CN1101325C - Adjustable base of mechanical unit on ship - Google Patents
Adjustable base of mechanical unit on ship Download PDFInfo
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- CN1101325C CN1101325C CN99127352A CN99127352A CN1101325C CN 1101325 C CN1101325 C CN 1101325C CN 99127352 A CN99127352 A CN 99127352A CN 99127352 A CN99127352 A CN 99127352A CN 1101325 C CN1101325 C CN 1101325C
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- sleeve
- upper sleeve
- deck
- sleeve portion
- machine assembly
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B3/00—Hulls characterised by their structure or component parts
- B63B3/14—Hull parts
- B63B3/70—Reinforcements for carrying localised loads, e.g. propulsion plant, guns
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- Ocean & Marine Engineering (AREA)
- Conveying And Assembling Of Building Elements In Situ (AREA)
- Application Of Or Painting With Fluid Materials (AREA)
- Foundations (AREA)
- Clamps And Clips (AREA)
- Butt Welding And Welding Of Specific Article (AREA)
Abstract
The invention relates to an adjustable foundation for aligning a machine unit in the correct height position in ships and particularly on ship decks. The foundation (30) comprises a bottom sleeve (2, 7), which is by a premade joint weld (14) made part of the ship's deck structure (22), as well as a top sleeve (1, 6), whereto the fastening brackets (20) of the machine unit are secured. The sleeves are arranged in a nested fashion and are telescopically adjustable with respect to each other in the shifting direction (D1). In addition, the top sleeve (1, 6) includes at least one vertical screw member (5) that extends from the top part (P1) of the top sleeve to the interior (P2) of the bottom sleeve and supports against the deck structure. After the height alignment, the top sleeve and the bottom sleeve can be locked together by joint welds (15).
Description
Technical field
What the present invention relates to is a kind of adjustable base, the purposes of this base is on the suitable at least height and position that machine assembly is installed to the boat deck, described base comprises the alignment member of the pre-determined constant support that is used for each machine assembly, alignment member can telescopically be regulated on the upright position each other, alignment member links together each other securely by joint and exterior load bed course, and the fixed support of described machine assembly can be connected on the described alignment member.The present invention also relates to a kind of method, with the base of the form of discussing, machine assembly is installed on the position of correct height at least of boat deck by this method.What particularly, the present invention relates to is the fixing of machine assembly on boat deck, deck and/or the deck structure.
Background technology
Act on the chain of anchor by winch, winch lifts and throws the anchor on going ashore and rolls and tighten up the rope of anchor on the ship in the harborage of ship.For fixing, also in order to obtain to act on the tightening force on the winch, winch is equipped with a kind of downward fixed support, and on described pedestal, is furnished with face-flange, and it is fixed on the deck of ship by a base that is welded on the deck.At work, winch is mainly used to provide horizontal force, and power is to the maximum about 6500KN, usually is 300-4400KN.Except described transverse to the propulsive effort in the elevator unit car, because the effect of stormy waves, winch also are used to overcome some other bigger power, these power may be to be parallel to or to be not parallel to propulsive effort, these power may be parallel to the elevator arbor, maybe may be other directions.Winch is strengthened being fixed on the flat board of surface, boat deck in several different modes, and this panel is not straight usually, but inclination and projection.And, uneven and some fluctuation always in deck, for example the power of the reinforcement that provides owing to the bottom and the solder joint on deck level thereof fluctuate.In vertical direction, the setting accuracy of winch needs very high, and in this case, the irrelevance of the relative platen surface of mounting flange can not surpass 0.1 millimeter/every meter, sometimes all can not be above 0.05 millimeter/every meter.Like this, realize on the deck of the ship that only can be by there be certain precision the final position of winch.Other machine assembly on the boat deck, the actuator of rudder for example, the driving engine of coming about prevents that machine and other mechanisms of rocking from all needing that equate or almost equal setting accuracy.The also possible influence of these machines owing to its operation or stormy waves, and suffer some other big horizontal force.
Install and arrange that the most traditional mode of winch is to use base to be welded on the plane, boat deck, said base is put so that staggered mode is other by the thin plate band, and be soldered on the deck, thereby edge that described thin plate band makes progress is provided by the supporting slice of a welding, the size and dimension of the supporting slice of this welding is decided by the support bracket fastened flange of winch, by this supporting slice, flange fixes with screw with universal mode.Secondly, also can use the sheet metal plate of a size greater than whole winch, or be welded on the deck, its size only is slightly larger than the multi-disc of winch mounting flange, so mounting flange is screwed on those plates.When mounting flange, the metal sheet of supporting slice and sheet all must be processed into the aspect more flat than the deck of ship, is connected to after the processing on the deck of ship, therefore, is difficult to obtain winch or the uniform parallel surfaces of the support bracket fastened cardinal principle of other machine assemblies.Because the winch fix screw can not be designed to bear all sensing winchs in all cases, that is to say and bear the horizontal force that screw is sheared, the mounting flange Chang Bixu of winch is supported on the edge, so must guarantee has an enough power to fix, to overcome horizontal force.This be green phase for base or sheet metal plate or ships plate, accessory sheet of welding is realized on the mounting flange edge.Under the situation without sheet metal plate, described weldment destroys as the coat of paint on the deck face, and coat of paint must be updated.This overwork has caused necessary unscheduled costs.In both cases, for winch being arranged in suitable height, must adopt one of two kinds of following methods.First method is to measure the height of the attachment point of the height that is welded on the base on the deck and/or the mounting flange on the sheet metal plate, then, and the processing pad spare sheet between each root mounting flange and base or sheet metal plate separately respectively.This method is slow especially, the process that need revise several times and process, so expense increases.Another kind method is in the position that designs machine assembly such as winch to be installed, then, around each root mounting flange, make a mold, as in mold, special unit of plastic of casting, fixed bolster wedge between base or sheet metal plate and mounting flange are just as being explained in the F1-750857 at number of patent application.In this case, problem is to be looped around correct locational machine assembly to support that to make mold cumbersome.In the winter of cold, for example in Finland, it is difficult obtaining the liquid needed sufficiently high temperature of casting unit of plastic polymerization; Another shortcoming of the unit of plastic that solidifies is its insufficient strength.Like this, in the middle of two kinds of methods, the different washer of getting ready of thickness is all arranged below the mounting flange, it is different having only washer and manufacturing technology.The installation of the winch of obviously, before having discussed and alignment methods need a large amount of time and high expense.
