RU130369U1 - PIPING INSULATION COATING UNIT - Google Patents

Abstract

1. The unit for applying an insulating coating to the pipeline, comprising a casing, at least two bobbin holders for accommodating rolls of insulating tape, means for pressing the tape to the surface of the pipeline, a heating unit and a storage device, characterized in that the storage device, which is a system of shafts installed with the possibility of shifting its position relative to each other, it is installed between the body of the assembly and the bobbin holders. 2. The block according to claim 1, characterized in that it is made with the possibility of using tape, on one side of which an adhesive is applied. The block according to claim 2, characterized in that it further comprises a system of guide and roll rolls located inside the housing, said roll system comprising at least six rolls oriented parallel to the pipeline axis and arranged in a circle, with the bobbin holder of the roll being used at the moment tape application is oriented parallel to the axis of the insulated pipeline. 4. The block according to claim 3, characterized in that the rolls are made stationary. The block according to claim 3, characterized in that the rolls are mounted to rotate around their longitudinal axis under the action of a passing tape. The block according to claim 3, characterized in that the rolls are made with the possibility of forced rotation.

Description

The technical solution relates to the field of corrosion protection of metal surfaces, preferably pipeline transport, namely to the field of construction and repair of underground utilities, and can be used to isolate metal surfaces from the combined action of moisture and oxygen, preferably to isolate the surfaces of steel pipelines.

It is known (RU, patent 2218515) a device for applying insulating tape coatings to long sections of a pipeline, comprising a collapsible rotary rotor moving along the pipeline along a helix, during rotation of which the tape is wound from a roll placed on the winding head of the rotor onto the surface of the pipeline.

It is known (RU, patent 2303743) a device for applying an insulating coating to a pipeline containing a detachable rotary rotor made with the possibility of support on the surface of the pipeline with rubberized rollers and having at least one winding head made with the possibility of installing a replaceable roll on it with the original insulation tape, as well as a drive carriage with an electric drive, including an electric motor, gearbox and gears, equipped with support rollers designed to interact with the pipeline m, wherein the drive carriage is connected with the rotor through a rotary linkage. The known device further comprises a primer container equipped with a piston, a dispenser and primer distribution means on the surface of the pipeline, made with the possibility of translational movement of the insulation coating unit along the pipeline, supported on one side by a rotary rotor by means of a pair of wheels, and on the other hand, supported on a pipeline with an insulating coating applied to it, the rotary rotor is made with the possibility of connecting to a source of electrical energy by sliding contacts, on the rotary rotor there are fixed rollers and tape-unwrapping rollers and a heat-insulating casing guiding the tape, made with the possibility of forming a turn of an insulating tape with a diameter exceeding the diameter of the pipeline, and connected by an air duct to a flowing air heater providing heating of the insulating tape from the side of the adhesive, means for distribution of the heated adhesive of the insulating tape over the surface of the pipeline, made with the possibility of fixing the edge of the tape in the month e overlap the previous turn, and the application of tensile forces increasing from the edge of the tape at the point of overlap to the opposite edge of the tape.

A disadvantage of the known technical solutions should recognize the need for frequent and relatively long shutdowns of the process due to the replacement of the roll of insulating tape and the connection of the insulating tape of the spent roll and the insulating tape of a new roll.

As the closest analogue of the developed device, one can recognize (RU, patent 2389942) a machine for applying an insulating coating to the surface of a pipeline containing a unit for applying a fluid component of an insulating coating, in addition, the machine is equipped with a unit for applying tape insulation, which contains at least one drive for tape (roll) materials, made in the form of circumferentially arranged, axially oriented (along the pipe) rollers with the possibility of free rotation, and that the device for guiding and tensioning the tape.

