DE347510C - Device for blowing out and cleaning the boiler tubes of heating tube boilers by means of steam, air and the like. like - Google Patents

Description

Device for blowing out and cleaning the boiler tubes of heating tube boilers by means of steam, air and the like. The "invention relates to one on the front or rear wall A device to be attached to a heating tube boiler for blowing out and cleaning Boiler tubes by means of steam, air or the like: through a longitudinally displaceable tube is fed to a nozzle head rotatably attached to the pipe end. Known such Devices must first be manually set when they are activated brought and then kept in motion by means of a 1-hand wheel. For this purpose, gears, springs, etc. are required in order to advance the nozzle head or to withdraw, and also to keep the nozzle in rotating motion for so long, until the boiler tubes are blown in. . Such devices require besides frequent Repairs take up a lot of space, as they are usually on the boiler head wall or on the Are attached to the boiler bottom, which often calls into question their use. In most cases, the length of the boiler room must be kept at least one frame longer as if there were no sootblowers, especially if the boilers are placed with the back wall against each other or against a bulkhead. Is the place however not available, so are special moving devices and cumbersome Intermediate gears, springs, etc. are necessary, which will soon require repairs. A Another disadvantage of the customary soot sweeping devices is that As long as pipes are swept, the people using the device stay with the device and only one device can be operated at a time. With the known Sootblowers control the supply of steam outside the device through a steam valve cut off in the line. However, if this valve leaks, it will eventually seep Steam through the nozzle. The steam water trickles down the fire box wall and destroys this and the masonry underneath. The disadvantages mentioned, especially with today's use of the ship's space and as a result of the scarce and often inferior service crew will be disturbing, seeks the To eliminate the invention through a design that is as simple and easy to use as possible, which can be used for steam, air and the like. The invention exists in the first place that the Ausbl.aserohr a piston at its inlet opening to control the pipe displacement carries, which, designed as a valve cone, at the same time serves to complete the entry of steam into the pipe.

In Fig. R and a the new soot blowing device is in longitudinal section and in cross section through the housing of the device and in Fig. 3 in another Execution shown in longitudinal section.

Fig. Z and a show the device out of operation. The steam or air inlet after nozzle g is closed and the nozzle head is pulled out of the area of the - heating gases. The steam enters through opening a. If the sootblower is put into operation, the double valve c must be opened by the handwheel 1, which is expediently placed outside the boiler shell. The steam now passes through a to space m and pushes piston d together with pipe f and nozzle g to the left. This opens the seat e and at the same time brings the nozzle into the working position. The steam now flows through the pipe f to the nozzle g, which is held loosely and rotatably by the screwed-on head h at the end of the pipe f in Fig Nozzle set in rotating motion. So as long as valve c and seat e are open, the device works automatically, without having to turn the nozzle by hand, as has been necessary up to now. It is conceivable that in this way the draft conditions of the boiler can also be improved, if necessary, by using the device as an additional fan, since it can work continuously for any length of time.

If the sootblower is to be put out of operation, then Marl only to close valve c. The upper previously closed seat. Ai is now opened, the steam passes through channel b to the left side of piston i1, presses it on the seats and blocks the steam supply after the nozzle. Simultaneously the nozzle head has automatically been withdrawn from the hot zone of the heating gases.

As can be seen, the operation of the new device is extraordinary simply that by closing and opening valve c automatically in and is put out of operation and can be operated by every heater.

To prevent leakage from the nozzle, valve c is connected to the "Housing of the device combined and the control piston all the end e as a valve cone educated. For sealing .des piston and tube f are love the sealing surface o of the piston Labvrinthrillen t according to Fig. i or two sealing rings p according to A11. 3 provided. There are therefore always two damp-proof barriers in front of the nozzle. The valve spindles of several devices can be guided to one location, so that from there all devices of a boiler are brought into operation at the same time can be. That is only due to the union of the valve housing and the control piston cylinder possible in a common housing, thus a considerable simplification and greater utility of the device is achieved. The space requirement is how from Alih. i can be seen, not nearly as large as with the known sweeping devices and the device can even be used where the boiler protrudes about 1/2 m from the bulkhead still to be accommodated.

In the second version of the sootblower according to Fig. 3 is opposite Fig. I the main feature in that the turbine ducts i instead of in the nozzle head, at the rear are housed in the steam supply pipe f or in the control piston d. In this case the tube f rotates with the screwed-on nozzle;. The turbine ducts are in this way out of the hottest zone for a more protected and cooler one Place has been relocated.

It is advisable to have good drainage in both versions r of rooms b and in to be provided.

Claims (1)

PATENT CLAIMS: i. Device to be attached to the front or rear wall of a heating tube boiler for blowing out and cleaning the boiler rollers by means of steam, air and the like, which is fed through a longitudinally displaceable tube to a nozzle head rotatably attached to the tube end, characterized in that the blow-out tube (f) at its inlet opening carries a piston (d) for controlling the pipe displacement, which, designed as a valve cone, serves at the same time to close off the steam entry into the pipe. Device according to Claim i, characterized in that the nozzle head (g) is equipped on the steam inlet side with turbine-like channels (i) which cause the nozzle tip to rotate automatically by the steam flowing out. 3. Apparatus according to claim i, characterized in that a steam admission regulating double seat valve cone (c) and the control piston (d ) are placed in a common housing, such that the one end surface of the valve cone at the same time with the end surface (e) of the control piston Steam inlet after the nozzle (g) closes off. d .. Device according to claim z and 2, characterized in that the turbine-like channels (i) are laid in the control piston @d) or in the rear part of the exhaust pipe (f).