RU1774183C - Siphon dosing apparatus - Google Patents

Abstract

Usage: portioned dosing of liquid. SUMMARY OF THE INVENTION: A flow switch, which is located between the membrane chambers, is installed above two measuring tanks with siphons. Each chamber is associated with an inflection of a corresponding siphon. The membranes are attached to the flow switch on opposite sides and allow fluid to switch depending on the pressure in the humps of the siphons. 1 ill.

Description

The invention relates to liquid dosing and can be used in the chemical, pharmaceutical, food, and other industries.

Various types of siphon dispensers are known.

Analysis of the analogue. The siphon dispenser described in the literature (1) consists of a measuring tank, a siphon, a supply pipe with a tap and commodity tanks. The siphon consists of an upward section located inside the measuring tank, a downward section located outside the measuring tank, on its side and an inflection (siphon hump) connecting the upstream and downstream sections; the siphon hump passes through the wall of the measuring vessel and is welded therein.

The disadvantages of this divider are a narrow operating range and a low degree of accuracy of the dispenser.

. Closest in technical essence, containing the largest number of features, common with the proposed siphon

the dispenser is a device by a.s. 881529.

Distinctive design features of the proposed device in comparison with the prototype are as follows:

1. The drive of the flow switch is made in the form of two membrane chambers,

2. Membrane cameras are fixedly installed on both sides of the switch.

3. Each of the membrane chambers is communicated with an inflection of the corresponding siphon,

4. Membrane chamber membranes are associated with a flow switch.

The disadvantages of the device of the prototype compared with the proposed device:

1. The device according to the prototype has a relatively complex structure, large dimensions and metal consumption.

2. Low reliability of the device according to the prototype due to the presence in it of a large number of moving parts and their wear.

The aim of the invention is to simplify the design and reduce metal consumption. This goal is achieved by the fact that

.

h

Vj

b

00

With

the flow switch actuator is made in the form of two membrane chambers, each of which is connected with the inflection of a corresponding siphon, the membrane chambers being fixedly mounted on both sides of the flow switch, to which their membranes are connected.

The drawing shows a diagram of a siphon dispenser.

The siphon dispenser consists of measuring tanks 1 and 2, a supply pipe 3, an adjusting device 4, siphons 5 and 6, a switch 7 for the flow of membrane chambers 8 and 9, membranes 10, 11, t 12 and a funnel.

The purpose of the siphon dispenser parts is as follows.

Measured containers 1 and 2 serve to measure doses. The dosing liquid is supplied through the liquid supply pipe 3 to the measured containers 1 and 2. Using the adjusting device 4, the dosing liquid consumption is changed when the dispenser is set for siphons 5 and 6, the dosed liquid flows from the measured containers 1 and 2 to the commodity (technological) containers . The flow switch 7 directs the fluid flowing out of the pipeline 3 or into the measuring container 2. The membrane chambers 8 and 9 together with the membranes 10 and 11 form tight spaces connected to the upper inflection points of the siphons 5 and 6. The pipes 12 provide a connection between the membranes 10 and 11 and a flow switch 7. The funnel is used to direct the liquid flowing from the siphons 5 and 6 into the storage tank.

The principle of operation of the siphon dispenser is as follows.

Assume that the flow switch 7 is rotated so that when the adjusting device 4 is open, the dosed liquid from the pipeline 3 enters the left measuring tank 2 and fills it. In this case, both membranes 10 and 11, the upper hinge of the switch 7, as well as both rods 12 are in the extreme right position. As soon as the level of the free surface of the liquid in the left measuring container 2 is above the upper point of the hump of the siphon b, the siphon b will be activated, i.e. a dosing liquid will flow from the measuring container 2 into the commodity container in its internal cavity when the cross section of the siphon 6 is completely filled. At this time, a vacuum (vacuum) is created in the hump of the siphon 6, as well as in the internal cavity of the membrane chamber 9. In the cavity of the siphon 5 and the membrane chamber 8, the pressure will be equal to atmospheric, since the descending section of the siphon 5 at this time is connected to the atmosphere. Due to the equality of pressure in the left 8 and

the right 9 membrane chambers will move to the left of the membranes 10, 11, t g 12 and turn the switch 7 counterclockwise. Now the dosed liquid from the pipeline 3 will flow into the measured

container 2 and fill it. At this time, therefore, two processes will simultaneously occur: emptying of the measuring tank 2 and filling of the measuring tank 1. Upon reaching the level of the free surface of the liquid in the measuring tank 1 above the upper point of the hump of the siphon 5, the siphon 5 will be activated. now, liquid will flow through the internal cavity of the siphon 5 (when completely filling its cross section) from

measured capacity to a commodity capacity. Due to the movement of fluid along the siphon 5 in its hump, as well as in the membrane chamber 8, a vacuum will be created. When the entire dosing liquid flows out of the measuring container 2, the pressure in the internal cavity

the siphon 6 and the membrane chamber 9 are compared to atmospheric. Due to the equal pressures in the left 9 and right 8 membrane chambers, the system consisting of membranes 10 and 11, d 12, and also the upper hinge of the switch 7 will move to the right. Then the described cycle will be repeated.

The advantages of the siphon dispenser are as follows:

1. Simplicity of design and reliability.

2. Compactness, less metal consumption.

3.Wide dispenser operating range,

4. High dosage accuracy.

Claims (1)

SUMMARY OF THE INVENTION Siphon dispenser containing two measuring tanks, in each of which a siphon is installed, and a supply pipe arranged above the measuring tanks, provided with a flow switch with a drive, characterized in that, for the purpose of simplifying the design, reducing metal consumption, the flow switch actuator is made in the form of two membrane chambers, each of which is connected with the bend of the corresponding siphon, the membrane chambers being fixedly mounted on both sides of the flow switch, to which their membranes are connected; eleven