SU1133553A1 - Measured device for determination of biochemical need in sewage oxygen - Google Patents

Abstract

MEASURING DEVICE FOR DETERMINING biochemical oxygen demand of wastewater containing tank, measuring vessels: placed in the reservoir of m and n chayuschees in that it further comprises a thermostat associated with rezervuarom-, a motor for stirring with magnitnti stirrers located under measurement vessels, an electrochemical oxygen electrode, a magnet and aeration element, mounted in each of the measuring vessels, while the electrodes with their cables through the filled with a knotted cotton funnel for discharging the air of measuring vessels, connected to a compensating tape recorder; a measuring amplifier, charging and suction pumps connected to the first measuring vessel equipped with a sensitive level contact; switching relay connected to a sensitive level contact and a loading pump; level connected to the loading and extraction pumps and the switching relay, interconnected electronic control unit connected to the measure nomuusilite (Liu L, and vent pump connected to the measuring vessel, wherein the regulating unit is designed as a Schmitt trigger with adjustable hysteresis ring opening or a limit switch.

Description

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SD JV

00 The invention relates to a measuring device for determining the biochemical oxygen consumption of water and can be used in water treatment. A measuring device for determining the biochemical oxygen demand of wastewater is known, containing a reservoir, measuring vessels placed in a reservoir, a fixation unit and a control unit with an aerator. and an oxygen sensor. USSR author's certificate No. 494352, cl. C 02 F 3/26, 1973. A disadvantage of the known device is the low measurement accuracy. The purpose of the invention is to increase the measurement accuracy; This goal is achieved by the fact that the device containing the tank measuring vessels placed in the tank further comprises a thermostat connected to the re-tank, a motor for mixing with magnetic stirrers, located under the measuring vessels, an electrochemical oxygen electrode, a magnet and an aerating element mounted in each of the measuring vessels, with the electrodes being connected through the funnels filled with glass wool to remove the air of the measuring vessels; A sensing tape recorder through a measuring amplifier, loading and suction pumps connected to the first measuring vessel equipped with a sensitive level contact, switching relay connected to a sensitive level contact and a loading pump, software level sensor connected to a loading and suction pump and switching relay , interconnected electronic control unit connected to the measuring amplifier, and a ventilation pump connected to the measuring vessels In this case, the regulating unit is made in the form of a Schmitt trigger with adjustable opening hysteresis or in the form of a limit switch. The drawing shows a schematic diagram of the device. It contains measuring vessels 1-6, placed in tank 7, thermostat 8, motor 9 for mixing with magnetic stirrers 10, electrochemical oxygen electrode 11, while electrodes with their electrochemical cables 12 passed through funnels filled with glass wool for exhausting air measuring vessels connected to a compensating tape recorder 14 through measuring amplifier 15, loading and suction pumps 16 and 17, sensitive contact 18 of the level of measuring vessel 1, switching relay 19, pro rammny time sensor 20, electronic control unit 21 and the ventilation pump 22. The device operates as follows. The measuring vessels -6 located in the thermostatically controlled, protected from light of the tank 7, are filled before the ventilation funnels 13 with the measured media to be examined. Then, by means of a common switch, calibrated measuring amplifiers 15 with electrochemical oxygen electrodes 11, compensating tape recorder 14, thermostat 8, stirring motor 9, software time sensor 20, regulating unit 21 and using a regulating unit - ventilation pumps 22 are switched on. With the aid of ventilation pumps 22, the measured media in measuring vessels 1-6 is enriched with oxygen to an approximate saturation state. After the ventilation pumps 22 are automatically switched off, the measurement phase begins with the pre-activated control units 21. Oxygen electrodes 11 measure the oxygen content per unit of time in individual measurement media, and the current amplified by measuring amplifiers 15 on electrodes 11 is continuously recorded with a compensating tape recorder 14.) If in one of the measurement environments the oxygen content falls below a predetermined value , then in this case with the help of an appropriate regulating unit 21, which acts as a limit switch and is realized by means of a Schmitt trigger with adjustable gist rezisom unlocking, incorporated respective vent pump 22. When the oxygen content

will again reach the upper set value, then with the help of the aeration control unit 21, it will again be reduced. As a consequence, the measurement of the biochemical oxygen consumption can continue for any period of time.

The advantages of the invention are that due to the individual regulation of aeration in the measuring vessels, mutual influence is eliminated, for example, premature switching on of aeration due to different contamination of the measured media in one group of measuring vessels is also eliminated. The maintenance of the meter is simplified, and the results of the i measurement become more accurate and contain more information.

Claims (1)

MEASURING DEVICE FOR DETERMINING THE BIOCHEMICAL NEED IN WASTE OXYGEN, containing a tank, measuring vessels placed in the tank, characterized in that it additionally contains a thermostat connected to the tank · a stirring motor with magnetic stirrers located under the measuring vessels, an electrochemical oxygen electrode , a magnet and an aeration element mounted in each of the measuring vessels, while the electrodes with their cables passed through the filled glass a cotton funnel for venting measuring vessels, connected to a compensation tape recorder ^ through a measuring amplifier, loading and suction pumps connected to the first measuring vessel equipped with a sensitive level contact, a switching relay associated with a sensitive level contact and a loading pump, a program level sensor, connected to loading and suction pumps and switching relays, interconnected electronic control unit connected to measuring Tieliu and vent pump connected to the measuring vessel, wherein the regulating unit is designed as a Schmitt trigger with hysteresis adjustable opening or a limit switch. .SU., 1133553