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Publication numberUS3089792 A
Publication typeGrant
Publication dateMay 14, 1963
Filing dateFeb 27, 1961
Priority dateMar 1, 1960
Publication numberUS 3089792 A, US 3089792A, US-A-3089792, US3089792 A, US3089792A
InventorsKarl A Skardal
Original AssigneeKarl A Skardal
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method of cleansing spray tubes
US 3089792 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

May 14, 1963 K. A. SKARDAL METHOD OF CLEANSING SPRAY TUBES Filed Feb. 2'7, 1961 INVENTOR. 921. H. RBDHL States Uit e1 The present invention refers to a method for the cleansing of spray tubes, particularly such as are used for the scavenging of strainers, endless wire rolls and the like in paper and cellulose machines. It is desirable in connection with such spray tubes to be able to use water already employed for other purposes in the production of cellulose .as a flushing liquid. This surplus water, such as the backwater from paper machines, contains rather large quantities of fibers, which accumulate about the spray holes in the spray tube and stick inside the holes causing the spray holes to be clogged up thereby reducing the working capacity of the spray tube. It is necessary therefore to cleanse the spray tubes from time to time, which heretofore would generally be effected manually with the aid of a cleansing brush introduced into the spray tube, after the entrance to the spray tube has been uncovered for this purpose.

The present invention has for its object to simplify the cleansing of the spray tube and to reduce to a minimum the manual work required for this purpose, or to eliminate entirely this work by means of an electrically operated, for instance motor-driven, operating member.

The invention particularly relates to spray tubes having a valve controlled inlet for the liquid at one end of the tube and a valve controlled outlet at the opposite end thereof. According to the invention the cleansing is effected by closing the inlet and opening the outlet simultaneously so as to create a pressure below atmosphere in the spray tube, whereby air is sucked in through the spray holes. The vacuum is preferably created through the influence of the motive energy possessed by the liquid current, when the entrance to the spray tube is cutoff. If desired, the vacuum may be brought about in the outlet by a sucking effect created by means of a pump, ejector or a suction siphon.

The invention is illustrated in the accompanying drawing, which in FIG. 1 shows a longitudinal section through a spray tube with appertaining valves and actuating members. FIG. 2 shows how the fibers occurring in the flushing water may accumulate and clog up the spray holes.

In the example shown, the spray tube consists of a cylindrical tube 1 provided on the lower side thereof with a number of spray holes 2. The inlet end of the spray tube is connected to a valve housing 3 provided with an inlet 4 for the flushing water. The outlet end of the spray tube is connected to a valve housing 5 provided with an outlet 6. The inlet and outlet openings 7 and 8 may be cut 011 by means of valves 9 and 10 respectively, which are rigidly mounted on a common valve rod 11. This rod is displaceable in its longitudinal direction and adapted to be actuated for the purpose of shifting the valves by means of a handle 12 and a bifurcate cam member 13 arranged on the handle, said cam member being swingable by means of the handle about a transversely extending pin 14 in an extension 15 of the valve rod 11. The latter extends through the end Wall 16 of the valve housing 3 and is tightened against this wall by means of a packing 17. The valves are secured to the rod 11 by means of hubs 18 and 19 respectively and cotters 20 and 21 respectively inserted through holes in the rod and the hub and supporting plates 22 and 23 respectively arranged on the hub. Arranged on the hub are valve bodies 24 and 25 respectively in the form of disks bearing at their outer rounded edge surfaces against the cylindrical intermediate portion of the valve housing, said disks being provided with throughholes 26 and 27 respectively for the flushing liquid. The valve 9 is adapted to tighten against the end wall 28 of the valve housing by means of a disk-shaped tightening member 29 arranged on the hub 18, said tightening member consisting of rubber, for example. The valve 10 is adapted in a similar manner to tighten against the end wall 30' of the valve housing 5 by means of a rubber disk 31. Inserted between the supporting plate 22 and the valve disk 24 is a rubber plate 32 composed of a plurality of disks, said rubber plate 32 serving as a shock absorber in the closing of the valve. In a similar manner the valve 10 is provided with a rubber plate 32 inserted between the supporting plate 23 and the valve disk 25, the thickness of which plate 33 may be varied to compensate for measure deviations in an axial direction.