Patent FI-87.947 has introduced a kind of adjustable installation elements that is used for the machinery chassis of factory, and the mounting screw of machine fixed support flange and a supporting screw that is welded on the floor are fixed in the factory.Could be welded to supporting screw on the floor after having only the height adjustment when machine, this means on the deck of ship, welding destroys deck, also may be the surface treatment coat of paint for example of its reinforcement of providing below that like this, coat of paint must repaint.Described this structure only can support machinery weight on the vertical direction, can not bear by the winch of ship or the high horizontal force of other machine assemblies generation.And because other corrosion, this structure also is not suitable for using on the ship.The specification sheets of patent EP-0210354A1 has been introduced a kind of adjustable mechanical erecting device, and it is to be furnished with stay bearing plate below the flange of mechanical fixation support, and the height of described plate is regulated by the set screw between stay bearing plate and the floor.When regulating machine height, welded-on plane iron is all arranged, on stay bearing plate and the floor so stay bearing plate and earth plate permanent fixation is each other regulated and can not be changed highly forever.Only could plane iron be welded on the earth plate after machine height is regulated, therefore, on the deck of ship, welding will destroy the surface treatment that deck also may be for example coat of paint on the reinforcement below it, and like this, coat of paint just must renewal.Described structure only is designed to bear the weight of machine vertical direction.In patent DE-3402752, introduced a kind of machine chassis that is used for factory, be placed with two alignment member between base plate that forms by machine fixed support flange in the factory and the installation floor, these two alignment member are connected on the mounting flange with regard to the alignment member as same plane with as the mutual intussusception of the form of pipe, bar or side.The machine of installing is delivered to a suitable height by hoisting crane, and then, three all alignment member so far also separated from one another are welded together, and are welded on the chassis, and in this case, the height that has regulated can not change.Owing to only after the height adjustment of machine, described three alignment member could be welded on the base plate, therefore, on the deck of ship, welding will destroy the deck plane and also may be for example coat of paint surface treatment of its reinforcement of providing below, and this coat of paint must upgrade.
Therefore, the purpose of this invention is to provide machine assembly for example winch and a similar adjustable base of machine on the deck of ship, the pedestal of these machines can be finished in advance with standby, can make machine assembly at height and position a high-precision aligning be arranged at least earlier.Another object of the present invention is, the base of described type is provided, it can not only bear the weight of machine assembly, can also bear in the machine assembly operating process and affected by environment and tension force that produce, and because the support bracket fastened instrumentality of machine, tension force points to base, and a step is pointed to the deck structure of ship again.The 3rd purpose of the present invention be, the base of described type is provided, and it can guarantee that machine is support bracket fastened and tighten up that this fixed support can overcome horizontal force and not move, and in installation process, can not destroy the surface treatment of deck structure.The 4th purpose of the present invention be, the base of described type is provided, and when needs, can guarantee that machine assembly aims at well on level attitude.The 5th purpose of the present invention is, obtain the aligning that a kind of method flexibly realizes machine assembly,, they are being fixed on the deck of ship at least reliably on the height and position as the aligning of winch and similar machine, and, but can obtain the high precision that needs with trying one's best few and simple steps.And, the 6th purpose of the present invention is, the base of described type is provided, when needs, can the machine assembly that places differing heights for example each parts of two additional machine assemblies be connected on same motor and the deck, so, described additional mechanical unit, for example the cast anchor winch and the winch that casts anchor can be connected on the axle drive shaft of motor.A further object of the invention is, the base of described type is provided and a kind of method is provided, and they have reliable and economic advantage, make machine assembly can with respect to exterior ships plate and other need deck in height aim at.
Summary of the invention
The invention provides a kind of adjustable base, it is used for machine assembly is aligned on the suitable height and position at least, described base comprises: the machine assembly support of each predetermined altitude each other can be relative to the telescopic aligning parts that moves of vertical shifting, described aligning parts is by joint connection fixed to one another and be fixedly attached to exterior, bear on the bed course of load, described machine assembly fixed support can be fixedly installed on the aligning parts, it is characterized in that: the alignment member of base comprises two nested type sleeves, they can move on described telescopic moving direction, lower sleeve portion by a ready-made in advance connection weldment or similarly joint be permanently affixed on the ships plate structure 22 that has constituted bed course, upper sleeve includes on top machine assembly is fixed to structure on the fixed support; In addition, upper sleeve comprises the means of vertical screws part or passes the parts of the upper end of described upper sleeve, and a described screw or a plurality of screw element extend in the lower sleeve portion above upper sleeve, and towards the deck structure.
A basic advantage of the present invention is, the machine assembly fixed support that can guarantee ship is fixing in the step earlier of production process with base, for example when ship also is not shaped or is suitable in addition, carry out surface treatment simultaneously so make base carry out surface-treated, as spray paint with the deck of ship and its reinforcement.According to the present invention, this base generally is fixed by welding to the base bottom on the ships plate, and after being welded on the deck, its any part does not need machinework, but the top that can machinework be fixed to the base on the machine assembly fixed support, this can realize in the factory that makes base.Another advantage of the present invention is, each machine assembly fixed support can be when base be fixed machine assembly in position at aligning needs, predetermined altitude, only realize by simple steps, in this case, do not need to come the supported mechanical unit with extra device, the flexibility ratio of down suction and structure does not influence setting accuracy.After suitably measuring and designing, alongst telescopiform ground is welded together for the each several part of base, and a kind of crash-resistant, resistant to corrosion understructure can be provided, and has also finished other some application targets simultaneously.And, in an embodiment of the present invention, when needs, can be by reducing the looseness in mounting screw and hole, go up in place the machine assembly mounting flange is fixing, so, when machine assembly is installed, do not need the welded and installed accessory, perhaps accessory is welded on solder joint can not influence on the position of deck body structure surface processing.Simultaneously, always be designed to be enough to bear the load that is added in above it, make load distribution on the deck area of an enough wide ship according to base of the present invention.Another advantage of the present invention is, described base can carry out for example adjusting of position of level orientation when needing, and, when enough hour of the adjusting surplus of needs, need not increase additional components; When the adjusting surplus of needs is big,, use additional components according to the present invention.
Description of drawings
Below with reference to accompanying drawings, explain the present invention in detail.
Fig. 1 is total schematic diagram of seeing that from the back side of the direction 1 of Fig. 2 winch that places the band motor on the ships plate in the past and winch combine.
Fig. 2 is the total schematic diagram of seeing from the front of the direction 2 of Fig. 1 in the past that places winch on the ships plate and winch to combine.
