RU2010172C1 - Proportioner - Google Patents

Abstract

FIELD: proportioning of viscous liquids. SUBSTANCE: mounted in through diametral passage of drum is plunger whose one end is connected with oscillating crank gear. Other end of plunger has hole which receives tail-piece of insert arranged on pin by means of longitudinal slot. During suction stroke, suction port is matched with open end of through diametral passage of drum and plunger moves upward together with insert by means of oscillating crank gear. During delivery stroke, drum turns due to oscillating crank gear and matches passage with delivery port. Insert lowers first by gravity and liquid flows practically by gravity after which it is forced out by plunger under action of drive. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to the food industry, and specifically to the dosage of viscous liquids such as syrups. It can be used in the chemical industry, perfumery, pharmacology for dispensing viscous liquids.

Currently, piston pumps of the type C ₁ and C ₂ , adopted as an analogue, are widely used for dispensing viscous liquids in industry [1]. They have a significant drawback - the valve system of overlapping the suction and discharge windows, which leads to jamming of the valves, their wear, increased requirements for the manufacture of adjacent surfaces, delay in opening and closing, etc. Dosing of liquids prone to the formation of solid residues (for example, syrups during crystallization of sugars), is accompanied by a complete disruption of the valves. In addition, piston dispensers provide a long, half cycle, cycle of injection of the dosed liquid into the process chain. It also reduces metering accuracy.

 As a prototype, a dispenser has been adopted, comprising a housing with entry and exit windows, inside of which there is a swinging cylinder made in the form of a drum with a through diameter hole, and a plunger moves in this hole [2].

 In dispensers of this type there are no valves, which makes their use for dispensing viscous fluids justified. However, these dispensers are able to provide only a "stretched" pressure cycle - for half the stroke.

 At the same time, sticking of the dosed viscous liquid in the inlet and outlet channels is observed in them.

 All this leads to a decrease in metering accuracy.

 The aim of the invention is to improve the accuracy of dispensing viscous liquids.

 The goal is achieved by the fact that in the dispenser containing a housing provided with an input and output windows, a drum installed in it and connected to the drive, a plunger is placed in the through diameter channel thereof, an insert with a shank is introduced, in which a longitudinal slot, a pin and a crank mechanism are made moreover, the crank is connected to the drive, and the link is connected to the plunger, in which a hole is made from the opposite end, in which a shank is installed on the pin passed through the longitudinal slot, and the input and output windows are placed with the possibility of alternating with the open end of the diametrical channel of the drum, the diameters of the insert and plunger being equal to each other.

 In FIG. 1 shows a dispenser; in FIG. 2a-d is a diagram of his work.

 The dispenser comprises a housing 1 and a sealing cover 2. Inside the housing 1, a crank 3 connected to a rotation drive (not shown), a crank-link mechanism including a crank 3, and a link 4, at the end of which a plunger 5 is fixed, are installed. The plunger 5 is placed in a through the diametrical channel 6 of the drum 7. At the end of the plunger there is a hole 8 in which is installed on the pin 9, passed through the longitudinal slot 10, the shank 11 of the insert 12. Between the insert and the plunger can be installed a spring 13. In the lower part of the housing there is an intake inlet window 14 I and the outlet window 15 discharge.

 The operation of the dispenser (Fig. 2 a-g) is as follows. When the housing 1 is fixed and the cover 2, the rotation of the crank 3 in the arrow ω makes the plunger 5 move from the initial position (2d) up and to the left. When this swinging drum 7 is rotated and opens the suction window 14. First, insert 12 lags behind the plunger, as shown in FIG. 2a. Then, when its shank 11 rests against the pin 9, it moves with the plunger - the dosed liquid is sucked into the swinging drum, which rotates and gradually closes the suction window 14 (Fig. 2b). Then, the injection window 15 gradually opens, the plunger moves down, the distance between it and the insert is shortened, due to fluid resistance the plunger “catches up” the insert (Fig. 2 c). That is, the liquid exits the dispenser almost by gravity. But when the plunger “catches up” the insert, the fluid is intensively displaced from the cylinder, which prevents sticking of the viscous crystallizing fluid in the dispenser. (56) 1. Catalog "Variable-speed piston and plunger oil pumps. M., TSINTIkhimneftemash, 1980, p. 3.

 2. USSR author's certificate N 609057, cl. G 01 F 11/00, 1978.

Claims (1)

 A DOSER containing a housing equipped with an inlet and an outlet window, installed in it and connected to a drum, in the through diameter channel of which a plunger is located, characterized in that, in order to increase the accuracy of dispensing of viscous fluids, an insert with a shank is inserted into it, in which A longitudinal cut-through, a pin and a crank-rocker mechanism, with a crank connected to the drive, and a link to the plunger, in which a hole is made from the opposite end, in which the slot is missing Ovik, and inlet and outlet windows pazmescheny chance poochepednogo alignment with otkpytym toptsom diametpalnogo channel bapabana, ppichem diametpy insert and plunzhepa pavny together.

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