NO156145B - DEVICE FOR MEASURING THE SOIL LOAD IN A HEAVY PLATFORM. - Google Patents

Description

The present invention relates to a device for measuring the column load in a liftable platform, the platform comprising several movable units which have drive wheels in engagement with racks attached to the columns, each of the movable units comprising at least one upper support device and at least one lower support device, and the upper support devices are supported by support arms attached to the platform, when the columns are on the bottom and the platform is raised above the water, the lower support devices being supported on the platform to keep the columns raised when the platform floats on the water.

It is known that for platforms of this type, used for offshore drilling, there are problems with the bearing capacity of the bottom under the feet of the pillars. For this reason, it is known to apply a high preload to each of the columns during the assembly of the platform, to ensure that the base has sufficient bearing capacity.

The simplest method of achieving this preload consists in reducing the load on some of the columns by

raise these with the help of the movable units, which causes an increased load to be transferred to the other columns.

In this case, it is necessary to be able to measure the load on each column.

During use of the platform, it is advantageous to be able to maintain the same load on all the columns, by carrying out a regulation, by lowering the movable units for the columns that are too heavily loaded. In order to do this, however, it is necessary to be able to measure the load on all the columns continuously.

A platform of this type is known from French patent application 2,312,603, in that between the upper surfaces of the movable units and the associated support arms jacks with cylinders are arranged which are attached to the support arms.

At this platform, the support arms are weak in a part where they

are active, and furthermore the load on the jacks is very large due to the elastic deformations of the support arms, the manufacturing tolerances and the clearance between the columns and their guides.

The purpose of the present invention is to arrive at

to a device as indicated at the outset, which is not affected by the above-mentioned disadvantages.

According to the invention, this is achieved with a device which is characterized by the fact that it comprises, between each upper support device and the associated support arm, a hydraulic cushion placed in a housing which is controlled by. the guides, as the guides and the housing are fixed or to the support arm and the upper support device, and is designed to make it possible for the column to assume a certain inclined position in relation to the platform, and for the hydraulic cushions that are connected to all the upper support devices to the movable units on a column ef connected to each other and also connected to means that are sensitive to the fluid pressure in the cushions, as the means show values that represent the load on the column in question.

The hydraulic cushions for the same column and the housing connected to the guides can easily be placed between the lifting mechanism

the nism and the support arms without requiring any major movement of the support arms. Furthermore, they enable a knee joint function

ning that allows the column to adopt a certain oblique direction in relation to the platform.

The pressure-sensitive means may be a manometer which is graduated

in weight units.

When the amount of fluid inside the cushion is constant, the contact surface between the cushion and the support arm is practically independent of the variations in load. Consequently, the load varies mainly linearly with the pressure, and the manometer can therefore be a conventional manometer with linear graduation.

When, on the other hand, the cushions are connected to a hydropneumatic accumulator, the load does not vary linearly with the pressure, but the variation curve can be determined experimentally, because the pressure values either have to be converted to weight units, manometers have to be graduated non-linearly in weight units, or the values found after the pressure/weight curve have to vary so that it is possible to read the weight on a linear graduated scale.

The invention will appear more clearly from the following description, with reference to the attached drawings. Fig. 1 schematically shows a platform with columns which enables the use of a device according to the invention.

Fig. 2 shows a column equipped with movable units.

Fig. 3 shows a movable unit seen from the side.

Fig. 4 shows on a larger scale a vertical section through the components which are surrounded by a hydraulic cushion for the movable unit shown in fig. 3. Fig. 5 shows a horizontal section through the same components as shown in fig. 4. Fig. 6 shows a hydraulic diagram for the device according to the invention. Fig. 1 schematically shows a platform seen from above.

The platform 1 comprises four cylindrical columns 2 which can be moved vertically in relation to the platform.

A support arm 3 is arranged on each side of each column 2.

Fig. 2 shows a column with two moving units.

The column 2 has two racks 4, attached to the column, and for each rack 4 is an associated, movable unit 5.

The movable unit 5 is seen from the side in fig. 3.

The movable unit 5 comprises drive wheels 6 which cooperate with the elements 7 on the racks 4.