Fig. 3 is the cutaway view along the 3-3 cross section of Fig. 2 according to the first optimum embodiment of base of the present invention.
Fig. 4 is the cross-sectional view according to similar Fig. 3 of the second optimum embodiment of base of the present invention.
Fig. 5 is a cross-sectional view according to similar Fig. 3 of the 3rd optimum embodiment of base of the present invention, and this base comprises an annex and a horizontal adjustment instrument.
Fig. 6 sees schematic diagram in the past according to the side from the direction 4 of Fig. 1 of the 4th optimum embodiment of base of the present invention, comprises horizontal adjustment, is presented in the upper sleeve of base and lower sleeve portion weld together base regulating step before.
Fig. 7 sees schematic diagram in the past according to the back side from the direction 5 of Fig. 2 and Fig. 8 of the 5th embodiment of base of the present invention.
Fig. 8 A and 8C are respectively the schematic diagrams of base plane X-X shown in Figure 3, base plane XI-XI shown in Figure 4 and base VI-VI shown in Figure 7.
Fig. 9 is seen over according to the direction VII from Fig. 1 of the 6th optimum embodiment of base of the present invention, and the detailed schematic diagram of seeing the past is surveyed on a left side that just is similar to base shown in Figure 2, comprises any accessory and base support.
Figure 10 is that base shown in Figure 8 is seen schematic diagram in the past from the top of the direction VIII of Fig. 2 and Fig. 8.
Figure 11 A-11D is respectively, sees over from the top of the direction IX of Fig. 5, only places the schematic diagram of first, second, third, fourth embodiment of the accessory in the base upper sleeve.
Figure 12 sees schematic diagram in the past according to the cross section from being similar to Fig. 5 of the 7th optimum embodiment of base of the present invention, comprises an accessory and a big level governor, is with a cover plate.
Figure 13 is a cover plate schematic diagram of seeing Figure 12 of a breakaway-element description of conduct in the past from the top of the direction XII of Figure 12.
Figure 14 sees schematic diagram in the past according to the similar cross-section from Fig. 5 of the 8th optimum embodiment of base of the present invention, comprises the level governor of an accessory and a plate with cover.
The specific embodiment
The present invention relates to an adjustable base, particularly be used for being used for the aligning of the machine assembly on the deck of ship, especially ship, will on suitable height and position HH, aim at least.
At least be the outside and the top deck of ship, but also may be the water that the bottom deck gets off for discharge current sometimes, generally be protrude and towards edge tilt.In addition, deck also may and/or protrude with other direction bevelleds.The deck of ship and other structures are made of metal, and generally are to use steel, and the machine assembly described in this specification sheets is fixed in the above, and these machine assemblies have winch, winch, the actuator of rudder, other actuators, hoisting crane, standby machinery, the motor of coming about, anti-rotation device and similarly mechanical.Deck structure 22 on the ship generally comprises the panel of a deck 21 and beam 23, and deck 21 and beam 23 place below the panel, and with welding or rivet or otherwise being fixed on the panel, makes firm in structure like this.Certainly, nothing can stop similar beam be used as reinforcement be placed on the deck 21 that places machine assembly below.Yet this is uncommon on the deck of the outside of ship and air communication, and these beams have constituted bed course, according to the present invention, base 30 be fixed on it above.In the prior art, we relate generally to winch, but obviously, principle of the present invention also can be used in other some machine assemblies are fixed on the deck of ship.As an example, Fig. 1-2 has represented winch and the combination of hawser winch.Shown in machine assembly comprise a motor M1, a winch M2 and the winch M3 by described motor driven do not remake detailed explanation here.Fixed support 20 is equipped with in the bottom of common mechanical unit M1-M3, still, the present invention all can be no matter in machine assembly mounting and fixing bracket how, regardless of their position and kind, the present invention all can be implemented.Thereby thus, the following description illustrates as just an example, rather than is used as the restriction to application of the present invention.Machine assembly is equipped with at least three but also may be four or more fixed support 20, and they separate each other, and each independent fixed support provides a base, and base of the present invention preferably is provided.Nature is considered machine assembly body 31, and base can be designed as any possible form.Base determines in total design process in the installation site of points different on the deck of ship.
Comprise telescopic moving sleeve for each predetermined 20, one base 30 of machine assembly fixed support, they each other can vertical shifting.Described sleeve can pass through joint 14,15,35A, 35B be installed in rigidly on the deck structure of deck/ship of ship and or be installed together rigidly each other, thereby unnecessary fixed support is not included in the machine assembly, can be installed on the described sleeve but make each state the machine assembly fixed support.Base 30 of the present invention comprises two supporting standby sleeves, and they can telescopicly move at moving direction D1, and described moving direction is described vertical direction substantially, and described two sleeves are a lower sleeve portion 2 or 7 and upper sleeve 1 or 6.Lower sleeve portion 2,7 for example is permanently attached on the deck structure 22 of the bed course that constitutes ship by welded joint 14 or similar joint.For example lower sleeve portion 2,7 is fixed on the deck 21 of ship as shown in the figure by joint 14, or also may be to be fixed on another deck structure, this deck structure is before carrying out surface treatment, create in the manufacturing process of deck structure 22.Lower sleeve portion is fixed on deck 21 prepositions, and on the final position of deck, lower sleeve portion 2,7 must be stretched from deck in vertical direction at least.Like this, lower sleeve portion has constituted the structure division of described ships plate 21.
Here said vertical direction is meant and is parallel to the action of gravity direction, or approximately is exactly the useful direction of gravity, and this direction will depart from slightly or even and constitute the fixedly deck normal direction of bed course very much.In this case, telescopic moving direction D1 can form a tangible angle with respect to described main deck normal to a surface.Fig. 1 shows and departs from radian T, and/or deck is with respect to the degree of dip of horizontal direction, and this just needs to regulate.Size according to irrelevance T, and the size in gap 39 between lower sleeve portion and the upper sleeve, upper sleeve 2,7 both can be placed on the position with respect to deck 21 Surface Vertical, also can depart from, to obtain a position, on this position, moving direction D1 will be more accurately vertical in the above described manner, be not placed in the lower sleeve portion with there being tangible deviation in direction, wherein, direction D1 is determined by the upper sleeve that mainly is fixed on the machine assembly.The notion that the following describes " top " described in the book and " bottom " is meant the position with respect to vertical direction recited above, and vertical direction recited above is the moving direction D1 with respect to sleeve.Except deck, single machine assembly M1-M3 is the fixedly bed course of winch for example, also can be a work wall, in this case, must use a kind of dissimilar base.For obtaining the advantage of regulating mechanism of the present invention, a necessary part of the fixed support flange 3 of machine assembly M1-M3 is directed down at least, this means that they are supported in vertical direction.
