RU168943U1 - Food ionometry device and estimation of the amount of inorganic impurities in water - Google Patents

Abstract

Usage: for express analysis of exceeding the maximum allowable amount of nitrates in food or the amount of inorganic impurities in water. The essence of the utility model lies in the fact that the device of the ionometry of the food product contains a power source, a display, a removable probe, a processor unit, two pulse converters, while one pulse converter is connected to the display, additionally contains a block of keys and a non-volatile memory, while the block of keys is connected with a power source, a processor unit and pulse converters, a second pulse converter with a processor unit, a display and non-volatile memory, the processor unit is connected to a removable probe, for wreath product, non-volatile memory. Effect: providing the possibility of reducing consumption from the power source when the device is off. 1 ill.

Description

The utility model relates to devices for analyzing and controlling the concentration of ions in various environments and can be used, for example, in the food industry, commerce and in everyday life for express analysis of exceeding the maximum allowable amount of nitrates in food or the amount of inorganic impurities in water.

A device for ionometry containing a power source, an indicator and a probe (see RF patent 2073854, publ. 02.20.1997). Its disadvantages are the low accuracy and instability of measurements due to the dependence of measurements on the voltage of the power source and the spread of the parameters of the electronic components of the device.

The closest technical solution to the proposed device for ionometry is a device containing a display as an indicator, as well as a processor unit, two pulse converters, a pulse-width regulator, an amplitude detector, a modulator and a probe, the processor unit is connected to two pulse converters, a display, -pulse regulator, modulator and amplitude detector. One pulse converter is connected to the display, and the other is a pulse converter with a pulse-width regulator, amplitude detector, and modulator. The modulator and amplitude detector are connected to the probe, in addition, the processor and pulse converters are connected to a power source (see patent for utility model of the Russian Federation 86014, publ. 08.20.2009).

Its main disadvantage is the energy consumption of the power source when the device is turned off, which reduces the period of autonomous use of the device.

The technical task of the proposed device is to reduce consumption from the power source when the device is off.

To obtain the specified technical result, a device is proposed (see the drawing), containing a power source 1, a display 2, a removable probe 3, a processor unit 4, the first 5 and second 6 pulse converters. Additionally, the device contains a key block 7 and non-volatile memory 8. In this case, one pulse converter is connected to the display, the key block is connected to the power supply, the processor unit and pulse converters, the second pulse converter with the processor block, display and non-volatile memory, the processor block is connected to a removable probe, display, non-volatile memory.

The proposed ionometry device differs from the prototype in that the device does not contain a pulse-width regulator, modulator and amplitude detector; additionally contains a block of keys and non-volatile memory.

Power source 1 are batteries or rechargeable batteries. The key block 7 serves to disconnect the power source 1 from the rest of the circuit if the device is turned off or when charging the batteries. The processor unit 4 performs the processing of user commands, mathematical calculations and the display of information on display 2, saves the measurement history in non-volatile memory 8, controls the key block 7, provides alternating current to the probe 3 during measurement, measures the voltage on the probe 3. Pulse converters 5, 6 are designed to obtain the constant voltage required to power the circuit.

When you turn on the device, the processor unit allows the keys to work, goes into working mode. During measurement, it provides alternating current to the probe. To extend the measuring range, several current values are provided. Depending on the resistance of the medium being measured, a certain voltage is established on the probe, by which it is possible to judge the ion content. This voltage is measured by the processor unit. To obtain a specific value of the amount of ions in a food product, depending on the mode of operation (measurement of nitrates in products or the content of salts in water), the corresponding calibration factor obtained by processing statistical data of laboratory measurements is used. After calculating the ion content, the result is displayed on the screen and is additionally stored in non-volatile memory. The use of non-volatile memory for storing the results of previous analyzes reduces the power consumption of the switched off device. The key block, in turn, physically disconnects the power source from the load, respectively, the current consumption of the switched off device in this case is vanishingly small.

The technical result achieved by the proposed device, allows you to optimally use the power source and increase battery life. This result improves the operational reliability and usability of the device in various conditions.

Claims (1)

A food product ionometry device comprising a power source, a display, a removable probe, a processor unit, two pulse converters, wherein one pulse converter is connected to the display, characterized in that the device further comprises a key block and non-volatile memory, while the key block is connected to the source power supply, a processor unit and pulse converters, a second pulse converter with a processor unit, a display and non-volatile memory, the processor unit is connected to a removable probe, display, power gonezavisimoy memory.

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