RU2015908C1 - Heated mandrel for bending of thermoplastic pipes - Google Patents

Abstract

FIELD: bending of thermoplastic pipes. SUBSTANCE: heated mandrel has spiral spring inside hose with flexible shaft arranged along spring axis and connected with spring by means of rope located in holes made in spring coils along shaft length. Plugs are rigidly secured to hose ends. Installed in one of plugs is sliding support for fastening shaft end. The other plug is rigidly connected to lever and has axial hole to receive the shaft other end for its sliding. Other end of shaft is rigidly connected to the shaft second lever. Mandrel has spring stop for fixation relative position levers. To ensure uniform bending of spring over its entire length, holes for rope are located in spring at distance equal to spring half pitch, and on flexible shaft, equal to spring whole pitch. EFFECT: higher efficiency. 2 cl, 5 dwg

Description

 The invention relates to techniques for processing thermoplastic materials and can be used for bending thermoplastic pipes.

 Known mandrel for the manufacture of curved pipes made of a polymeric material, made elastic with a coil spring placed inside it.

 This mandrel does not provide high-quality bending of thick-walled pipes, since it does not provide heating of the pipe wall when bending them. For bending pipes, it is necessary to preheat the coolant, which complicates the process of bending pipes.

 Known closest to the proposed heated mandrel for bending thermoplastic pipes, made in the form of a flexible sleeve with a spiral carbon tape wound from the outside of it, between the turns of which an asbestos cord is placed to isolate the turns of the spiral.

 However, this device is ineffective in relation to field conditions, it requires special equipment for bending, containing a bending template, a lever mounted on its axis with a roller mounted on its end with the possibility of rolling in, a bend angle clamp and a pipe end clamp.

 The aim of the invention is to improve serviceability.

 This is achieved by the fact that the mandrel is equipped with a spiral spring located inside the sleeve with a flexible shaft located along its axis, connected to the spring by a rope placed in holes made in the spring coils and along the shaft length, with plugs rigidly fixed to the ends of the sleeve, in one of which a sliding support is installed to secure the end of the shaft, and the other is made with a lever rigidly connected to it and with an axial hole for accommodating the second end of the shaft, rigidly connected to the second lever, to slide the shaft is provided with, the mandrel being equipped with a spring stopper for fixing the relative position of the levers, in that the mandrel according to claim 1, with the exception that in order to ensure uniform spring bending along the entire length, the holes for placing the rope are located in the spring at a distance equal to half the spring pitch, and on the flexible shaft - equal to the spring pitch.

 In FIG. 1 shows a General view of the mandrel in the working position with partial tears; in FIG. 2, 3, 4 show enlarged sections of an autothermodorn structure; in FIG. 5 - shows the termination of the rope.

 The heated mandrel is made in the form of a flexible sleeve 1 with a ribbon 2 made of carbon-graphite fabric wound from the outside along a spiral, between the turns of which an asbestos cord 3 is placed to isolate the turns of the spiral. Inside the sleeve there is a spring 4 with a flexible shaft 5 located along its axis, connected to the spring by means of a rope 6, located in holes 7 made in the coils of the spring 4 along the length of the shaft. At the ends of the sleeve, plugs 8 and 9 are rigidly fixed, and in the plug 9, a sliding support 10 is installed to fix the end of the shaft, and in the plug 8 is made with a lever 11 rigidly connected to it and has an axial hole 12 for sliding the second end of the shaft 5, rigidly connected to the second lever 13. The Dorn is equipped with a spring stopper 14 for fixing the relative position of the levers. In addition, the mandrel contains a tension nut 15, a tension screw 16 and locking screws 17.

 To ensure uniform bending of the spring 4 along the entire length of the hole 7 to accommodate the rope 6 are located in the spring at a distance equal to half the spring pitch, and on the flexible shaft 5 are located equal to the spring pitch.

 Bending pipes using a mandrel is as follows.

 In order to bend the pipe 18, the mandrel is tucked into it by the length of the bend. After that, the levers 13 and 11 are turned relative to each other, and hence the flexible shaft 5 relative to the spring 4 and the sleeve 1. When the flexible shaft 5 is rotated, a rope is wound on it, and a one-way bending force is created in the spring, which is transmitted through the sleeve to the pipe. Using the spring stopper 14, the created bending force is fixed. Then, the carbon fiber fabric tape 4 is connected to a power source, and it heats the thermoplastic pipe. When the thermoplastic reaches the yield from heating, the pipe bends, after which the power source is turned off and it is cooled. Dorn is pulled out of the pipe. Next, the cycle repeats.

Claims (2)

 1. HEATED DORN FOR BENDING THERMOPLASTIC PIPES, made in the form of a flexible sleeve with a spiral carbon tape wrapped outside it, between the turns of which an asbestos cord is placed to insulate the turns of the spiral, characterized in that, in order to increase the convenience in maintenance, it is equipped placed in a sleeve by a spiral spring with a flexible shaft located along its axis, connected to the spring by a rope placed in holes made in the coils of the spring and along the length of the shaft, rigidly fixed to the ends of the sleeve flanges, in one of which a sliding support is installed to fix the end of the shaft, and the other is made with a lever rigidly connected to it and an axial hole for sliding the second end of the shaft, rigidly connected to the second lever that the shaft is provided with, the mandrel is equipped with a spring stopper for fixing the relative position of the levers.  2. Dorn according to claim 1, characterized in that to ensure uniform bending of the spring along the entire length, the holes for placing the rope are located in the spring at a distance equal to half the step of the spring, and on the flexible shaft equal to the step of the spring.

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