RU2035700C1 - Fluid batcher - Google Patents

Abstract

FIELD: measuring equipment. SUBSTANCE: batcher has double-arm lever, rod, delay unit, and overflowing connecting pipe. The lever is pivotally connected with the face of one of the walls of the service tank. The rod is arranged vertically and pivotally connected to the arm of the lever positioned from the side of the service tank. A valve is coupled with the rod from bellow through a chain. The delay unit is pivotally connected to the other arm of the lever and includes tank, cock for adjusting velocity of discharging fluid, which allows to control time delay, i.e. a time period when the valve is open, and discharging hose. One end of the discharging hose is connected with the cock for adjusting velocity of fluid discharging, and the other one is connected with the pipe for discharging fluid. The overflowing connecting pipe is mounted in the wall of the tank from the side of the tank of delay unit at maximum level of fluid in the tank. Fluid is fed from the tank to the delay unit through the connecting pipe. Conical adapter for the valve is provided in the bottom of the tank at the site of connection of the pipe for discharging fluid. EFFECT: simplified design, decreased in sizes, and improved accuracy of batching. 2 dwg

Description

 The invention relates to metering devices and can be used for dispensing liquids, for example, in water treatment plants.

 A known water meter for open irrigators (see A.S. N 1599660, 1990), comprising a water meter tank connected by pipes to a constant-level tank, a water outlet mechanism is connected to its lower part, and a filter is installed at its output. The disadvantage of this device is the complexity of the design, in particular the large overall dimensions, the difficulty in maintenance, the fragility of the device.

 The closest technical solution is a liquid dispenser [1] containing a supply tank, a drive, a cylindrical rotor with measuring chambers. The disadvantages are the complexity of the device due to the drive and other elements, large overall dimensions.

 The aim of the invention is to simplify the design, reduce overall dimensions, simplify maintenance of the device.

 The goal is achieved in that the fluid dispenser containing the supply tank, float, shutoff valve, fluid discharge pipe, is equipped with a lever, rod, delay link, overflow fitting. The lever is pivotally mounted on the upper part of the right wall of the supply tank. The rod is located vertically and pivotally mounted on the left end of the lever and has a stop in the upper part to limit the movement of the float. A shutter valve is suspended from the bottom of the chain on the chain, which ensures that the liquid is not admitted to the liquid discharge pipe. The float is made with a through hole, providing the ability to move along the rod. The delay link is pivotally mounted on the right end of the lever and includes a container, a valve for adjusting the drain rate, mounted on the outer surface of the bottom of the tank of the delay link and allowing you to adjust the delay time, that is, the time the shutter valve is open, the outlet hose. One end of the drain hose is connected to a valve for adjusting the drain rate of the liquid, and the other to the liquid discharge pipe. The overflow fitting is installed in the right wall of the supply tank at a height corresponding to the maximum liquid level in the supply tank. Through it, fluid from the supply tank enters the delay link. In the bottom of the supply tank, in the place where the liquid discharge pipe is connected, a cone-shaped pair with a shut-off valve is made.

 Comparative analysis with the prototype shows that the inventive device is characterized in that a new design of the supply tank with a valve for adjusting the drain rate of the liquid, which allows you to adjust the delay time, that is, the open time of the shutter valve. A new delay link and other elements have been introduced. Thus, the claimed fluid dispenser meets the criteria of the invention of "novelty."

 Comparison of the claimed solution not only with the prototype, but also with other technical solutions showed that the proposed solution has a property that does not match the properties of the known solutions, which allows us to conclude that the criterion of "significant differences".

 In FIG. 1 shows the moment when the supply tank is filled with liquid when the shut-off valve is closed; figure 2 the moment of discharge of the liquid.

 The liquid dispenser consists of a supply tank 1. On the upper part of the right wall of the supply tank, lever 2 is pivotally mounted. At the left end of lever 2, a rod 3 is located vertically and pivotally mounted with a stop 4 in the upper part. A shutter valve is suspended from below on the rod 3 on chain 5. 6. The liquid dispenser contains a float 7 with a through hole that allows movement along the rod 3. At the right end of the lever 2, a delay link is pivotally mounted, which includes a container 8, a valve 9 for setting the rate of liquid discharge, fixed to the external the surface for the tank 8 of the delay link, and the drain hose 10. One end of the drain hose 10 is connected to a valve 9 for setting the speed of the fluid drain, and the other to the pipe 11 discharge fluid. In the right wall of the supply tank 1 at a height corresponding to the maximum liquid level in the supply tank 1, the overflow fitting 12 is installed. In the bottom of the supply tank 1 at the point of connection of the pipe 11 of the discharge of fluid made cone-shaped interface with the shutter valve 6.

The liquid dispenser operates as follows. The dosed liquid accumulates in the supply tank 1, since the shutter valve 6 is closed. As the liquid accumulates in the supply tank 1, the float 7 along the rod 3 rises up synchronously with the increase in the liquid level in the supply tank 1. As soon as the float 7 reaches the stop 4, a force Q starts to appear, directed towards the opening of valve 6 (see figure 2 ) At the same time, a rush of liquid is carried out through the overflow fitting 12 into the capacity of the delay unit. The cross-sections of the overflow fitting 12 and the drain rate control valve 9 are selected so that the cross-sectional diameter of the overflow nozzle 12 exceeds the cross-sectional diameter of the valve 9 for adjusting the fluid discharge rate. In the tank 8 is the accumulation of fluid, which acts on the right shoulder of the lever 2 with a force of P ₂ . Considering the sum of the moments with respect to point A, we obtain ΣM _A = Q˙l ₁ -P ₁ ˙l ₁ + P ₂ ˙l ₂ = 0, (1)
Q˙l ₁ + P ₂ ˙l ₂ > P ₁ ˙l ₁ ; (2) that is, the shutter valve 6 is opened and held open until
P ₂ ˙l ₂ ≥P ₁ ˙l ₁ (3) From the moment the container 8 of the delay unit is emptied, the liquid stops accessing the container 8, since the level in the supply tank 1 drops sharply. Due to the discharge of liquid through the valve 9 to adjust the drain rate into the pipe 11 of the discharge of liquid is a decrease in the force P ₂ and, consequently, the moment P ₂ ˙l ₂ . As soon as the sign in the inequality (3) changes to the opposite, the liquid discharge stops through the liquid discharge pipe 11, the shutter valve 6 closes. The cycle of accumulation and discharge of liquid will be repeated. The valve 9 for setting the rate of fluid drain allows you to adjust the delay time, that is, the open time of the shutter valve 6.

Claims (1)

 A LIQUID DISPENSER containing a consumable tank, a float, a shutter valve, a liquid discharge pipe, characterized in that it is equipped with a two-arm lever pivotally mounted on the upper end of one of the walls of the consumable tank, a rod vertically located and pivotally mounted on the lever arm located in the consumable tank, with an emphasis for limited movement of the float, a delay link pivotally mounted on the other arm of the lever and made in the form of a container, a valve for adjusting the rate of fluid discharge fixed on the outer surface and the bottom of the tank, the delay link for adjusting the delay time, the drain hose, with one end of the drain hose connected to the drain valve and the other end to the liquid discharge pipe, overflow fitting installed in the side wall of the supply tank from the side of the tank at the maximum possible height the liquid level in the supply tank, the bottom of the supply tank is made end-shaped for interfacing with a shut-off valve suspended on a chain in the lower part of the rod to ensure the termination of fluid access to the discharge pipe bones, and the float is provided with a through hole to allow its movement along the rod.

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