NL8501703A - CRANE FOR APPLICATION TO RIGS (OFFSHORE PLATFORMS) AND THE LIKE. - Google Patents

Description

* * JK 634-1-Ned

Crane for application on oil rigs (offshore platforms) and the like.

The invention relates to a crane for use on oil rigs and the like, and which crane is supported on a base by means of an alloy and is pivotable thereon.

Such a crane is generally known and serves in particular for the unloading of supply ships.

Due to the working conditions on oil rigs on which regular helicopters have to land for the supply and removal of manpower and material, the total height of a crane used on an oil rig is limited.

As a result of this limitation, the known offshore crane uses an alloy of the crane on the associated base and which alloy is formed by a ball bearing or a roller ring.

Comparative alloys have previously been used in mobile cranes as fitted to motor vehicles.

However, the conditions under which the offshore cranes have to operate are completely different from those of mobile cranes mounted on motor vehicles. For example, the offshore j i 20 cranes have to unload ships which, especially in rough weather, can perform strong movements relative to the fixed drilling rig. As a result of these special working conditions, it has therefore proved necessary to regularly check the alloys of the offshore cranes on the associated bases 25.

In order to carry out such a check on the alloy of an offshore crane, it is necessary with the known offshore crane to raise it completely, disassemble the turntable, remove the balls or rollers from the associated wreaths and the tanning surfaces in this inspect wreaths.

Such a check takes a very long time and is very expensive.

O - 'J v - 2 - _ m = * --- 2-

The object of the invention is to obviate this drawback of the difficult control of the known alloy of the known offshore crane.

To this end, the crane according to the invention has the feature that the alloy with the aid of which the crane is supported on the base and is pivotally formed thereon is formed by a spindle piece projecting under the crane and projecting downwards from it with a radial plain bearing and underside with a combination of a 10 radial plain bearing and a thrust bearing in the base is supported.

The spindle piece can be designed in various ways.

In an effective embodiment of the tap according to the invention, the spindle piece is funnel-shaped from bottom to top, so that the diameter of the radial slide bearing above is larger than that of the radial slide bearing below.

Preferably, in an embodiment of the tap according to the invention, the diameter of the overlying radial slide bearing is two to four times the diameter of the underlying radial slide bearing.

In a particularly efficient embodiment of the. The tap according to the invention is axially slidable over the combination of radial and pivot thrust bearing enclosed in the pedestal, such that the spindle piece can be pushed upwards relative to the pedestal and the cylindrical sliding surface of the spindle piece of the upper radial slide bearing is pushed out of the cooperating, also cylindrical sliding surface 30 present on the base.

The combination of the underlying radial sleeve bearing and the pivot sleeve bearing are easily commercially available and require no maintenance, so that for checking the alloy only the sliding surfaces of the parent -. j j - - 3 - ..

radial sleeve bearing must be inspected. This can easily be done by simply pushing up the spindle piece in the base, so that the sliding surface of the radial bearing above is visible and can therefore be inspected.

The sliding surface of the overlying radial sliding bearing can be made of different materials.

In an embodiment of the tap according to the invention, the sliding surface of the upper radial sliding bearing present on the spindle piece consists of a plastic, and more particularly of Teflon.

Pressing the spindle piece upwards into the base with a tap carried by this spindle piece can be carried out in various ways.

In a preferred embodiment of the crane according to the invention, the spindle piece can be pushed up from the base by means of a hydraulic cylinder to control one or both sliding surfaces of the overlying radial | plain bearing. ; j

In an effective embodiment of the tap according to the invention, the spindle piece is in the pushed-up position with parts of the spindle piece and the base lying next to the co-operating sliding surfaces of the radial sleeve bearing above and on the base in radial direction.

The invention will now be further elucidated with reference to the drawing of an exemplary embodiment.

Fig. 1 is a side view of a crane according to this exemplary embodiment, as applied to offshore platforms (oil rigs); Fig. 2 shows the alloy of the crane according to Fig. 1 on the base, with this alloy in the operating position;

Fig. 3 is an alloy according to FIG. 2 and wherein this alloy is in the pushed-up control position.

