RU2700526C1 - Device for producing disinfectant solutions in an apiary - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention can be used in beekeeping. Proposed device comprises dielectric housing 1, cathode chamber 6 and anode chamber 5 with cathode 20 and anode 17, diaphragm, ozone decomposer 12, current source 19, ozonizer 8, compressor 9, temperature sensor 14, controller 15, tube with upper holes 11 arranged along the bottom of housing 1 communicated with ozonator 8, and electromagnetic relay 21. Diaphragm used is stream 7 of gas ozone bubbles emanating from tube holes 11. Anode 17 is made in the form of a knife. Current source 19 is made in form of stabilized DC source, which is connected to cathode 20 and anode-knife 17 through electromagnetic relay 21, as well as to controller 15, having electrical connection with electromagnetic relay 21, to which temperature sensor 14 of solution is connected, located in anode chamber 5.

EFFECT: invention increases safety during operation of the device, provides monitoring of parameters of the solution and operating modes, as well as eliminates the effect of blocking pores of the diaphragm.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular to electrochemistry, and can be used in agriculture, in particular in beekeeping.

A device is known that contains a dielectric casing, a cathode and anode chambers, an anode and a cathode, a diaphragm, a tube connected to the compressor is installed at the bottom of the dielectric casing in the middle between the anode and cathode, in the upper part of which there are holes at a distance from each other, determined by the formula L = 2 (R _P -R _O ), where R _P is the radius of the bubbles upon separation from the tube, m; R _O is the radius of the tube openings, m, while the flow of air bubbles coming from the holes of the tube 6 at a speed of 5-20 m / s is used as a diaphragm. (see RU 2663153, C02F 1/469, C02F 1/461).

The disadvantages of this device include the lack of parameters and operating modes, poor disinfecting ability of solutions.

The closest in technical essence is a device for producing a disinfecting solution containing a dielectric housing, a cathode and anode chamber, with a cathode and anode, a diaphragm, an ozone destructor, a current source, an ozonizer, a compressor (RF Patent No. 2494 975, C02F 1/461, prototype) .

The disadvantage of this device is the lack of control of the temperature of the solution, control of the operating mode, low performance and low level of safety when working with the device.

The technical result is to increase safety during operation of the installation, providing control of the solution parameters and operating modes, as well as improving operational characteristics.

The specified technical result is achieved in that the device for producing disinfectant solutions for apiary, containing a dielectric body, cathode and anode chambers, with a cathode and anode, a diaphragm, an ozone destructor, a current source, an ozonizer, a compressor according to the invention, has a temperature sensor, a controller located at the bottom of the casing there is an electromagnetic relay connected to the ozonizer with the upper holes located along it, while the diaphragm uses a stream of gas ozone bubbles emanating from tube holes, the anode is made in the form of a knife, the power source is in the form of a stabilized DC source, which is connected to the cathode and the anode-knife through an electromagnetic relay, as well as with a controller in electrical communication with an electromagnetic relay to which the solution temperature sensor located in the anode is connected the camera.

The novelty of the invention is that to achieve a technical result:

1) a controller is used, connected to a power source in the form of a stabilized DC source, which is connected to the cathode and anode through an electromagnetic relay and connected to a temperature sensor that controls the heating of the solution and knife in the range from 70 to 100 degrees and ensures operation in the range from 5 up to 30 minutes and automatic shutdown, which eliminates the need for human presence during operation and excludes;

2) the anode is made in the form of a knife for trimming the honeycomb, which reduces the intensity of the installation and increases ease of use;

3) a stream of ozone gas bubbles entering the solution using a tube with holes located at the bottom of the unit is used as a diaphragm, which eliminates the clogging of the pores of the diaphragm with salts and at the same time adds ozone, which is a strong oxidizing agent, to the solution.

The invention is illustrated in the drawing, where in FIG. 1 shows a General view of the device.

The device for producing disinfecting solutions has a dielectric housing 1, nozzles for supplying water 2 and nozzles 3 and 4 for draining the anolyte and catholyte, the anode 5 and the cathode 6 of the chamber, separated by a diaphragm which is used as a stream of ozone 7 bubbles created by ozonizer 8 and supplied by compressor 9 into the solution through a flexible pipe 10 and a tube with holes 11 located at the bottom of the dielectric housing 1, the ozone destructor 12 is located in the center of the cover 13 of the housing 1 on which there are also a temperature sensor 14 connected passed to the controller 15, rubber gaskets 16 into which the anode 17 is inserted in the form of a knife (hereinafter referred to as the anode-knife) and the contact 18 in contact with it, connected to a stabilized direct current source 19 supplying power to the cathode 20 via an electromagnetic relay 21. Anode-knife 17 has a handle 22.

This device works as follows: through the nozzles for supplying water 2, water enters the housing 1 until it is completely filled. Then the case is closed with a lid 13 and inserted into the rubber gaskets 16 of the anode-knife 17. In this case, the anode-knife 17 is in contact with pin 18. The software of the controller 15 has an algorithm for setting the operating time from 5 to 30 minutes and the maximum allowable temperatures from 80 to 100 degrees controlled by the temperature sensor 14. Next, power is supplied to the compressor 9 and ozonizer 8, which produces an ozone-air mixture supplied to the solution through a flexible pipe 10 into a tube with holes 11 in the form of bubbles 7 that create a diaphragm. The remaining ozone is removed by the destructor 12. The supply voltage is supplied to a stabilized DC source 19 supplying voltage to the cathode 20 through an electromagnetic relay 21, the contacts of which are closed at the moment of switching on, to the anode knife 17 through contact 18, and also to the controller 15. The electrolysis process . After a time or upon reaching the temperature specified in the program and measured by the temperature sensor 14, the controller 15 sends a signal to open the contacts of the electromagnetic relay 19. The electrolysis process is turned off. The prepared anolyte and catholyte merge through pipes 3 and 4, respectively.

Thus, the efficiency of the installation is confirmed by the fact that as a result of its operation, the effect of disinfection, a decrease in metal consumption, and an increase in usability and safety are manifested.

Ozone is a very strong oxidizing agent and its combination with the process of electroactivation of water gives a positive effect of disinfecting not only water, but also a knife for trimming honeycombs. The heat released during the electrolysis process heats it, which is also necessary when working in an apiary. The use of ozone as a diaphragm increases the service life of the device due to the absence of the effect of clogging the pores of the diaphragm in cases of using a tarp or other material. The proposal to use a knife to cut the honeycomb as an anode, on the one hand, provides a reduction in metal consumption, and on the other hand increases the usability by simply inserting the knife into the installation, without the need to open the installation cover together with all electrodes, a sensor, and an ozone destructor. Monitoring the operating time of the installation eliminates the need for manual shutdown of the installation and the possibility of a person falling under the action of ozone.

Claims (1)

A device for producing disinfectant solutions for an apiary, comprising a dielectric casing, a cathode and anode chambers with a cathode and anode, a diaphragm, an ozone destructor, a current source, an ozonizer, a compressor, characterized in that it has a temperature sensor, a controller located at the bottom of the casing communicating with the ozonizer the tube with the upper holes located along it, an electromagnetic relay, while the diaphragm used is a stream of ozone gas bubbles coming from the holes of the tube, the anode is made in the form of a knife, source power supply - in the form of a stabilized DC source, which is connected to the cathode and the anode-knife through an electromagnetic relay, as well as to a controller that is electrically connected to an electromagnetic relay to which a solution temperature sensor located in the anode chamber is connected.

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