RU2669276C1 - Method for determining the quantity of a liquid flowing from the vessel of the arbitrary form - Google Patents

Abstract

FIELD: instrument engineering.

SUBSTANCE: invention relates to the design of filter housings, in particular to devices for detecting clogging and to indicators of filtering conditions, and can be used to improve the quality of drinking water purification in household pitcher filters. Method is proposed for determining the amount of liquid flowing out of a vessel of an arbitrary shape, provided with the functions of its periodic filling and draining when it is tilted, consisting in that the said vessel is provided with a tilt sensor and a vessel tilt time counter, while a certain rate of flow of liquid from a particular vessel corresponds to the tilt angle exceeding the predetermined value for this vessel; the sensor is connected to a processing unit equipped with a means for indicating and recording the initial instant of fluid outflow and the vessel tilt time; wherein the volume of the leaked liquid is defined as the product of the vessel tilt time at an angle greater than a predetermined value by the liquid outflow rate at such an angle. Time counter is switched on when the value of a certain tilt angle is exceeded, and is turned off when the value falls below this value.

EFFECT: technical result: providing control over the life of the filter cartridge in the liquid purification devices, and notifying the user on the current status and/or end of life while maintaining the simplicity of the design of the equipment complex for this task.

4 cl, 3 dwg

Description

The invention relates to methods for determining clogging and devices for their implementation, in particular indicators of filtering conditions, and can be used to improve the quality of drinking water purification in household jug type filters.

Household water purification devices are usually equipped with mechanical and sorption-filtering elements to remove unwanted and harmful impurities.

The shelf life of sorption-filtering elements depends on their type, volume, quality of the source water and the amount of purified water.

Various means are known for indicating the end of life of water treatment devices.

Known, for example, devices for water purification [US 4698164, 1987] and [US 5089144, 1992], equipped with indicators, characterized by mechanical and electrical methods of summing the flow of water passing through the purification unit. However, these devices are quite complex, bulky and expensive.

A device for water purification is known [RU 2145252, 2000], in which the mechanism for indicating the end of the service life of the device is made in the form of a chamber with a rotary float and a limiter for the movement of the float, with each rotation of the float corresponding to one cleaning cycle.

The disadvantage of this device is the large size, the complexity of the design and, accordingly, the high price.

Also known is a filter of a jug type for water purification, containing in the handle of a jug an indicator of the end of the service life of the filter, which contains a drive made in the form of gears and a sensing element made in the form of a spring or a membrane [RU 2189271, 2002].

The described device has a complex and unreliable design, depending on the physical properties of the sensitive element and the friction coefficient in the details of the mechanism (including the properties and quality of the lubricant).

The closest technical combination in terms of features and operating principle is the device [RU 2181615, 2002], the operation of which is based on the dependence of the amount of purified water on time and the number of jug tilts in the spout plane, an indication mechanism is provided with the possibility of limiting the inclination angle of the receiving element when tilting the filter in the direction of the outflow of purified water, and the display element of the device is configured to register the extreme angular position in receiving and transducing elements at the time of draining the purified water from the filter izlivnogo capacitance element.

The disadvantages of this device can also be attributed to the presence of mechanical moving elements, the correct operation of which depends on the coefficient of friction in the details of the mechanism (including the properties and quality of the lubricant). The presence of complex sensing devices (reed switch, magnet, hall sensor) reduces reliability and energy consumption and increases the price of the device.

The objective of the invention is to monitor the resource of the filter cartridge in devices for cleaning liquid by determining its amount passing through a tank of arbitrary shape while maintaining the simplicity of the design of the equipment complex for this task.

The technical result is achieved by the fact that the proposed method for determining the amount of liquid flowing from a tank of arbitrary shape, performed with the functions of its periodic filling and emptying when it is tilted, namely, that the tank is equipped with a tilt angle sensor and a tilt counter for the tank, with this angle a slope exceeding a predetermined one for a particular tank corresponds to a certain rate of fluid outflow from that tank; the sensor is connected to a processing unit equipped with an indication means and fixing the initial moment of fluid outflow and the tank tilt time; the volume of the leaked liquid is defined as the product of the time the tank is tilted at an angle exceeding a predetermined angle by the fluid flow rate at such an angle. In this case, the time counter is turned on when the value of a certain angle of inclination is exceeded and turned off when it falls below this value.

A set of equipment for implementing the proposed method is a typical monoblock that is mounted on the body or lid of the tank for water purification. The basic version of the complex includes a case, a printed circuit board, a processing unit, an angle sensor and a battery. The complex can be equipped with sound and / or visual indication means for signaling the end of the filter cartridge’s life and / or displaying the amount of liquid passing through the filter and / or remaining volume before the end of the resource, etc., as well as a control tool (for example, a button )

The indicator means displays the total amount of liquid poured and / or the end date of the resource of the filter element. Execution options may be as follows:

1. Digital display with indication of the volume of spilled liquid and / or the remaining volume until the end of the filter resource.

2. Buzzer with indication of the end of the filter resource.

3. LEDs indicating the end of the filter resource.

4. LEDs with color indication of the remaining resource (for example: green - more than half, yellow - less than half, red - end of resource).

