level 14 in the tank at the maximum water discharge in conduit 1} in wall 4, the top 15 and bottom 16 groups of holes are made, crossing them to the downstream. Equalizing tank works as follows. In case of a sudden decrease in water consumption in conduit 1, water in the initial period of time, without encountering obstacles, will rise in stand 2, as in a cylindrical tank, i.e. In the entire pressure system, a water line is installed - a water line will increase in pressure without the occurrence of a water hammer. Water, lifting up the compartment b and passing through the upper group of holes 15 of the wall 4 and through the conical holes 9 of the diaphragm 8, acquires a slow motion, which causes the inertial force against the movement. This force increases the back pressure in the system, increasing the inhibitory effect, which leads to a decrease in the volume of water entering the reservoir. The rise of water in compartment 5 takes place ahead of the rise in compartment, which is facilitated by the overflow of water

from compartment 5 to compartment b through a group of 15 holes.

After the water overflows through the spillway 7, water will be created on the airbag over the diaphragm 8.

The water on the pad above the diaphragm 8 weakens the flow of water through the conical holes 9 and enhances the effect of the operation of the diaphragm # 1 8.

Shelf 10 finally extinguishes the fountain with a weakened pillow. Subsequently, the water, bending around shelf 10, experiences additional resistance, as a result of which the amplitude of oscillation is partially reduced at stand 2.

With a sudden increase in water consumption, the water level in stand 2 begins to decrease, and the resistance elements 811 contribute to a more rapid formation of flow through conduit 1, excluding the possibility of air being drawn into the conduit from the compartment.

The set of resistance elements in the tank stand and their location will, on the one hand, reduce the overall dimensions of the stand, and on the other hand, reduce the thickness of the facing of the water conduit due to the fact that the resistances do not work at the initial stage of water level change, those. perceived and repelled labeled hydraulic shock arising from a decrease in water flow in the water conduit;

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Claims (2)

1. EQUALIZING RESERVOIR, which includes a radio section connected to the water conduit, and an elestoyak, the lower part of the flax with a wall for two resistance moments, characterized in that, in order to reduce the overall dimensions of the structure, the tank is equipped with additional horizontal resistance elements: a diaphragm with holes completely overlapping the first compartment, and a shelf that covers the second compartment completely, and the first in the part where the holes are made in the diaphragm, the upper and lower groups of holes are made in the wall, while the AGMA with openings is secured to the top wall, the weir is formed as a continuation of the wall, and the shelf is positioned above weir crest with a clearance, _on said top wall and the elements S is accompanied resistivity arranged between the maximum water level in the reservoir and the water level in the tank at .maksi- ! SU ,,, 1087613 .2. The reservoir according to π.1, is distinguished by the fact that the upper and lower groups of holes are made in the wall inclined to the horizon, with the intersection of the axes in the direction of the downstream.