RU2100687C1 - Method and device for facing metallic pipes with thermoplastic - Google Patents

Abstract

FIELD: pipe line engineering. SUBSTANCE: blank made of a thermoplastic is introduced into a pipe. The blank is then heated and pressed to the inner side of the pipe by a positive pressure. EFFECT: simplified method. 7 cl, 6 dwg

Description

 The invention relates to methods for protecting metal pipelines from corrosion and can be used in oil and other industries where pipelines are used for pumping oil and other aggressive liquids.

 A known method of lining metal pipes with a thermoplastic coating, comprising introducing inside of these pipes a workpiece of thermoplastic material in the form of a pipe, pressing the workpiece to the surface of the pipe when heating sections of the workpiece with a gradual movement of the heating zone (ed. St. USSR N 678253, class F 16 L 58 / 16, 1979). Due to the unevenness of the inner diameter of the metal pipe, a polyethylene billet of a pipe with a slightly smaller diameter is used than a metal pipe.

 This leads to the need to use high enough pressure to ensure that the workpiece is pressed against the inner surface of the metal pipe, which complicates the method. The need for significant deformation in this thermoplastic material leads to the fact that the lining does not have high reliability.

 After the implementation of the method, due to the difference in the diameter of the lining, the pipes have a reduced throughput.

 The task was to develop a simpler method of lining metal pipes, providing increased reliability of the lining and increase the throughput of the pipeline.

 This problem was solved by the present invention.

 In a method for lining metal pipes with a thermoplastic coating, comprising inserting a preform of thermoplastic material in the form of a pipe into these pipes, pressing the preform to the surface of the pipe when heating sections with a gradual movement of the heating zone, according to the invention, a preform is used in the form of a pipe with an outer diameter corresponding to the inner diameter metal pipe, before introducing into the metal pipe, the billet is heated, exposing in a heated state a reversible hood with a decrease in diameter, to room temperature in the extended state, and after the preform is introduced into the metal pipe, it is pressed to the surface of the pipe when the preform is heated from one end of the pipe to the other to a temperature not lower than the initial heating temperature.

 Simultaneously with a reversible hood, the workpiece can be reversibly bent radially along its entire length in one or more places, then it is cooled to room temperature in an extended and curved state.

 In a preferred embodiment of the method, the preform sections are heated after it is inserted into a metal pipe, and the preform is pressed against the pipe surface, an elastic tube is inserted into one end of the preform, and then liquid or gas heated to a temperature is pumped from this end into the preform heating the workpiece, and push the elastic tube from one end of the pipe to the other.

 In a metal pipe, in particular, heated water can be pumped.

In a preferred embodiment of the method, the workpiece is subjected to a reversible hood with a reduction in diameter of 6-12%
Preferably use a preform of polyethylene, and its heating is carried out to 50 to 100 ^o C.

 This method can be implemented using another invention - a device for lining metal pipelines with a thermoplastic coating.

 A device is known for lining metal pipelines with a thermoplastic coating, including a cork made of an elastic material (rubber). This device does not provide high-quality pressing of the lining thermoplastic material to the inner surface of the metal pipe, since rubber is a sufficiently rigid material and can pass only inside a sufficiently heated region of thermoplastic material, and therefore, it requires additional pulling inside the workpiece with a special cable. If the heated part of the billet has cooled down and the cork remains in it, it is very difficult to remove it from the pipe.

 The task was to create a device for lining metal pipelines, providing high-quality pressing of the lining material to the inner surface of the metal pipe.

 The problem is solved in that the device for lining metal pipelines with a thermoplastic coating, comprising a plug made of an elastic material, according to the invention, contains two plugs connected by a flexible connection, the stiffness of the first plug being less than the second, and the second plug containing a through hole.

 In a preferred embodiment of the device, the first plug is made of polyurethane foam, and the second is made of rubber.

 In a preferred embodiment, the plugs are cylindrical.

 The sign "use a workpiece in the form of a pipe with an outer diameter corresponding to the inner diameter of the metal pipe" means that use a workpiece with an outer diameter equal to, with a small tolerance (1 2 mm), the diameter (smallest) of the metal pipe.

 Reversible hood means hood with strains that completely disappear (the original shape is restored) when the temperature rises to the temperature of the highly elastic state of the polymer used.

 Using a billet in the form of a pipe with an outer diameter corresponding to the inner diameter of the metal pipe improves the throughput of the lined pipeline, improves the quality and reliability of the lining by improving its fit to the inner surface of the metal pipe.

 Heating the preform and reversible drawing of the latter with a decrease in diameter, followed by cooling to room temperature in the elongated state allows the introduction of the preform into a metal pipe.

 Subsequent heating of the workpiece from one end of the pipe to the other allows you to gradually restore the shape of the workpiece, pressing its sections from the inside with pressure. In this case, the preloading of the sections takes place from one end of the pipe to the other, which improves the quality of the lining.

