前苏联专利SU1452464A3 System for washing reservoirs

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同族专利

引用文献

法律状态

优先权

专利摘要:
This invention relates to a washing system for washing tanks or the like, preferably ship's tanks (2) having one or more substantially horizontal stringers (2a-2c), the washing system (1) being provided with washing nozzles which while rotating about a substantially vertical axis are at the same time rotatable about substantially horizontal axes. In order that this washing system (1) shall provide effective cleaning of various nooks and recesses in the tank (2), the washing system comprises nozzle holders (9, 24 or 9, 9a, 24) arranged at various elevations, each of said nozzle holders having at least one washing nozzle (11, 25 or 11, 19, 25). An upper nozzle holder (9) at an upper elevation is detachably disposed on a standpipe (3) connected to the tank (2). An extension pipe (21 or 16, 21) is detachably and non-rotatably coupled to the upper nozzle holder (9) via a coupling (17). A lower nozzle holder (24) at a lower elevation is coupled to the extension pipe (16 or 16, 21) via a coupling (23). A rotary and vertically reciprocatory drive member (13) is adapted, on the one hand, to rotate the upper nozzle holder (9) and the extension pipe (21 or 16, 21) non-rotatably mounted on the holder about a substantially vertical axis and, on the other hand, simultaneously to rotate the washing nozzles (11, 25 or 11, 19, 25). The drive member (13) has an upper portion (13a) extending through the standpipe (13) on which portion a drive member extension (20a or 20, 20a) is detachably mounted (FIG. 1).
公开号:SU1452464A3
申请号:SU4027857
申请日:1986-07-07
公开日:1989-01-15
发明作者:Леопольд Шмидт Эрнст
申请人:Эрнст Леопольд Шмидт (SE)；
IPC主号:

专利说明:

(
The invention relates to cleaning systems, in particular to systems for washing tanks, preferably vessels.
The purpose of the invention is to increase the washing efficiency.
Fig. I depicts the proposed system; figure 2 - the system is installed in the object being washed; in FIG. 3, means for marking the washing sectors; Fig. 4 is a diagram of the action of the jets of washing liquid on the surface being cleaned; Fig. 3 shows the layout of the nozzle heads of the flushing system.
The flushing system is designed for liquid cleaning of the vessel tank 1, which has three horizontal compartments bounded by partitions 2,3 and 4 and a vertical frame 5. The system contains a tubular stand 6, which is mounted on the deck 7 of the vessel by means of a fixing flange 8 and bolted joints. A pipe 9 is connected to the stand 6 for supplying the washing liquid in the form of water or a mixture of water and detergent into the stand 6. The pipe 9 has a valve 10 for interrupting or controlling the supply of the washing liquid. Rack 6 also has a drive 11 of a known type. The upper holder 12 of the nozzle head is removably mounted by bolting 13 on the lower part of the stand 6 through the hinge support 14 so that the holder 12 can rotate around the vertical axis relative to the stand 6. On the holder 12 the upper flush head 15 is hingedly mounted by means of a hinge the supports 16 with the possibility of rotation around the horizontal axis relative to the holder 12. The upper holder 12 and its flushing head 15 are installed above the upper partition 2 so that the flushing g agile 15 was able promshat reservoir mainly above the partition 2.
The intermediate part 17 of the rack is connected to the lower part of the holder 12 of the upper nozzle head by means of the connecting means 18 and is removable without the possibility of rotation mounted on. of this part by means of a large connection 19. In a manner.
0
five
0
five
0
five
0
five
0
five
the holder 12 and the intermediate part 17 rotate together. The holder 20 of the intermediate nozzle head 21 is connected at the lower end of the part 17 by means of the connecting means 22 and is removably mounted without a possibility of rotation mounted on this part by means of a bolted joint 23, whereby the holder 20 rotates together with the stand part 17.
An intermediate flushing nozzle head 21 is mounted on the holder 20, which, like the upper head 5, is mounted on a hinged support to allow rotation around a horizontal axis. The holder 20 and its flushing head 2 are installed slightly above the intermediate partition 3, to supply a washing jet with this flush head to clean the tank over the partition 3, as well as to clean the tank sections between the intermediate partition 3 and the lowest partition 4.
The lower part 24 of the rack is connected to the lower part of the holder 20 by means of the means 25 and removably and without rotation is mounted on this lower part of the holder by means of a bolt joint 26, whereby this lower part 24 rotates together with the holder 20.
A holder 27 with a lower industrial nozzle head 28 is mounted. rotatably around a horizontal axis in the same way as other nozzle heads, is connected to the lower part 24 of the rack by means of the connecting means 29 and is removable without the possibility of rotation mounted on this lower part 24 by means of a bolted connection 30.
The holder 27 and the nozzle head are located slightly below compartment 4, whereby the washing jet supplied by the head 28 misses the reservoir below compartment 4, i.e. lower sector (bottom) of the reservoir. In addition, the wash jet of the nozzle head 28 may reach portions of the tank between compartments 3 and 4 to clean. these areas, if they do not reach the stream, are supplied by the intermediate head 21.
For rotation of the holders 12, 20 and 27, as well as the pillars 6 around the vertical axis, the actuator 11 contains a ster
20
25
The gland 31, which is rotated by the actuator 11 and the upper part 32 of which reaches the level of the holder 12. At the lower end of the upper part 32 of the drive element and at the upper parts of the holder 12 is removable and without the possibility of Erasthenia mounted on the rack bar 33 with a longitudinal groove not shown) by, for example, a bolted Q connection. The dog 34 mounted on the holder 12 by means of bolts 35 engages with the longitudinal groove of the rack 33 so that the rotational moment of the rack 33 around the vertical axis is transmitted by the dog 34 to the holder 12. The rack 33 can move vertically relative to dogs 34 and thus relative to the holder 12. The rod portion 36 is removably mounted and without rotation on the lower end of the rack 33 and the lower portions of the holder 12 by means of bolts 37. Part 36. Stance 17 of the pillar 6. The toothed rail 38, which preferably has the same configuration as the toothed rail 33, is mounted on the lower end of the portion 36 and the upper portions of the holder 20 is removable and non-rotatable by means of the bolt 39. a longitudinal groove (not shown) with which a pawl (not shown) of the same type and purpose as the pawl 34 engages. At the lower end of the toothed rack 38 at the level with the lower end of the holder 20 is removable and without the possibility of rotation the lower part 40 rod 31 over redstvom bolts (not shown. The lower part 40 enters the lower part 24 of the stand 6 and reaches the level of the upper portions of the holder 27. The toothed rack 41 is removable and without the possibility of rotation mounted on the lower end of the part 40 by means of a bolt 42. The toothed rack 41 has the same function as the toothed bars 33 38, and, like them, an interaction pawl (not shown), which makes it possible to displace the corresponding production head 15.21 and 28. On each internal part, gear 43 is mounted, which interacts with the corresponding rack 33, 38 and 41.
The actuator 11 provides rotation of all parts of the flushing device in a vertical axis, as well as the upward and downward movement of the drive rod 31 and its parts, since the toothed racks 33.38 and 41 interact with the wiper 43 of the connecting heads 15.21 and 28, up and down movements synchronously cause all industrial heads 15.21 and 28 to rotate around horizontal axes.
Fla actuator 1 1 is equipped with means 44 (see FIG. 3) for marking the positions and sizes of sectors S1.52, and S3 of the tank, for which there are continuous nozzles 15.21 and 28 for which they are equipped. The tool 44 has a graduation from O to 180. The two support bars 4 and 46 on the stand 47 can be moved along the graduation 48 and have screws 49 and 50 for fixing the rulers 45 and 46 in the required positions on the stand 47
