RU2491516C2 - V neprimerov's automatic fluid dispenser - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: air valve is arranged at service tank cover opening. Total capacity (in litres) counter is arranged in discharge pipe. Service tank body is provided with electronic litre issue counter rigidly secured thereat. Litre pulse counter is arranged at service tank cover and reduced to average seasonal ambient temperature. Pipeline with counterweight is provided with counterweight travel limiter. Note here that pipeline bottom end is stopped by plug. Outer surface of pipeline top and bottom parts are provided with strips with holes arranged vertically opposite each other. Extra calibrated rods are fitted in said holes. Volume of displaced fluid, plates with holes and calibrated rods corresponds to fluid thermal expansion factor set for measured volume at preset average seasonal ambient temperature. Every rod corresponds to thermal expansion of fluid by 0.5 degrees Centigrade. Service tank volume may be cored with due allowance with seasonal temperature variations by increasing or decreasing the number of calibrated rods. Drum with zero mark is arranged in the body on axle. Point-type indicator is arranged opposite said drum at service tank cover. Replaceable roller with four permanent magnets is fitted on axle. Said roller and said drum are engaged by gears. Said permanent magnets can interact with second magnetically controlled contact electrically connected with pulse liter counter. Two marks are made at weight element for maximum fluid density for minus 50 degrees Centigrade and minimum fluid density for plus 40 degrees Centigrade. Fluid level warning device including float with magnet and float travel limiter are arranged above fluid surface. Note here that said magnet can get in contact with the first magnetically control contact. Extra tank with tube provided with check valve is arranged at service tank top section. Said tube is communicated with intake pipe.

EFFECT: proportioning of different-density fluids, higher accuracy.

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Description

The invention relates to the field of metrology, and in particular to devices of liquids, for example petroleum products, and can be used to maintain a given level of liquids with different viscosities.

Known automatic dispenser of liquids containing a non-magnetic supply tank in the form of a hollow body with a bottom and a cover, equipped with inlet and drain pipes, which are equipped with inlet and drain solenoid valves, a float-balancer with a magnet, forming a certain weight element, placed inside the housing and partially immersed in a liquid, the magnet has the ability to interact with the first and second magnetically controlled contacts, which are installed sequentially along the outer side of the side with the housing’s wenches with the possibility of adjusting their position relative to the bottom of the housing and are electrically connected respectively to the inlet and drain solenoid valves, a constant-pressure compressed gas source, which is rigidly connected to the housing by means of a compressed gas supply pipe and connected to the gas cavity of the housing, a pipeline is installed inside the housing, one end connected with the gas cavity, the other rigidly fixed to the bottom of the body, and inside the pipeline there is a counterweight kinematically connected with the weight element Ohm using a flexible connecting element, such as a cable or rope, thrown through two hinges of a triangular element, rigidly connected to the upper end of the pipeline (see the description of the invention to RF patent No. 2078312 IPC G01F 13/00, publication 04/27/1997).

A disadvantage of the known liquid dispenser adopted for the prototype is the low accuracy of dispensing liquids of various viscosities.

The task of the invention is to increase the accuracy of dispensing liquids of various densities.

The invention consists in the following.

An automatic dispenser containing a consumable tank made of non-magnetic material, in the form of a hollow body with a bottom and a cover, equipped with inlet and drain pipes, in which inlet and drain solenoid valves are installed, respectively, a weight element located inside the body, partially immersed in liquid and kinetically connected by means of a flexible connecting element, for example, a cable thrown over a hinge with a counterweight placed inside a vertically mounted pipe body, the upper end which communicates with the air cavity, the first and second magnetically controlled contacts that are installed vertically in series along the outer side of the side wall of the housing, the first magnetically controlled contact is electrically connected to the inlet solenoid valve, an air valve is installed in the opening of the cover of the consumable tank, and a full counter is installed in the drain pipe liters, on the case of the consumable tank the electronic unit for counting the dispensing liters is rigidly mounted on the display, and on the cover of the consumable tank is installed pulse the counter of liters reduced to the average seasonal ambient temperature, a counterweight limiter is installed in the pipeline with a counterweight, while the lower end of the pipeline is hermetically sealed with a plug, on the outer surface in the upper and lower parts of the pipeline there are strips with holes located vertically opposite each other, holes are placed additional calibrated rods, the volume of displaced liquid by the pipeline and the slats installed on it with holes and placed in them are calibrated with rods corresponds to the established coefficient of expansion of the liquid by the measured volume at the set average seasonal ambient temperature, each rod corresponds to the coefficient of expansion of the liquid by the measured volume of 0.5 ° С, when changing the season, due to the change in the set ambient temperature, they are able to perform volume correction the supply tank by increasing or decreasing the number of calibrated rods, in the housing on the axis there is a hinge in the form of a drum with a zero mark, on against which an indicator in the form of an arrow is mounted on the cover of the consumable tank, an interchangeable roller with four permanent magnets evenly spaced around its circumference is mounted on its axis, the interchangeable roller and drum are kinematically interconnected by gearing, the permanent magnets can interact with a second magnetically controlled contact which is electrically connected to a pulse counter of liters reduced to the set average seasonal ambient temperature on the balance the second element is marked with two marks, the lower of which is applied at a maximum density of liquid with a temperature of -50 ° C, and the upper one at a minimum density of liquid with a temperature of 40 ° C, in the upper part of the supply tank there is an indicator of the set liquid level, including a float limiter with the bottom hole for the passage of fluid and the float itself with a magnet, while the magnet has the ability to interact with the first magnetically controlled contact, in the upper part of the supply tank there is also an additional tank with logging, in which there is a check valve, a pipe connected to the inlet pipe.

