US3144900A - Retractable cleaner for rotary regenerative heat exchanger - Google Patents

Description

Aug. 18, 1964 R. STOCKMAN RETRACTABLE CLEANER FOR ROTARY REGENERATIVE HEAT EXCHANGER Filed May 29. 1961 INVENTOR. flaZaroQ/ioomow AGE/V7 United States Patent 3,144,900 RETRACTABLE CLEANER FOR RQTARY REGENERATIVE HEAT EXCHANGER Richard Stockman, Friendship, N.Y., assignor, by mesne assignments, to Combustion Engineering, Inc., a stock corporation of Delaware Filed May 29, 1961, Ser. No. 113,343 7 Claims. (Cl. I655) This invention relates to cleaning apparatus for heat exchangers, and particularly to a reciprocating type cleaning apparatus that progressively removes deposits of soot, fly-ash and other foreign matter from the heat absorbent surface of a heat exchanger.

Various attempts have been made to design apparatus for cleaning the heat absorbent surfaces of a rotary regenerative heat exchanger during its operation in order that the surfaces may be at all times maintained substantially free from undesirable deposits. Cleaning apparatus has assumed various forms, one of the more common being a tubular arm pivotally mounted adjacent to the outer housing of the heat exchanger in order that a nozzle carried by the tubular arm may be moved arcuately over the heat exchanger surface to subject it to a supply of cleaning fluid being supplied to the nozzle. As the size requirements of heat exchanger apparatus has been continuously increasing in accordance with modern power requirements, the size of the cleaning device apparatus required has also increased until further increase in size of a non-supported cleaning arm is impractical.

Radially supported cleaning apparatus has been used effectively. However, such apparatus usually requires a support structure outside the heat exchanger housing having substantially the same radial proportions as that required within the heat exchanger structure. Thus with rotary regenerative heat exchange apparatus being constructed with a radius of fifteen feet or more, it is apparent that support structure that extends a similar distance outside the housing must be provided to support the cleaning apparatus when it is in a retracted position. Such space requirement is at best difficult to provide, expensive, and in many instances due to the machinery arrangement required, actually prohibitive.

The present invention therefore attempts to provide a reciprocating cleaning apparatus for a rotary regenerative heat exchanger that is strongly supported within the heat exchanger housing but which requires no support and occupies little space outside of the housing. The exact manner in which this arrangement is carried out will be best understood upon consideration of the following detailed description of an illustrative embodiment thereof when read in conjunction with the accompanying drawings in which:

FIGURE 1 is a sectional elevation in diagrammatic form of a rotary regenerative heat exchanger that embodies the invention;

FIGURE 2 is a plan view of the cleaning apparatus; and

FIGURE 3 is a side view of the nozzle arrangement as seen from line 33 of FIGURE 2.

In the drawing the numeral 10 designates the cylindrical shell of a rotor that is divided into sector-shaped compartments by radial partitions that extend radially between the rotor shell and a rotor post 12. The rotor is driven about its axis by a motor and reduction gearing arrangement shown generally at 14. The sectorial compartments contain heat absorbent material 15 commonly in the form of spaced metallic plates that provide a multiplicity of sub-compartments through which a heating fluid and a fluid to be heated are alternately directed in order that heat from the heating fluid may be passed to the fluid to be heated. The heating fluid enters the rotor 3,144,900 Patented Aug. 18, 1964 through a duct 16 from a boiler or other source of usually contaminated hot gas and is discharged, after passing over the heat absorbent material 15, through an outlet duct 18 to which an induced draft fan (not illustrated) is usually attached. As the rotor is turned about its axis the heated plates 15 are moved into the duct through which the fluid to be heated is directed. The fluid to be heated such as air enters the rotor through a duct 22 and after passing over the heated plates 15 and absorbing heat therefrom, is discharged through-a duct 24 to a boiler furnace or other place of use. A housing 26 enclosing the rotor It) is provided at either end with end or sector plates 28 which are apertured at 32 and 34 to permit the fluid streams to flow continuously through the rotor.