In normal operation, the valves and the operating contrivance take the positions shown in the drawing, wherein the cam member 13 bears with its plane end surtaces against two supporting abutments 34 extending from the end wall. The flushing water supplied through the inlet 4 flows into the spray tube through the holes 26 in the valve disk 24 and flows out through holes 2 in the spray tube, the fibers suspended in the water accumulating after some time around the spray holes 2, as shown in FIG. 2. According to the invention the spray holes may be cleansed effectively and the fibers be removed by the fact that a vacuum is created in the spray tube for a short time. In the example of embodiment shown in the drawing, this is effected by the fact that the handle 12 is swung up into a vertical position, the cam member 13 sliding off the end surfaces on the supporting abutments 34, against which the handle 12 and thus the valve rod 11 are normally locked. After the valve rod 11 has thus been released, the outlet valve 10 is shifted into the opening position under the influence of the liquid pressure in the spray tube. At the same time the inlet valve 9 is shifted into a closing position. On the condition that the shifting of the handle 12 takes place rapidly, the shifting of the valves will take place practically instantly. As soon as the valve 9 has been closed, the quantity of liquid in the spray tube will therefore continue its already started exit to the outlet 6 under the influence of the motive energy of the liquid. A vacuum will then be created in the spray tube, which involves that air of atmospheric pressure fiows in through the spray holes. On account of this the spray holes will be cleansed from the fibers accumulated therein, which are thus entrained by the liquid current toward the outlet. When the handle 12 is then returned to the initial position, the valve 9 will be opened, whereas the valve 10 is closed. During the time inter-val between the opening of the valve 9 and the closure of the valve 10, the flushing liquid flowing into the spray tube will escape to the outlet 6, whereby any fibers remaining in the spray tube will be removed. To attain this effect, it is suitable therefore to return the handle 12 comparatively slowly to the initial position. The kinetic energy of the liquid flowing to the outlet 6 maybe increased, it required, by an extension of the outlet 6 by a suitable length of piping.

What is claimed is:

1. A method of cleansing spray tubes from impurities occurring in the flushing liquid, such as fibers and the like that may cause clogging up of the spray holes, in which the liquid enters through an inlet provided at one end of the spray tube and flows out through an outlet provided at the opposite end of the tube, characterized in that the inlet is closed simultaneously with the opening Patented May 14, 1963 3,089,792 3 4 of the outlet, a pressure below atmosphere being then moved together with the flushing liquid escaping through created in the spray tube, whereby air will be sucked in the outlet. through the spray holes.

2. A method according to claim 1, characterized in Refefellces Cited in the file Of this Patent that the vacuum required for the intake of the air is cre- 5 U D STATES PATENTS ated through the influence of the motive energy possessed by he liquid current at the moment of clos g the inlet 1 5352 A 2 3. A method according to claim 1, characterized in that 1:863:755 Lodde fi 1932 he outlet is closed with a del y f r the inlet has been 2,669,242 Wightman Feb. 16: 1954 op ned, such d lay permitting the impurities to 'be re- 10 2,736,000 Roach M ar 19 1957

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US473947 *Jun 19, 1891May 3, 1892 Faucet bottle-washer
US1180807 *Nov 27, 1915Apr 25, 1916John Warren VedderShower-pipe for paper-making machines.
US1863755 *Jul 18, 1930Jun 21, 1932Herbert LoddePipe cleaning method
US2669242 *Aug 27, 1949Feb 16, 1954Etta StallcupCleaning and oiling apparatus for dental instruments
US2786000 *Feb 18, 1954Mar 19, 1957Evron L KlineMethod for cleaning paint spray guns and the like
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US5178684 *Jun 5, 1991Jan 12, 1993Hutchins Sr Danny TMethod for cleaning water pipe
U.S. Classification134/21, 239/106, 134/34, 134/22.11, 134/169.00R
International ClassificationD21F1/32
Cooperative ClassificationD21F1/32
European ClassificationD21F1/32