CN206840688U - A kind of compound pipe enhancement layer wind - Google Patents

Abstract

The utility model belongs to the Preparation equipment technical field of compound plastic pipe, discloses a kind of compound pipe enhancement layer wind.It forms the technical scheme of the compound pipe device：Including core pipe pipe discharging mechanism, at least four groups polydisc winding mechanism, pipeline haulage gear, closed tube mechanism and the controlling organizations for driving it to rotate by actuating unit being coaxially disposed；Wherein, form pedestal axle that the fiber pedestal design of polydisc winding mechanism includes being fixed in card, be correspondingly through at the rotating speed control disk cover and gland for being capable of fiber axis described in clamping in the pedestal axle；Wherein, rotating speed control panel by rotating cylinder and is inserted in the beam barrel that can be fixed wherein and with pedestal axle and formed, and the centre bore of the rotating cylinder is provided with outside the end of bearing a, beam barrel and is cased with bearing b so that can be relatively rotated between the rotating cylinder and beam barrel；Being radially arranged for rotating cylinder is sequentially arranged with friction column block, spring and fixed stifled post holes inside at least two, the bezel ring, that gland is provided with the bearing c that can be fixed with pedestal axle by center hole portion is formed.The device can meet that multi-layer fiber or steel wire interlayer wind and can ensure that it forms the performance of multiple tube enhancement layer simultaneously.

Description

A kind of compound pipe enhancement layer wind

Technical field

The utility model belongs to composite pipe manufacturing equipment technical field, more particularly to one kind is used in oil, chemical industry, sea The compound pipe enhancement layer wind in the fields such as ocean.

Background technology

Be used in the structure of the high-pressure composite pipe line in the fields such as oil, chemical industry, ocean generally by Inner sebific ducts layer, enhancement layer and Outer sebific duct layer is formed；Wherein, enhancement layer is then made up of multi-layer fiber or steel wire winding.And currently used for fiber or steel wire winding Wind, due to being difficult to realize the uniformity control of tension force between each layer of fiber or steel wire, and fiber or steel wire interlayer Tension force, pitch control, be accordingly difficult to realize once complete more than three layers multi-lay winding layers winding；For multilayer（6 layers More than）Be merely able to be superimposed winding by gradation during the winding of fiber or steel wire floor and realize, and this gradation superposition winding it is obvious or Cause the layer of the enhancement layer of composition different from the tension force between interlayer, each layer of fiber or steel wire, so as to cause pipeline entirety High voltage performance it is difficult to ensure that, influence the service life of pipeline.

The content of the invention

The purpose of this utility model be just to provide one kind can meet simultaneously multi-layer fiber or steel wire interlayer winding and can Ensure the compound pipe enhancement layer wind of its performance.

To achieve these goals, the technical solution adopted in the utility model is：

A kind of compound pipe enhancement layer wind, it is characterised in that：Including core pipe pipe discharging mechanism, it is coaxially disposed at least Four groups of polydisc winding mechanism, pipeline haulage gear, closed tube mechanism and controlling organizations that its rotation is driven by actuating unit；Its In,

Described polydisc winding mechanism includes

Frame；

The rotating disk that axle is fixed in the frame, the rotating disk core pipe reach side be provided with middle part for tube core passage fiber or Steel wire gathers convex closure, and some fiber pedestals are provided with the card of its both sides Huo and side；

Described pipeline haulage gear includes

Frame；

It is fixed on the pipeline tow conveyor structure that antithesis is set in the frame, the pipeline tow conveyor that the antithesis is set The endless belt conveyer structure that the schedule and the schedule that structure is made up of symmetrically arranged at least two wheel shafts for including power wheel drive Into the spacing between schedule described in symmetrically arranged two can realize adjustment, in order to realize the traction of different-diameter pipeline.

