SU951077A1 - Device for metering liquid - Google Patents

Description

and a distributor disk 3 mounted on the axis 4 of rotation of the dispenser 5 On the working surface 6 of the distribution disk 3 there are annular grooves 7 with rectangular projections 8 and a through groove 9. There can be one or more circular grooves 7 with rectangular projections 8. The dispenser 5 also includes spring-loaded shut-off valves 10 with pushers 11 dispensing chambers 12, a bottom cavity 13 a fitting 14 for draining the fluid, channels 15 and 16, as well as Mariotte vessels 17. The number of 17 Mariotte vessels and dosing chambers 12 corresponds to the number of dosing liquids. The Mariotta vessel 17 can be connected to the atmosphere through channel 15 and groove 9, and through channel 16 to metering chamber 1.

The liquid dispenser operates as follows.

Before the dispenser is put into operation, the dosing chambers 12 are filled with metered liquids. For this, the motor 1 is turned on and one turn of the distribution disk 3 is made. In this case, the air in the metering chambers 12 passes through the channel 15 and the groove 9 into the surrounding atmosphere, and the dosing liquids take its place.

Then turn on the dispenser for a constant mode of operation. To do this, a voltage is applied to the electric motor 1 and it starts rotating the distribution disk 3 through a worm gear 2. Turning on the axis 4 of rotation, the distribution disk 3 by a rectangular protrusion 8 located in the annular groove 7 runs onto the pusher 11 of the shut-off valve 10 and squeezes it down, opening the exit of the liquid from the dosing chamber 12 into the cavity of the bottom 13 and then through the fitting 14 for the intended purpose. The volume of the delivered dose of fluid is determined by the length of the rectangular protrusion 8. At the same time, the dosing chamber 12 and the vessel 17 Mariotta through the channel 15 and the groove 9 communicate with the surrounding atmosphere to ensure the discharge of liquid from the dosing chamber 12 and to prepare the next dose of liquid in the vessel 17 Mariotte. While the flow of fluid from the vessel 17 Mariotta in the dosing chamber 12 through the channel 16 is blocked by a cylindrical part of the shut-off valve 10,

After passing the rectangular protrusion 8 above the pusher 11 of the shut-off valve 10, the latter returns to its original position, shutting off the discharge of liquid from the dosing chamber 1 into the cavity of the bottom 13 and jointly this chamber with the Marriott 17 vessel through the channel 16. At the same time, the dosing chamber 12 is filled with liquid .

and the air is forced out of it into the surrounding atmosphere. Through channel 15 and groove 9.

After the dispensing chamber 12 is filled with liquid, the distributor disk 3, due to its rotation, assumes such a position that the communication of this chamber and the Marriott 17 vessel with the surrounding atmosphere through the channel 15 and the groove 9 stops. At the same time, the channel 15 is blocked by a flat part of the working surface b of the distribution disk 3, which prevents the volatile liquids from evaporating:: (the bones from the dosing chamber 12 and:; condemn 17 Mariotta into the surrounding atmosphere at the time when no dose of liquid has occurred; from this chamber and its content.

Then, the rectangular protrusion 8 is pushed onto the pusher 11 of the check valve 10 of the next metering chamber 12, and the groove 9 is connected with its channel 15 and then the operation of the metering device proceeds as described.

The combination of the speed of rotation of the distribution disc 3 with a certain arrangement of the metering chambers 12 and the pushers 11 of their shut-off valves 10 around the circumference of the ring groove 7, as well as with a certain length of rectangular projections B, you can get a different volume of dispensed doses of different liquids and a different time interval between their dispenses. To dispense several doses of various liquids from several metering chambers 12, several annular grooves 7 with several rectangular protrusions 8 in them are simultaneously performed on the working surface b of the distribution disc 3.

Thus, the implementation of the working surface of the distribution disk flat with annular grooves and rectangular protrusions located in them, as well as the implementation of a through groove in the distribution disk and channels in the housing of the dispenser, which provide communication of the dosing chambers through this groove with the atmosphere, and rigid connection between the valves in the inlet and outlet channels, the functionality of the liquid dispenser is extended.

Claims (1)

Invention Formula A fluid dispenser comprising a housing in which the metering chambers with fluid inlet and outlet channels, stop valves with pushers, a distribution disk mounted on the axis of rotation and interacting with the pushers, the engine and the mechanical transmission, are located