SU673897A1 - Automatic refractometer - Google Patents

Description

(54) AUTOMATIC REFRACTOMETER

The invention relates to a technique for measuring the refractive index of liquid media (brew, mash, fermentation and brewing congestion, juices and syrups of sugar refining and sugar beet production) of the food industry, and can also be used in the microbiological and chemical industries. An automatic refractometer is known, which contains a light source, a measuring prism, a transducer, a measuring unit and a hydraulic system, ensuring the circulation of the alternately controlled solution and water for flushing system 1. The closest technical solution to the present invention is an automatic refractometer containing 1. A transducer with a measuring prism installed in the holder, a measuring device and a software block 2. The main disadvantages of this device are a decrease in the measurement accuracy of the refractive index of the controlled media forming the precipitates and films on the surface of the sensing element (precipitates and films form most intensively on the surface of the measuring prism during periodic contact its controlled environment and air;)); the inability to use the device for continuous automatic monitoring; reduced reliability of the device and improved operational properties through the use of a level sensor, a sampler and a pump. The aim of the invention is to improve the measurement accuracy and reliability of the device. The goal is achieved by the fact that the proposed refractometer is equipped with a memory unit, the inputs of which are connected to a converter and a software unit, and the output is connected to a measuring device, and the holder of the measuring prism is equipped with distribution nozzles having oblique cuts to create active surface of the measuring prism reagent flow. FIG. 1 shows a functional diagram of the proposed device; in fig. 2 schematically shows the principle of operation of the sensor cleaning unit.

The device contains a transducer (sensor) 1 with sensing elements, a memory block 2, the output of which is connected to the measuring device 3, and the inputs are connected to the transducer and software block 4. The second output of the program block is connected to the tank 5 for the reagent connected to the transducer . The Converter 1 contains the holder of the sensing element 6, the measuring prism 7 and distribution nozzles 8.

The device works as follows.

Transducer 1 using a measuring prism 7 provides an electric signal proportional to the refractive index of the controlled medium, which is fed through the memory block 2 to the measuring (recording) device 3.

After a certain period of time, the software block 4 feeds a pulsating flow of reagent from the tank 5 through distribution nozzles 8 to the active surface of the measuring prism 7. For the period of supplying the reagent, the memory block 2 remembers the signal corresponding to the meter reading at the moment of cleaning. thereby eliminating any possible reagent on the meter readings. The distribution nozzles are mounted on opposite sides of the measuring prism holder. At the ends of the distribution nozzles there are oblique cuts, which provide for overlapping cleaning zones of the active surface of the measuring prism. The reagent used for purification is selected depending on the nature of the precipitate and must be inert to the controlled medium.

In order to prevent the controlled medium from entering the reagent supply channels in the intervals between the cleaning cycles, the software unit supplies air (gas) through the nozzles with a minimum flow rate, which eliminates the influence on the meter reading.

The use of an automatic refractometer in the food industry makes it possible to increase the measurement accuracy of the monitored parameter and the reliability of the measuring instrument.

Claims (2)

1.Patent of France No. 2238398, cl. G 01 N 21/46, published 1976. 2. USSR author's certificate number 352200, cl. G 01 N 21/46, 1971. Yug .; th / yy