This improves the accuracy of dispensing liquids.

The invention is illustrated in the drawing, where figure 1 shows a dispenser of liquids, a General view in section.

The automatic liquid dispenser contains:

- a consumable tank 1 made of non-magnetic material, in the form of a hollow body 2 with a bottom 3 and a cover 4, equipped with inlet and drain pipes 5 and 6, in which the inlet and drain solenoid valves 7 and 8 are installed, respectively;

- a weight element 9 located inside the housing 2, partially immersed in the fluid and kinetically connected using a flexible connecting element, for example, a cable 10 thrown through a hinge with a counterweight 11 placed inside a pipe 12 vertically mounted in the housing 2, the upper end of which is in communication with the air cavity;

- the first and second magnetically controlled contacts 13 and 14, which are installed vertically in series along the outer side of the side wall of the housing 2, the first magnetically controlled contact 13 is electrically connected to the inlet solenoid valve 7;

- an air valve 15 is installed in the opening of the cover 4 of the supply tank 1;

- in the drain pipe 6 installed a counter 16 full liters;

- on the housing 2 of the supply tank 1 is rigidly mounted electronic unit 17 counting the dispensing liters from the display;

- and on the cover 4 of the supply tank 1 is installed a pulse meter of 18 liters, reduced to the average seasonal ambient temperature;

- in the pipe 12 with the counterweight 11 is installed a limiter 19 of the stroke of the counterweight 11, while the lower end of the pipe 12 is hermetically sealed with a plug 20;

- in the housing 2, on the axis 21, a hinge is installed in the form of a drum 22 with a zero mark, opposite which an indicator 23 is mounted on the cover 4 of the supply tank 1 in the form of an arrow;

- an interchangeable roller 25 with four permanent magnets 26 evenly spaced around its circumference 26 is additionally mounted on its axis 24, the interchangeable roller 25 and the drum 22 are kinematically connected to each other by gearing (not shown), the permanent magnets 26 can interact with a second magnetically controlled contact 14, which is electrically connected to a pulse meter of 18 liters, reduced to a set average seasonal ambient temperature;

- two marks 27 and 28 are applied to the weight element 9, the lower mark 27 is applied at a maximum liquid density with a temperature of -50 ° C, and the upper mark 28 is applied at a minimum fluid density with a temperature of 40 ° C;

- in the upper part of the consumable tank 1 there is an indicator of the set liquid level, including a limiter 29 for the stroke of the float with an opening 30 at the bottom for the passage of liquid and the float 31 with magnet 32 itself, while magnet 32 is able to interact with the first magnetically controlled contact 13;

- on the outer surface in the upper and lower part of the pipeline 12, strips 33 and 34 are installed with holes 35 and 36 located vertically opposite each other, additional calibrated rods 37 are placed in holes 35 and 36;

- in the upper part of the supply tank 1 is also installed an additional tank 38 with a pipe 39, in which there is a check valve 40, the pipe 39 is connected to the inlet pipe 5;

- the working area 41 of the level gauge is the distance traveled by the counterweight 11 from the lower level of the position of the counterweight 11 to the limiter 19 of the stroke of the counterweight.

The liquid dispenser operates as follows.

The filling of the supply tank 1 with liquid occurs with the inclusion of the inlet solenoid valve 7 by a signal from the control panel. In this case, the liquid level rises from the bottom 3 of the tank 1 to the upper set level. The weight element 9, partially immersed in the liquid, under the action of the counterweight 11 and the liquid displaced by the weight element 9, floats like a float and accompanies the level rise. Having reached the additional tank 38. Upon further raising the liquid level in the tank 1, the liquid, having reached the hole 30 in the limiter 29 of the stroke of the float, raises the float 31 with magnet 32 to the upper set level at which the top of the additional tank 38 is mounted. Further operation of the dispenser depends on the density of the liquid . We consider two extreme cases.

In the first case, the liquid has a maximum density with a temperature of -50 ° C. The weight element 9 is immersed in this liquid at the lower mark 27 on the weight element 9. When the upper set level corresponding to this liquid is reached, the zero mark on the drum 22 coincides with the indicator 23. Under the influence of the magnetic forces of the magnet 32, the first magnetically controlled contact 13, the inlet electromagnetic valve 7 is closed and the flow of fluid into the tank 1 is stopped.

