CN110271921A - Winding device - Google Patents

Abstract

The present invention relates to a kind of winding device, the winding device includes: support axle bed, is used to support the pipeline disk wound on its surface；Dynamic disk component is rotatably arranged on support axle bed, and dynamic disk component is connected with the tube body of pipeline disk by connecting component；Accumulation of energy resilience part, one end are connect with support axle bed, and the other end is connect with dynamic disk component, and deformation accumulation of energy provides counter-rotational driving force to lay in for dynamic disk component when for dynamic disk component rotation.The inner ring of pipeline of the present invention is looped around always in fixed support, it will not be rotated with the Moving plate of tube rolling device, because without being connected to by rotary joint with the processing unit of mechanical equipment, reduce the probability oozed out when substance is flowed through from connector position, security risk is reduced, the underwater application of winding device is conducive to；Due to not needing the rotary joint of mounting structure complexity, tube rolling device design thickness is reduced, more adaptable so as to use in smaller operating space.

Description

Winding device

Technical field

The present invention relates to harness folding and unfolding fields, more particularly to winding device.

Background technique

For can all be equipped with pipe-reeling device on the mechanical equipment of pipe installation and fluid conveying for according to operation distance Needs winding and discharge line, usual pipeline is to be passed through driving wireline reel by directly on the wireline reel of pipe-reeling device Rotate and reverse realize pipeline winding and releasing.

However, in current pipe-reeling device, since the inner ring of pipeline directly fits on wireline reel, when wireline reel turns Pipeline inner ring and the connector of inner ring end can also rotate synchronously therewith when dynamic, and pipeline is all by connector and mechanical equipment On processing unit be connected to transmit power, communication signal or flowing material, it is interior in order to not influence the transmission of pipeline inner material The connector of circle usually requires to be connected to by rotary joint with the processing unit of mechanical equipment, when flowing material flows through rotary joint It is easy exudation, can be brought great potential safety hazard therewith；And the structure of rotary joint is more complex, will increase entire winding device Volume is unfavorable for the Intensive Design of device；The characteristic of easy to leak also increases waterproof difficulty at rotary joint simultaneously, is unfavorable for The underwater application of winding device.In addition, being usually directly to utilize artificial or other power forms in winding or discharge line Driving, needs that driving mechanism is separately configured, increases integrally-built complexity, improves design and use cost.

Summary of the invention

Based on this, it is necessary to be easy exudation and pipeline connector position when for the substance therethrough connector being wound in pipeline The problem of structure is complicated provides a kind of winding device.

A kind of winding device, the winding device include:

Axle bed is supported, the pipeline disk wound on its surface is used to support；

Dynamic disk component is rotatably arranged on the support axle bed, and the tube body of the dynamic disk component and the pipeline disk It is connected by connecting component；

Accumulation of energy resilience part, one end are connect with the support axle bed, and the other end is connect with the dynamic disk component, for described Deformation accumulation of energy provides counter-rotational driving force to lay in for the dynamic disk component when dynamic disk component rotates.

When needing discharge line, along pipeline coil around direction pull outmost turns pipeline end make pipeline along winding Direction it is mobile when, since pipeline is whole wound on support shaft seating face, pulling the pipeline of the adjacent inside and outside circle of end phase that can arrange Cloth obtains more and more closer, and the trend of the inner ring oriented inner close fitting support axle bed peripheral surface of pipeline disk, gradually with end It is increasingly longer to pull out the pipeline released；

While end is drawn out, the pipeline moved along coiling direction can drive dynamic disk component rotation by connecting component Turn, since the both ends of accumulation of energy resilience part are connect with support axle bed and dynamic disk component respectively, dynamic disk component can make accumulation of energy when rotating Deformation occurs and accumulation of energy for resilience part.

When needing to wind pipeline, the end of pipeline is unclamped, accumulation of energy resilience part can provide counter-rotational for dynamic disk component Power then drives pipeline mobile against coiling direction, and the pipeline of adjacent inside and outside circle can arrange more and more looser, and inner ring The oriented trend extended out, when accumulation of energy resilience part restores to the original state completely releases energy therein completely, dynamic disk component Stopping rotates backward, and pipeline is got up by complete winding, i.e., the tightness degree arranged by adjacent Internal and external cycle, inner ring inwardly tighten and The release and winding of pipeline are realized to the variation for the trend that extends out.