Since the heating fluid directed through the rotor is usually contaminated with dust, fly ash or other contaminants, deposits of these contaminants are commonly left on the surfaces of the heat absorbent plates to the extent that the flow passageways through the compartments may become plugged or at least so laden With deposits that the fluid flow is greatly retarded.

In order that deposits of contaminants may be removed from the walls of the compartments, the present invention provides a cleaning means that is moved radially over the rotor on a pair of mutually facing channel members 36 that are spaced apart to permit the nozzle 38 to pass therebetween and to be held in confronting relationship with the end of the rotor. The channel members are illustrated as extending radially across duct 22 with their radially outer extremities passing through an opening 46 in said duct and extending to a point somewhat removed from the outer housing wall. A square link gear chain 42 is slidably fitted into opposing channels 36 and is passed radially out through opening 40 to the end of channel members 36 where the absence of support by channel members 36 permits the free outer end thereof to hang down substantially parallel to the housing wall. The end of the chain 42 that lies within the channels 36 is secured to the nozzle 38 while the entire chain supports a flexible hose 44 that leads to the nozzle from a suitable source of cleaning fluid maintained outside housing 26.

A drive motor having a gear means 46 intermeshing with gear chain 42 is mounted subjacent the channels 36 on the outer side of housing 26 to move the nozzle radially over the rotor. Limit switches 48 when contacted by actuators 52 that are carried by the gear chain 42 energize a relay 54 that reverses the direction of the motor and the movement of the chain 42 when the nozzle has moved radially its predetermined distance.

In practice a sealing means 56 is provided in opening 40 around the track 36 and flexible hose 44 to preclude leakage of fluid out of duct 22. Although a protective housing could be constructed around the portion of the cleaning apparatus that lies outside of the rotor housing 26 and duct 22, it is not deemed essential to its protection.

In operation, actuation of the cleaning apparatus may be effected either continuously or intermittently during normal rotation of the rotor. The nozzle 38 is moved radially over the rotor while water, steam, air or other cleaning fluid is ejected therefrom onto a small section of the rotor where it dissolves or otherwise removes the deposits therefrom and entrains them in the air stream flowing through the rotor. Radial movement of the cleaning means continues until an actuator 52 contacts a limit switch 48 at which time the relay 54 reverses the drive 44 and moves the chain 42 and nozzle 38 in a reverse direction. As the chain 42 reaches the radial outer end of track 36 it becomes completely unsupported and loses the directional stability it had when embraced by the channel means 36 within the duct 22. Thus when not supported by channel means 36 the chain hangs freely at the side of the heat exchanger and does not interfere with the arrangement of other adjacent machinery.

While for the purposes of illustration and ease of description the invention has been disclosed as applying to a rotary regenerative heat exchanger it is understood that numerous changes may be made Without departing from the spirit of the invention, and that the device could readily be adapted for use with other types of apparatus. It is moreover intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

What I claim is:

1. In apparatus having a housing divided into a plurality of open-ended compartments adapted to direct a contaminated gas therethrough, cleaning means for the supply of a cleaning fluid to said compartments to remove deposits of contaminants therefrom, said cleaning means comprising a nozzle confronting the open ends of said compartments, a hose for the supply of a cleaning fluid to said nozzle, a radially disposed track within said housing adjacent the open ends of said compartments providing a support for said nozzle, and a drive mechanism moving said nozzle over said track including limp drive means having directional stability only when guided by said track.

2. In apparatus having a housing with partitions that divide the housing into a plurality of open-ended compartments that direct a contaminated gas therethrough, cleaning means for the supply of a cleaning fluid to said compartments to remove deposits of contaminants therefrom, said cleaning means including a nozzle confronting the open ends of the compartments, a flexible hose having one end thereof connected to said nozzle for the supply of cleaning fluid thereto, a track extending across the housing adjacent the open ends of said compartments to provide a support for the nozzle, a drive means connected to said nozzle and supported by said track adapted to move said nozzle across said housing, said drive mechanism comprising essentially a length of linked chain having directional stability only when in engagement with said track.