A disadvantage of the known method and the machine intended for its implementation, it should be recognized the need to interrupt the process of insulation of the pipeline for a fairly significant period due to the need to connect to the end of the expended tape a new tape. This drawback is due to the fact that the maximum length of the accumulated tape on the drive, which in fact is an additional turn on axially oriented rollers, is πD of the _pipe + 10-15%, regardless of the diameter of the insulated pipe. That is, with the actual linear speed of the insulation machine - 1 meter / minute, standardized tape width - 225 mm and useful linear movement of the machine 200 mm / per 1 revolution (inter-turn overlap -25 mm), the angular speed of the machine will be about 5 revolutions per minute. This means that the operation of the drive (the time of reeling from the drive of the accumulated tape) will be a maximum of 1/5 minutes or about 12-15 seconds. This is a cycle during which the operator must consistently carry out the following actions: stopping the winding of the ending roll, filling the end of the roll into the gluing mechanism, preparing the beginning of the next roll for gluing, filling the beginning of the next roll into the gluing mechanism, applying glue and spreading the glue over any area , connecting the ends of the rolls, pressing the rolls together, the gluing cycle itself, reinstalling the rolls, starting the winding drive. In such a short time, all these operations are physically impossible. Even if the insulation is carried out with a tape with a width of 450 mm - at a speed of 1 m / min, the drive’s operating time will be about 30 seconds - it’s still extremely difficult to do everything.

The technical result obtained by the implementation of the developed device is to reduce the time loss for stopping the system for applying an insulating tape to the surface of the pipeline due to the need to connect the ends of the tape of the used roll and a new roll.

To achieve the specified technical result, it is proposed to use the developed block for applying an insulating coating to the pipeline. The developed block comprises a casing, at least two bobbin holders for accommodating rolls of insulating tape, means for clamping the tape to the surface of the pipeline, a heating unit and a storage device, the storage device being a system of shafts installed with the possibility of shifting its position relative to each other, is installed between the body of the assembly and the bobbin holders.

In the most preferred embodiment, the storage device and bobbin holders are mounted on an arm mounted on the housing of the device used, on the side of the pipeline. This facilitates the combination of the speed of movement of the installation of applying the tape on the pipeline and rolls with the drive. However, an implementation option is not ruled out when the drive and bobbin holders are placed on the platform of a self-propelled vehicle moving parallel to the pipeline.

The developed block can be used in conjunction with an insulating tape, on one of the surfaces of which an adhesive layer is applied, as well as in combination with a tape without adhesive.

In the first case, the block may additionally contain a system of guide and roll rolls located inside the housing, and this roll system contains at least six rolls oriented parallel to the axis of the pipeline and arranged in a circle, while the bobbin holder of the roll used is oriented parallel to the axis of the insulated the pipeline. The rolls can be made as stationary, and with the possibility of rotation around their longitudinal axis under the action of a passing tape, as well as with the possibility of forced rotation.

In a second embodiment, the block may further comprise an assembly for applying the fluid component of the insulation coating, as well as a device for guiding and tensioning the tape. The machine for applying the mastic layer preferably contains a metering unit made in the form of a cylindrical heated chamber, forming an annular gap between it and the surface of the pipeline. The tape insulation applicator preferably comprises a housing, a rotor and at least one device for installing a roll with an insulating tape, wherein the device for installing a roll is fixed to the housing. Also, the machine can be equipped with a rolling device.

The following is an example of the operation of the device according to the first embodiment.

A thermoplastic two-layer tape is turned onto a pre-cleaned surface of the pipeline along a helix, facing a layer of polymer adhesive from the surface of the pipeline. In the process of winding the insulating tape from a removable roll mounted on a bobbin holder oriented parallel to the axis of the pipeline, the tape oriented with an adhesive layer from the surface of the insulated pipe is passed through a drive containing a set of shafts oriented parallel to each other. Initially, when winding the first turns of the roll, the drive shafts are removed from each other, creating a supply of tape wound from the roll. After the drive, the tape is passed inside the casing along the outer surface of the rolls installed around the insulated surface of the pipeline. Upon reaching the surface of the last roll, a two-layer tape is deployed with an adhesive layer to the insulated surface of the pipeline. In one of the sections of the trajectory of the tape, the adhesive layer is heated, preferably by a stream of hot air. Then, with a heated adhesive layer, press the tape to the previously cleaned surface of the pipeline with an overlap with the previous turn and press the tape to the pipe in order to remove air bubbles remaining between the tape and the surface of the pipe. The tape is then heat shrinkable, preferably by the action of a stream of hot air. When winding the last turn from the roll, the drive shafts begin to move to each other, releasing the tape for winding on the surface of the pipeline. At this time, the end of the tape of the finished roll is connected to the tape of the removable roll in any technologically acceptable manner. The connection process takes place either without stopping the process of applying tape to the surface of the pipeline, or with a stop for 12-15 seconds.

