SU1099105A1 - Metering pump - Google Patents

Abstract

1. LIQUID DISPENSER, comprising a body divided by a flexible membrane into liquid and gas chambers, a spring-loaded rod attached to the flexible membrane, suction and pressure valves connected to the liquid chamber of the body, discharging tube, dose control means, dropping suction mechanism, supply line compressed gas into the gas chamber of the housing and a source of compressed gas, characterized in that, in order to improve the accuracy of dose adjustment, a spool with a trigger mechanism and a lever are inserted into it, while the spool input is connected with a source of compressed gas, and its output with a line of supplying compressed gas into the gas chamber of the housing, the lever being shortly pivotally fixed to the housing, pivotally connected to the spring-loaded stem and installed with the large-arm trigger mechanism through a dose adjustment mechanism In this case, the droplet suction mechanism is made in the form of a diaphragm pneumatic actuator, the spring-loaded pusher of which is provided with a clamp to interact with the emitting tubes (Ok, which is made elastically and the working chamber of the specified drive is connected to the output pipeline of the spool. 2. The dispenser according to claim 1, characterized in that the dose control means are executed in the form of two co-pairs, one of which is mounted on the trigger mechanism, and the second is on the spool, the screw of the second screw pair spring-loaded to the body.

Description

The invention relates to volumetric membrane batchers of liquids and can be used in chemical, food, and other industries. A diaphragm metering device is known, comprising a housing with a membrane and a metering chamber, a pneumatic shut-off valve device, connecting channels, a control device for supplying pneumatic pulses to the shut-off valve device and a dose adjustment mechanism connected through a separating fluid to the dispensing chamber tlj. The closest to the invention of the technical essence and the achieved result is a liquid dispenser comprising a housing divided by a flexible membrane into liquid and gas chambers, a spring-loaded rod, with suction and discharge valves connected to the liquid chamber of the housing issuing tube connected to the flexible membrane no dose, a mechanism for suction of a drop, a line for supplying compressed gas to the gas chamber of the body and a source of compressed gas 2. A disadvantage of the known devices is the low dose adjustment accuracy. The purpose of the invention is to improve the accuracy of dose adjustment. This goal is achieved by the fact that, in a dispenser comprising a body divided by a flexible membrane into liquid and gas chambers, a spring loaded stem connected to a flexible membrane, suction and discharge valves connected to the liquid chamber of the body, dispensing tube, dose control means, mechanism from the drop, the compressed gas supply line into the gas chamber of the body and the source of compressed gas, a gold noose with a trigger mechanism and a lever were inserted; the inlet of the spool was connected to a source of compressed gas, and its output to the main supplying the compressed gas to the gas chamber of the housing, with the lever having a short shoulder hinged to the housing, pivotally connected to the spring-loaded rod and mounted to interact with the trigger mechanism through the dose adjustment means with a large shoulder, while the suction mechanism of the drop is designed 052 in the form of a pneumatic diaphragm the actuator, the spring-loaded pusher of which is provided with a clamp for interacting with the transfer tube, which is elastic, and the working chamber of said actuator is connected to you flow pipeline spool. . The dose adjustment means are made in the form of two screw pairs, one of which is mounted on the trigger mechanism, and the second on the spool, the screw of the second screw pair being spring-loaded relative to the housing. FIG. 1 shows a dispenser, a section, in FIG. 2 shows section A-A in FIG. 1. The liquid dispenser comprises a housing 15, a flexible membrane 2, dividing the housing 1 into a liquid 3 and a gas chamber 4, a piston rod 5, attached to the membrane 2, a suction 6 and a pressure valve 7 connected to the pressure chamber 3 of the housing 1, which discharges the tube 8, the dose control means 9, the droplet suction mechanism 10, the compressed gas supply line 11 to the gas chamber 4 of the housing 1, the compressed gas source 12, the spool 13 with the trigger mechanism 14 and the lever 15. The spool input 13 is connected to the compressed gas source 12 and its output - with the highway 11 supplying compressed gas into the gas chamber 4 of the housing 1. The lever 15 has a short arm hinged to the housing 1, is pivotally connected to the spring-loaded rod 5, and is mounted with the possibility of interacting through the dose adjustment means 9 with the trigger mechanism 14 with its large shoulder. The droplet suction mechanism 10 is embodied in the form of a diaphragm pneumatic actuator 16, the spring-loaded pusher 17 of which is provided with a clamp 18 for engagement with the transfer tube 8, which is made elastic. The working chamber 19 of the actuator 16 is connected to the output pipe 20 of the spool 13. The dose adjustment means 9 are made in the form of two screw pairs 21 and 22, the first of which is installed on the hammer mechanism 14 and the second on the spool 13, and the screw of the screw pair 22 is spring-loaded relative to the housing 1 The liquid dispenser operates as follows.