In a kind of above-mentioned structure of compound pipe enhancement layer wind is formed,

--- described polydisc winding mechanism is provided with the independent power that its rotating speed can be adjusted by the controlling organization Mechanism；

--- described polydisc winding mechanism is provided with the braking mechanism controlled by the controlling organization；

--- form the pedestal axle, right that the structure of the polydisc winding mechanism fiber pedestal includes being fixed in the card The rotating speed control disk cover and gland for being capable of fiber axis described in clamping in the pedestal axle should be through at；Wherein,

Described rotating speed control panel by rotating cylinder and be inserted in wherein and can with the pedestal axle fix beam barrel form, and should The centre bore of rotating cylinder, which is provided with outside the end of bearing a, beam barrel, is cased with bearing b so that can be relatively rotated between the rotating cylinder and beam barrel； Being radially arranged for the rotating cylinder is sequentially arranged with friction column block, spring and fixed stifled post holes inside at least two,

The bezel ring, that described gland is provided with the bearing c that can be fixed with the pedestal axle by center hole portion is formed；

--- form the face of the rotating speed control disk cover of the polydisc winding mechanism fiber pedestal and the corresponding the inside of gland Ring is the ramp structure for fixing the fiber axis；

--- pipeline cladding heating arrangements are provided with rear side of convex closure in gathering for the polydisc winding mechanism.

Compound pipe enhancement layer wind provided by the utility model compared with the existing technology, has advantages below： First, because the device by some can realize that the polydisc winding mechanism of independent adjustment of rotational speed and core pipe are put by controlling organization Pipe mechanism and Shou Guan mechanisms are formed, therefore can realize the once Wrapping formed of high pressure pipeline multi-lay winding enhancement layer, effectively Overcome in the prior art by back and forth realizing the defects of multilayer enhancement layer is wound；Second, the polydisc winding mechanism due to the device Independent adjustment of rotational speed can be realized by controlling organization, i.e., turning for each polydisc winding mechanism can be adjusted by speed of wrap Speed and tension force, i.e., the elasticity for the fiber that each winding layer is formed can be adjusted, to realize pipeline winding layer performance parameter Unanimously；Third, rotating speed control can be realized by being provided with structure due to forming the device polydisc winding mechanism fiber pedestal Rotating cylinder is formed with beam barrel therein is inserted in, therefore can realize the uniformity in the direction of each fiber axis ingot, is substantially increased The uniformity of the tension force of each layer of fabric reinforcement, improve the performance of compound pipe；Fourth, due in polydisc winding mechanism Gather and pipeline cladding heating arrangements are provided with rear side of convex closure, the adhesive bond of enhancing interlayer can be realized simultaneously.

Brief description of the drawings

Fig. 1 is the principle schematic diagram for the compound pipe enhancement layer wind that the utility model supplies；

Fig. 2 is the structural representation of polydisc winding mechanism；

Fig. 3 is the structural representation of pipeline haulage gear；

Fig. 4 is the structural representation for forming polydisc winding mechanism fiber pedestal.

Embodiment

A kind of structure to compound pipe enhancement layer wind provided by the utility model is done below in conjunction with the accompanying drawings It is further to describe in detail.