The finger 51, which interacts with the plunger rod 31 and participates in its up and down movements, contacts the bearing bars 45 and. 46: the upward movement of the thumb 35 of the drive rod 3 is limited to the upper support bar 46, while the downward movement of the finger 5J and thereby the drive rod 3 is limited to the lower support bar 40 of FIG. 3, the lower support bar 45 shows 30 °, and the upper bearing on the ruler 46 shows at 120. This means that flush nozzles 15.21 and 28 wash the sectors S1, S2 and g S3, which start at 30 ° relative to the vertical and upper end, when the sectors S1, S2 and S3 reach 120 ° from their lower original lines. By adjusting the reference bars 45 and 46, the required position can be set between O and 180® relative to the vertical, as well as the required size of the sectors S1-S3.
Tubular holders 12 and 20 od30
50
no toothed rack vertically relative gg at the same time form the channels of the industrial system CMTPTT Mr P TMIGLOTTST 7 ggp w chggle tttu LUCH .. t
Relatively holder 27.
Each holder 12,20 and 27 has a hinge support 16, in which internal parts are spherically mounted
liquid. If tank I has frame 5 with openings 52, the industrial system is preferably installed adjacent to frame 5 and industrial heads U52A64
20
25
Q 15
a corresponding industrial head 15.21 and 28. A gear 43 is mounted on each inner part, which interacts with a corresponding rack 33, 38 and 41.
The actuator 11 provides rotation of all parts of the flushing device around a vertical axis, as well as alternating up and down movements of the drive rod 31 and its parts. Since the racks 33, 38 and 41 interact with the pinwheel 43 propeller heads 15.21 and 28, up and down movements synchronously cause all the next heads 15.22 and 28 to rotate around horizontal axes.
Fla actuator 1 1 is equipped with means 44 (see Fig. 3) for marking the positions and sizes of sectors S1.52, and S3 of the tank, for which there are spindle nozzles 15.21 and 28 provided. Tool 44 has a graduation from 0 to 180. The two support bars 45 and 46 on the rack 47 can be moved along the graduation 48 and have screws 49 and 50 for fixing the rulers 45 and 46 in the required positions on the rack 47.
The finger 51, interacting with the drive rod 31 and participating in its up and down movements, is in contact with the reference bars 45 and. 46: the upward movement of the thumb 35 of the drive shaft 31 is limited to the upper support bar 46, while the downward movement of the finger 5J and thereby the drive rod 31 is limited to the lower support bar 0 Fig. 3, the lower support bar 45 shows 30 ° and the upper support bar 46 indicates 120. This means that flush nozzles 15.21 and 28 wash the sectors S1, S2 and g S3, which start at 30 ° relative to the vertical and upper end, when the sectors S1, S2 and S3 reach 120 ° from their lower baseline . By adjusting the reference bars 45 and 46, the required position can be set between O and 180® relative to the vertical, as well as the required size of the sectors S1-S3.
Tubular holders 12 and 20 od30
0
g at the same time they form channels of the industrial line; at the same time they form channels of the industrial channel. cfggl tttu LUCH .. t
liquid. If tank I has a frame 5 with openings 52, the flushing system is preferably installed adjacent to the frame 5 and the hydraulic heads 5
15.21 and 28 are installed in the same way with respect to the openings 52, and the space on the other side of the frame 5 is also diminished. If the tank has corrugated walls 53 with pockets 54, heads 15, 21 and 28 are installed in such a way as to flush such pockets 54 .
The holders 12 and 20 preferably have the same shape, and the toothed racks 33, 38 or the corresponding means) may also have the same shape. Additionally, the racks 33,38 may be approximately the same length as the corresponding holder 12.20. Any of the holders 12, 20 and 27 can be connected to the stand 6, i.e. The flushing system may vary in its length and I in the number of washing nozzles. The system can therefore have three flush heads 15.21 | And 28, as shown in. In the drawings, or only two flushing heads 15 and 28. In the latter case, the holder 20, part 24 and the corresponding parts 36 and 40 are not required, the holder 27 is connected to the stand part 17, and the toothed rack 41 - to the drive bar part 36. In some cases, it is possible to manage without two spacer heads 15 and 21, using only the flushing head 28. In this case, the use of holders 12 and 20, parts 17 and 24, and parts 33.36, 38 and 40 is not required, the holder 27 connects It is directly mounted; which 6 and the toothed rack 41 - not directly with part 32. The number of flushing heads can be more than three at different levels, and each holder can contain more than one industrial head. In the present embodiment, the holders 12 , 20 and 27 are significantly shorter than each hour s desk. The advantage is that short holders 12, 20 and 27 are easier to transport, store in a well-packed condition and mount than longer holders. Parts of the extension column are preferably uniform, but they may be different in length.
As shown in FIG. 5, the flush heads 15.21 and 28 may, if necessary, be directed in different directions at an angle of 20 ° for sb524646
lancing the reaction forces generated by the flushing fluid. To counteract the vibration, the stand can interact with the support 55, which is preferably mounted on one of the compartments 2-4.
When the fluid is fed into the system, the nozzle heads perform a rotary motion in the horizontal plane and the oscillating head in the vertical plane, ensuring the flushing of all the compartment walls.
15
Formula of the invention
1. A flushing system for tanks, mainly tanks for vessels with several horizontal compartments, containing a tubular rack
0 and associated with it at least two coaxially and sequentially installed on the length of the nozzle assembly, each of which contains a holder and a nozzle head installed with
5 with the possibility of rotation on an axis, perpendicular to the axis of the rack, and a drive of nozzle assemblies, including a gear rack with several gears according to the number of nozzles
0 nodes mounted on the respective axes of the nozzle heads, due to the fact that, in order to improve the washing efficiency, the stand is located vertical5 °. Connected in the upper part with the reservoir and divided in height into parts, the nozzle assembly holders are made in the form of sleeves embedded in a rack between its parts and connected with its cavities with cavities of these parts, the top holder is connected to the part of the rack located above it and is removable by means of a hinge support, and with
5 part of the rack - rigidly through the connecting means and with the possibility of removal, the rest of the holders are connected with the corresponding ends of the parts of the rack rigidly through the connecting
0 means and with the possibility of removal the drive includes a rod with means of its rotation, rotational and 1 vertical translational motion at its upper end, divided into sections each of which is located in the corresponding part of the rack along its axis; gear racks are located inside the sleeves and associated with them with the possibility (
27
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n
51
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US Fi.
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about fK
m
D 7

