SU1122891A1 - Siphon-type metering tank - Google Patents

Abstract

A RIFONNY DISPENSER containing a volumetric measuring tank, a fluid supply pipeline connected to it with an adjusting device and: a siphon tube, one end of which is located in the lower part of the measuring capacity, characterized in capacity; made in the form of successively arranged in height sealed chambers formed by partitions inclined to the horizontal, in each of which a tube with a removable calibration sleeve is installed with the possibility of vertical movement, with the upper cavity 1 wait each; the sealed chamber is communicated with the atmosphere through an additional tube, the upper end of which is located above the maximum level of the liquid in the measuring vessel, and the upper end of the siphon tube is above the upper calibrated sleeve.

Description

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

A siphon dispenser is known _} containing a dispensing container and a dispensing meter located in it, connected by a flexible connection to the siphon Pipeline 1.

The disadvantage of this dispenser is the inability to automatically control the dose.

The closest to the invention in terms of technical nature and the achieved result is a siphon 15 dispenser containing a number of siphon tubes of different lengths installed in a measuring tank, the inlet openings of the siphon tubes are located at different levels in the lower part of the measuring tank. A liquid supply line with an adjusting device is connected to the measuring tank. A disadvantage of the known dispenser J5 is the impossibility of regulating the dose value according to a given program.

The aim of the invention is the provision of regulation of the dose ₃ θ according to a given program.

This goal is achieved by the fact that in a siphon dispenser containing a measuring tank, a fluid supply pipe with an adjusting device and a siphon tube connected to it, one end of which is located at the bottom of the measuring tank, the measuring tank is made in the form of sealed chambers successively arranged along the height, formed ⁴⁰ partitions inclined to the horizontal, in each of which a tube with a removable calibrated sleeve is mounted with the possibility of vertical movement, Moreover, the upper cavity of each the sealed chamber communicates with the atmosphere through an additional tube, the upper end of which is located above the maximum liquid level in the measuring tank and the upper end of the siphon tube is higher than the upper removable calibrated sleeve.

The drawing shows a siphon dispenser.

VNIIIPI Order 8125/33

The siphon dispenser contains a measuring tank 1, a liquid supply pipe 2 with an adjusting device 3, a siphon tube 4, hermetic chambers 5 formed in the measuring tank 1 by inclined partitions 6 with tubes 7, removable calibrated bushings 8 and additional tubes 9.

The upper ends of the additional tubes 9 are located above the maximum liquid level in the measuring tank 1, and the upper end of the siphon tube 4 is higher than the upper removable calibrated sleeve 8,

The dispenser works as follows. When the tap is opened, the lower chamber of the measuring tank 1 is filled with liquid, and the air from the lower chamber first enters the atmosphere through additional tubes 9, bushings 8 and the siphon tube 4. After the liquid reaches the plane T in the upper chamber, the siphon tube 4 begins to flow fluid from the measuring tank 1. The pressure that causes the fluid to flow out of the measuring tank 1 through the siphon tube 4 immediately after its inclusion in the work will be determined by the vertical distance from the plane -> X plane to the plane (h,). The flow rate of the liquid at the start of the fluid flow will be maximum.

• Depending on the flow rate through the bushings 8, the liquid supply pipe 2, the siphon tube 4, a set of different programs for issuing the liquid phase from the measuring tank 1 to the commercial tank is possible. The flow rate over time can be changed due to interchangeable bushings 8 having different diameters, as well as due to their different positions relative to the partitions 6. The change in the dose value is carried out at successive expiration with a certain flow rate through the bushings 8 of the liquid volume, determined by the height of the location of these bushings. Thus, due to the introduction of a multi-chamber measuring tank with calibrated bushings installed with the possibility of vertical movement, it is possible to regulate55 the value of the quantity ιίό for the given program. Circulation 609 Subscription

Branch of PPP Patent ”, Uzhgorod, Project 4,

Claims (1)

A SIPHON DOSER containing a measuring container, a fluid supply pipe connected to it with an adjustment device, and a siphon tube, one end of which is located at the bottom of the measuring container, characterized in that, in order to provide the possibility of regulating the dose value according to a given program, the measuring container is made in in the form of sealed chambers sequentially arranged in height, formed by partitions inclined to the horizontal, in each of which the tube is installed with the possibility of vertical movement with a removable calibration sleeve, the upper cavity of each pressurized chamber communicating with the atmosphere through an additional tube, the upper end of which is located above the maximum liquid level in the measuring tank, and the upper end of the siphon tube is higher than the upper removable calibrated sleeve.