As shown in figure 1, show for a kind of structural principle of compound pipe enhancement layer wind provided by the utility model It is intended to.The structure for forming the device drives what it was rotated by actuating unit 2 respectively including core pipe pipe discharging mechanism 1, the multigroup of setting Polydisc winding mechanism 3（Multigroup polydisc winding mechanism 3 is easy to the fiber of core pipe to wind to be coaxially disposed along arrow F）, pipeline Haulage gear 4, closed tube mechanism 5 and controlling organization 6.Wherein, above-mentioned polydisc winding mechanism（As shown in Figure 2）Including being fixed by axle In the rotating disk 21 in frame, the core pipe reach of the rotating disk moves towards side and is provided with fiber or steel wire 22 of the middle part for the passage of tube core 11 Gather convex closure 23, the both sides of rotating disk 21（Or and side）66 are provided with card（Set according to specification of equipment）'s Fiber ingot frame 8；The structure of above-mentioned pipeline haulage gear 4（As shown in Figure 3）Including frame 41, it is fixed on antithesis in the frame 41 and sets The pipeline tow conveyor structure put, the antithesis set pipeline tow conveyor structure by it is symmetrically arranged include power wheel 42, 43 five wheel shafts（At least two wheel shafts）The annular transmission that the upper and lower schedule 44,45 and the upper and lower schedule formed each drives Band 46,47 is formed, and the spacing between symmetrically arranged two upper and lower schedules can pass through control wheel by the telescoping mechanism 48 of setting The framed bent 49 of row realizes adjustment, drives endless belt conveyer to rotate to drive different-diameter pipeline 11 by power wheel in order to realize Traction.In a kind of above-mentioned structure of compound pipe enhancement layer wind is formed, each polydisc winding mechanism 3 is provided with The independent actuating unit 2 of its rotating speed can be adjusted by controlling organization 6, and is arranged at the rotating disk for forming the polydisc winding mechanism Bottom side is controlled the braking mechanism 27 for realizing slowing-down brake by controlling organization 6.

The operation principle of the compound pipe enhancement layer wind is：Start actuating unit and controlling organization, put pipe machine Structure releases plastic wick, coaxially through multigroup rotating disk of polydisc winding mechanism 3 centre bore 24 and gather convex closure 23, it is while more Some fibers or steel wire on disk winding mechanism 3 are by fiber ingot by gathering convex closure fiber mounting 26 and convex closure week on convex closure 23 The fiber holes 25 of circle realize the winding to plastic wick enhancement layer fiber, pass through the multi-layer fiber layer of multigroup polydisc winding mechanism 3 Winding realize the once completion of the enhancement layer that multi-layer fiber layer is formed, pipeline after winding is drawn by closed tube by haulage gear Mechanism closed tube.

In above-mentioned compound pipe enhancement layer winding process,

--- because polydisc winding mechanism 3 is by can realize that the actuating unit 2 individually controlled drives by controlling organization 6 It is rotated, therefore can control its rotating speed according to the requirement of the fibrous layer wound, is twined with realizing by the polydisc winding mechanism 3 Around the winding parameter such as the screw pitch of fibrous layer control adjustment；

--- in the structure for forming above-mentioned polydisc winding mechanism, the fiber pedestal for anchoring fiber ingot（Such as Fig. 4 institutes Show）Structure include be fixed in card 81 pedestal axle 82, be correspondingly through at be capable of in the pedestal axle clamping fiber ingot 83 turn Speed control disk cover 84 and gland 85；Wherein, rotating speed control panel by rotating cylinder 841 and is inserted in wherein and can fixed with pedestal axle 82 Beam barrel 842 is formed, and the centre bore of the rotating cylinder is provided with outside the end of bearing a843, beam barrel and is cased with bearing b844 so that this turn It can be relatively rotated between cylinder and beam barrel（I.e. beam barrel is fixed by clip 845 and pedestal axle 82 so that rotating cylinder 841 can be around pedestal Axle 82 rotates）；At least two have been radially arranged in rotating cylinder（Preferably three）Inside is sequentially arranged with friction column block 8411, spring 8412 and the post holes 8414 of adjustable fixation stifled 8413, the i.e. rotating cylinder radially equally distributed three post holes 8414, it is logical The disengaging that toning solidating is blocked up surely, it is possible to achieve spring 8412 to the compaction degree of friction column block 8411, so as to realize rotating cylinder around The adjustment control of the rotating speed of pedestal axle 82, that is to say, that realize the rotating speed control of rotation of the fiber ingot around pedestal axle 82, be directly realized by The uniform adjustment of fiber tension, so as to realize that the multiple tube enhancement layer that fiber by winding or steel wire are formed obtains the ginseng such as elasticity Several effective control, improves its overall performance；Can also realize different enhancement layers winding fibrous layer elasticity requirement and it is right The winding of the different desired multiple tubes of fiber tension；The gland 85 formed in the fiber pedestal design is provided with energy by center hole portion Enough bearing c852 fixed with above-mentioned pedestal axle 82 bezel ring, 851 is formed, i.e., fiber ingot 83 controls disk cover 84 and gland by rotating speed 85 clampings rotate the winding unwrapping wire for realizing fiber or steel wire；