权利要求:
Claims (2)
[1]
Claim'
1. A system for flushing reservoirs, primarily reservoirs of vessels, having several horizontal compartments, comprising a tubular strut 20 and associated with it at least two nozzle assemblies coaxially and sequentially installed along its length, each of which comprises a holder and a nozzle head installed with 25 possibilities rotation on an axis perpendicular to the axis of the strut, and a nozzle assembly drive including a gear rack with several gear wheels according to the number of nozzle assemblies 30 mounted on the respective axes with left head, characterized in that, in order to increase the washing efficiency, the rack is located vertically35 but is connected at the top with the tank and divided in height into parts, holders of nozzle assemblies are made in the form of bushings built into the rack between its parts and -
40 valuable by their cavities with the cavities of these parts, the upper holder is connected to the stand part located above it removably and by means of a hinge support, and with the part of the stand installed under it 45 - rigidly through the connecting means with the possibility of removal, the remaining holders are connected rigidly to the corresponding ends of the parts of the stand through connecting means 50 and with the possibility of removal; the drive includes a rod with means for its rotation, rotational and vertical translational movement at its upper end, divided into sections; each of which is located in the corresponding part of the rack along its axis, rack and pinion racks are located inside the bushings and are associated with them with
Ί
1452464 8 by the vertical movement relative to them, each of the rails connected at its ends to the ends of adjacent sections of the rod, and each of the nozzle assemblies installed “in the corresponding compartment of the tank.
[2]
2. The system according to claim 1, with the fact that it has at least one support for connecting to the rack, which counteracts the oscillations of the rack and is installed on the partition wall.
fig 2

