SU1165893A1 - Syringe metering device - Google Patents

Abstract

A BLADDER BATCHER containing a piston with a drive and a distributor installed: a device characterized in that, in order to measure the dosing range, the piston drive is made in the form of a cylinder divided by a plunger into two chambers, a source of driving fluid, a suction pump and an injecting pump , the distributor is made in the form of valve heads, the injection pump being connected through the first valve with a source of driving fluid and through the second valve with the first chamber of the cylinder, pumping out the pump is connected to the first chamber of the cylinder through the third valve and through the fourth valve to the second chamber of the cylinder and a source of driving fluid, and the plunger is connected to the piston.

Description

O) 01

OS with

1 The invention relates to dispensing devices and can be used for dispensing various liquids. A known liquid dispenser, comprising a housing with a piston l. The disadvantage of the dispenser is. the presence of a manual drive that does not allow dosing with high accuracy. Closest to the proposed one is a syringe dispenser containing a piston with a drive and a distributor 2 installed in a housing. A disadvantage of the known device is that it is impossible for them to produce dosing of small doses. as a result of a stagnation of the piston. The aim of the invention is to spread the dosing range. The goal is achieved by the fact that in a syringe dispenser containing a piston mounted in a housing with a drive and a distribution device, the piston is driven in the form of a cylinder divided by a plunger into two chambers, a source of driving fluid, an evacuating and injecting pump, a distribution device four valves, the injection pump being connected through, the first valve with a source of driving fluid and through the second valve - With the first chamber of the cylinder, the pump is connected to the first chamber cylinder through the third valve and through the fourth valve - with the second chamber of the cylinder and a source of drive fluid and the plunger is connected to the piston. The drawing shows the scheme of the syringe dispenser. The syringe dispenser housing 1 is mounted on the bracket 2 of the cylinder 3, the syringe piston 4 is connected to the drive rod 5 via the bracket 6. This ensures that the installed syringe is easily installed and removed (if necessary). To obtain a predetermined ratio of flows, for example, three liquids, three syringe dispensers can be mounted on bracket 2, respectively. With the necessary ratio of the areas of their pistons. The drive rod 5 is rigidly connected with the plunger 7. The source of driving fluid 8 is hydraulically93 2 communicated with the second chamber 9 and with the distributor through pipelines 10 and 11. The first chamber 12 is connected to the distributor by pipelines 13 and 14. The suction and injection pumps are combined into a common body and provided with a common drive 15 and a common setting unit 16 of the ratio of feed. Pumping and pumping pumps have a drive plunger 17 moving by an eccentric 18. A drive plunger 17 with an additional piston 19 forms in the bore of the case pumping pump 20 and pumping out 21 metering pumps. The source of the drive fluid 8 for remote control of the position and speed of movement of the piston 4 of the syringe is provided with a seal 22 on the rod 5, and communicated with a tube of the required length with a measuring container 23 installed on the control panel. The connection of the suction and pumping pumps and the tank 23 is carried out by two pipes 24 and 25. The metering device includes the metering drive element. And four valves 27-30. The device also includes a stop 31 and a return spring 32. Syringe dispenser works as follows. When the eccentric 18 is rotated, when the drive plunger 17 is lowered, the valve 27 opens and when the valve 28 is closed, under the action of the fluid in the learning pump 20, it starts with an additional 200 minutes. piston 19, discharging the liquid into the second chamber 9, until it is stopped - by focusing the actuator 16.. After the additional piston 19 is stopped, the valve 28 opens and B the first chamber 12 is supplied with a portion of the liquid, displacing the plunger 7 down, for example, by 0.01 mm. When the actuating plunger 17 is lifted, the valve 29 opens (since it is least loaded and there is an overpressure in the chamber 12) and the additional piston 19 moves until it stops by the stop 31. After that, the valve 30 opens and the injection pump 20 is filled with fluid from the chamber 9. As a result of the stroke of the actuating plunger 17 upwards, the plunger 7, for example, is shifted upwards

31

by 0,006 mm. Thus, the resulting movement of the plunger 7 for one revolution of the eccentric 18 is equal to 0.004 mm and is directed downwards. It is clear that by changing the position of the stop of the setpoint 16, it is possible to regulate. the resulting cyclic movement of the plunger 7 and, consequently, the average speed of its movement, both up and down.

When it is necessary plunger 7 podg; nto top position

34

regardless of the position of the setting device 16, then a signal is sent to the metering actuator element to the initial position 26, which leads to the message of the first 9 and second, 12 chambers and the rise

the plunger 7 up under the action of the spring 32.

The proposed device allows for metering of small

quantities of fluid that allows

to expand its area of application.

Claims (1)

A SYRINGE DISPENSER, 'containing a piston with a drive installed in the housing and a distribution device, characterized in that, in order to expand the dosage range, the piston drive is made in the form of a cylinder divided by a plunger into two chambers, a source of drive fluid pumping and the injection pump, the switchgear is made in the form of four valves, the injection pump being connected through a first valve to a source of drive fluid and through a second valve to a first cylinder chamber, a pumping pump connected to the first cylinder chamber through the third valve and through the fourth valve to the second cylinder chamber and the source of the drive fluid, and the plunger is connected to the piston. > 1165893 2