Two elastic cushions 8 made of steel and rubber are arranged at the top of the movable unit 5, with each cushion ending in an upper support part 9.

The movable unit 5 has on its lower part two lower contact surfaces 10 arranged to lie against bases 10' attached to the platform 1.

The support arm 3 which is connected to each movable unit 5 has the form of a portal which has its lower ends attached to the platform 1.

A hydraulic cushion is arranged between each upper support device 9 and the support arm 3. There are thus four cushions for each column.

The area at each pad is shown in more detail in fig. 4, which shows a vertical section along the line IV-IV in fig. 5, and fig. 5 shows a horizontal section along the line V-V in fig. 4.

The cushion 11 is arranged in a protective housing 12 attached to the upper support device 9. Guides 13 are attached to the support arm 3 located at a certain distance from the sides of the housing 12.

The housing 12 comprises an opening at the bottom, a flexible hydraulic connection 14 being passed through the opening. The hydraulic cushions shall not be described in more detail, as they are of a type described in French patent application 2,305,381.

Fig. 6 shows the hydraulic connections for the device according to the invention, for a single column.

The pads 11 are connected two by two by means of a line 15 equipped with two valves 16, each connected to a pad.

The two lines 15 which connect two cushions are interconnected by means of a line 17 equipped with two valves 18, each connected to a pair of cushions 11.

The line 17 is connected via a valve 19 to a manometer

20, via a valve 21 to a supply of liquid under pressure (not shown) and via a valve 22 to a hydropneumatic accumulator 23.

The operation of the device according to the invention is as follows.

When the platform has been brought to the place of use by floating, the cushions 11, if this has not already been done, are pumped up to a relatively low pressure (e.g. 10 bar, when the cushions are 1m x 1m).

The columns are lowered by disconnecting the drive wheels 6. When the feet of the columns are in contact with the bottom, the drive wheels are set:-. 6

in rotation, so that the movable units 5 are brought up. First, the support devices will leave the bases 10', due to the elasticity of the cushions 8 and 11, and this causes the platform 1 to be raised in relation to the column.

When the platform has reached a sufficient height, the drive wheels are locked.

It then continues with preloading each column by loading the column with e.g. twice the normal load, by lowering the movable units to the other columns. The manometer 20 can be graduated in tonnes, and enables direct reading of the load.

When this operation is finished, the position of the movable units is adjusted so that the load is the same for each column.

This adjustment is repeated every time the manometer shows variations in load.

When the device comprises a hydropneumatic accumulator 23, it is possible to dampen shocks in each column (the valve 22 is open), and the manometer 20 can show variation in the pressure, which can be converted into variation in the load using the pressure-load curve which depends on the hydropneumatic accumulator, and which can be determined experimentally. Naturally, the scale on the manometer can be graduated directly in tons, and if desired, this graduation can be linear, and the signal can vary as a function of the pressure-load curve, and furthermore, the measured value can be transmitted and displayed. The valve 19 can be opened more or less to stop the vibrations which have a feedback effect on the manometer 20.

When it is desired to vary the properties of the accumulator 23, the valves 18 and 19 are closed, and the valves 21 and 22 are opened to let the desired amount of fluid into the accumulator.

During the measurement, the valves 16 and 18 are constantly open, but when a pad is to be removed, the associated valve 16 is closed, so that the manometer 20 measures the average pressure in the other three pads.

Claims (1)

Device for measuring the column load in a liftable platform (1), the platform comprising several movable units (5), with drive wheels (6) in engagement with racks (4) attached to the columns (2), which movable units (5) each comprise at least one upper support device (9), which bears against support arms (3) attached to the platform (1) when the columns (12) are on the bottom and the platform (1) is raised above the water, characterized in that it comprises, between each upper support device (9) and the associated support arm (3), a hydraulic cushion (11) placed in a housing (12) guided by guides (13), the housing (12) being attached to the upper support device (9) and the guides ( 13) is attached to a support arm (3), and is arranged to enable the column (2) to assume a certain inclined position in relation to the platform (1), and that the hydraulic cushions (11) associated with all the upper support devices (9) until the movable units (5) on a column (2) are connected to each other and pressure-sensitive means (20) for measuring the pressure inside the cushions (11), to display a value representing the load on the relevant column (2).