RU2730027C1 - Device with interruption for determination of microbial contamination of overalls - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: device with interruption is proposed to determine microbial contamination of overalls. Proposed device comprises power supply unit with cooled and heated surface of Peltier module, thermostat, recording device and signaling unit. Thermostat has a chamber with a test-tube with a culture liquid and electrodes connected thereto, a heating element, temperature sensor and temperature control device. Alarm unit comprises Peltier module switch-off relay.EFFECT: invention enables signaling and interruption of operation of the Peltier module until formation of frost on its cooled surface.1 cl, 1 dwg

Description

The invention relates to the field of the agro-industrial complex, characterized by a high bacterial contamination of the air of the working area, work surfaces and processed materials, namely to devices for determining the microbial contamination of workwear.

There is a known device for determining the microbial contamination of workwear containing a Peltier module, a power supply unit with stabilized and adjustable outputs, a generator, a thermostat with a heating element placed in it, a test tube with a culture liquid and electrodes in it connected to the generator, a thermal sensor, a temperature control device, a recording device , an electrothermometer (patent RU 2495924).

The disadvantage of the known device is that when the Peltier module is turned on without load, one side of the element will very quickly cool down to the dew point and until frost forms on it and, accordingly, on the filter paper strip. The Peltier module must be switched off immediately when moisture appears in order to preserve the viability of microorganisms. In addition, if frost forms, it is difficult to separate a single sample (filter paper) from the Peltier module.

The objective of the present invention is to preserve the viability of microorganisms and improve the operating conditions of the device.

The technical result of the invention is to create a device for determining the microbial contamination of workwear, which uses the possibility of signaling and interrupting the operation of the Peltier module until frost forms on its cooled surface.

The task and the specified technical result are achieved due to the fact that a device containing a Peltier module, a power supply, a generator, a thermostat with a heating element placed in it, a test tube with a culture liquid and electrodes in it connected to the generator, a temperature control device, a recording device, according to the invention, additionally comprises an alarm unit, which includes a relay that turns off the Peltier module.

The essence of the proposed solution is illustrated by a drawing, where FIG. 1 shows a diagram of a device with an interruption for determining the microbial contamination of workwear.

The device consists of a power supply 4, a Peltier module 1 - a thermoelectric converter, the principle of operation of which is based on the occurrence of a temperature difference during the flow of an electric current, while one side of the element is cooled and the other is heated. On the cooled surface of the Peltier module 1 there is a strip of filter paper 2, to which the overalls material 3 is pressed. The signaling unit 5 includes contacts 16; resistors 17, 19, 21, 22, 24, 29, 31, 34; capacitors 18, 26, 30; transistors 20, 23, 28, 32; dynamic head 25; diode 27; LED 35; relay 33 (terminals 33.1).

A test tube 8 with a culture liquid and a single sample 9 is located in the chamber 7 of the thermostat 6. The thermostat 6 consists of a chamber 7, a heating element 10, a temperature sensor 11 and a device for temperature control 12. Through electrodes 13 connected to the generator 14, a signal is transmitted to the recording device 15. Thermostat 6, temperature control device 12, recorder 15, generator 14 are connected to power supply 4.

The proposed device works as follows.

Overalls in a sock are contaminated with microbes mainly in the area of sleeves and shelves. Microbes are extracted from these areas while maintaining the integrity of the product. For this, a sterile strip of filter paper 2 is placed on the cooled surface of the Peltier module 1, and the overalls material 3 is pressed on top in the most contaminated areas of the product.

Low temperatures occurring during the operation of the Peltier 1 module contribute to the condensation of moisture from the air. The degree of condensation depends on the ambient temperature, the temperature of the refrigerated object and the air humidity.

After turning on the device, when the condensation temperature is reached, moisture appears on the cooled surface of the Peltier module 1, which is formed from the vapors in the material of the workwear 3 and contains microorganisms extracted from the layer of workwear material, which are absorbed by the strip of filter paper 2 and this strip is considered as a single sample 9.

While contacts 16 of the alarm unit are dry, all transistors are closed, the multivibrator does not work. When the contacts 16 of the signaling unit 5 are closed, the base of the transistor 20 through the resistance of the resistor 17 and the resistance of the water turns out to be connected to the plus of the power supply 4. An asymmetric multivibrator assembled on transistors 20 and 23 begins to operate. The transistor 28 is a power amplifier and is loaded on the dynamic head 25. Simultaneously with the operation of the multivibrator, capacitor 30, connected to the base of the transistor 32, begins to charge through the chain of the capacitor 26 - diode 27. When a certain potential on the capacitor 30 is reached, the transistor 32 opens and turns on the relay 33 This turns on the light indication, collected on the resistor 34 and LED 35.

The Peltier 1 module turns off when moisture appears and until frost forms on its cooled surface. After the alarm is triggered, a single sample 9 is placed in a tube 8 with a culture liquid. The test tube 8 is placed in the chamber 7 of the thermostat 6. Using the temperature control device 12, set the required temperature in the thermostat 6. A single sample 9 is incubated for 2 hours at a temperature of 35 °. Microorganisms growing in the culture liquid change its electrical conductivity due to the accumulation of metabolic products with increased electrical conductivity.

To determine the specific electrical conductivity of the culture liquid, a current is passed from the generator 14 through the electrodes 13 placed in the test tube 8. The change in electrical conductivity is recorded with a recording device 15.

The use of the inventive device with interruption to determine the microbial contamination of workwear will preserve the viability of microorganisms and improve the operating conditions of the equipment.

Claims (1)

A device with an interrupt for determining the microbial contamination of workwear, containing a power supply, a Peltier module with a cooled and heated surface, a thermostat, a recording device and an alarm unit, moreover, the thermostat has a chamber with a test tube with a culture liquid and electrodes connected to the generator, a heating element, a thermal sensor and a temperature control device as a thermostat, while the Peltier module is made with the possibility of placing a strip of filter paper on its cooled surface and then pressing the part of the workwear contaminated with microbes against the strip of filter paper, the test tube is made with the possibility of further placing the specified strip of filter paper with microbes from the workwear , and the recording device is configured to receive a signal through the electrodes connected to the generator to determine the specific conductivity of the culture fluid in the test tube, while the alarm unit contains a relay, about switching off the Peltier module.

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