SU29982A1 - Depth float for measuring average water flow rate - Google Patents

Description

The invention relates to submerged floats for measuring the average flow rate of water provided with a hammer for activating an overflow for compressed gas mechanism intended to effect the float to re-float when it reaches the bottom. In the proposed depth float, designed to measure the flow rate at different depths, the bypass mechanism for compressed gas is made in the form of a three-way valve that rests on a stoyur and serves to release air from the float chamber when the latter is immersed in water and to pressurize the gas after the stopper removes the hammer. For self-sailing of the same device, if the bottom is not reached, it is planned to use a float articulated with a drummer inside the chamber.

The drawing shows a vertical section of the float.

The float consists of a cylinder / divided into two chambers J and 5 by a partition 2. The upper chamber 3 has two valves 4 through which air / (or gas) is injected, and 2 / which is a restrictor (it releases air at an excessive pressure). Camera 5 accommodates a device consisting

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FROM 1) a two-sided stopper 10 (with rotation on the axis 9) articulated with a drummer 8, onto which a float bn 2) three-way 7 / fixed by means of a screw 7, through which chamber 5 can communicate either with chamber 3 or through tube J4 environment.

The crane / 7 has a handle 72, on which the spring 75 presses, pressing its end to the protrusion (descent) on the shoulder of the stopper E. In addition, the chamber 5 has a detachable bottom 75, held on the latches 75- J6 and provided with a cavity 77-77 s a hole f8 for loading ballast.

In the drawing, the float is depicted as being prepared for action, and the air in chamber 3 is under some pressure. The float operates as follows. Being lowered into the water, he is fascinated by the flow. At the same time, the air of chamber 5 compressed by the weight of the entire float will have the ability BI I to flow from the latter through tube J4 to be replaced by water penetrating through the opening 7P. Ter buoyancy, the float passes gradually through all layers of water and consistently Acquires the speed of each of them. As soon as the drummer 8 touches the bottom, the stopper 70 from “loonits to the right, the handle 12 of the crane will pop off the ledge and, under the influence of the spring 13, will turn the tap of the tap L, thus stopping the release of air from chamber 5 and interconnecting The compressed air, which is in the chamber 3, will start to enter the chamber 5 from there and at the same time displace water from the latter. Due to this, the float will begin to gradually rise, the passage in the reverse order through the same water layers of different speeds, and will emerge on the surface of the water.

When the bottom is not compacted, the float 6 connected to the drummer 8 is provided for self-sailing, which will be lifted by the incoming water, and, as is clear from the drawing, an action similar to hitting the bottom will occur. If it is required to determine the average water velocity not in the entire thickness, then the blow to the bottom can be replaced by a corresponding installation of the float 6, shifting it down the hammer 8, looking at it as needed. The speed of lowering and floating the float depends on the diameter of the openings of the tips 22 and 23, so that.

replacing them accordingly, you can get the desired duration of its action.

The subject matter of the invention.

Claims (2)

1. A submerged float for measuring the average ckopoctH of the water flow, provided with a drummer for activating the bypass of compressed gas of a mechanism designed to reverse the float when it reaches the bottom, characterized in that the bypass of the compressed gas is in the form of springs 13 and a three-way valve that stops at the stopper 10, a crane 11, which serves both to release air from the chamber 5 when the float is immersed in water, and to force gas into it from the chamber 3 after the stopper 10 leads ICOM 8. 2. In the case of the submerged float according to claim 1, to use the float to self-float if it does not reach the bottom located in chamber 5 and connected to the drummer S of the float 5. f6A