Above-mentioned winding device at least has technical effect beneficial below:

(1) during release and winding, the inner ring of pipeline is looped around always in fixed support, will not be with tube rolling device Moving plate rotation, because without being connected to by rotary joint with the processing unit of mechanical equipment, reducing pressure oil, electric current, leading to The probability that news signal or other flowing materials ooze out when flowing through from connector position, largely reduces security risk, uses Operation more trusts；Due to not needing rotary joint, the difficulty of waterproofing design is reduced, improves whole waterproof ability, favorably In the underwater application of winding device；Due to not needing the rotary joint of mounting structure complexity, tube rolling device overall structure is simpler Clean, design thickness, which has obtained reducing, is advantageously implemented flattening and Intensive Design, and occupied space is relatively small, so as to It is used in smaller operating space, it is more adaptable；It is brief so that operating reliability is stronger in structure, also it is more convenient maintenance.

(2) it does not need that driving mechanism driving winding device rotation, direct pull is separately configured in winding or discharge line Release and the automatic drawing back of pipeline can be realized in the outer end of pipeline, simplifies whole structure, reduces design investment, also reduces Energy consumption and human cost when using.

The connecting component includes: in one of the embodiments,

Baffle ring is located on a side end face of the dynamic disk component around the support axle bed, and the baffle ring is equipped with and opens Mouthful；

Connector sleeve covers on the pipeline of the pipeline disk, and the connector sleeve surface is equipped with latch, and the latch cooperation is stuck in The open edge of the baffle ring.

In one of the embodiments, further include partition, covers on the support axle bed, for separating side by side wound on institute State the adjacent pipeline disk of support shaft seating face.

The connector of the pipeline disk inner ring is fixed on the connector of described support axle bed one end in one of the embodiments, On mounting plate.

The accumulation of energy resilience part includes clockwork spring in one of the embodiments, and the clockwork spring is located at side by side One end of the support axle bed, and the inner ring of the clockwork spring is fixed in the fixing seat of support axle bed end setting, The outer ring end of the clockwork spring is fixed on the dynamic disk component.

In one of the embodiments,

The dynamic disk component includes:

Moving plate is located at the side of the pipeline disk；

Cover board, the other side for being located at the pipeline disk opposite with the Moving plate, and the cover board is connected to the Moving plate Together, the inner ring of the cover board and the Moving plate is rotationally covered respectively on the support axle bed.

It is additionally provided with sealing plate on the cover board in one of the embodiments, the sealing plate is located at the cover board back to described One side surface of Moving plate, and one end of the accumulation of energy resilience part is connected with the sealing plate.

It is set between the Moving plate inner ring and/or the cover board inner ring and the support axle bed in one of the embodiments, There is revolving support part.

The revolving support part includes bearing spider and is coaxially located at the support axle bed in one of the embodiments, Bearing unit in the bearing spider.

The revolving support part further includes sealing structure in one of the embodiments, the sealing structure and the branch Support axle bed is coaxially located at the two sides of the bearing spider.

Detailed description of the invention

Fig. 1 is the main view for the winding device that one embodiment of the invention provides；

Fig. 2 is the sectional view along A-A in Fig. 1；

Fig. 3 is the enlarged drawing in Fig. 2 at B；

Fig. 4 is the explosive view of winding device shown in FIG. 1；

Fig. 5 is the state diagram that the pipeline for the pipeline disk that one embodiment of the invention provides is wound.

In figure, 100, support axle bed, 110, connector mounting plate,

200, dynamic disk component, 210, Moving plate, 220, cover board, 221, sealing plate, 230, screw,

300, accumulation of energy resilience part, 310, clockwork spring, 320, fixing seat, 330, connecting pin,

400, connecting component, 410, baffle ring, 411, opening, 420, connector sleeve, 421, latch,

500, partition,

600, revolving support part, 610, bearing spider, 620, bearing unit, 630, retaining ring, 640, sealing structure,

700, pipeline disk, 710, end, 720, connector, 701, folding and unfolding section, 702, winding section,

800, attachment base, 810, clip.