At first, for machine assembly being fixed on the fixed support 20, upper sleeve 1,6 is included in its topside, and described structure generally includes the screw hole by 2 li of flanges, also have screw, nut or corresponding fixed sturcture 4, fixed sturcture 4 is inserted in the hole of described upper sleeve.The fixed form that other are also arranged, still, because fixing means is known in prior art, and the present invention do not relate to this problem yet, just no longer is described in detail fixed form here.Be fixing support bracket fastened flange 3, the upper element of upper sleeve 1,6 is furnished with the horizontal element of being made by material 16, and a horizontal surface W arranged on the upper plane on the horizontal element 18, its size and dimension is similar to the flange 3 of machine assembly fixed support 20 at least, nature, it also has and the hole of connecting element 4 or the hole of similar structures coupling.The horizontal element of being made by material 16 has constituted the top of upper sleeve 1,6, appropriate location in upper cartridge, just be to be inserted into that part of of lower sleeve portion 2,7 telescopicly or to be nested in its top at least, constitute a ready-made in advance framing member in the following mode of being explained.This means, the horizontal material components 16 of upper sleeve and it has formed integral body of commaterial or for example sleeve of tubulose and many bodies of a material components 16, they link together by compiling joint 17, before base is compiled, or the welding or be fixed to machine assembly below, like this, upper sleeve 1,6 last shapes be below base being installed to winch before ready-made parts.In embodiment shown in Figure 14, comprise a guide member 9 that can insert for screw 5 below the upper sleeve 1, the end 28 of this guide member supporting screw.For example by radial support frame 10, guide member 9 is connected to the upper sleeve wall.
The present invention, upper sleeve 1,6 comprises one or more means of vertical screws parts or the parts 5 that pass its top, be the parts with the mode work that is similar to screw, described structure or parts extend to the inside P2 of lower sleeve portion from the outside P 1 of upper sleeve, and point to described deck structure 22.Screw component 5 comprises the height adjustment screw that passes tapped bore 26, and tapped bore 26 is 16 li of the horizontal material components of upper sleeve, also is included as spanner at their top and the bite established.The position and the lower sleeve portion 2,7 that are in oneself when upper sleeve 1,6 are nested into together, and when machine assembly when for example a winch is fastened on the horizontal material components 16 of upper sleeve with flange 3, and described folder point 27 must can be by free torsion R.The bottom of screw component 5 can rotate freely with respect to lower sleeve portion 2,7 defined planes, and its rotation mainly is the plane that is parallel to deck 21 by pasting, for example deck itself or for example be fixed by welding to accessory 12 on the deck.On moving direction D1, the height adjustment screw raises or the reduction upper sleeve around reversing with respect to lower sleeve portion of its line of centers 29.Each base 30 can comprise several height adjustment screws, but at this moment, considers the replacement way of an optimum, and each support preferably includes a height adjustment screw.
And when needs, the upper sleeve of base 30 of the present invention, 6 comprises an accessory 19 at least, this accessory extends upward from described horizontal surface W, extend to a near point of edge, when the machine assembly fixed support was fixed to upper sleeve, the edge 33 of support bracket fastened flange 3 was fixed at that point.The horizontal surface W of upper sleeve is the lower surface that is used for placing the flange 3 of fixed support 20, and the weight F3 that has so just supported flange 3 and machine assembly has fallen that part of on the described base.In order to prevent that particularly when being subjected to high propulsive effort, machine assembly M1-M3 moves and becomes flexible, and when mounted, just is furnished with flange and withstands accessory 19 after installing and aiming at.In this embodiment, the edge 33 of fixed support flange 3 is being supported by the edge 34 of accessory.Embodiment shown in Fig. 3 and 4 does not have accessory, and accessory 19 of the embodiment band shown in Fig. 5 and the 11A is because it is only at the flange of edge 33 support fixation supports 20, so it is suitable for bearing the power as winch propulsive effort F1 and so on.Figure 11 B shows an accessory 19 at two edge 33 pivot flanges 2, and Figure 11 C shows at accessory 19 of three edge 33 pivot flanges 2 and Figure 11 D and shows a accessory 19 at four edge 33 pivot flanges 2.Like this, the accessory shown in the 11B-11D has stoped flange because power F2 and moving in other horizontal direction.Each base 30 that is provided in one or same machine assembly may comprise dissimilar accessories, or the part of support is equipped with accessory, also has some not have accessory.
Upper sleeve that representative type is adjustable 1,6 comprises two wall 25A2 that separate each other, 25B2 and wall 25C2, and it is horizontal in other two limits, or as L and T shape, two walls is only arranged.Same, lower sleeve portion 2,7 also comprises two wall 25A1 that separate each other, 25B1, and a horizontal wall 25C1 to other two limits, and also inner sleeve 1,7 is parallel to telescopic moving direction D1 in theory at least.Each wall 25A1 of lower sleeve portion, 25B1,25C1 face the relevant wall 25A2 of upper sleeve, 25B2, and 25C2 that is to say, these walls are adjacent in pairs one to one.Fig. 7 and 8C have represented such embodiment.Shown in Fig. 3-4 and 8A-8B, obviously, described wall has formed an osed top framework 25D2 in upper sleeve, formed an osed top framework 25D1 in lower sleeve portion.Now, upper sleeve and lower sleeve portion frame wall 25D1-2 have formed tubulose, and the shape in its cross section may be triangle, rectangle, square, circle, ellipse or other shapes.In Fig. 8 A and 8B, only show foursquare tubulose, but can represent any one of shape above-mentioned with the embodiment of the formal description of vertical cross-section.Be parallel in theory in the situation of telescopic moving direction D1 at the 25D2 of inner sleeve 1,7 at least, the wall 25D1 of outer sleeve 2,6 also can be placed on other positions as shown in figure 14.Except when the cross section of lower sleeve portion and upper sleeve be circular, be that described frame wall 25D1-2 can make by suitable panel-like member is welded outside the suitable tubular blank.At this moment, can access the suitable bevelled tubular section parts of the lower sleeve portion 2,7 and the upper sleeve 1,6 of base.Shown in Fig. 3-6 and 12, the tubular section can be made up of parallel walls, is with respect to inner sleeve at first at least, but also with respect to outer sleeve 2,6, the tubular section also can be made up of the wall that separates towards deck 21 downwards, as shown in figure 14.At this moment, outer sleeve and inner sleeve are equivalent to a wedge shape, can be symmetrical, also can be asymmetric, and/or wall also can be curved.According to Figure 14, lower sleeve portion 2 is because load distribution bigger area on deck, so it is reasonable.As discussing, lower sleeve portion and deck manufacture together, and constitute the part of deck, and this is for upper sleeve being placed in one or round lower sleeve portion, they will being moved each other with stretch mode along moving direction D1.Do not consider manufacturing process, lower sleeve portion and upper sleeve might shape described tubular section, osed top frame wall structure is all arranged, this is best on the deck of portion at least overboard, this is that corrosion is smaller because making good base is osed top and smooth.Usually the frame wall of the upper and lower sleeve of representing with sequence number 25, the design-calculated oad is: can bear the natural force F3 that is conducted oneself with dignity and caused by the power F1 on each horizontal direction, F2 and the machine assembly of the size predicted of using machine assembly and stormy waves to cause.In Fig. 4, the lateral dimension A6 on the upper sleeve 6 deck directions is greater than lower sleeve portion 7 corresponding lateral dimension A7, and at this moment, upper sleeve moves on lower sleeve portion.As a kind of replacement, on the upper sleeve 1 deck direction lateral dimension A1 can be less than lower sleeve portion 2 corresponding lateral dimension A2, at this moment, upper sleeve moves in the lower sleeve portion the inside, shown in Fig. 3 and 5-7.
