SU494352A1 - Automatic device for determining the biochemical oxygen demand of waste and natural waters - Google Patents

Description

fixing and controlling, respectively, the serially connected unit AND measuring and converting the difference in oxygen concentration values, a digital indicating device 12, a transcriptor 13 and a printing unit 14. Block 11 is connected with the recording device 15 directly, and through an amplifier 16 - with an oxygen sensor 17 and the torus 18 of the amount of air supplied in series connected with the actuator 19 and the pneumatic aerator 20, and through block 6 to the nodes 9 and 10.

The sensor 17, the aerator 20 and the dresser 21 form together the node 10, which is made with the node 9 in the form of a single technological unit 22, and the node 9 is equipped with an electromagnetic clutch 23 of the clamshell type. The unit 10 before measurements is placed in the washing chamber A connected to the tank 24.

The automatic device works as follows.

The analyzed water samples are placed in the respective reaction vessels 2, which are then hermetically sealed with plugs and installed in the individual cells of the cassette 1.

The process of oxidation of organic substances in the analyzed samples begins, accompanied by the consumption of dissolved oxygen, while the samples are thermostatically controlled at a given temperature using a bath 4 and a thermostat 5. After the thermostabilization of the analyzed samples is completed and the exposure is carried out for a certain period of time, determined by the measurement method adopted, the unit 6 ensures that the electric motor 3 is turned on and the cassette 1 is moved until the position of one of the vessels 2, for example, vessel No. 1, coincides with the floor: block 22. Then, according to the signal of block 6, blocks 7 and 8 are used to remove the plug from the corresponding vessel 2 by means of the coupling 23, withdraw it to the side, approach the vessel 2 and then immerse the sensor 17, the aerator 20 and the small dial 21 into the analyzed sample for the first measurement of the oxygen concentration. No air is supplied to the aerator 20.

The output signal of the sensor 17, proportional to the concentration of oxygen dissolved in the sample being analyzed, through the amplifier 16 is fed to the input of the block 11, in which it is memorized. The oxygen concentration is measured by the sensor 17 P;) And the rotating stirrer 21, which ensures uniform distribution of the molecules of the gas being determined in the entire volume of the sample being analyzed and thereby the maximum reliability of the information obtained.

After a certain period of time required for the first measurement of the concentration of oxygen, the block 6 gives a signal that provides automatic control of the amount of incoming

to the air aerator 20, for example, from cylinders by means of a regulator 18 and mechanism 19. Upon reaching a predetermined value of oxygen concentration in the sample being analyzed, aeration is stopped and, similarly to sensor 17 described above, a second measurement of oxygen concentration is carried out.

Block 11, after carrying out the first and second measurements of the concentration of dissolved oxygen (respectively, Ci and € 2 values), generates a signal at the output proportional to the difference of these values: € 2-Ci: AC, which is simultaneously detected by device 12, having a potential output through the transcriptor 13 per unit 14, and the device 15. The value of the AU is the biochemical oxygen demand of this analyzed sample, related to the appropriate period of time, taking into account the permissible concentration of nitrite.

Further, in the reverse order described above, using blocks 6, 7 and 8, as well as the coupling 23, the sensor 17, the aerator 20 and the bashmaker 21 are removed from the analyzed sample, removed to the side, placed in chamber A and then installed into the corresponding vessel 2. The electric motor 3, according to the signal from block 6, is switched on again and moves the cartridge 1 until the next reaction vessel 2, for example, vessel No. 2, takes the position coinciding with the position of block 22.

Before another measurement of the concentration of dissolved oxygen, the sensor 17, the aerator 20 and the mixer 21 in chamber A are washed intensively. For this, rinsing water is supplied under pressure from pe3epByaipa 24 for a predetermined period of time controlled by unit 6.

Further, the cycle of action of the automatic device is repeated as described above.

Thus, the device 12 visually and the unit 14 fix the biochemical oxygen demand of the analyzed waste or natural water of a given species in each reaction vessel 2 for a certain period of time on a paper tape. The device 15 continuously records the dynamics of the values of biochemical oxygen demand over time for each analyzed sample of waste or natural water.

Subject invention

Claims (3)

I. An automatic device for determining the biochemical oxygen demand of waste and natural waters, containing interconnected rotary circular cassette with reaction vessels, a control unit, a fixation unit and a control unit with an aerator and an oxygen sensor, an amplifier, a recording device and an actuator, characterized by that, in order to improve the measurement accuracy and reliability in the operation of the device, it additionally contains a series of measuring and conversion units connected in series ation oxygen, digital display unit, and transkrintor printing unit, and a controller supplied air quantity associated with the aerator through isnolnitelny mechanism. 2. A device according to claim 1, characterized in that the measurement and conversion unit of the difference in oxygen concentration values is connected with the recording device directly, and through an amplifier - with an oxygen sensor and a regulator of the amount of air supplied, through the control unit - with fixing and monitoring units . 3. A device according to claim 2, characterized in that the fixing unit is provided with an electromagnetic clutch of a clamshell type. ABOUT-