RU2164205C1 - Method and device for production of pipes by rolling out of roll filler - Google Patents

Abstract

FIELD: production of tubular or reinforced articles, for example, pipes out of basalt fabric prepreg. SUBSTANCE: method consists in applying of roll filler on a rotary mandrel with formation of a lap in the form of a sleeve before the front end. The mandrel is moved in its axis jointly with the casing through the focal point of deformation formed by the rolls up to the run-out of the mandrel end from the focal point of deformation accomplishing reduction in the wall and simultaneously shrinking the obtained laminated casing. After rolling the pipe is cut into measured lengths. The device has a unit for applying of roll filler on the mandrel, rotary mandrel, pulling rolls, mechanism for moving the mandrel in the axis, mechanism for tripping of the pipe front end and longitudinal movement of it relative the mandrel at a preset speed. The rolls are positioned at an angle of 1 to 4 degrees to the mandrel axis and installed around it in holders rotating about the mandrel axis, located in a thermal chamber and mounted successively one after another in the rolling axis. EFFECT: enhanced quality of pipes, capacity and reliability of device operation. 2 cl, 3 dwg

Description

 The invention relates to the field of manufacturing tubular or reinforced products when wrapping, for example, winding material on a mandrel, and for obtaining pipes from a basalt fabric prepreg.

 Currently, basalt prepreg pipes are produced in the same way as fiberglass pipes by direct winding, while the length of the wound shell corresponds to the width of the wound material. To obtain pipes longer than the width of the roll, winding is carried out from several rolls in parallel with overlapping edges. [1]. The disadvantage of this method is the low productivity and limited length of the resulting pipe.

The closest in technical essence to the claimed technical solution is a method comprising winding a roll filler on a rotating mandrel and pulling the resulting multilayer layout from the mandrel by pulling rolls [1]. In this case, two pairs of rolls are used, the axes of which are 90 ^° with the axis of the pipe, having a gauge in diameter of the pipe.

 The aim of the invention is to improve the quality of the obtained pipes by compressing the pipe wall on the mandrel, increasing the reliability and productivity.

 This goal is achieved in that in a method for producing pipes by rolling from a roll filler, including winding the roll filler onto a rotating mandrel and pulling the resulting multilayer shell from the mandrel by pulling rolls, winding is carried out with the formation of a front in the form of a stocking in front of the mandrel, after which the mandrel is moved along its axis together with the shell through the deformation zone formed by rolls, the axis of which is inclined at an acute angle to the axis of the mandrel, until the front end of the mandrel leaves the deformation chamber ation, performing compression on a wall and simultaneously applying tension to the front shell and tube after rolling cut to length.

A device for implementing the method, including a winding unit of a roll filler on a mandrel, a rotating mandrel, pulling rolls, is equipped with a mechanism for moving the mandrel along the axis, a mechanism for gripping the front end of the pipe and moving it longitudinally relative to the mandrel at a given speed, the rolls are located at an angle of 1-4 ^o to axis of the mandrel and installed around it in rotating around the axis of the mandrel cassettes placed in a heat chamber and mounted sequentially one after another along the axis of rolling.

 The invention is illustrated in the drawing, where in FIG. 1 shows a general view of the device (top view), in FIG. 2 is a sectional cassette, in FIG. 3 - the right machine.

 The method is as follows. Rolls with a prepreg are mounted on coilers, the end of the prepreg is attached to the mandrel so that part of it does not touch the mandrel and is rolled up, forming an inlet in the form of a stocking in front of the mandrel end, the mandrel rotation mechanism is turned on, winding starts, after a few revolutions the mandrel begins to move along its axis, introducing the wound shell into the deformation zone formed by work rolls assembled in a cassette. The cassette rotation mechanism is turned on and the pulling device captures the stocking from the prepreg, starting movement along the rolling axis synchronous with the mandrel, after the mandrel leaves the deformation zone, it stops, and the pulling device continues its movement, pulling the pipe from the mandrel, the tubes rotating in the cassette also facilitate axial movement of the pipe work rolls. After exiting the work rolls, the pipe enters the correct machine, where it is straightened in diameter, then the pipe is cut into measured lengths and transferred to the rack.

 A device for implementing the method includes a winding unit 1, a mandrel 2, work rolls 3, a mechanism for moving the mandrel 4, a gripper mechanism for stocking 5, cassettes 6, in which the rolls 3 are installed, a heat chamber 7, a straightening machine 8, scissors 9, transporting rollers 10, ejectors 11, shelf 12.

 The device operates as follows.

The roll filler in the form of a basaltic prepreg is mounted on the winders of the winding unit 1, the free end of the prepreg is attached to the outer surface of the mandrel 2 in such a way that an inlet is formed in front of the end face of the mandrel in the form of a stocking, and its rotation mechanism is activated. After the number of revolutions necessary for the formation of a dense shell, the mechanism for moving the mandrel 4 along the axis is turned on, the shell together with the mandrel is introduced into the deformation zone formed by work rolls 3 inclined to the rolling axis (mandrel) at an angle of 1-4 ^o . The rolls are installed in cassettes 6, which are driven in rotation by an electric drive, the rotation speed of the cassettes is consistent with the rotation speed of the mandrel. Since the rolls are installed at an angle to the rolling axis, when they rotate, an axial component of the peripheral speed of rotation occurs, which determines the axial movement of the workpiece. The preformed stocking is captured by the pulling device 5, after the front end of the mandrel leaves the deformation zone, the longitudinal movement of the mandrel stops, and the tube continues to move along the rolling axis under the action of the rolls and the pulling device. To ensure the passage of the polymerization processes, the cassettes are installed in the heat chamber 7. After rolling, the pipe enters the correct machine 8, where it is calibrated by the outer diameter, then the pipe is cut into measured lengths with scissors 9. The cut pipe is pulled by the pulling rollers 10 to the ejector levers 11 and transferred to Rack 12. The process is carried out continuously as new rolls are delivered to the winding unit.

The proposed method and device for its implementation allows to learn high-strength basalt pipes by compressing the pipe along the wall at a given temperature, the method is characterized by high productivity and ensures high quality pipes. When the rolls are turned at an angle of less than 1 or more than 4 ^o , the required level of axial velocity of the pipe is not provided.

Sourse of information
1. V. A. Kalinichev, M. S. Makarov. Wound fiberglass. - M .: Chemistry, 1986, p. 108.109, 110.111.

Claims (2)

 1. A method of producing pipes by rolling from a roll filler, comprising winding the roll filler onto a rotating mandrel and pulling the resulting multilayer sheath from the mandrel by pulling rolls, characterized in that the winding is carried out with the formation of an inlet in the form of a stocking in front of the front end of the mandrel, after which the mandrel is moved along it axis together with the shell through the deformation zone formed by rolls, the axis of which is inclined at an acute angle to the mandrel axis, until the front end of the mandrel leaves the deformation zone by compression on the wall and at the same time applying forward tension to the shell, and after rolling the pipe is cut to measured lengths. 2. The device for implementing the method according to claim 1, including a winding unit of the roll filler on the mandrel, a rotating mandrel, work rolls, characterized in that it is equipped with a mechanism for moving the mandrel along the axis, a mechanism for capturing the front end of the pipe and moving it longitudinally relative to the mandrel with a predetermined speed, and the rolls are located at an angle of 1 - 4 ^o to the axis of the mandrel and installed around it in a cassette rotating around the axis of the mandrel, located in the heat chamber, and the cassettes with rolls are installed sequentially one after another m along the axis of rolling.

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