A little or big gap 39 is arranged between upper sleeve and the lower sleeve portion, under closely spaced situation, its size is at least 0.5 millimeter, preferably 1 millimeter-5 millimeters, like this can be as discussed above by screw element 5 height and position of upper sleeve 1,6 regulated and is aimed at like that, and between sleeve the extra resistance of neither one.Aiming at base as the nested result's of lower sleeve portion 2,7 and upper sleeve 1,6 a so little gap is after height adjustment is finished, and the free edge of outer sleeve 2 or 6 and inner sleeve 1 or 7 directly are secured together by a sealing solder joint 15 each other.In another kind of situation, the gap between upper sleeve and the lower sleeve portion is 4 millimeters at least, but preferably 5 millimeters-20 millimeters, and when needs, shown in Figure 12-13, gap 39 can reach 50 millimeters, even 100 millimeters.At this moment, a collar 32 is arranged on the inner sleeve 1 or 7, and its outside dimension K1 is greater than the external diameter 2 of outer sleeve 2 or 6 and the size sum in gap 39, and its internal dimensions K3 approaches the external diameter K4 of inner sleeve 1 or 7, just at least greater than 0.3 millimeter, but be no more than 5 millimeters.Before nested up sleeve, the described collar 32 can move freely around inner sleeve, after the manual positioning of height, just after the regulating sleeve, be after level attitude D2 aims at, the collar is by sealing solder joint 35A, and 35B is welded to inner sleeve 1,7 and outer sleeve 2, on 6, as shown in figure 14.In this case, we also can obtain the closed base of the above-mentioned type, because when horizontal aligument, the collar moves along inner sleeve, constantly leave with outer sleeve, covered the big gap that stays between them, be used to be placed on and maybe can be used for being positioned on the free edge of outer sleeve.So the collar has only on the position in a little gap by being welded on to be on two sleeves with two sleeves, this gap can seal with solder joint.The collar 32 also can be welded on the dish 8 by sealing solder joint 35B, dish 8 be positioned at lower sleeve portion 2,7 above, described dish is stretched from the edge of lower sleeve portion, very wide, therefore, regardless of the position of the collar, the outward flange 11 of the collar always be placed on dish above, as shown in figure 12.In the lower sleeve portion manufacturing process, dish 8 is arranged in down in the surface sleeve, and it has constituted a structure member of time surface sleeve; So far, do an osed top solder joint in the following surface sleeve and mean, both can be welded on the dish, also can be welded on the sleeve by no dish with dish.By this method, always can weld at a flat adjoining position.Second is sealed solder joint 35A and top discussed the same.
When needs, at least in lower sleeve portion 2,7 with support 40A-40C below one or more arranged between around deck 21, they for good and all are fixed on the there by ready-made fitting 42 in advance, and the following support and the lower sleeve portion 2,7 that constitute lower sleeve portion and described ships plate structure parts are similar.When independent use, such below support formed a bevelled reinforcement, as known in the art, load distribution on a wide area.According to the present invention, when needs, from last surface sleeve 1,6 outstanding one or several top shelf 13A-13C, they preferably extend to horizontal material components.According to the present invention, below support 40A-40C and top shelf 13A-13C extend and adjacent layout in theory abreast with telescopic moving direction D1.Be designed on the moving direction D1, they extend in the telescopiform mode on the moving direction of described deck, and do not consider the telescopic moving direction of locational upper sleeve under each situation.In order to reach this purpose, lower sleeve portion and upper sleeve are all made by suitable sheet material, are placed on the external margin of base and side, against deck 21, for example receive on the solder joint 42.After upper sleeve is aimed at, cause following support 40A-40C of both telescopic sockets and the zone of top shelf 13A-13C, welded together by supporting solder joint 41 or solder joint 41 them.By the bevelled reinforcement is extended to described upper sleeve or it above, in all cases,, use top shelf 13A-13C obviously to give extra strength and stiffness with respect to upper sleeve 1,6.When extend the top of top shelf 13A and/or 13B and/or 13C, and, shown in Fig. 9-10, be furnished with the accessory 19 of a symmetry on the plane W of the upper surface 18 of material components 16, can obtain a special advantage.Now, except the sleeve by weld together bears the load of pointing on the machine assembly M1-M3, also can be directly by top shelf and following support, load distribution on one of deck 21 big zone.