--- in order to realize the fiber ingot 83 of rotating speed control disk cover 84 and the clamping of gland 85 rotation, inner face corresponding to both Face ring 8415 and 8511 be the ramp structure with anti-slip tank, i.e. fiber ingot both ends are clamped on the rotating speed with anti-slip tank inclined-plane Its rotation is driven between control disk cover 84 and gland 85；

--- according to technological requirement, the rear side for gathering convex closure 23 of above-mentioned polydisc winding mechanism is provided with pipeline cladding and added Heat engine structure 7 can realize the heating for the special fiber layer for forming enhancement layer, to realize the need of cementability enhancement layer multiple tube winding Will.

Claims (6)

1. A kind of 1. compound pipe enhancement layer wind, it is characterised in that：Including core pipe pipe discharging mechanism, be coaxially disposed at least four Group is driven polydisc winding mechanism, pipeline haulage gear, closed tube mechanism and the controlling organization of its rotation by actuating unit；Wherein,

   Described polydisc winding mechanism includes

   Frame；

   The rotating disk that axle is fixed in the frame, the core pipe reach side of the rotating disk are provided with the fiber or steel wire that middle part is tube core passage Gather convex closure, some fiber pedestals are provided with the card of its both sides Huo and side；

   Described pipeline haulage gear includes

   Frame；

   Be fixed on the pipeline tow conveyor structure that antithesis in the frame is set, the pipeline tow conveyor structure that the antithesis is set by The endless belt conveyer that the schedule and the schedule that symmetrically arranged at least two wheel shafts for including power wheel are formed drive is formed, right Spacing between the schedule described in two for claiming to set can realize adjustment, in order to realize the traction of different-diameter pipeline.
2. A kind of 2. compound pipe enhancement layer wind according to claim 1, it is characterised in that：Described polydisc winding Mechanism is provided with the independent actuating unit that its rotating speed can be adjusted by the controlling organization.
3. A kind of 3. compound pipe enhancement layer wind according to claim 1, it is characterised in that：Described polydisc winding Mechanism is provided with the braking mechanism controlled by the controlling organization.
4. A kind of 4. compound pipe enhancement layer wind according to claim 1, it is characterised in that：Form more travelling expenses The pedestal axle that includes being fixed in the card around the structure of mechanism fiber pedestal, be correspondingly through in the pedestal axle being capable of clamping institute State the rotating speed control disk cover and gland of fiber axis；Wherein,

   Described rotating speed control panel is by rotating cylinder and is inserted in the beam barrel that can be fixed wherein and with the pedestal axle and forms, and the rotating cylinder Centre bore be provided with outside the end of bearing a, beam barrel and be cased with bearing b so that can be relatively rotated between the rotating cylinder and beam barrel；It is described Being radially arranged for rotating cylinder is sequentially arranged with friction column block, spring and fixed stifled post holes inside at least two,

   The bezel ring, that described gland is provided with the bearing c that can be fixed with the pedestal axle by center hole portion is formed.
5. A kind of 5. compound pipe enhancement layer wind according to claim 4, it is characterised in that：Form more travelling expenses The face ring that the corresponding the inside of disk cover and gland is controlled around the rotating speed of mechanism fiber pedestal is for fixing the oblique of the fiber axis Face structure.
6. A kind of 6. compound pipe enhancement layer wind according to claim 1, it is characterised in that：Wound in the polydisc Gathering for mechanism is provided with pipeline cladding heating arrangements on rear side of convex closure.