The temperature of the heating during drawing and subsequent heating should provide rapid reversible deformation of the workpiece and their removal and, therefore, should correspond to the temperature of the highly elastic state of the polymer from which the workpiece is made. For billets of polyethylene, this temperature is 50 100 ^o C.

 When implementing this method, simultaneously with the reversible drawing of the billet, it is possible to bend reversibly in the radial direction along its entire length in one or several places, then cool it to room temperature in an extended and curved state. This preparation of the workpiece makes it easier to introduce the latter into a metal pipe.

 The following method can be implemented for heating sections of the workpiece after introducing it into a metal pipe, as well as pressing the workpiece to the surface of the pipe: an elastic tube is introduced into one of the ends of the workpiece, and then liquid (for example, water) or gas is pumped from this end into the workpiece under pressure. heated to the heating temperature of the workpiece, and advance the elastic tube from one end of the pipe to the other. This allows for uniform and high-quality preloading of the workpiece to the inner surface of the metal pipe.

 The proposed design of a device for lining metal pipelines allows the promotion of such a device inside the workpiece due to the pressure of the liquid (gas) injected into the pipe.

 The stiffness of one of the plugs is relatively small, and this plug under the pressure of the medium pumped into the pipe gradually moves into the cold part of the workpiece. The stiffness of the other cork is higher, and this cork moves in the heated part of the pipe, pressing the workpiece to the inner surface of the metal pipe. There must be a through hole in the rigid plug to allow the medium to penetrate to the less rigid plug for the latter to move. A flexible connection between the plugs is necessary so that a less rigid plug pulls a stiffer one behind itself.

 The cork stiffness ratio can be realized if the first cork is made of a polyurethane foam sponge and the second one is made of rubber.

 If the pipes are cylindrical, it is preferable to make the cork cylindrical.

 The proposed method is characterized in that a preform is used in the form of a pipe with an outer diameter corresponding to the inner diameter of the metal pipe, before being introduced into the metal pipe, the preform is heated, subjected to a reversible hood in a heated state with a decrease in diameter, followed by cooling to room temperature in the extended state, and after the introduction of the workpiece into a metal pipe presses it to the surface of the pipe when heating the workpiece from one end of the pipe to the other to a temperature not lower than the temperature of the first initial heating.

 The proposed device is characterized in that it contains two tubes connected by a flexible connection, the rigidity of the first tube being less than the second, and the second tube containing a through hole.

 A block of mutually related features is not described in the patent and scientific literature, according to which, after the introduction of a previously elongated and cooled pipe of thermoelastic material into the metal pipe, the latter is heated sequentially from one edge to the other to the initial heating temperature and acts on the heated areas from the inside a polyethylene pipe by pressure pressing it to a metal pipe.

 A block of interrelated features has also not been described, according to which, to give an optimal shape to the tubular material, two stoppers connected by a flexible connection made of elastic material are used, the stiffness of the first stopper being less than the second.

 The invention can be used in oil refining and other industries where pipelines are used for pumping oil and other aggressive liquids. They allow you to increase the tightness of the fit of the polyethylene lining to the pipe and, as a result, the throughput of the pipeline and the effectiveness of its protection against corrosion. Thus, the claimed proposals satisfy the patentability criterion of "industrial applicability".

 In FIG. 1 shows a general diagram of a reversible hood of a polyethylene pipe; in FIG. 2 shows a part of the assembly I (die) of a device for reducing the diameter and drawing of a heated polyethylene pipe; in FIG. 3 shows a section AA of a polyethylene pipe after its reversible deflection in the radial direction in FIG. one; in FIG. 4 shows the introduction of an elongated and cooled polyethylene pipe into a metal pipe; in FIG. 5 shows the heating of a polyethylene pipe inserted into a metal pipe and the effect on the heated sections of the polyethylene pipe by pressure pressing it against the metal pipe; in FIG. 6 shows an axial section BB in FIG. one.

When implementing the proposed method using a polyethylene pipe with an outer diameter corresponding to the inner diameter of the metal pipe. It is first heated to 50-100 ^° C., subjected to a reversible drawing at this temperature with a decrease in diameter. After that, the pipe is cooled to room temperature in the extended state.

 To carry out these operations, the device shown in FIG. 1. The device comprises a drum 1, on which a drawn preform a polyethylene pipe 2 is wound, a water heater 3 with nozzles 4 and 5, respectively, for supplying and exiting heated water, a die 6 for reducing the diameter of the heated pipe with a heating jacket 7, channel 8 for pipe passage, nozzles 9 and 10, respectively, for the supply and exit of heated water. This device also contains a drum 11 for finishing the cooled elongated pipe.

 After drawing and cooling the polyethylene pipe 2, it is introduced into the metal pipe 12 using the device shown in FIG. 4. The polyethylene pipe 2 is introduced into the metal pipe 12, after connecting the cable 13 to its end and pulling the cable 13 with the help of the drive 14.