Specific embodiment

The present invention will be further explained below with reference to the attached drawings.

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give presently preferred embodiments of the present invention.But the invention can be realized in many different forms, however it is not limited to this paper institute The embodiment of description.It will be appreciated by those of ordinary skill in the art that without departing substantially from this hair as defined by appended claims In the case where bright range, changes and improvements can be made to various embodiments described herein.In addition, for clear and letter For the sake of clean, the description to well known function and construction may be omitted.

It should be understood that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle；When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

As shown in Figure 1 to Figure 3, in one embodiment of the invention, a kind of winding device is provided, comprising: support axle bed 100 moves Disk component 200 and accumulation of energy resilience part 300.Wherein, support axle bed 100 is used to support the pipeline disk 700 wound on its surface；It is dynamic Disk component 200 is rotatably arranged on support axle bed 100, and the tube body of dynamic disk component 200 and pipeline disk 700 passes through connecting component 400 are connected；300 one end of accumulation of energy resilience part is connect with support axle bed 100, and the other end is connect with dynamic disk component 200, for moving Deformation accumulation of energy provides counter-rotational driving force to lay in for dynamic disk component 200 when disk component 200 rotates.

Winding device support axle bed 100 can be mounted directly on mechanical equipment, for example, will support using clip 810 Attachment base 800 on one end and mechanical equipment of axle bed 100 is directly connected to.When concrete operations need discharge line, along The direction that pipeline disk 700 is wound pulls the end 710 of outmost turns pipeline, makes the pipeline laid from outer ring to inner ring all along winding Direction is mobile, since pipeline is whole wound on support 100 surface of axle bed, the pipeline meeting of adjacent inside and outside circle when pulling end 710 Arrange more and more closer, and the trend of oriented inner close fitting support 100 peripheral surface of axle bed of inner ring of pipeline disk 700, with end First 710 pipeline released that gradually pulls out increasingly is grown；While end 710 is drawn out, the pipe that is moved along coiling direction Line can by connecting component 400 drive dynamic disk component 200 rotate, due to accumulation of energy resilience part 300 both ends respectively with support shaft Seat 100 and dynamic disk component 200 connect, and dynamic disk component 200 can make accumulation of energy resilience part 300 when rotating deformation occurs and accumulation of energy.

When needing to wind pipeline, the end 710 of pipeline is unclamped, accumulation of energy resilience part 300 can provide instead for dynamic disk component 200 Make 200 reversed turning of dynamic disk component to the power of rotation, the reversed turning of dynamic disk component 200 will drive pipeline against coiling direction Mobile, the pipeline of adjacent inside and outside circle can arrange more and more looser, and the oriented trend extended out of inner ring, when accumulation of energy resilience part When 300 restore to the original state completely releases energy therein completely, the stopping of dynamic disk component 200 is rotated backward, and pipeline is complete Winding is got up.

Such as Fig. 2 and Fig. 4, in some embodiments, connecting component 400 includes: baffle ring 410 and connector sleeve 420.Wherein, it keeps off Ring 410 is located on a side end face of dynamic disk component 200 around support axle bed 100, and baffle ring 410 is equipped with opening 411；Connector sleeve 420 are arranged on pipeline, and 420 surface of connector sleeve is equipped with latch 421, and latch 421 can cooperate 411 side of opening for being stuck in baffle ring 410 Edge.As shown in figure 5, entire pipeline can be divided into using connector sleeve 420 as separation folding and unfolding section 701 and winding section 702, when along The direction that pipeline disk 700 is wound pulls the end 710 of outmost turns pipeline to make the pipeline laid from outer ring to inner ring all along winding When direction is mobile, the trend of oriented support 100 surface of the axle bed tightening of winding section 702 winds section 702 during being tightened Winding diameter can become smaller, and the circle number wound in the case where winding 702 length of section is constant becomes more, when winding section 702 is received completely The folding and unfolding section 701 of pipeline can be released farthest when tight.