The housing is preferably made of plastics certified for use in products in contact with drinking water. The proposed housing manufacturing technology is injection molding.

Preferably, the housing is detachable, consisting of two or more parts, which provides a simple and technologically advanced assembly method, and the sealing of the detachable parts of the housing is carried out by welding or laying of hygienic materials.

Inside the case, a printed circuit board is placed on which all the components of the device are mounted. The main electronic component is a microcontroller, in the memory of which there is a control program that implements the inventive method for determining the amount of liquid. The microcontroller can be either a single-piece version (dice) or a case-mounted one, in a QFP case or similar for surface mounting. The last type of installation is the most technologically advanced and provides the maximum packing density of elements on a board.

To ensure improved measurement accuracy, preliminary calibration of the equipment is carried out in the mode of complete emptying of the tank without its accompanying filling. During emptying, the time of fluid outflow is measured at different angles of inclination greater than the specified one at which the outflow from the tank begins, the velocity of the fluid outflow at these angles is determined, the results are averaged, and the average emptying rate calculated in this way is recorded in the memory of the reading unit.

The total amount of fluid released under the action of gravity from a tank of arbitrary shape is determined by simple summation of the products of the fixed periods of time, during which the angle of inclination of the tank was more than the specified one, at the average speed of emptying. This approach allows a reliable determination when filling the tank with residual liquid, i.e. with incomplete emptying.

The equipment complex may also additionally have the function of an ordinary timer. This function is necessary because during operation, the bacteriostatic component contained in the filter element is gradually produced, and over time, the growth of microflora inside begins. The device’s memory is pre-recorded indicators of the temporary resource of this element. There may be several such indicators depending on the model. At the beginning of use, after installing the item in the household filter, the user starts the timer using the control tool. At the end of the temporary resource, the device by means of indicators notifies the user about the need to replace the filter element.

In FIG. 1 shows a household filter for water purification of a pitcher type, equipped with a set of equipment for determining the amount of liquid, where:

1 - upper tank; 2 - filter element; 3 - lower capacity; 4 - a set of equipment.

In FIG. 2 shows a set of equipment in section, intended for installation in a jug of a household filter for water purification, where:

5 - case; 6 - printed circuit board; 7 - processing unit indications; 8 - tilt sensor (s); 9 - means of indication; 10 - button for changing modes / readings; 11 - power element (s).

In FIG. 3 shows a drawing of a complex of equipment, which presents a special case of the implementation of the tilt sensor. This is one of the easiest and cheapest options. It is an inclined tube (12) and a ball (13) located inside it, made of conductive materials. One end of the tube is blind, and the other has an electrical contact plate (14) fixed to the tube through an insulator (15). The tube and plate are pins connected to the electronic circuit.

It is advisable to place the contact plate in the upper end of the inclined tube, because in this case, with a static vertical position of the container, the ball will be located at the lower end of the tube and the electric circuit will be open, which saves the battery charge.

It is permissible to place more than one tube with balls installed at different angles. Different average tilt angles correspond to different average rates of outflow from the tank, which ultimately allows to increase the accuracy of determining the amount of leaked fluid.

It is important that the design of the angle sensor can be any that meets the criteria of reliability, compactness and low cost.

The equipment set, mounted on the capacity of a household filter for water purification, works as follows. Untreated water is poured into the upper tank (1) of the household filter tank for water purification, after which it, after passing through the filter element (2), is purified from harmful impurities and enters the main lower tank (3). Then carry out the selection of this water for its further use by the method of deviating the tank from a vertical position. An inclination sensor mounted on this tank as part of the equipment complex reacts to the inclination of the water tank (4). The ball (13) rolls to the contact plate (14) and closes the electric circuit. The signal received from the tank tilt sensor (8) starts the timer. When the tank returns to its original vertical position, the circuit opens, the tilt sensor (8) sends a signal to stop the timer. The processing unit (7) calculates the amount of liquid leaked from the tank and stores it in memory. Quantity is defined as the product of the average rate of fluid outflow at a certain angle of inclination by the time of this outflow. With subsequent emptying of the tank, the calculation results are summarized to determine the total amount of liquid poured. In this case, the timer starts only when a certain angle of inclination is reached, depending on the design of various types of containers.

The implementation of the claimed invention allows for monitoring the resource of the filter cartridge in devices for cleaning liquid and to notify the user of the current status and / or end of life while maintaining the simplicity of the design of the equipment complex for this task.

Claims (4)

1. The method of determining the amount of fluid flowing from a tank of arbitrary shape, performed with the functions of its periodic filling and emptying when it is tilted, which means that the said tank is equipped with a complex of equipment containing a processing unit, a tank angle sensor, a tilt time counter and a means indication; the volume of the leaked fluid is defined as the product of the time the tank tilts at a certain angle to the average fluid flow rate at that angle. 2. The method according to p. 1, characterized in that the time counter is turned on when the value of a certain angle of inclination is exceeded and turned off when it falls below this value. 3. The method according to p. 1, characterized in that the angle sensor is an inclined tube and a ball located inside it, made of conductive materials, while one end of the tube is deaf, and the second has an electrical contact plate fixed to the tube through an insulator . 4. The method according to p. 3, characterized in that the angle sensor is a few inclined tubes with balls inside, installed at different angles.

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