Prepare for the horizontal aligument of giving machine assembly D2, base also comprises level(l)ing device, this device and allow as mentioned above that the mobile space 39 of level uses together.Described level(l)ing device at first comprises, passes outer sleeve 2 of telescopiform bottom sleeves or upper sleeve or 6 horizontal adjustment screw 37 by screw hole.If the collar of being discussed more than using 32 is suitable for using together with the horizontal adjustment screw of described arranged in form.Second, the horizontal adjustment structure can be made of intussusception extension 36 and set screw 38, this extension 36 is positioned on the outer sleeve 2 or 6 surface of lower sleeve portion or upper sleeve, described extension is from the free edge of outer sleeve, extend out from lower sleeve portion or upper sleeve, extend to sleeve 1 or 7, the inner length of horizontal adjustment screw 38 enters in the screw hole that passes described extension 36 always.Base 30 comprises the horizontal adjustment screw of three radial arrangement at least.Usually, the horizontal adjustment screw is four, under any circumstance, all be by tightening the side that is placed on base or the set screw on the several side, and unclamp corresponding set screw and regulate, at this moment, upper sleeve 1,6 is with respect to lower sleeve portion 2,7, and D2 goes up and moves in the horizontal direction.As the screw that directly passes outer sleeve, horizontal adjustment screw 37,38 places on the suitable position after adjusting, still, also can remove them, to obtain a smooth surface of base.Possible extension 36 and the screw of Qi Nei can be arranged to such an extent that they are removed is advantageous easily.After bottom sleeves and upper sleeve are welded together by sealing solder joint 15,35A, 35B, remove the hole behind the horizontal adjustment screw 37 and seal as the pad part by solder joint by the hole that the extension of removing stays.
Above-mentioned base 30 is fixed on ships plate structure and the machine assembly in the following mode of being explained, according to ensuing description, base is regulated and locked by welding.With the deck structure of ship, in the manufacturing together as the parts of the part of ship or ship, or and on-the-spot the manufacturing together, before carrying out surface treatment, the lower sleeve portion 2,7 of on some some positions, having welded base 30, these some positions are decided by the position of the fixed support 20 by solder joint 14 welded-on machine assemblies such as winch, make their final positions on deck some protrusion at least in vertical direction.Support and/or top shelf below if base needs, before carrying out surface treatment, with ships plate structure manufacturing process together, just when bottom sleeves is installed, following support 40A-40C is welded on the described deck 21 of lower sleeve portion 2,7 outside faces and ship by joint 42.After this, begin certain part of ships plate, deck element or ship is carried out surface-treated simultaneously, following support 40A-40C is carried out surface treatment as spraying paint.Surface treatment can not carried out in the top of lower sleeve portion and following support, or they can remove surface treatment, to guarantee to seal and support the high precision of solder joint.Because sealing and support solder joint and finished afterwards, and they and ships plate 21 have a distance H 1, H2, so they can not destroy the surface treatment of any locational ships plate.
Next, upper sleeve 1,6 and lower sleeve portion 2,7 are welded together along the free edge of outer sleeve 2 or 6, that is to say, do closed weld between described free edge and lower sleeve portion 2 or 7.If base 30 comprises a collar 32, between the outside face of the outside face of the collar and inner sleeve 1,7, be another sealing solder joint 35A, the outside face of the outside face of the collar 32 and outer sleeve 2 or 6 or and the extension of outer sleeve between do another and seal solder joint 35B.So just obtained an accurate upright position, for example to be the weight F3 that bears vertical machine assembly on the fixed support effectively, horizontal force F1, F2 at each attachment point of machine assembly.After upper sleeve and lower sleeve portion weld together, be connected the surface of upper sleeve 1,6 and/or the edge of top shelf 13A-13C and be welded on the surface and/or edge of following support 40A-40C by supporting solder joint 41.This layout of the present invention is very convenient, because sealing solder joint 15 or 35A, 35B and support solder joint 41 have the first and second interval H1, H2 with the upper surface of deck 21, under any circumstance, the surface treatment of deck structure 22 can not be damaged owing to the heat that welding causes.So just can accomplish, after welded together upper sleeve and lower sleeve portion, and possible following support and top shelf welded together after, only to there being upper sleeve to carry out surface treatment with upper surface, unless they carried out surface treatment for a long time, and to the sealing solder joint 15 between the sleeve, 35A, 35B and possible support solder joint 41, and place near the zone of the base 30 the described solder joint to carry out surface treatment.
An optimum embodiment who is considered to base 30 is such, lower sleeve portion 2,7 and upper sleeve 1,6 are equipped with closed frame wall 25D1-2, upper sleeve seamlessly is connected on its horizontal material components 16, gapped by the institute that bottom sleeves and upper sleeve are determined together, by described solder joint 15,35A, 35B and by other forms of solder joint seals as the sealing solder joint in horizontal adjustment screw edge or hole.It is suitable being equipped with a hole for the free edge of outer sleeve 2,6, and this hole is by inner sleeve 1,7, and ships plate 21 1 segment distances are left in described hole as shown in figure 14, make sealing solder joint 15 between the sleeve in this hole, 35A, 35B do.The remainder of outer sleeve can relatively freely design, but can not destroy the stressed of base, as long as the gapped inner sleeve that makes of outer sleeve moves and can carry out possible adjusting in the horizontal direction with telescopic moving direction D1.Like this, the nested type sleeve has similar or different shapes.
Claims (15)
1. adjustable base, it is used for machine assembly is aligned on the suitable height and position (HH) at least, described base comprises: the machine assembly support (20) of each predetermined altitude each other can be relative to the telescopic aligning parts that moves of vertical shifting, described aligning parts is by joint (14,15,35A, 35B) connection fixed to one another and be fixedly attached to exterior, bear on the bed course of load, described machine assembly fixed support can be fixedly installed on the aligning parts, it is characterized in that: the alignment member of base (30) comprises two nested type sleeves, they can be gone up at described telescopic moving direction (D1) and move, lower sleeve portion (2,7) be permanently affixed on the ships plate structure 22 that has constituted bed course upper sleeve (1 by a ready-made in advance connection weldment (14) or similar joint, 6) include the structure that machine assembly is fixed on the fixed support (20) on top; In addition, upper sleeve (1,6) comprises means of vertical screws part (5) or passes the parts of the upper end of described upper sleeve, and a described screw or a plurality of screw element above upper sleeve (P1) extend to (P2) in the lower sleeve portion, and towards the deck structure.
2. adjustable base according to claim 1, it is characterized in that: the top of upper sleeve (1,6) comprises a horizontal material components (16), a plane (W) is arranged on its upper surface (18), and its size and dimension equals the shape and size of the flange (3) of machine assembly fixed support (20) at least; When needs, upper sleeve (1,6) comprises at least one accessory (19), accessory is protruding upward from described plane (W), and be within the area that its edge surrounds, when fixed support is fixed on the upper sleeve, the edge (33) of fixed support flange (3) is in the interior a certain position of surface area that this edge surrounds, and at this moment, the described edge (33) of upper sleeve is supported thus must be by the edge (34) that is pasting accessory.
