RU118742U1 - REAGENT CONSUMPTION STABILIZER - Google Patents

Abstract

1. Stabilizer of the reagent flow rate, characterized by the fact that it is a container communicating with the atmosphere, located on an elevation, with an inlet float valve, providing a reagent flow into the container under a pressure of 0 to 10 atm., And an outlet pipe of a given length ending with a shut-off and control device ball valve type. ! 2. The stabilizer according to claim 1, characterized in that the value of the elevation of the container relative to the shut-off-regulating device makes it possible to provide the required pressure for a given reagent flow rate. ! 3. The stabilizer according to claim 1, characterized in that the length of the outlet pipe allows for unimpeded access to the shut-off and control device. ! 4. The stabilizer according to claim 1, characterized in that the container can be made of both metal and non-metallic materials. ! 5. The stabilizer according to claim 1, characterized in that the container can be made in any geometric shape.

Description

The utility model relates to the field of engineering and is an improved way to stabilize the flow of reagent. The utility model allows to completely eliminate the dependence of the reagent consumption on any change in internal pressure in the reagent transportation and storage systems.

A patent for utility model No. 93086 is known, where a control valve with an electric actuator and a flow sensor (water meter) are used to maintain a constant flow rate of the liquid to record the flow rate of water. The disadvantage of this technical solution is the probability of failure of electronic equipment and a rather high cost.

A known analogue is described in the article http://augustmeeting.ru/2011-06-15-09-20-44/2724, published on the Internet 05/12/2011, which considers a drain tank with an inlet float valve and a drain valve, while said reservoir may be low set and high set. According to the description, "any tank has a supply of water, designed for thorough flushing when lowering the toilet sink, siphon and drain." The disadvantage of this technical solution is the unevenness in the instantaneous volume of water flowing through the drain valve and the mandatory presence of a sufficient supply of water in the tank for a "thorough flushing".

The closest analogue to the BSU-1 level stabilization unit is known from an article on the Internet site http://www.scma.ru/ru/products/2-44.html. The specified stabilization unit contains a tank with a float valve, inlet and outlet pipe. The disadvantage of this technical solution is the ability to work only at a reagent pressure at the inlet of not more than 0.4 atm., Which makes it unsuitable for use in water treatment systems with a network pressure of up to 10 atm.

The basis of this utility model is the task of increasing reliability, simplifying the process of stabilizing reagent consumption and reducing the cost of a technical solution by 10-15 times.

The problem is solved in that the reagent flow stabilizer is a tank that communicates with the atmosphere, located at an elevation that provides the necessary pressure for a given reagent flow, with an inlet float valve that allows reagent to enter the tank under pressure from 0 to 10 atm., And an outlet a pipe of a given length, providing unhindered access to a shut-off and control device such as a ball valve, located at the end of the outlet pipe. Moreover, the container can be made of metal or non-metallic materials and in any geometric shape.

At the same time, it does not matter how much reagent is in the tank, the main thing is that a constant level of filling the tank with reagent due to the float valve is ensured. The diameter of the adjustable bore of the ball valve is selected depending on the required reagent flow rate and can be changed by the required value.

Maintaining a constant value of the height of the reagent column in the tank allows to ensure uniformity of the flow rate of the reagent through the outlet pipe at any given flow rates and any pressure changes in the water supply system.

Figure 1 shows the flow rate stabilizer. In the design of the stabilizer, a tank 1, an inlet float valve 2, an outlet pipe 3 with a ball valve 4 at the end are provided. Using a ball valve, a predetermined reagent flow rate for the equipment used is established.

The flow stabilizer can be mounted as an independent product, or as part of other equipment.

From the above description it is clear that the proposed utility model can be implemented in any water treatment systems, electrolysis plants and other specific forms without deviating from the essence of the utility model defined by its formula.

Claims (5)

1. The stabilizer of the reagent flow, characterized in that it is a communicating with the atmosphere, located on an elevated tank with an inlet float valve, which provides the reagent to enter the tank under pressure from 0 to 10 atm., And an outlet pipe of a given length ending in a shut-off and control device type of ball valve. 2. The stabilizer according to claim 1, characterized in that the magnitude of the increase in capacity relative to the locking-regulating device allows you to provide the necessary pressure for a given flow rate of the reagent. 3. The stabilizer according to claim 1, characterized in that the length of the outlet pipe allows for unhindered access to the locking and regulating device. 4. The stabilizer according to claim 1, characterized in that the tank can be made of both metal and non-metallic materials. 5. The stabilizer according to claim 1, characterized in that the tank can be made in any geometric shape.