""; 7 "7 - 4 - - 4 -. 1 *

As shown in Fig. 1, the crane is formed by a boom, which consists of a base 1, a center piece 2 and a top piece 3 and is pivotally mounted up and down in the main frame 4, which is supported on the base plate 5.

5 With the aid of the top winch 6, the top wire 7 can be put on, whereby the sprinkle 8, as seen in the drawing, is pivoted counterclockwise, whereby the guy wire 9 pulls the boom 1,2,3 upwards.

The crane is supported with the base plate 5 on the base 10 10.

As shown in Fig. 2, the alloy, through which the base plate 5 is supported on and in the base 10, is formed by a spindle piece 11 fitted below the base plate, which is funnel-shaped from bottom to top, and which is an upper radial slide bearing 12 and an underlying combination of a radial slide bearing 13 with a thrust slide bearing 14 in the base 10 are supported.

The radial slide bearing 13 and the thrust slide bearing 14 are commercially available and require no maintenance.

As shown in Fig. 2, the bearings 13 and 14 are axially locked in the base 10 and support the spindle 11 in the vertical direction.

The spindle piece 11 can be slid further into the bearings 12, 13, 14, as shown in Fig. 3, and this by means of the hydraulic cylinder 15, which is mounted on the base 10 by means of the bolts 16. When the plunger 17 of the hydraulic cylinder 16 is moved upwards, the spindle piece 11 with the base plate 5 and the crane mounted thereon is pushed upwards into the bearings 12, 13 and 14 until the plastic sliding surface 18 of the radial slide bearing above 12 has come above the cooperating sliding surface 19 located on the base 10, so that in this position the sliding surface 18 can be checked and, if necessary, bearing material can be changed. As shown in Fig. 3, the spindle in the pushed-up position in the base remains supported by the underlying combination of the radial / thrust plain bearing 13,14 and by supporting the spindle portion located adjacent to the sliding face 18 against the sliding surface 19 of the base 10.

ft SS Λ * Ί -Λ V · Ί

ï: "Y y 11 Q.

. ', - · / - Ύ - f-' 'notice, that the spindle can be pushed up from the base using a hydraulic cylinder to check and / or replace one or both sliding surfaces of! enable the parent sleeve bearing.

A crane according to any one of the preceding claims, characterized in that the spindle piece is in the pushed-up position with parts of the spindle piece and the base lying adjacent to the co-operating sliding surfaces of the radial sleeve bearing above and on the base in radial direction.

e - λ - j »-» i j

Claims (6)

1. Crane for use on oil rigs (offshore platforms) and the like, which crane is supported on a pedestal by means of an alloy and is pivotable thereon, characterized in that the alloy is formed by an under-mounted crane and spindle projecting from below, supported at the top with a radial sleeve bearing and at the bottom with a combination of a radial sleeve bearing and thrust bearing in the base. 10 Tap according to claim 1, characterized in that the spindle piece is funnel-shaped from bottom to top, so that the diameter of the radial sleeve bearing above is greater than that of the radial sleeve bearing below. 15 Tap according to claim 1 or 2, characterized in that the diameter of the overlying radial slide bearing is two to four times the diameter of the underlying radial slide bearing. 20 Crane according to claim 1, 2 or 3, characterized in that the spindle piece can be moved axially over the combination of radial and thrust plain bearing enclosed in the base, such that the spindle piece can be pressed up relative to the base and wherein the cylindrical sliding surface of the upper radial sliding bearing present on the spindle piece is pushed out of the cooperating, also cylindrical sliding surface present on the base. 30 Tap according to any one of the preceding claims, characterized in that the sliding surface of the overlying radial sliding bearing on the spindle piece consists of a plastic, more particularly of Teflon. 35 Crane according to one of the preceding claims, characterized by 850 1 7i) 3 _ 2 _