In this case, a double-layer tape with a heat-shrinkable base “NRL-ST60” 450 × 2.0 TU 2293-001-29200582-02 and TU 2245-002-29200582-2007 is usually used. When changing the roll, a mechanical connection is made between the end of the insulating tape of the previous roll and the beginning of the insulating tape of the next roll by gluing, which ensures almost continuous winding process.

The insulating coating unit is mounted on the pipeline by any known method, and the installation method mainly depends on the additional equipment used.

The developed site for applying an insulating coating to an extended section of the pipeline can be used as follows.

Before the start of the movement of the insulating coating unit, the edge of the tape, previously unwound from the removable roll, is passed out with an adhesive layer through the drive shafts, and then from the outside of the roll system, on the last roll, they are turned with an adhesive layer towards the insulated pipeline, pulled to the surface of the insulated pipeline and fixed on the pipeline. Turn on the supply of warm air from the site to heat the adhesive layer. Moving the insulation application unit along the pipeline, unwind the tape from the roll, winding it simultaneously on the surface of the pipeline. In this case, the drive shafts move away from each other, creating a reserve tape. The tape, rotated by a layer of heated adhesive to the surface of the pipeline, at the moment of contact with the specified surface, is affected by the adhesive distribution means on the outer surface side. In this case, the adhesive is distributed over the surface of the pipeline until it is filled with irregularities and air is displaced while fixing the edge of the tape at the place of its overlap to the previous turn with the application of tensile forces increasing from the edge at the overlap to the opposite edge. The fixing of the edge of the tape at the overlap to the previous turn is preferably provided by pressing it with elastic conical bushings, the axis of rotation is oriented perpendicular to the edge of the tape. When pressure is applied to the outer surface of the tape, it stretches to the sides of the tops of the cones of the bushings. Then the action of hot air or radiation method produce heat-shrink tape. When winding the last turn of the roll, the drive shafts begin to move towards each other, freeing up the tape supply and ensuring the continuity of the thermal insulation process.

When changing a roll, the end of the insulating tape of the previous roll is mechanically connected to the beginning of the insulating tape of the next roll. When implementing the full working cycle of the developed device for applying an insulating coating, a guaranteed displacement of air from irregularities on the surface of the pipeline is obtained with simultaneous filling with adhesive and tight fitting of the relief of the surface of the pipeline, which improves the quality of insulation of the pipeline.

In particular, when using the developed technical solution and the NRL-ST60 thermoplastic two-layer tape 225 × 1.8 TU 2293-001-29200582-02, a uniform high-quality insulating coating was obtained without stopping the process for more than 15 seconds without stopping the process for more than 15 seconds with cohesive separation from the polymer coating at the overlap A _coh. = 60-65 N / cm and with cohesive separation on a metal surface with preliminary priming A _coh. = 70-75 N / cm.

Claims (6)

1. The unit for applying an insulating coating to the pipeline, comprising a casing, at least two bobbin holders for accommodating rolls of insulating tape, means for pressing the tape to the surface of the pipeline, a heating unit and a storage device, characterized in that the storage device, which is a system of shafts installed with the possibility of shifting its position relative to each other, it is installed between the body of the assembly and the bobbin holders. 2. The block according to claim 1, characterized in that it is made with the possibility of using tape, on one side of which an adhesive is applied. 3. The block according to claim 2, characterized in that it further comprises a system of guide and roll rolls located inside the housing, said roll system comprising at least six rolls oriented parallel to the axis of the pipeline and arranged in a circle, with the bobbin holder used at the time of application of the tape is oriented parallel to the axis of the insulated pipeline. 4. The block according to claim 3, characterized in that the rolls are made stationary. 5. The block according to claim 3, characterized in that the rolls are mounted to rotate around their longitudinal axis under the action of a passing tape. 6. The block according to claim 3, characterized in that the rolls are made with the possibility of forced rotation.