RU150384U1 - DRAIN VALVE WEIGHTED VISCOSE DISPENSER - Google Patents

Abstract

A drain valve for a viscous liquid weighing dispenser, comprising a housing with a saddle made in the vertical plane, a locking element in the form of a fluoroplastic cone, a spring valve closing unit, characterized in that a half ring is fixed on the upper half of the locking element cone, the outer cylindrical surface of which interacts with the inner the cylindrical surface of the saddle of the housing with the ability to move the cone of the locking element and ensure reliable contact with the saddle of the housing upon termination of delivery to s.

Description

The utility model relates to the field of discrete weight dosing of viscous and pasty liquids.

Dosing liquid is a mixture of a polymer binder with a powdery filler. Such a liquid, depending on the content of the components, has a viscosity of 10 to 200 Pa · s (100 to 2000 Poise).

The known design of the drain valve of the weight dispenser according to the patent for utility model No. 138799 of the Russian Federation publ. 02/26/2014 Through the drain 'valve, a dose is dispensed from the load receiving hopper of the weight batcher. The valve feature is that it does not have a separate drive - it opens with the pressure of the dosed liquid when the screw is turned on and the dose is dispensed from the load hopper, and it closes under the action of the springs when the dose is issued and the screw stops. This design of the valve allows you to have in the dispenser only one actuator-electric motor drive the screw. In this case, the power supply to the engine is provided by a flexible cable, which allows for high sensitivity of the weighing system, on which the load-receiving hopper of the dispenser is located together with the auger drive. The drain valve comprises a housing with a seat, which is made on a vertical wall of the housing. The locking element of the drain valve is made in the form of a cone made of fluoroplastic, which through the lever interacts with the spring unit closing the valve. When the auger stops and the flow of liquid from the load hopper stops, the cone is spring-tightened to the valve body seat, blocking the valve outlet.

The disadvantage of this valve is the following. During the operation of dispensing a dose, a certain amount of liquid, passing through the gap in the upper part of the locking element, enters its back surface and adheres to it, and after the dispensing of the dose is discontinued, for a long time, it drains from this surface. As a result, the final formation of the dose is hindered, the dosing error increases, the dosing cycle time is delayed, and the dispenser productivity decreases.

The technical problem to which the proposed utility model is aimed is to increase the accuracy of dispensing and increase the performance of the dispenser by reducing the amount of fluid adhering to the elements of the drain valve during dispensing.

The technical result is achieved by the fact that the drain valve of the viscous fluid weighing batcher, comprising a housing with a saddle made in a vertical plane, a locking element in the form of a fluoroplastic cone and a spring valve closing unit, is equipped with an additional half ring mounted on the upper half of the locking element cone, the outer cylindrical the surface of the half-ring interacts with the inner cylindrical surface of the saddle of the housing with the ability to move the cone of the locking element and ensure its reliable contact with the body saddle when the dose is stopped.

The proposed utility model is illustrated by figures 1 and 2.

In FIG. 1 schematically shows the drain valve of a viscous fluid weighing batcher.

In FIG. 2 shows the position of the locking element when dispensing a dose.

1 - housing; 2 - a saddle; 3 - locking element;

4 - spring unit closing the valve;

5 - load receiving hopper;

6 - auger; 7 - a half ring.

The drain valve of the viscous liquid weighing dispenser contains a housing 1 with a seat 2, which is made on a flat vertical wall of the housing, a locking element 3 in the form of a cone made of fluoropolymer, a spring valve closing assembly 4. The valve housing 1 is flanged to a load receptacle 5. A spring valve closing assembly 4 is a two-armed lever of the first kind. A locking element 3 is attached to the lower arm of the lever. The upper arm of the arm is made in the form of two parallel trims that interact with two compression springs. The springs, abutting the stops fixed on the load hopper 5, press the locking element 3 against the seat 2. On the upper half of the cone of the locking element 3, a half ring 7 is fixed, the outer cylindrical surface of which interacts with the inner cylindrical surface of the saddle 2 of the housing 1. Between the cylindrical surfaces of the half ring and the saddle housing is guaranteed clearance. The gap value is from 0.1 to 0.2 mm. The flow of fluid with a viscosity of 100 Poise and above through such a small gap at a pressure of 0.3 ... 0.5 kgf / cm ² , which is created in the valve area when the dose is issued, does not occur. At the same time, such a gap is sufficient to ensure free movement of the locking element together with a semicircle 7 fixed on it in the outlet of the housing 1 during opening and closing of the valve.

The drain valve operates as follows. For the delivery of the next dose of liquid from the load hopper 5, the screw drive 6 is turned on. The screw pumps the liquid, creating pressure on the locking element 3. Overcoming the force of the springs of the valve closing unit 4, the locking element 3 moves away from the seat 2. In this case, the upper half of the locking element, due to the presence of half ring 7, continues to overlap the upper half of the outlet of the housing, as shown in FIG. 2. In the lower half of the outlet of the housing, where the locking element has moved away from the edge of the seat 2, a gap has formed, through which the liquid is freely discharged from the load hopper 5. Since there is no liquid outflow through the upper half of the locking element, liquid is applied to the back of the locking element does not fall and, accordingly, does not stick.

The delivery of fluid is continuously monitored by a weighing device and, upon reaching a predetermined dose weight, the screw drive 6 is turned off, the pressure on the locking element 3 is released. Under the action of the springs of the valve closing unit, the locking element 3 is pressed against the seat 2, completely blocking the fluid outlet from the load receiving hopper 5.

After that, the next portion of liquid is fed into the load hopper 5 and after a predetermined period of time, in accordance with the dispenser operation algorithm, the next dose is dispensed from the load hopper 5. The cycle of the drain valve is repeated.

Thus, the installation in the upper part of the cone of the locking element of the half-ring 7 allowed to significantly reduce the amount of sticking fluid on the valve elements and to reduce the drainage time of the liquid from the valve elements after it is closed, thereby improving the accuracy and performance of dosing a viscous liquid.

Tests of the proposed utility model have confirmed its effectiveness: the amount of sticking fluid on the shut-off elements of the drain valve has almost halved, which has improved the accuracy and performance of the dispenser.

Claims (1)

A drain valve for a viscous fluid weighing dispenser, comprising a housing with a saddle made in the vertical plane, a fluoroplastic cone-shaped locking element, a valve closing spring assembly, characterized in that a half-ring is fixed on the upper half of the locking element cone, the outer cylindrical surface of which interacts with the inner the cylindrical surface of the saddle of the housing with the ability to move the cone of the locking element and ensure reliable contact with the saddle of the housing upon termination of delivery to s.

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