SU1174757A1 - Siphon-drain metering pump - Google Patents

Abstract

1. A SIPHON BATTERY containing an intermediate and measuring tank with a siphon tube, a pressure pipe installed above them, from which it is added so as to increase the metering accuracy by reducing the initial dosing transition mode a valve connected through a rod with a float, an overflow tube, an intermediate tank is installed above the measuring tank and there are two holes in its bottom, in one of which the overflow tube is placed with the possibility of vertical movement, and n valve, the float is placed in the measuring vessel. 2. A dispenser according to Claim 1, characterized in that the descending portion of the siphon tube is zigzagged (L shape.

Description

1 Invention The invention relates to the dosing of liquids and can be used in the chemical, food and other industries. The purpose of the invention is to improve the accuracy of dosing by reducing the initial transient dosing regimen. FIG. 1 shows a siphon dispenser of FIG. 2 and 3 - work / lzatora cycles. The dispenser contains an intermediate 1 and 2 measuring vessel with a siphon tube 3, a pressure pipe 4 installed above them, a valve 5 connected through a rod 6 with a float 7, an overflow pipe 8, in the bottom of the intermediate tank 1 there are two holes in one of which the possibility of vertical movement of the overflow tube 8, and the other has a valve 5, the float 7 of which is placed in the measuring container 2. The siphon dispenser operates as follows. When opening the tap of the discharge pipe 4, the liquid enters the direct intermediate tank 1, the level rises in the KOT, and when the overflow pipe 8 reaches it flows into the measured tank 2 and the upstream portion of the siphon tube 3 (Fig. 2a). The liquid level in the measuring tank 2 and the upstream portion of the siphon tube 3 rises until it touches the float 7 (Fig. 2 (5). When the level is reached, when the buoyant force acting on the float exceeds the total weight of the float 7, the stem 6, the valve 5 and a column of liquid in the intermediate tank floats 7 floating up, raising the valve 5. After opening the valve 5, the horizontal section of the siphon tube 3 is intensively filled (Fig. 2.6). The cross section of the valve 5 is chosen so as to ensure fast per Shaving the bone from the intermediate tank 1 into the measuring tank 2 and thereby maximally reducing the filling time of the horizontal section of the siphon tube 3. The ascent of the float 7 is set by axially displacing it in the threaded connection of the rod 6 with the valve 5. The siphon activation time dosing) will be shorter, the greater the flow rate of the liquid passes through its horizontal section. The downward period of the dosing is also due to the fact that the downward section of the siphon tube 3 has a zigzag shape y. In such a siphon tube, the liquid flowing out of the horizontal section falls on the outer wall of the descending section, forming a pressure zone that protects the air from entering the siphon from its outlet. The cut-off of air contributes to a more rapid release of the horizontal portion of the siphon tube from the air and the formation of a vacuum in it. A dispenser with the proposed design features leads to the rapid formation of a vacuum in the horizontal section of the siphon tube 3, as a result of which the siphon begins to work with a full cross section. When a fluid flows out of the measuring tank 2, the dose volume will consist of the volume of liquid contained in the measuring tank 2 at the moment of filling the horizontal section of the siphon tube, and the volume of liquid accumulated in the intermediate tank 1. As the flow rate of the liquid entering the intermediate tank 1 through the pressure pipe 4 is less than the flow rate of the liquid flowing through the siphon tube 3, the liquid level in the measuring tank 2 is lowered, the float 7 is lowered, blocking the valve opening 5.: Fluid flowing through the pressure pipe; 4, water is accumulated in the intermediate container 1, A is conductive with a measuring container 2 follows: through the siphon tube 3 (fig.2g.). Moreover, the ratio of the volumes of the containers is selected so that the emptying of the measuring tank 2 takes place faster than the flow of the liquid accumulated in the intermediate tank 1 begins, thereby eliminating the effect of an uncontrolled flow of liquid during the main dosing period.

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Claims (2)

1. SIPHON DOSER containing intermediate and measuring tanks with a siphon tube, a pressure pipe installed above them, with the aim that, in order to increase the accuracy of dosing by reducing the initial transitional dosing regime, it introduced a valve connected through a rod with a float, an overflow pipe, an intermediate tank is installed above the measuring tank and two holes are made in its bottom, one of which is placed with the possibility of vertical movement of the overflow pipe, and in the other a valve is installed n, the float of which is placed in a measuring tank. 2. The dispenser according to claim 1, with the fact that the descending section - the current of the siphon tube is made zigzag *. SU .., 1174757