RU104666U1 - REGULATED ELECTRODE TYPE STEAM GENERATOR - Google Patents

Abstract

 1. An adjustable electrode type steam generator comprising a control unit, a frame, a boiler, a pump, pipelines and control elements, the boiler being made in the form of a container with a lid, installed inside the frame, protected by heat-insulating material and covered with sheaths, electrodes insulated from covers, an anti-electrode and a level sensor, characterized in that the electrodes are made by cutting from used hollow metal pipes of stainless steel. ! 2. The steam generator according to claim 1, characterized in that the number of electrodes in the boiler is 6 pieces, 3 of which are made with the possibility of switching on only when the additional heating power is turned on.

Description

Adjustable steam generator designed for steam production. The steam generator can be used as an autonomous source of high-temperature steam for feeding it into the shirts of heat-exchange equipment at dairy and food industry enterprises.

Designs of adjustable electrode-type steam generators are standard and contain a control unit, frame, boiler, pump, pipelines and control elements [http://www.paromet.ru/parogen/pasparomet300.html]. The boiler is made in the form of a container with a lid, installed inside the frame, protected by heat-insulating material and covered with skins. Electrodes, an anti-electrode and a level sensor are installed on the boiler lid. The electrodes are electrically insulated from the cover. The electrode principle of steam generation ensures high quality of steam and efficiency, makes it possible to receive steam 5-10 minutes after the start of work and makes steam generators undemanding to the quality of make-up water. The electrodes in steam generators use electrodes made of ordinary boiler steel or stainless and non-oxidizing heating elements, self-cleaning, reflecting calcium electrodes [http://www.strela.punkt.ru/site.xp/051051048.html]. The disadvantage of such solutions is the high cost of the electrodes (which make up a large percentage of the cost of the steam generator) and their low efficiency. From the point of view of the quality of current transmission, the hollow tube is the optimal design of the electrode rod. But due to the high cost of this design of the electrodes they are not made.

In addition, replacing the electrodes is also expensive for users of the steam generator.

The technical result of the claimed utility model is an electrode-type steam generator having simple and cheap electrodes with high efficiency, which is more economical to operate from the point of view of consumables,

The claimed technical result is achieved due to the fact that the steam generator is adjustable electrode type, containing a control unit, frame, boiler, pump, pipelines and control elements, moreover, the boiler is made in the form of a tank with a lid, installed inside the frame, protected by heat-insulating material and closed by skins, on the boiler lid has electrodes insulated from the lid, an anti-electrode and a level sensor, characterized in that the electrodes are made by cutting stainless steel hollow metal pipes food steel. In addition, the number of electrodes in the boiler is 6 pieces, 3 of which are made with the possibility of switching on only when additional heating power is turned on. Since hollow used steel pipes are used as electrodes, the cost of the electrodes is low, but their efficiency as a current conductor is high. Through the use of such electrodes, economical operation of the steam generator is also achieved from the point of view of consumables.

Figure 1 shows the structural device of an adjustable steam generator, where 1 - Control unit, 2 - Frame, 3 - Boiler, 4 - Pump, 5 - Electrode, 6 - Anti-electrode, 7 - Cover, 8 - Level sensor, 9 - Electromagnetic valve, 10 - Check valve, 11 - Pressure gauge, 12 - Pressostat, 13 - Thermometer, 14 - Ammeter, 15 - Sealing cord, 16 - Bolt, 17 - Nut, 18 - Bushing, 19 - Washer, 20 - Thermal insulation material, 21 - Sheathing boiler, 22 - Water supply valve, 23 - Steam outlet valve, 24 - Drain valve, 25 - Screw support, 26 - Ground bolt, 27 - Boiler ground bolt.

The steam generator (Figure 1) consists of a control unit 1, frame 2, boiler 3, pump 4, pipelines and control elements.

Frame 2 is a frame structure made of a pipe of rectangular profile.

The boiler 3 is made in the form of a cylindrical container with a lid 7, is installed inside the frame, is protected by heat-insulating material 20 and is covered with skins 21. Six electrodes 5, an anti-electrode 6 and a level sensor are installed on the boiler lid 8. The electrodes are electrically insulated from the lid by fluoroplastic bushings 18 and fluoroplastic washers 19 The lid is pulled together with the boiler flange with bolts 16 and nuts 17. The tightness of the connection between the lid and the boiler flange is ensured by a sealing cord 15. The electrodes 5 can be made by cutting used stainless steel pipes veyuschey food steel to a length of tubing. When the steam generator is turned on, the level 8 sensor (with insufficient water level in the boiler 3) sends a signal to fill the boiler to the level switch, which turns on the pump 4 and opens the electromagnetic valve 9, connecting the water supply line to the boiler volume. When the water level in the boiler reaches the level sensor, the level switch is activated, turning off the pump, and at the same time closes the solenoid valve. The steam generator is ready for operation. During the operation of the steam generator, the level sensor monitors the availability of a sufficient amount of water in the boiler for operation.

The temperature of the steam at the outlet of the steam generator is controlled by a thermometer 13, the steam pressure is controlled by a pressure switch 12, a pressure gauge 11, and the amperage 14.

The electromagnetic valve 9 is designed to exclude unauthorized water supply from the water main to the boiler. The non-return valve 10 is designed to prevent steam from entering the water main. Safety valve 28 is designed to relieve excess pressure in excess of 6.5 kG / cm ² . The formation of steam in a steam generator is based on the electrical conductivity of water. When voltage is applied to the electrodes 5, an electric current begins to flow directly through the water, as a result of which Joule heat is released, which heats the water and turns it into steam.

Six electrodes are preferred. For the production of steam with half capacity, three electrodes are included in the steam generator, and six electrodes for full productivity.

Claims (2)

1. An adjustable electrode type steam generator comprising a control unit, a frame, a boiler, a pump, pipelines and control elements, the boiler being made in the form of a container with a lid, installed inside the frame, protected by heat-insulating material and covered by sheaths, electrodes insulated from lids, an anti-electrode and a level sensor, characterized in that the electrodes are made by cutting from used hollow metal pipes of stainless steel. 2. The steam generator according to claim 1, characterized in that the number of electrodes in the boiler is 6 pieces, 3 of which are made with the possibility of switching on only when the additional heating power is turned on.