3. In apparatus having a housing with partitions that divide the housing into a plurality of open-ended compartments that direct a contaminated gas therethrough, cleaning means for the supply of a cleaning fluid to said compartments to remove deposits of contaminants from the walls of said compartments, said cleaning means including a nozzle confronting the open ends of said compartments, a flexible hose having one end connected to said nozzle for the supply of a cleaning fluid thereto, a track comprising a pair of channel means spaced apart to permit movement of the nozzle therebetween, an open ended drive chain having one end thereof connected to said nozzle and supported by the spaced channels, and driving means engaging said chain outside said housing at a point adjacent an end of said track to move said nozzle across said housing.

4. In apparatus having a housing with interior partitions that divide the housing into a plurality of open-ended compartments for the flow of a contaminated gas therethrough, cleaning means for the supply of a cleaning fluid to said compartments to remove deposits of contaminants from the Walls thereof, said cleaning means comprising a nozzle confronting the open ends of said comportments, a flexible hose having one end connected to said nozzle, channel means extending across said housing to provide a track supporting said nozzle for movement with respect thereto, a length of parallel link chain having an end connected to said nozzle and supported by said channel means, and means adjacent an end of said track engaging said chain means to move the nozzle across the housing whereby fluid from the nozzle may be supplied to the walls of said compartments to remove the deposits therefrom.

5. Apparatus as defined in claim 4 wherein the channel means supporting said nozzle comprises a pair of spaced channel members having their open sides in confronting relationship to receive parallel sides of said chain means.

6. Apparatus as defined in claim 5 having means responsive to movement of said chain adapted to effect reciprocation of said cleaning means between opposite sides of said housing.

7. In regenerative heat exchange apparatus having a rotor including a cylindrical rotor post and a concentric rotor shell, radial partitions extending between the rotor post and rotor shell to form sectorial compartments that carry a mass of heat transfer material, a housing surrounding the rotor to provide an annular space therebetween, end plates at opposite ends of the housing provided with circumferentially spaced apertures that direct the flow of a heating fluid and a fluid to be heated to and through the heat transfer material carried by the rotor, cleaning means for supplying a cleaning fluid to said heat transfer material, said cleaning means comprising a nozzle, a flexible hose for the supply of cleaning fluid to said nozzle, a radial track axially spaced from said rotor providing a support for said nozzle confronting the rotor, and a drive mechanism for said nozzle including a length of linked chain extending radially over the rotor when guided by said track within said housing and hanging loosely beside said housing when not guided thereby.

References Cited in the file of this patent UNITED STATES PATENTS 2,109,855 Arey et a1 Mar. 1, 1938 2,236,635 Young et a1. Apr. 1, 1941 FOREIGN PATENTS 963,692 Germany May 9, 1957

Claims (1)

1. IN APPARATUS HAVING A HOUSING DIVIDED INTO A PLURALITY OF OPEN-ENDED COMPARTMENTS ADAPTED TO DIRECT A CONTAMINATED GAS THERETHROUGH, CLEANING MEANS FOR THE SUPPLY OF A CLEANING FLUID TO SAID COMPARTMENTS TO REMOVE DEPOSITS OF CONTAMINANTS THEREFROM, SAID CLEANING MEANS COMPRISING A NOZZLE CONFRONTING THE OPEN ENDS OF SAID COMPARTMENTS, A HOSE FOR THE SUPPLY OF A CLEANING FLUID TO SAID NOZZLE, A RADIALLY DISPOSED TRACK WITHIN SAID HOUSING ADJACENT THE OPEN ENDS OF SAID COMPARTMENTS PROVIDING A SUPPORT FOR SAID NOZZLE, AND A DRIVE MECHANISM MOVING SAID NOZZLE OVER SAID TRACK INCLUDING LIMP DRIVE MEANS HAVING DIRECTIONAL STABILITY ONLY WHEN GUIDED BY SAID TRACK.

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