This invention relates to a cleaning tool. More particularly, it relates to a method of cleaning an area located inside a restriction by means of a mechanical cleaning tool, the restriction having a smaller cross-sectional dimension than the area to be cleaned. The invention also includes a device for practising the method.

When, for example, components in a petroleum well are being cleaned, it happens relatively often that the area to be cleaned is inside a restriction which has a smaller diameter than the cleaning area.

An example is a downhole safety valve which needs to be cleaned of deposits, and wherein it is necessary to pass through a smaller opening to get in to the sealing area of the valve. It may also be relevant to clean portions of a pipe where the portion is inside a restriction, and where a plug is to be set, for example.

According to the prior art, brushes with relatively long, soft brushing elements are often used, which may result in uncertain effect of the cleaning operation.

The invention has for its object to remedy or reduce at least one of the drawbacks of the prior art .

The object is achieved in accordance with the invention through the features which are specified in the description below and in the claims that follow.

A method of cleaning an area located inside a restriction by means of a mechanical cleaning tool is provided, the

restriction having a smaller cross-sectional dimension than the area to be cleaned, the method comprising:

- moving the cleaning tool into or through the restriction;

- moving a mechanical cleaning body radially out into abutment against the area to be cleaned;

- rotating the cleaning body relative to the area to be cleaned;

- moving the mechanical cleaning body radially in from the area which has been cleaned; and

- moving the cleaning tool out from the restriction.

The method thereby makes it possible also for areas located inside a restriction to be cleaned mechanically in a

satisfactory manner.

The method may further include activation of the cleaning tool by means of a rotary adapter which includes an actuator for the axial displacement of a pushrod, the rotary adapter being connected to a wireline tractor.

The cleaning tool is thus adapted to known equipment

available at many points of application.

The method may be practised by means of a cleaning tool which includes a tool housing and a mechanical cleaning body arranged to clean the area in question by means of mechanical contact and relative movement between the cleaning body and an area to be cleaned, and which is characterized by the cleaning body being arranged on an attachment in which at least the part of the attachment holding the cleaning body is radially movable between a retracted, idle position and an extended, active position.

The distance between the centre axis of the cleaning tool and the cleaning body, when the cleaning body is in its extended, active position, is larger than half the cross-sectional dimension of a restriction located upstream of the area to be cleaned .

A pushrod may be connected to a cone which abuts against a corresponding first inclined plane internally on the

attachment, an axial displacement of the cone in the

direction of the free end portion of the housing bringing the attachment with the cleaning body to be moved radially outwards .

A compression spring which may be connected between the cone and the tool housing may be arranged to move the cone to its initial position.

The attachment may be formed with an external second inclined plane which is arranged to abut against an internal third inclined plane in the tool housing, an axial displacement of the attachment in the direction of the leading end portion of the tool housing bringing about an inward radial displacement of the cleaning body.

A guide ring which may be mounted on the rear portion of the tool housing may have been given a cross-sectional dimension that is larger than, for example, the cross-sectional

dimension of the restriction.

Thereby the guide ring may be landed on, for example, a particular shoulder to positively position the cleaning tool in a particular position relative to the shoulder.

The tool housing may be connected to a rotary adapter which is provided with an actuator, and the actuator may be connected to the pushrod.

The rotary adapter may be connected to a wireline tractor.

The method and the device according to the invention make it possible for areas that are inside a restriction to be cleaned relatively easily by means of a mechanical cleaning tool .

In what follows, an example of a preferred method and embodiment is described, which is visualized in the

accompanying drawings, in which:

Figure 1 shows, in perspective, a cleaning tool according to the invention, the cleaning tool being connected to a rotary adapter;

Figure 2 shows, in section, the cleaning tool of figure 1, the cleaning bodies being in their passive positions ;

Figure 3 shows the same as figure 2, but he cleaning tools are in their active positions; and

Figure 4 shows the same as figure 2, but after the cleaning bodies have been retracted after having been stuck in their active positions.

In the drawings, the reference numeral 1 indicates a cleaning tool which is connected to a rotary adapter 2 and inserted into a pipe 4 in the ground.

The cleaning tool 1 includes a tool housing 6 which is connected to the rotary axle 8 of the rotary adapter 2 and which has been given a rounded conical shape at its opposite leading end portion 10. The tool housing 6 is formed with four longitudinal cut-outs 12, there being, arranged in each of the cut-outs 12, an attachment 16 for a respective cleaning body 18, here in the form of relatively stiff-bristled brushes.

A pushrod 20, stopping against an actuator 22 in the rotary adapter 2, extends in part within a bore 24 in the tool housing 6, see figure 2. The pushrod 20 is connected to a cone 26 which abuts against a first inclined plane 28 on the inside of the attachments 16. A compression spring 30 is arranged between the cone 26 on the opposite side relative to the pushrod 20 and the tool housing 6 near the leading end portion 10.

Each of the attachments 16 is formed with an elongated resilient portion 32 which is attached to the tool housing 6 by means of a rupture body 34. In its opposite end portion, the attachment 16 is provided with an external second

inclined plane 36 which is arranged to cooperate with an internal third inclined plane 38 in the tool housing 6.

The cleaning bodies 18 are attached to the attachment 16 by means of a clamp 40 and clamping bolt 42.

A guide ring 44 has been slipped over the tool housing 6 and the resilient portion 32 at the rupture bodies 34.

The cleaning tool 1 with the rotary adapter 2 is moved into a pipe 4 in which there is a restriction 46, here in the form of a narrowing of the pipe 4.

In figure 2, the cleaning tool 1 has partly been moved through the restriction 46, the cleaning bodies 18 being at an area 48 which is to be cleaned.

When energy is supplied to the rotary adapter 2, the rotary axle 8 and the cleaning tool 1 are rotated about their longitudinal axis 50 while, at the same time, the actuator 22 moves the pushrod 20 and cone 26 in the direction of the leading end portion 10.

The displacement of the cone 26 has the effect of tightening the compression spring 30 while, at the same time, the cone 26 is being moved along the first inclined planes 28,

whereby, the attachments 16 with their respective cleaning bodies 18 are moved radially from an idle position into an active position, see figure 3.

The bearing force and rotation against the area 48 to be cleaned has the effect of a reliable cleaning operation being performed .

When the cleaning operation has been carried out, the rotary adapter 2 is stopped. The compression spring 30 moves the cone 26 towards its initial position, whereby the resilient portion 32 turns the respective cleaning bodies 18 into their passive positions.

If one or more of the attachments 16 with cleaning bodies 18 should have got stuck in its/their active position(s), the rupture body 34 may be ruptured by moving the tool housing 6 in the direction of the rotary adapter 2. The second inclined planes 36 of the attachments 16 are thereby moved against the third inclined planes 38 in the tool housing 6. This has the effect of enabling the attachments 16 and the cleaning bodies 18 to be pushed radially inwards at relatively great force. The guide ring 44 prevents the attachments 16 from falling out of the tool housing 6, see figure 4.