3. adjustable base according to claim 1 is characterized in that: lower sleeve portion (2,7) has constituted the structure member of described ships plate (21); The horizontal material components (16) and the described upper sleeve that constitute upper sleeve (1,6) upper part constitute a good structure member of manufacturing in advance together.
4. adjustable base according to claim 1, it is characterized in that: upper sleeve (1,6) and lower sleeve portion (2,7) can move on telescopic direction, they comprise at least two couples of opposite wall (25A1-2,25B1-2), a pair of wall (25C1-2) with these two pairs of walls of a pair of crosscut, in described wall, innermost wall is parallel to described telescopic moving direction (D1) in theory; Obviously, described wall has formed the closed frame wall (25D1-2) of upper sleeve and lower sleeve portion, and at this moment, the frame wall of upper and lower sleeve is a tubulose, and its cross section may be triangle, square, circle, ellipse or analogous shape; The size design of the frame wall of upper sleeve and lower sleeve portion (25) must make it on each horizontal direction, can bear the power that can be scheduled to (F1, F2) that is caused by machine assembly and stormy waves.
5. adjustable base according to claim 1, it is characterized in that: one or more means of vertical screws parts 5, constituted the height adjustment screw, this screw passes the screw hole (26) of the horizontal material components (16) of upper sleeve, for winch, the head on described screw top has spanner clamping fulcrum (27), its lower part (28) is supported on by lower sleeve portion (2,7) in the zone that is limited, and can rotate freely, its rotation mainly is by pasting with respect to the plane that is parallel to deck (21) or by pasting an accessory (12), this height adjustment screw makes upper sleeve on moving direction (D1) around the rotation (R) of its line of centers 29, raises or reduction with respect to lower sleeve portion; Be conveniently, each base comprises a height adjustment screw.
6. adjustable base according to claim 4, it is characterized in that: the upper sleeve on the deck direction (6) lateral dimension (A6) is greater than the corresponding lateral dimension (A7) of lower sleeve portion (7), at this moment, upper sleeve is outside mobile in lower sleeve portion, or upper sleeve (1) lateral dimension (A1) is less than the corresponding lateral dimension (A2) of lower sleeve portion (2), at this moment, upper sleeve is inner mobile in lower sleeve portion; A gap (39) is arranged between the sleeve of top and the bottom, and at this moment its size is 0.5 millimeter.
7. adjustable base according to claim 1, it is characterized in that: when in case of necessity, in lower sleeve portion (2,7) with around between its deck (21), support (40A-40C) below one or several is arranged, they are permanently affixed on lower sleeve portion and the deck by ready-made connection weldment (42) in advance, so constituted described ships plate structure parts and lower sleeve portion; When in case of necessity, one or several upper bracket (13A-13C) protrudes from upper sleeve (1,6); Lower bracket and upper bracket are parallel to telescopic moving direction (D1) in theory, and adjacent layout, extend in the mode of intersecting on the moving direction of described deck.
8. according to claim 4 or 6 described adjustable bases, it is characterized in that: (D2) goes up and aims at in the horizontal direction, one of meet the following conditions:
Gap between the sleeve of * top and the bottom is within 1 millimeter-5 millimeters scope, so can directly weld between the sleeve of top and the bottom; Or
Gap between the sleeve of * top and the bottom is 4 millimeters at least, base also comprises, at inner sleeve (1 or 7) collar (32) is arranged on every side, the internal diameter in described hole (K3) is greater than the external diameter (K4) of inner sleeve, the external diameter (K1) in described (ring) hole greater than the external diameter (K2) of outer sleeve (2 or 6) and gap (39) and, the described collar both can be soldered to upper sleeve, also can be soldered to lower sleeve portion.
9. adjustable base according to claim 7, it is characterized in that: as lower sleeve portion (2,7) and the nested result of upper sleeve (1,6), behind the aligning, and sealing solder joint by sealing solder joint (15) or the collar (32) of the free edge of coupling and outside face (35A, 35B) welded together; Lower bracket (40A-40C) will be mated for nested with lower bracket (13A-13C), and is behind the aligning, welded together by supporting solder joint (41); (15,35A 35B) places on first distance and second distance (H1, H2) of leaving ships plate upper surface with support solder joint (41) the sealing solder joint.
10. adjustable base according to claim 1 is characterized in that: (D2) goes up and aims at machine assembly in the horizontal direction, and base also comprises level(l)ing device, and it comprises:
Insert the horizontal adjustment screw (37) of screw hole, screw hole passes the bottom that nests together, the outer sleeve (2 or 6) of upper sleeve,
Insert the horizontal adjustment screw (38) of screw hole, screw hole passes the lip-deep extension (36) of the outer sleeve (2 or 6) that is fixed on the bottom that nests together, upper sleeve, extension (36) extends out from described top and the bottom sleeve, the length up to inner sleeve (1 or 7); With
Horizontal adjustment screw and possible convex design must can be removed after the weld together by the sealing solder joint at least in part at the top and the bottom sleeve, and the hole is sealed by pad part solder joint.
11. one kind by using base (30) to be used for making machine assembly on the ship at least in alignment with the method for suitable height and position, it comprises, aligning parts (1,2,6, the 7) vertical shifting mutually that is used for the fixed support (20) of each predetermined machine assembly, by joint (14,15,35A, 35B) described parts are rigidly connected to exterior load bed course, and described parts are rigidly connected to each other, the described fixed support of machine assembly can be fixed on the described aligning parts, it is characterized in that: said method comprising the steps of:
(A) before carrying out surface treatment and the manufacturing of ships plate structure (22) combine, lower sleeve portion (2,7) is welded to deck (21) goes up the desired location, make it vertical with respect to the final position of deck in theory;
(B) arrange upper sleeve (1,6), make it on vertical telescopic moving direction (D1), can move with respect to the mode of lower sleeve portion with telescopiform;
(C) machine assembly fixed support (20) is fixed on the upper sleeve (1,6), upper sleeve and lower sleeve portion (2,6) nest together and are installed on the line;
(D) be fixed on screw element (5) on the upper sleeve by twisting, make the support bracket fastened flange of machine assembly (3) be aligned in predetermined height (HH), described screw element is then by on the attachment point that is pasting ships plate (21);
(E) in order to obtain an accurate upright position to bear horizontal force (F1, F2), described sleeve is positioned on first distance (H1) with respect to described ships plate, with upper sleeve (1,6) and lower sleeve portion (2, a 7) free edge weld together along one of described sleeve.