Set the required dose by installing the spool 13 with a screw pair 22 at a given distance from the lever 15. Working chamber

13 are filled with liquid. The membrane of the slide valve 13 is impacted by a pulse of compressed gas, as a result of which its membrane 23 and stem 24 move towards the trigger mechanism.

14 and cocked him. In this case, the line 11 of the compressed gas supply through the spool 13 is connected to the source

12 compressed gas and gas through line 11 and pipeline 20 enters chambers 4 and 19. Under the action of pressure of compressed gas, membrane 2 moves upward and, through pressure valve 7, displaces fluid into an elastic delivery tube 8. At the same time, actuator diaphragm 16 the supplied compressed gas is moved towards the tube 8 and the clamp 18 deforms it, reducing the internal volume of said tube. When the membrane 2 moves, the rod 5 attached to it moves upwards and moves the lever 15 towards the adjusting screw pair 21 of the spool 13. By the end of issuing a given dose, the lever 15 presses the screw of the screw pair 21,

causing the trigger 14 to fire. At the same time, the compressed gas from chambers 4 and 19 through line 11 and pipeline 20 through the valve 13 is discharged into the atmosphere. When gas is released from the chamber 19 of the suction mechanism 10, the droplets of the stem 17 with the clamp 18 move downward from the tube 8, restoring the cross section, increasing its volume and producing the suction of excess liquid from. tube 8. When moving the membrane 2 down the liquid. from the inlet pipe through the suction valve 6 enters the chamber 3, fill it with volume and prepare the dispenser to issue the next dose of liquid.

The automatic switching of the dispenser from the operation of dispensing the dose to the operation of sucking the liquid eliminates the reduction of the flow rate of the jet and its fragmentation and thereby prevents the formation of drops at the outgoing end of the tube 8, which allows the use of the dispenser to fill narrow-numbered containers, for example, medicinal.

The use of screw pairs and a double-arm lever provides high precision dose adjustment.

Claims (2)

1. A LIQUID DISPENSER, comprising a housing divided by a flexible membrane into a liquid and gas chamber, a spring-loaded stem connected to a flexible membrane, suction and pressure valves, valves connected to the housing fluid chamber, a delivery tube, dose control means, droplet suction mechanism, supply line of compressed gas into the gas chamber of the housing and the source of compressed gas, characterized in that, in order to increase the accuracy of dose adjustment, a slide valve with a trigger mechanism and a lever are introduced into it, while the input of the slide valve is connected to the source a hiccup of compressed gas, and its exit with a line for supplying compressed gas to the gas chamber of the housing, the lever with a short shoulder pivotally mounted on the housing, pivotally connected to a spring-loaded rod and installed to interact through the dose adjustment means with the trigger mechanism with its large arm, the droplet suction mechanism is made in the form of a diaphragm pneumatic actuator, the spring-loaded pusher of which is equipped with a clamp for interacting with the issuing tube, which is made elastic, and working to A meter of the specified drive is connected to the spool outlet pipe. 2. Pop dispenser. ^ characterized in that the dose control means are made in the form of two screw pairs, one of which is mounted on the trigger mechanism, and the second on the slide valve, the screw of the second screw pair being spring loaded relative to the housing. SU '„.1099105