RU1813067C - Liquid metering device - Google Patents

Abstract

Usage: in a dosing technique, for example for dosed dispensing a liquid using a siphon. SUMMARY OF THE INVENTION: Compressed air is supplied into the cavity under the piston of the pneumatic actuator 13, and the reservoir begins to move downward. The neck of the bottle is oriented by the bell relative to the bend of the tube 10, and the liquid level in the tank 1 drops below the edge container 5. When the cross section B drops to a diameter below the edge a, the siphon of the overflow tube is charged and the measured dose enters the container. As the tank 1 lowers, the measuring tank 5 leaves the liquid, its level decreases compared to the initial one. That leads to the operation of the regulator 12 and the level r is restored. In the lower position of the tank 1, the actuator 13 is reversed by the final pneumatic valve and the device starts to return to the original top position, tank filling continues. 3 ill.

Description

The invention relates to devices for filling liquid products, and more particularly, to devices for dispensing liquid using siphons.

The aim of the invention is to increase reliability and simplify the design.

Figure 1 shows a general view of a variant of the proposed device with the upper and lower (dashed) positions of the flow tank; Figures 2 and 3 show two other embodiments of a part of the device (overflow tube) in the same positions.

The device for dispensing liquid contains a consumable tank 1 with a traverse cover 2, mounted with the possibility of reciprocating movement vertically relative to the base 3 along the guides 4, a measuring tank 5 located inside the tank 1 and fixedly connected to the base 6, connecting the guides 4, an overflow tube containing a short elbow 7 and an elastic section 8 with their connection 9 and a long elbow 10 with a curved section is a siphon rigidly connected to the bottom 11 of the flow tank 1.

From the measuring tank 5, the short elbow 7 is brought out below the edge and through the bottom (Figs. 1 and 2) and through the wall (Fig. 3). Its connection 9 with the elastic section 8 is located below the edge of the container 5 at a distance b increasing from option 3 to option 1.: The elastic section 8 is made so that the upper cross-section point in the bent section of the long elbow 10 of the overflow pipe with the upper position of the tank 1 above the edge of the container 5 at a distance r, which is larger than the diameter of the tube and less than the stroke x of the tank 1, with the cross-section in Fig. 1 falling on the hard section of the elbow 10, and in Figs. 2 and 3, on the elastic. In addition, section B is located above the liquid level in the tank 1 by a distance d which is larger than the diameter of the overflow pipe. In turn, the liquid level in the tank 1 is maintained by the regulator 12 at a height e, i.e. in the initial position above the edges of the measuring tank 5.

The device operates as follows,

In the initial position, the supply tank 1 is at the top, the liquid level in it is higher than the edge tank 5 and d below the section in the elbow of the tube 10, the bottle is installed on the base 3 under the outlet end of the overflow tube.

To dispense a dose into the cavity under the piston of the pneumatic actuator 13, compressed air is supplied through the pneumatic valve and the reservoir begins to move downward. The neck of the bottle is oriented by the bell relative to the elbow of the tube 10. The liquid level in the tank 1 falls below the edge tank 5, i.e. the dose is measured. The elbow of the tube 10, rigidly connected with the reservoir 1, also moves downward relative to the measuring tank 5, and its cross-section into which, due to the proposed location of the elastic section 8, after some time falls below the edge a, creating conditions for charging the overflow tube without bending the section 8 and without increasing the pressure in tank 1.

When the cross-section in drops to a diameter below the edge, the siphon of the overflow tube is charged and a measured dose begins to be dispensed into the container.

In the device according to the invention, the cross section in the overflow tube is higher and then lower than the size tank 5, and when the reservoir is lowered, after measuring the dose, the siphon of the overflow tube is automatically fed and the dose is dispensed. The supply of compressed air to the tank and its sealing are not required. As the tank 1 lowers, the measuring tank 5 exits the liquid, urozen. it decreases compared to the initial e, which leads to the operation of the controller 12 and the restoration of the level e.

In the lower position of the reservoir 1, the actuator 13 is reversed by the final pneumatic valve and the device starts to return to its original upper position, filling the reservoir 1 continues.

Thus, the dose is dispensed while moving down from the moment the section is lowered into the overflow pipe siphon below the edge and during the rise until the siphon breaks. For normal operation, rupture of the siphon of the overflow pipe must occur before the liquid level reaches the edge of tank 1 and tank 5, i.e. before the next tank filling. This is achieved by a suitable selection of the following parameters: hydraulic resistance of the expiration system, filling rates, and motion; tank water, which in turn depends on the embodiment, design dimensions and material of the overflow pipe, fluid properties and technical requirements for the device (capacity, stroke length, container neck diameter).

In the up position, the pneumatic actuator 13 is shut off by the final pneumatic valve. After some time, after the dose has been dispensed and the siphon of the overflow pipe is broken, the level in the tank 1 reaches the edge of the tank 5, it is filled, and all the elements return to their original position.

The cycle is repeated after the bottle has been removed the next time the pneumatic valve has been activated.

The proposed device in comparison with the prototype of a simpler and more reliable design, because The siphon is charged automatically at the right time when the supply tank moves down, and it does not require compressed air supply systems with control elements and sealing the tank, which becomes difficult to solve reliably with increasing productivity.

Claims (1)

Shadow formula A liquid dispenser comprising a base mounted on 0 5 0 with the possibility of reciprocating movement vertically, the supply tank and the stationary measuring tank located therein and the curved overflow pipe connected with it with elbows of different lengths having an elastic section, the elbow of the longer pipe fixedly connected to the tank, characterized in that, in order to increase reliability and simplify the design, the smaller elbow of the overflow pipe is located outside the measuring tank below its edge, the place of its connection with the elastic section is located lower edge not less than the diameter of the overflow pipe, and the distance from the upper point of the curved section of the overflow pipe to the edge tank with the tank at the top position is no more than its stroke.