RU80942U1 - LIQUID MICRODOSER - Google Patents

Abstract

The device consists of a housing 1, fixedly mounted in the stator housing of an electromagnet 2 with a coil 3, when a voltage is applied to which the armature 4, rigidly connected with a locking needle 5, opens the fluid outlet from the dispenser. When removing the voltage, the magnetic flux passing through the armature 4 of the electromagnet decreases, and the locking needle 5 under the action of the elastic force of the springs 6 moves down, blocking the outlet of the dispenser. The signal from the electronic position sensor 8 is fed to the input of an analog-to-digital converter 9, then the signal is processed by the microcontroller 10, where the current position of the needle of the valve 5 is compared with the specified one. The magnitude of the deviation driver 11 regulates the voltage supplied to the coil 3 of the electromagnet.

Positive effect: automatic dosing and delivery of a given amount of liquid with high accuracy.

Description

The utility model relates to devices for dispensing liquids and can find application in the medical, chemical, food and other industries.

A device comprising a housing, a measuring tank, made in the form of a bellows with a moving bottom and placed in a gas chamber, and a switchgear with a switching mechanism [Auth. testimonial. USSR No. 815507, MKI G01F 11/08, 1981].

The disadvantage of this device is that this device is quite bulky, complex and has low reliability

Closest to the claimed device, by a combination of features, is a liquid microdoser comprising a housing, a flow interrupter and a control system, the flow interrupter is made in the form of an elastic tube fixed to the base and contacted by a locking member in the form of a rod fastened with an anchor with an anchor and an electromagnet, the permanent magnet being located between the elastic tube and the armature. [Auth. testimonial. USSR No. 1552010, MKI G01F 11/08, 1990].

The disadvantage of this device is the design complexity, which reduces the accuracy of dosing.

The objective of the utility model: improving the accuracy of dosing.

The problem is solved in that in the known device comprising a housing, an electromagnet and a control system, the electromagnet armature is rigidly connected to a locking needle on which the position sensor is fixedly mounted, and the electromagnet windings are electrically connected to a control system consisting of an analog-to-digital converter connected in series , microcontroller and electromagnet driver.

Distinctive features in the claimed technical solution were not identified when studying this and related areas of technology.

The combination of the claimed features ensures the achievement of a utility model - improving the accuracy of dosing.

In FIG. shows a diagram of this device.

The device consists of a housing 1, fixedly mounted in the stator housing of an electromagnet 2 with a coil 3, a movable armature 4, rigidly connected with a locking needle 5, and the armature 4 suspended on the springs 6. Between the armature 4 and the housing 1 installed elastic stops 7, and on the locking the needle 5 is fixedly mounted position sensor 8. The control system consists of an electrically connected analog-to-digital Converter 9, a microcontroller 10 and an electromagnet driver 11. The stroke of the armature 4 of the electromagnet is δ.

The device operates as follows. When voltage is applied to the winding of the coil 3 of the electromagnet, the armature 4, rigidly connected to the locking needle 5, opens the fluid outlet from the dispenser. The stroke of the armature 4 of the locking cone of the needle 5 is δ and is limited by an elastic limiter 7. The duration of the open state of the locking needle 5 is equal to the duration of the pulse supplied to the winding of the electromagnet 2. When the voltage is removed, the magnetic flux passing through the armature 4 of the electromagnet decreases and the locking needle 5 under the action the elastic force of the springs 6 moves down, blocking the outlet of the dispenser. The signal from the electronic position sensor 8 is fed to the input of an analog-to-digital converter 9, then the signal is processed by the microcontroller 10, where the current position of the needle 5 of the valve is compared with the set one. The magnitude of the deviation driver 11 regulates the voltage supplied to the coil 3 of the electromagnet.

The application of the proposed device allows for high-precision dosing and to issue a given amount of liquid in the form of portions or a constant flow rate with an error not exceeding the established accuracy class.

Claims (1)

A liquid microdoser containing a housing, an electromagnet and a control system, characterized in that the electromagnet armature is rigidly connected to a locking needle on which the position sensor is fixedly mounted, and the windings are electrically connected to a control system consisting of an analog-to-digital converter, a microcontroller and a driver connected in series electromagnet.