RU2078312C1 - Metering pump - Google Patents

Abstract

FIELD: instrumentation engineering, metering of liquids of different viscosity. SUBSTANCE: metering pump has hollow body with bottom and cover. Body is provided with inlet branch pipe joined to inlet electromagnetic valve, discharge branch pipe to which discharge electromagnetic valve is rigidly connected, two magnetically controlled contacts, float-balance beam, magnet installed in bottom of float which internal space communicates with gas space of metering pump. Magnetically controlled contacts are sealed and mounted for free movement along outer side wall of body and for interaction with magnet. First magnetically controlled contact is connected contact is electrically connected to winding of discharge electromagnetic valve. EFFECT: simplified design, increased reliability, possibility of accurate metering and check of dosed liquids of different viscosity. 1 dwg

Description

 The invention relates to the field of instrumentation and can be used for dosing liquids of various viscosities.

 A known liquid dispenser [1] comprising a cylinder with a piston, the rod of which is connected to a displacement drive associated with a liquid flow indicator, a pulse counter, a program-setting unit, a power pipe connected to the cylinder through a distribution valve, a drain pipe displacement assembly, an initial fixation sensor the dosing level, a pointer for moving the drain pipe, an additional pulse counter and an input unit for the coefficient of movement of the drain pipe.

 The disadvantage of this fluid dispenser is that it is complex in design, which leads to its low reliability in operation. In addition, in the dosed liquid, the appearance of wear products due to the presence of moving parts inside the device’s body, which in some cases makes the use of this device unacceptable.

 Also known is a microdoser [2] comprising a housing with a channel and a piston worn on a metering element with an axial capillary channel, a chamber with a membrane dividing it into two cavities, in each of which a hole is made, the metering element is made in the form of a rod located at different ends side of the piston dividing the housing into the working and drive chambers, the last of which is in communication with one chamber cavity, and a radial capillary channel is made at the output end of the rod located in the working chamber.

 The disadvantage of this microdoser is its complexity, unreliability, the inability to dispense liquids of varying degrees of viscosity, as well as insufficient dosing accuracy.

 The closest in technical essence and the achieved effect is a device for dispensing liquids [3] containing a hollow body with a bottom and a cover, while the body is equipped with inlet and drain pipes, to which are connected respectively an inlet valve electrically connected to the control element and a drain valve, and it is also equipped with a float-balancer, which is freely mounted on the bottom of the housing, while along the axis of the float of the balancer an internal cavity is defined, limited by a wall, in the upper part of which is fixed magnesium t, and in the cover there is a hole made coaxially with the float-balancer, in which the tube closed from the end is hermetically fixed, the end part of which is located coaxially in the inner cavity of the float-balancer, while the control element is made in the form of a magnetically controlled contact, which is located inside the end parts of the tube.

 The disadvantage of this device is its complexity, unreliability, as well as the inability to control the dosing of liquid, the low accuracy of dosing, the dosing of liquid in a limited range.

 The technical result of the invention is the simplification of the device, increasing its reliability while increasing the accuracy of dosing and expanding its range.

 This result is achieved in that the device containing a hollow body with a bottom and a cover, equipped with inlet and drain pipes, to which the inlet and drain solenoid valves are connected, a balance float equipped with a magnet, a sealed magnetically controlled contact connected to the inlet solenoid valve, a second sealed magnetically controlled contact electrically connected to a drain solenoid valve, a source of compressed gas of constant pressure, which, through the supply pipe of compressed g the aza is rigidly connected to the housing, inside of which a pipeline is installed, one end connected to the gas cavity, and the other end rigidly fixed to the bottom of the housing, and inside the pipeline there is a counterweight kinematically connected to a magnet installed in the bottom of the float-balancer, the internal cavity of which is in communication with the gas cavity of the device, and magnetically controlled contacts are installed sequentially along the outer side of the side wall of the housing with the ability to adjust their position.

 The drawing shows a General view of the claimed device.

 The device comprises a hollow body 1 with a bottom 2 and a cover 3, an inlet pipe 4, an inlet solenoid valve 5, a drain pipe 6, a drain solenoid valve 7, a float-balancer 8, a magnet 9, a first magnetically controlled contact 10, a second magnetically controlled contact 11, a source 12 compressed gas of constant pressure, the pipe 13 for supplying compressed gas, a pipe 14 and a counterweight 15.

 The device for dispensing liquid is filled with liquid through the inlet solenoid valve 5 to the upper limit level, while the magnet 9 installed in the bottom of the float-balancer 8 rises as the cavity cavity is filled with liquid to the upper limit level, before which the first magnetically controlled contact 10 opens, the winding of the inlet solenoid valve 5 is de-energized, the valve closes and the flow of fluid from the reservoir to the device stops.

 The second magnetically controlled contact 11 sets the dose of liquid dispensed to the consumer.

 From a source of compressed gas of constant pressure, a gas having a working pressure is supplied to the housing container. The device is prepared for delivery to the consumer of a prescribed dose of liquid. The drain solenoid valve 7 is turned on. The liquid is dispensed to the consumer, while the float-balancer 8 is kinematically connected to the counterweight 15, which allows the float-balancer 8 to be on the surface of the working fluid and move as the fluid is dispensed to the level of the second magnetically controlled contact 11.

 When the float-balancer 8 reaches the second magnetically controlled contact 11, its contacts open, the winding of the drain solenoid valve 7 is de-energized and the valve closes. By moving the second magnetically controlled contact 11, its contacts open, the winding of the drain solenoid valve 7 is de-energized and the valve closes.

 By moving the second magnetically controlled contact 11 along the side wall of the device casing, a dose of the delivered liquid is established. The second magnetically controlled contact 11 must be installed not lower than the drain pipe 6, which eliminates the possibility of a breakthrough of the gas-liquid mixture in the consumer line.

 The technical and economic advantage of the proposed device is that with its high reliability, it is possible to set the exact exact dosage of the liquid and control the dosed liquid.

Claims (1)

 A device for dispensing liquids, comprising a hollow body with a bottom and a cover, equipped with inlet and drain pipes, to which inlet and drain solenoid valves are connected, a float-balancer located inside the body and equipped with a magnet, and a sealed magnetically controlled contact, which is installed to interact with magnetically and electrically connected to the inlet solenoid valve, characterized in that a second sealed magnetically controlled contact is inserted into it, electrically with connected with a drain solenoid valve and a constant-pressure compressed gas source rigidly connected through a compressed gas supply pipe to the housing, a pipeline is installed inside the housing, connected to the gas cavity at one end, rigidly fixed to the bottom and a counterweight kinematically connected to the inside of the pipeline a magnet installed in the lower part of the float-balancer, the inner cavity of which is in communication with the gas cavity of the housing, while sealed magnetically controlled contacts are installed after sequence along the outer side of the side wall of the housing with the possibility of adjustment of their position relative to the bottom housing.