SU182114A1 - Reaction apparatus - Google Patents

Description

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The reaction apparatus is known with a non-hermetic electric drive, made with hermetic, with gland or end seals. However, of such products, toxic and explosive substances can be released into production facilities; in addition, they cannot be used for chemical processes occurring at high pressures (1102 OU) and high temperatures (3500 ° C). the work of the salsik shaft seal, which does not provide the necessary in many sterility of the reaction masses in the apparatus.

The purpose of the invention is to provide antifatal and sterility while stirring the reaction masses under conditions of high temperatures and pressures.

The proposed reaction apparatus differs from the known ones in that the electric drive is made hermetic with a shielding sleeve, on sliding bearings, with a pump built in on the shaft for autonomous lubrication of the bearings of one of the reaction liquids. Fluid is supplied to

the cavity of the electric drive with pressure, a few, how much pressure in the reaction vessel. The reduction of leakages from the electric drive into the zone of the reactive capacity and sewn it up from the reaction masses from the artuapata during the time of the Thayowa results in a compact seal.

The drawing shows the proposed airaajpair in section.

The reaction air tank contains a reaction tank 1, to the bottom flange of which a hermetic electric drive 2 G |) is mounted, which is placed on the cantilever part of the shaft by a mixing device 3.

The electric drive is worthy of a stator 4, which is hermetically separated from the rotor cavity by a shielding non-magnetic sleeve 5, a rotor 6 built into the drive of the pump 7 in combination with; bilateral. thrust pins 8 and 9, and mechanical seal 10. A coil 11 is mounted in the stator housing of the electric drive to cool the fluid circulating in the cavity of the electric drive. The outer surface of the coil and the stator housing are cooled with running water. The diagram of airc} hl 1shi fluid in the electrical cable is shown in the drawing by arrows. Ukkaukup, ye built-in pump 7 first: 1foosh1T through the upper igBTi j, and then n & A hole 12 in the shaft is supplied ia lower 13 and 13 and 14. Part of the fluid consumed by the headroom is drunk in the medium: a connection to the suction of the nose 7, the other / part of the fluid passes through the gap between: the air flow and the stator, the chill is cooled, the cooling is cooled, the other / part of the fluid passes through the gap between: the air flow and the stator, cooling, cooling, coolant 7, fluid / part of the fluid passes through the gap between: and the screening stator sleeve 5, mixed with the liquid flowing out of the upper air reservoir, enters the cooling coil 11, from which, through a tube 15, scoops into the suction chamber 16 of the wind pump; The fluid flowing through the bottom hem also drains into the suction chamber. Such repeated circulation of fluid continues for the entire period of 5 electric drives. One of the reaction liquids is fed into the cavity of the electric drive through fitting 17. At the same time, the amount of liquid supplied to the cavity of the electric drive corresponds to the amount of liquid entering the reaction tank 1 through the end cap seal 10, -. . ; , - ,,, I ,, .....; FORMATION OF THE INVENTION A reaction apparatus consisting of a reactance tank and a mixing device with a vertically positioned lower electric drive, distinguishing: so that, in order to provide the riegMejTH4HOCTH apparatus and the “curvature” of the Thiree He1; x HIGH temperatures and pressures, electrical water. Euuactna B.j pMeiH-HecKHM with shielded neck sleeve on sliding bearings; with a pump ohm built in on the shaft for autonomous lubrication of the bearings of one of the reaction liquids.

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