SU2720A1 - Cleaning device for rotating regenerators - Google Patents

Description

The present invention relates to improvements in devices for cleaning up regenerators from soot, using steam or the like. The fixture is intended for such regenerative heating devices, in which liquids alternately pass through the same channels in the heat-transmitting material and in which the part to be cleaned is in continuous rotational motion. The proposed device consists of one or several tubes (supplying a cleaning liquid), located close to the rotor and equipped with one or several outlets directed towards it. The device can be cleaned from soot during operation. Cleaning tubes are preferably fixed, but they can also be mounted movably, for example, in the longitudinal direction. In cases where, in the part to be cleaned and in. There are discs through which the liquid passes in opposite directions, giving off heat and being heated, it is recommended to obtain one or several cleaning devices of the proposed device over the rotor (disks) and one or more of the same devices under it, provided that those and other devices will act in opposite directions.

The invention is illustrated in FIG. 1-5 as applied to deuh regenerators of various types. FIG. 1 of the schematic drawing shows a view of a rotating regenerator equipped with the proposed device; in fig. 2 is a vertical section of the rotor (containing regenerative material, as shown in FIG. 1), together with a cleaning tool; in fig. 3 is a top view of FIG. 2; in fig. 4 is an axial section of a fresh embodiment of a rotating regenerator equipped with the proposed cleaning device; in fig. 5 - in the upper part a section along a plane perpendicular to the rotor axis, and in the lower part - a top view in FIG. four.

The device according to FIG. 1 consists of a cylindrical tank / horizontally divided into three compartments, of which the middle comprises a rotating cylindrical part or rotor 2 equipped with a flange 4 resting on rollers 3j fortified rotationally from the inside of the tank. By means of radial and peripheral partitions 5 and 6, the rotor is divided into several compartments, each of which is filled with the so-called regenerative material (regenerative plates) 7. This latter consists of thin steel sheets, as shown on the left side of FIG. 1. Thus riyTeJM, a large number of axial channels or passes are formed in the rotor. In the two other compartments, the partitions 8 and 9 parallel to each other and the geometric axis of the rotor are located, which divide tank 7 into four compartments, of which the two upper ones communicate with the help of a larger number of rotor channels, with corresponding lower ones, or in other words , the reservoir is divided in its direction into two halves,, and about 1 liquid is enclosed on one side of partitions 8 and 9, and the other on the other. On the common axis 12, in the upper compartment of the tank, two fans / O and 11 are fitted, by which the required circulation of liquids is provided. Axis 12 is rotated by pulley 73 driven by any energy source. In turn, axis 72 transmits rotation from the same source to the rotor via gears 14, 15, chain 16, sprocket and driving roller 3. Hot flue gas, which must give off heat, is introduced through inlet channel 77 and passes through rotor 2, giving most of its heat to the regenerative plates and, finally, is extracted by the fan 77 which, through pipe 25, sends it to the chimney. If, for example, they wish to heat the air, it is sucked in by the fan W, passes through the apparatus in the opposite direction and is forced out through the exhaust channel 18, absorbing the heat previously accumulated in the regenerative material.

A cleaning device is connected to the heating apparatus by blowing it with steam, gas, liquid or the like. with the substances 27, tubes 22, 23. 24 are installed above the movable part or the rotor 2 (FIGS. 1, 2 and 3), equipped with outlet holes directed to the rotor. Each tube serves a separate part of the rotor 2, by means of which only the desired part of the rotor can be cleaned. For the production of cleaning the entire rotor 2, instead of three tubes 22, 23 and 24, only one can be used. FIG. 2 and 3, the rotating rotor 2 and the cleaning device 20-24 are shown in a state taken out of the tank. Two groups of tubes 20 (FIGS. 2 and 3) can be used for cleaning, located above and below the rotor.

In the embodiment shown in FIG. 4 and 5, the regenerative plates 7 are arranged annularly around the axis of the rotor. The latter consists of radial partitions 5 connected between the upper and lower rings, and is reinforced with the help of the spokes 32 to the axis 33, through which the common axis 72 of the two fans 10 and 77 passes. Axis 72, using the coupling 34, directly or through the spine connected to a motor not shown in the drawing. From the axis of the fans, the movement is communicated via the planetary

the gears 35 of the rotor axis 33, which is thus driven by the same motor that drives the fans. In this case, both substances pass through the regenerative plates 7 in the radial direction, with, for example, the flue gases enter (into the apparatus through the inlet channel 17, pass through the plates 7, giving it most of its heat and then fan 77 through pipe 36; meanwhile, another substance, for example, air is sucked in by fan 70, passes through regenerative plates 7 and finally is forced out through exhaust port 18. The hollow space of the rotor is divided into two parts inclined, not rotating burnout Dip 37, wherein the substances pass along opposite sides of the latter. A substantial part of the rotor cleaning tool, as applied to the regenerator with horizontal or inclined nozzle plates, consists of a fixed tube 38 for blowing steam or air located vertically on the periphery of the rotating axis 33 regenerative plates 7. The holes of the tube 38 are directed directly to the regenerative for cleaning

records The described device can be equipped with two or more tubes, in which case they can act in opposite directions.

SUBJECT OF THE PATENT.

Claims (3)

1. A device for cleaning rotary regenerators with regenerative material consisting of metal sheets, dust, soot, etc., using steam, gasolt or liquid, characterized in that above the moving part or rotor 2 (Fig. 1 2 and 3) tubes 22, 23, 24 are installed, equipped with outlets directed toward the rotor. 2. The shape of the fixture specified in paragraph 1, characterized by using two groups of tubes 20 (FIGS. 2 and 3) for cleaning, located above and below the rotor. 3. A change in the fixture according to claim 1 and 2 for rotor cleaning, applied to a regenerator with a horizontal or inclined arrangement of nozzle plates, characterized in that tube 38 (Fig. 4 and 5) for blowing steam or air is vertically on the periphery of the rotating axis 33 regenerative plates 7. Tino-lithographer “Red Pechatnik, Leningrad, International, 75.