In the second case, the liquid has a minimum density with a temperature of 40 ° C. The weight element 9 is immersed in this liquid along the upper mark 28 on the weight element 9. Upon reaching the upper set level of the corresponding liquid with a minimum density, the liquid displaced by the weight element 9 is drained with a minimum density into an additional tank 38 with a pipe 39 connecting the additional tank 38 to the return the valve 40 and the inlet solenoid valve 7. Only then, under the influence of the magnetic forces of the magnet 32, does the first magnetically controlled contact 13. the inlet electromagnetic valve en 7 is closed and the liquid supply to the tank 1 discontinued.

At a signal from the control panel, a fluid flow occurs with the drain solenoid valve 8 turned on, the flow tank 1 is emptied, the fluid level decreases. The non-return valve 40 is open at a flow rate. The liquid drained into the additional tank 38 when the tank 1 is filled is drained back to the tank 1 through the pipe 39 when the inlet valve 7 is turned on, while the non-return valve 40 is closed. After issuing the set dose and emptying the supply tank 1 by a signal from the control panel, the drain solenoid valve 8 closes and the fluid supply to the tank 1 is stopped. The air valve 15 is designed to connect the cavity of the supply tank 1 with the atmosphere. At a flow rate of the liquid, the weight element drops down and drives the drum 22 and the kinematically interchangeable roller 25 associated with it with magnets 26 fixed to it, which alternately pass the second magnetically controlled contact 14, from which signals are sent to the pulse counter 18 liters, released set volume to the average seasonal ambient temperature with the electronic unit 17 displayed on the scoreboard. If the liquid dispenser is set to dispense to the consumer, full liters are changed a roller 26 of a certain size of the circumference with magnets 26 mounted on it. The length of the circumference between the magnets 26, described by one of the magnets of the second magnetically controlled contact 14, corresponds to the length of the circumference of the drum 22, which corresponds to the height in the working area 41 of the supply tank 1. Registration issued the amount of liquid is carried out by the counter 16, which is displayed on the scoreboard of the electronic unit 17. The change in the number of calibrated rods 37 occurs when the set average seasonal t mperatury environment, in this way increases or decreases the capacity of the supply tank 1.

Subsequently, the operation of the automatic liquid dispenser is repeated.

The claimed invention improves the accuracy of dispensing liquids.

Claims (1)

An automatic liquid dispenser comprising a consumable tank made of non-magnetic material, in the form of a hollow body with a bottom and a cover, equipped with inlet and drain pipes, in which inlet and drain solenoid valves are installed, a weight element located inside the body, partially immersed in liquid and kinetically connected by means of a flexible connecting element, for example, a cable thrown over a hinge with a counterweight placed inside a vertically installed in the pipeline body, the upper end of which is connected with the air cavity, the first and second magnetically controlled contacts, which are installed vertically in series along the outer side of the side wall of the housing, the first magnetically controlled contact is electrically connected to the inlet solenoid valve, characterized in that an air valve is installed in the opening of the cover of the supply tank, a full liter counter is installed in the drain pipe, an electronic block for dispensing liters from the display is rigidly mounted on the supply tank body, and on the lid a pulsed counter of liters reduced to the average seasonal ambient temperature is installed on the bottom of the tank; a counterbalance stroke limiter is installed in the pipeline with a counterweight, while the lower end of the pipeline is hermetically sealed with a plug, and strips with holes located vertically opposite each other are installed on the outer surface in the upper and lower parts of the pipeline other, additional calibrated rods are placed in the holes, the volume of the liquid being displaced by the pipeline and the straps with holes installed on it and the calibrated rods placed in them correspond to the established coefficient of expansion of the liquid by the measured volume at the set average seasonal ambient temperature, each rod corresponds to the coefficient of expansion of the liquid by the measured volume by 0.5 ° С, when the season changes, due to a change in the set ambient temperature have the ability to adjust the volume of the supply tank by increasing or decreasing the number of calibrated rods, a hinge in de of a drum with a zero mark, opposite which an arrow-shaped indicator is mounted on the lid of the consumable tank, an interchangeable roller with four permanent magnets evenly spaced around its circumference is installed on its axis, the interchangeable roller and the drum are kinematically connected by gearing, the permanent magnets have the ability to interact with a second magnetically controlled contact, which is electrically connected to a pulse counter of liters, reduced to the installed average seasonal temperature environment, on the weighing element two marks are applied, the lower of which is applied at a maximum density of liquid with a temperature of -50 ° C, and the top - at a minimum density of liquid with a temperature of 40 ° C, in the upper part of the supply tank there is an indicator of the set liquid level, including a stroke limiter of the float with an opening at the bottom for the passage of fluid and the float with a magnet itself, while the magnet has the ability to interact with the first magnetically controlled contact, in the upper part of the supply tank flax an additional tank with a tube in which the check valve is located, the tube is connected to the inlet pipe.