SU1024730A1 - Metering pump for two-component liquid substances - Google Patents

Abstract

1. DISPENSER FOR TWO-COMPONENT LIQUID SUBSTANCES containing a housing, containers for metered substances, dosing chambers with non-return valves, characterized in that, in order to increase reliability during operation of the dispenser with adhesive liquids and improve the quality of mixing, elastic a cylindrical shell within which a tube is coaxially with it with a gap, while the upper part of the tube is connected by a channel to the dosing chamber of one of the components, and its lower part forms a closed end cylinder dis1metr whose outer diameter greater than the outer tube, wherein the tangent to the surface of the cylinder are arranged nozzles, and the clearance between the tube and obo.ochkoy channel connected with the dispensing chamber of another koyutonenta. (L /

Description

2. A dispenser according to claim 1, characterized in that the dosing chambers are placed in a strip installed between the bottom of the containers for the dosage substances and the housing, coaxially with its orifices and bounded above by non-return valves, and below by the membranes.

3 "Dispenser according to paragraphs. 1 and 2, of which is the reverse of

the valves are made in the form of a gasket made of an elastic material, with openings, the jumpers between which are wider. diameters of holes in the bottom. containers for dosing substances, and jumpers are located symmetrically relative to the axes of these denials.

This invention relates to dispensing and may be used in instrument making. Dispensers are known that dispense directly by the working bodies on the dosed substance 1. A disadvantage of this device is that it cannot be applied to sticky liquids that solidify at room temperature. The closest in technical essence to the present invention is a dispenser comprising a housing, containers for metered substances, metering chambers with non-return valves 2. A disadvantage of the known devices is that the use of this dispenser is possible only in the process of its continuous operation, and after the dispenser works, the cavity of the mixture of substances must be removed. The aim of the invention is to increase the reliability of the dispenser with sticky liquids and to improve the mixing quality. The goal is achieved by the fact that in the dispenser containing the housing, containers for dosing substances, dosing chambers with check valves, an elastic cylindrical shell is attached to the lower part of the housing; the dosing chamber of one of the components, and its lower part forms a cylinder closed from the end, the outer diameter of which is larger than the outer diameter of the tube, and tangential to the surface of the cylinder are located nozzles, and the gap between the shell and the tube is connected to the dosing chamber of the other component. In this case, the reverse valves are made in the form of a gasket made of an elastic material, with openings, jumpers between which are wider than the diameters of the openings in the bottom of the container for the substances to be dosed, and the jumpers are arranged cyclically relative to the axes of these openings. FIG. 1 shows the dispenser, general view; in fig. 2 is a section of Al on FIG. 1J in FIG. 3 is a section BB in FIG. 1. The dispenser consists of a cs container 1 for the first component (for example, a hardener), and a container 2 for the second component (for example, for an epoxy resin with a plasticizer and a filler). . The container is connected with a pneumatic cylinder rod 3 of vertical feed and with screws 4 is closed by a lid 5. In the bottom b there are openings 7 and 8, closed by a check valve 9, with openings 10 and jumpers 11 (Fig. 2). Plank 12 has openings 13 and 14, closed at the bottom by a rubber membrane 15. The check valve 9, bar 12 and membrane 15 form dosing chambers. Air channels 17 and channels 18 and 19 for the components of substances are located in the housing 16. The channel 18 connects the hole 13 with a hole in the tube 20, at the lower end of the cylinder there is a cylinder 21 with tangentially positioned | nozzles 22: (Fig. 3). Cylinda 21 is covered by an elastic sheath 23. The gap between the tube 20 and the sheath 23 is connected to the opening 14 by the channel 19. The air channels 17 through the distributor 24 are connected to the source 25 of compressed air. The pneumatic cylinder 3 is connected to the source 25 through the distributor 26. The distributors 24 and 26 are connected to the control system 27. Capacities 1 and 2 are connected to source 25 compressed

Claims (3)

(5 7) 1. DISPENSER FOR TWO COMPONENT LIQUIDS> comprising a housing, containers for dosing substances, metering chambers with check valves, characterized in that, in order to increase the reliability during operation of the dispenser with adhesive liquids and improve the quality of mixing, an elastic cylindrical shell is attached to the lower part of the casing, inside of which a tube is located coaxially with the gap, the upper part of the tube is connected by a channel to the metering chamber of one of the components, and its lower part forms a closed loop Indra outer diameter greater than the outer diameter of the tube, and along a tangent to the cylinder surface disposed nozzle and the gap between the tube and obodochkoy channel connected with the dispensing chamber of another component. Fig! 2. The dispenser according to π.1, is distinguished by the fact that the metering chambers are placed in a bar installed between the bottom of the containers for the deaerated substances and the housing, are aligned with its openings and are bounded above by check valves, and below by membranes. 3. Dispenser 1 and 2, due to the fact that the check valves are made in the form of a gasket of elastic material, with holes, the bridges between which are wider than the diameters of the holes in the bottom. containers for dosed substances, and the jumpers are located symmetrically relative to the 'axes of these holes.