NO743826L - - Google Patents

Description

This invention relates to an apparatus for controlling a chain.

Guide rollers for chain drums comprising pulleys for guiding chains are known. In the case of an anchor chain for an ocean-going ship or a rig where the chain is held by a windlass, the tension in the chain must not be allowed to

exceed a maximum value.

From German Offenlegungschrift 2239183 it is known to retain the chain at a chain drum guide roller by using a hydraulically operable locking hook on the guide roller.

Known guide rollers for chain drums have the disadvantage that they do not give any indication of the tension in the chain.

According to the present invention, a chain guide apparatus is provided which has a chain guide pulley mounted on a support and a locking hook that prevents rotation of the pulley, characterized in that an arm is rotatably mounted on the support, that the pulley and the locking hook are mounted on the arm, and that a load-measuring device is mounted between the arm and the support so that rotation of the arm in one direction is prevented.

With this device it is possible to obtain a reading of the chain tension from the load measuring device both when the ratchet is engaged and when it is not engaged.

In order for it to be possible to use the same scale calibration for both of these conditions, it is advantageous that the equation A/C = 2 cos a is largely satisfied, where

A = the vertical distance between said first axis of rotation and the intended line of attack of the tensile force in the part of the chain extending from the pulley in the direction in which the ratchet prevents rotation of the pulley, when the ratchet is engaged,

C = the vertical distance between said first axis of rotation and the intended line of attack of the resultant of the tensile forces in the respective parts of the chain extending from the pulley, with

ratchet out of engagement, and

a = half of the angle between these chain parts, when the ratchet is out of engagement.

In order for the invention to be better understood and easier to carry out, an embodiment example will be described in the following with reference to the drawings where: Fig. 1 shows a side view of a chain steering device for an anchor chain for a ship or a rig, with a locking hook for the device in the engaged position ; and

fig. 2 shows a side view of the device, but with the catch out of engagement.

The device shown in the drawings is assumed to be mounted on the edge of

a platform 1 of a sea going rig and controls an anchor chain.

2 which extends downward to the apparatus from a winch (not shown) to the left of each figure, and then runs vertically downward over the edge of the platform. The apparatus comprises two end supports 3 (of which only one is seen) which are firmly attached to the platform 1 by some form of brackets (not shown). On these two supports 3 is mounted an end bearing 4 (of which only one is visible) for a pivot 5 with horizontal axis 6. On this pivot 5 is mounted an arm comprising two parallel, largely triangular plates 7 (of which only one seen) which extends vertically on the axis 6. Each plate 7 includes a projecting bracket 8 on the outside. Between each bracket 8 and the nearby support 3, a load gauge 17 is mounted whereby the arm 7, 8 is supported on the support part 3 so that clockwise rotation about the axis 6 is prevented. Between the corners of the largely triangular plates 7 distant

from the pin 5, a pivot pin 9 is mounted which has a horizontal axis 18 and to which a part of a hydraulically yielding locking hook 10 is attached according to Norwegian patent application no. 2827/72.

A hydraulic piston-and-cylinder device 13 is attached to the pin 9 by means of a crank 11, which device 13 can move the catch 10 between its engaging positions as shown in fig. 1 and its position out of engagement as shown in fig. 2. Between other corners of the largely triangular plates 7, a shaft 13 extends which has a horizontal axis 16 and on which a chain guide pulley 14 is freely rotatably mounted which

is equipped with a locking ring 15 whose teeth can engage with the locking hook 10 to prevent rotation of the pulley 14 in a clockwise direction.

When the chain steering apparatus is in use, the result obtained from the load gauge 17 is transferred to a remote control station (not shown) from which the winch and the device 12 can be operated. It is an advantage if the arrangement of the apparatus is such that the total force F exerted on the strain gauge for a given tension in the chain 2., and thus the output shown on a gauge in the f iron control station connected to the strain gauge, is not indicated by whether the apparatus is in the position shown in fig. 1, i.e.

with largely no tension in the chain part which extends upwards from the pulley, but with the given tension T in the chain part which extends vertically downwards from the pulley, or if the apparatus is in the position shown in fig. 2, i.e. with the given tension T in both parts of chain 2.

It can be seen from fig. 1 that in the position shown here F =

(A x T)/B, where

A-=the perpendicular distance between the axis 6 and the intended line of attack for the tensile force T in the part of the chain that extends vertically downwards from the pulley, and B = the perpendicular distance between the axis 6 and the line of attack for the force F.

From fig. 2 it can also be seen that in the position shown there F = (C x R)/B, where

R = the resultant of the tensile forces T through the axis 16, and

. C = the perpendicular distance between axis 6 and the intended line of attack for the resultant R.

Since R = 2T cos a, where

a = half of the angle between the chain parts,

it follows that A/C = 2 cos a for the relevant requirement to be satisfied.

The described apparatus has several advantages. Firstly'

the arrangement of a yielding catch 10 means that the chain can be released in an emergency, and that such release can be carried out from a remote control station regardless of the stretch in

"the chain. For others, the arrangement allows the use; of common calibration for the gauge connected to the load gauge which registers the anchorage stretch continuously and gives the same relative results regardless of whether the device acts as a chain stopper (fig. 1) or as a chain drum guide roller (fig. 2). For thirdly, any suitable standard winch can be used with this device.Fourthly, there is no possibility of damage to the pawl link because the pawl 10 engages with the teeth of the pawl ring 15 and does not rest directly against the links of the chain 2.

Claims (3)

1. Chain steering device with a chain steering pulley mounted on a support and a locking hook that prevents rotation of the pulley, characterized in that an arm (7) is rotatably mounted on the support (3), that the pulley (14) and the locking hook (10) are mounted on the arm (7), and that a load measuring device (17) is mounted between the -arm (7) and the support (3) so that rotation of the arm (7) in one direction is prevented. 2. Chain control device according to claim 1, characterized in that A/C = 2 cos a, where A is the perpendicular distance between the axis of rotation (6) of the arm (7) and the line of attack of the tensile force, with the catch (10) in engagement, in the part of the chain (2) that extends from the pulley (14) in the direction that r the ratchet (10) prevents rotation of the pulley (14), C is the perpendicular distance between the axis of rotation (6) of the arm (7) and the line of attack of the resultant (R) of the tensile forces, with the ratchet (10) out of engagement, in the respective parts of the chain (2) extending from the pulley (14), and a is half the angle between these two parts of the ..chain (.2) with the catch (10) out of engagement. 3. Chain control device according to claim 1, characterized in that said load measuring device (17) comprises two load meters (17) on the respective sides of the arm (7) and at the same distance from the axis of rotation (6) of the arm (7) as from each other.