After the introduction of the polyethylene pipe 2 into the metal pipe 12, the sections of the polyethylene pipe 2 are heated to 50-100 ^° C, the heated sections from the inside of the polyethylene pipe 2 are exposed to pressure by pressing it against the metal pipe 12. For this purpose, plugs are pumped into the pipe 2 through the pipe 15 16, put on the end of the metal pipe 12, water at 50 to 100 ^o C. The pressing pressure is created using the device 17, which is previously placed at the end of the polyethylene pipe 2.

 The device 17 comprises a relatively rigid cylindrical plug 18 made of rubber. The plug 18 contains a through hole 19. The device 17 also contains a less rigid plug 20 of a polyurethane foam sponge. The plugs 18 and 20 are connected by a flexible connection 21, which is a metal chain.

 The method is carried out and the device for its implementation is as follows.

Wound on a drum 1 with a diameter equal to the minimum inner diameter of the metal pipe, the billet 2 from a thermoplastic material - polyethylene in the form of a pipe enters the water heater 3, where it is heated to a temperature of highly elastic state (50-100 ^o C). The heated preform 2 enters the die 6, channel 8 with a heating jacket 7, which maintains the temperature of the preform 2 in the range of 50 to 100 ^o C. In the die 6, the preform 2 is reversibly drawn with a reduction in its diameter using channel 8 (having a smaller diameter than the original diameter blanks 2). After exiting the channel 8, the elongated preform 2 is cooled to room temperature and wound onto a drum 11, with the help of which the preform is drawn through the die 6 and channel 8. The channel 8 may have protrusions that bend the preform 2 in the radial direction, as shown in FIG. . 3. After such processing and winding of the entire workpiece 2 onto the drum 11, the end of the cable 14 of the drive 14 wound on the drum is connected to its end, previously passed through the metal pipe 12. Then, with the help of the drive 14, the workpiece 2 is pulled through the metal pipe 12. Then, in one from the ends of the workpiece 2, an elastic stopper is inserted containing two stoppers 18 and 20 connected by a flexible connection 21. In this case, the stopper 20 is first introduced from a polyurethane foam sponge. A plug 16 is put on the end of the metal pipe 12 and pumped through the pipe 15 of this plug into the workpiece under a pressure of 15 atm. heated to 50
100 ^o C water. The end of the preform 2 is heated, the preform restores the original diameter, and the plug 18, due to the elasticity of the rubber, presses the polyethylene to the inner surface of the metal pipe. Water passes through the holes 19 and transfers pressure to the plug 20 of polyurethane foam, which, having little stiffness, is drawn into the unheated part of the workpiece 2, pulling the plug 18 from rubber through itself via flexible connection 21. The plug 18 extends only as far as the sections of the workpiece 2, pressing them to the surface of the metal pipe 12. Thus, sequentially, from one end of the pipe 12 to the other, the workpiece 2 is heated and its parts are pressed against the surface of the pipe.

 The invention allows to solve the problem of simplifying the method of lining of metal pipes, providing increased reliability of the lining and increase the throughput of the pipeline.

Claims (7)

 1. The method of lining metal pipes with thermoplastic material, which consists in introducing into it a blank of thermoplastic material in the form of a pipe, a plug with a fitting and plugs, pressing the blank to the pipe surface with excess pressure in the blank cavity and heating the blank with moving the heating zone, characterized in that use a blank in the form of a sleeve, before introducing the blank into the pipe, it is subjected to reversible drawing during heating with decreasing diameter and the deformation of the blank is recorded by cooling to a atnoy temperature and pressed against the tube blank when it is heated to a temperature not lower than the temperature of reversible stretching of the preform.  2. The method according to p. 1, characterized in that at the same time as the hood, the workpiece is bent in the radial direction along the entire length in one or more places with subsequent fixation of the deflections.  3. The method according to p. 1 or 2, characterized in that the plug is inserted into the preform, and the preform is heated simultaneously with the creation of an excess pressure in it from the side of the plug with heated gas or liquid when moving the plug from the plug along the pipe.  4. The method according to p. 3, characterized in that the inside of the billet serves heated water. 5. The method according to claim 1, or 2, or 3, or 4, characterized in that subjected to the extraction of the workpiece while reducing its diameter by 6 to 12%
6. The method according to p. 1, or 2, or 3, or 4, or 5, characterized in that polyethylene is used as a thermoplastic material, and the workpiece is heated to 50 100 ^o C.  7. A device for lining a metal pipe with a thermoplastic material, comprising a cylindrical plug, characterized in that the plug is movable in the pipe from two plugs connected by a flexible connection, wherein the stiffness of the head plug is less and the tail plug has a through hole.  8. The device according to claim 7, characterized in that the head plug is made of polyurethane foam, and the tail of rubber.

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