类似技术:

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同族专利:

公开号 | 公开日

GR861729B|1986-11-04|

KR920005967B1|1992-07-25|

SE8503383D0|1985-07-08|

US4716917A|1988-01-05|

NO167728C|1995-02-23|

YU44295B|1990-04-30|

NO167728B|1991-08-26|

SE456891C|1995-06-20|

JPS6219292A|1987-01-28|

NO862643L|1987-01-09|

NO862643D0|1986-07-01|

SE456891B|1988-11-14|

YU118786A|1988-04-30|

DK322586A|1987-01-09|

DK166658B1|1993-06-28|

GB8616592D0|1986-08-13|

SE8503383L|1987-01-09|

ES2000319A6|1988-02-16|

GB2177591A|1987-01-28|

TR23050A|1989-02-14|

GB2177591B|1988-10-19|

BR8603159A|1987-02-24|

KR870000975A|1987-03-10|

JPH0459033B2|1992-09-21|

DK322586D0|1986-07-07|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US2610088A|1951-03-16|1952-09-09|Lawrence H Lee|Spraying apparatus|

US3140828A|1963-02-26|1964-07-14|Theodore E Ferris & Sons|Tank washing system|

US3182669A|1963-03-30|1965-05-11|Algonquin Shipping & Trading|Combined tanker service unit|

SE307719B|1965-06-14|1969-01-13|Salen & Wicander Ab|

US3472451A|1968-01-19|1969-10-14|Butterworth System Inc|Tank washing apparatus|

US3595256A|1968-11-22|1971-07-27|Ethyl Corp|Vessel-cleaning apparatus|

JPS5055358U|1973-09-14|1975-05-26|

JPS50141961U|1974-05-10|1975-11-21|US4945933A|1988-04-11|1990-08-07|Serv-Tech, Inc.|Liquid circulator useful for dispersing sediment contained in a storage tank|

FR2662956A1|1990-06-11|1991-12-13|Fives Cail Babcock|WASHING DEVICE, PARTICULARLY FOR A CRYSTALLIZATION APPARATUS WITH CONTINUOUS OPERATION|

ES2064203B1|1992-06-25|1998-01-01|Talleres Landaluce S A|ROTARY CLEANING DEVICE FOR TANKS OR DEPOSITS.|

FR2699095B1|1992-12-15|1995-01-13|Inst Francais Du Petrole|Method and device for cleaning the walls of a container.|

JP2985114B2|1993-04-05|1999-11-29|タイホー工業株式会社|Liquid injection device|

US5718382A|1994-10-24|1998-02-17|Jaeger; Ben E.|Apparatus for cleaning vessels|

EP0723909B2|1995-01-30|2003-04-02|Lars Henry Jinbäck|Flushing device|

EP0779111B1|1995-12-11|2003-11-19|TAIHO INDUSTRIES Co., LTD.|Method for treating liquid in a tank and liquid jetting device used in the method|

US6217207B1|1996-05-03|2001-04-17|Lindenport S.A.|Current creating device and method for liquefaction of thickened crude oil sediments|

GR1002685B|1996-06-21|1997-05-02|Ηλιας Αντωναρος|Cleaning mechanism equipped with disks and applicable to metallic surfaces|

US6021793A|1996-08-01|2000-02-08|Moulder; Jeffrey Ernest|Tank car cleaning and rinsing apparatus and method|

US5720310A|1996-08-01|1998-02-24|Moulder; Jeffrey Ernest|Tank car cleaning and rinsing apparatus and method|

US6105593A|1998-05-22|2000-08-22|Jet, Inc.|Fixed film media cleaner apparatus and method|

WO2000021693A1|1998-10-12|2000-04-20|Petrojet International|Hydrodynamic stirring device and jet pipe|

US6371137B1|1998-12-03|2002-04-16|Robert A. Heath|Tank cleaning apparatus|

US6637442B1|1999-08-04|2003-10-28|Jeffrey Clifton Evans|Apparatus and method for cleaning hopper barges|

KR100979009B1|2003-04-14|2010-08-30|주식회사 포스코|An apparatus for removing slag-granulation particulate in settle tank of slag-granulation conveyance line|

SE525909C2|2003-05-22|2005-05-24|Gen Ind Parts Ltd|Device for internal flushing of spaces in containers|

US8118477B2|2006-05-08|2012-02-21|Landmark Structures I, L.P.|Apparatus for reservoir mixing in a municipal water supply system|

SE531425C2|2007-05-29|2009-03-31|Scanjet Marine Ab|Device for cleaning closed spaces|

EP2695684B1|2012-08-06|2015-06-24|Alfa Laval Corporate AB|Washing system for washing of tanks or the like|

US20170056940A1|2015-08-31|2017-03-02|Gary Segler|System for Cleaning a Limited Access Holding Tank|

CA2947205A1|2015-11-03|2017-05-03|Nuhn Industries Ltd.|Automated manure agitation and transfer|

法律状态:
2005-01-10| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20020708 |

优先权:

申请号 | 申请日 | 专利标题

SE8503383A|SE456891C|1985-07-08|1985-07-08|Flushing device for flushing tanks or cisterns|

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