12. method according to claim 11 is characterized in that: this method also comprises the steps:
(D2) place by on the determined position of horizontal direction (D2) by rotating the horizontal adjustment screw support bracket fastened flange of (37 or 38) machine assembly (3), horizontal adjustment screw (37 or 38) passes the possible extension in bottom and/or upper sleeve or they (36), and described supporting screw leans against on the outside face of upper sleeve or lower sleeve portion;
(D3) before top and the bottom sleeve weld together, remove to move the extension (36) of presumable sleeve.
13. method according to claim 11 is characterized in that: this method also comprises the steps:
(A2) and the manufacturing of ships plate structure together, before carrying out surface treatment, possible following support (40A-40C) is welded on the outside face and described ships plate (21) of lower sleeve portion (2,7);
(F) after welded together, on the second distance (H2) of ships plate, will be connected to the surface of upper bracket (13A-13C) of upper sleeve (1,6) and/or surface and/or the edge that edge joint weld is received lower bracket the top and the bottom sleeve.
14. method according to claim 11 is characterized in that: this method also comprises the steps:
(A3) after lower sleeve portion (2,7) and their possible lower bracket (40A-40C) are welded to deck (21) and/or other deck structures (22) and go up, carry out certain a part of surface treatment of ships plate, ships plate member, ship;
(G) after top and the bottom sleeve weld together, and after the possible top and the bottom support weld together, can carry out upper sleeve (1,6), the sealing solder joint between the sleeve (15,35A, 35B), possible upper and lower part support and support the surface treatment of solder joint (41).
15., it is characterized in that:, osed top frame wall (25D1-2) is arranged in lower sleeve portion (2,7) and upper sleeve (1,6) lining according to described method according to the described method of one of claim 11-14; Upper sleeve (1,6) seamlessly is connected on the horizontal material components (16), so all gaps of being caused by the top and the bottom sleeve are by described solder joint (15; 35A, 35B), the sealing of other solder joints or some additive methods.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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FI982516 | 1998-11-20 | ||
FI982516A FI109780B (en) | 1998-11-20 | 1998-11-20 | Adjustable foundation and procedure for positioning machinery in ships |
Publications (2)
Publication Number | Publication Date |
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CN1257809A CN1257809A (en) | 2000-06-28 |
CN1101325C true CN1101325C (en) | 2003-02-12 |
Family
ID=8552952
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN99127352A Expired - Lifetime CN1101325C (en) | 1998-11-20 | 1999-11-18 | Adjustable base of mechanical unit on ship |
Country Status (7)
Country | Link |
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EP (1) | EP1002715B1 (en) |
KR (1) | KR100522467B1 (en) |
CN (1) | CN1101325C (en) |
DE (1) | DE69915981T2 (en) |
DK (1) | DK1002715T3 (en) |
ES (1) | ES2243042T3 (en) |
FI (1) | FI109780B (en) |
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FI109780B (en) * | 1998-11-20 | 2002-10-15 | Kamewa Finland Ltd | Adjustable foundation and procedure for positioning machinery in ships |
DE10209376A1 (en) * | 2002-03-02 | 2003-09-11 | Hatlapa Uetersener Maschf | Ship winch |
DE102013106001B4 (en) * | 2013-06-10 | 2017-08-31 | Benteler Automobiltechnik Gmbh | Motor vehicle axle with subframe |
RU2527251C1 (en) * | 2013-07-19 | 2014-08-27 | Российская Федерация, от имени которой выступает Министерство промышленности и торговли РФ (МИНПРОМТОРГ РОССИИ) | Installation of zone block in ship compartment |
CN107914826B (en) * | 2017-12-04 | 2024-01-19 | 海南大学 | Multipurpose combined type rapid dismounting ship deck base |
CN107914827B (en) * | 2017-12-06 | 2023-08-29 | 中船黄埔文冲船舶有限公司 | Error correction type deck sounding head and use method thereof |
CN108799397B (en) * | 2018-08-14 | 2024-08-06 | 上海海事大学 | Marine shock attenuation cover frame |
CN112519981A (en) * | 2020-11-26 | 2021-03-19 | 江南造船(集团)有限责任公司 | Method for mounting laser inertia platform |
CN113941834A (en) * | 2021-11-18 | 2022-01-18 | 沪东中华造船(集团)有限公司 | Method for mounting deck lamp base |
CN114799608B (en) * | 2022-06-30 | 2022-09-20 | 南通东来汽车用品有限公司 | Intelligent welding equipment for engine front side machine foot support |
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1998
- 1998-11-20 FI FI982516A patent/FI109780B/en not_active IP Right Cessation
-
1999
- 1999-11-18 ES ES99660180T patent/ES2243042T3/en not_active Expired - Lifetime
- 1999-11-18 CN CN99127352A patent/CN1101325C/en not_active Expired - Lifetime
- 1999-11-18 EP EP99660180A patent/EP1002715B1/en not_active Expired - Lifetime
- 1999-11-18 DK DK99660180T patent/DK1002715T3/en active
- 1999-11-18 DE DE69915981T patent/DE69915981T2/en not_active Expired - Lifetime
- 1999-11-20 KR KR10-1999-0051719A patent/KR100522467B1/en active IP Right Grant
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5941530A (en) * | 1982-08-31 | 1984-03-07 | Toshiba Corp | Installation of foundation bolt for apparatus setting |
EP0210354A1 (en) * | 1985-07-04 | 1987-02-04 | Man Gutehoffnungshütte Gmbh | Devices for positioning and supporting rotating machines |
CN87211113U (en) * | 1987-07-29 | 1988-05-04 | 杨地 | Adjustable foundation bolt |
SU1749110A1 (en) * | 1990-01-26 | 1992-07-23 | Центральное конструкторское бюро морской техники "Рубин" | Ship foundation |
Also Published As
Publication number | Publication date |
---|---|
DE69915981T2 (en) | 2005-03-10 |
EP1002715A2 (en) | 2000-05-24 |
EP1002715B1 (en) | 2004-03-31 |
EP1002715A3 (en) | 2002-02-27 |
DE69915981D1 (en) | 2004-05-06 |
FI982516A0 (en) | 1998-11-20 |
FI982516A (en) | 2000-05-21 |
KR20000052364A (en) | 2000-08-25 |
CN1257809A (en) | 2000-06-28 |
KR100522467B1 (en) | 2005-10-19 |
DK1002715T3 (en) | 2004-07-26 |
FI109780B (en) | 2002-10-15 |
ES2243042T3 (en) | 2005-11-16 |
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