While end 710 is drawn out, connector sleeve 420 on mobile pipeline 411 is matched by latch 421 with being open Crossed belt moves dynamic disk component 200 and rotates, and dynamic disk component 200 can make accumulation of energy resilience part 300 when rotating deformation occurs and accumulation of energy.

When needing to wind pipeline, the end 710 of pipeline is unclamped, accumulation of energy resilience part 300 can provide instead for dynamic disk component 200 Make 200 reversed turning of dynamic disk component to the power of rotation, the reversed turning of dynamic disk component 200 can pass through the opening 411 of baffle ring 410 Cooperation between latch 421 drives pipeline mobile against coiling direction, the oriented trend extended out of section 702 is wound, what is extended out The winding diameter for winding section 702 in the process can become larger, and the circle number wound in the case where winding 702 length of section is constant becomes Few, the arrangement between adjacent Internal and external cycle is more and more looser；Keep energy therein complete when accumulation of energy resilience part 300 restores to the original state completely When releasing entirely, the stopping of dynamic disk component 200 is rotated backward, and folding and unfolding section 701 can be got up by complete winding at this time, shown in Fig. 5 Be schematic diagram that pipeline is got up by complete winding.Preferably, it there are two latches 421, is symmetrically set centered on connector sleeve 420 It sets, blocks two 411 edges of opening opposite at the opening 411 of baffle ring 410 respectively.

In the release of above-mentioned pipeline, winding section 702 winds section 702 while gradually tightening to support 100 surface of axle bed Windings become it is more；When pipeline is wound, winding section 702 gradually tails off to the windings that outer ring expands simultaneously wound section 702. The release of pipeline is inwardly tightened and realized to the variation of the trend that extends out, the tightness degree of the winding winding of section 702 by winding section 702 And winding, the length of folding and unfolding section 701 are tube rolling device actually retractable length of pipeline.

Further include partition 500 in some embodiments with reference to Fig. 2 and Fig. 4, covers on support axle bed 100, for separating Side by side wound on the adjacent pipeline disk 700 on support 100 surface of axle bed.It can be on a tube rolling device by setting partition 500 Multiple groups pipeline is wound simultaneously, multiple groups pipeline can be connect to meet various pipelines such as liquid on mechanical equipment respectively with dynamic disk component 200 The release and auto reeling demand of pressuring oil pipe, power transmission line, communication cable and material delivery pipe etc.；A variety of pipelines are wound On the same tube rolling device, the corresponding multiple tube rolling devices of arrangement are not needed, cost of manufacture has been saved, more installation will not be occupied Space is conducive to mechanical equipment and uses in smaller operating space.

Referring to figs. 1 to Fig. 3, in some embodiments, the connector 720 of 700 inner ring of pipeline disk is fixed on support axle bed 100 On the connector mounting plate 110 of one end.Connector 720 is fixed on connector mounting plate 110, and position is fixed, and is convenient for and mechanical equipment On processing unit connect to transmit power, communication signal or various flowing materials.

With reference to Fig. 3, in some embodiments, accumulation of energy resilience part 300 includes clockwork spring 310, and clockwork spring 310 is arranged side by side It is located at one end of support axle bed 100, and the inner ring of clockwork spring 310 is fixed on the fixing seat 320 of support 100 end of axle bed setting On, the outer ring end of clockwork spring 310 is fixed on dynamic disk component 200.Specifically, a connecting pin 330 can be passed through from outside Dynamic disk component 200 and the outer ring for blocking clockwork spring 310, so that the outer ring of dynamic disk component 200 and clockwork spring 310 is connected in one It rises.Dynamic disk component 200 can drive 310 outer ring rotating of clockwork spring by connecting pin 330 when rotating, due to clockwork spring 310 Inner ring is fixed, deformation occurs the accumulation of energy of clockwork spring 310.In some other embodiment, the outer ring end of clockwork spring 310 The surface of dynamic disk component 200 can be directly fixedly connected on；Accumulation of energy resilience part 300 can also be torque spring etc., Moving plate group Part 200 can make torque spring when rotating deformation occurs and accumulation of energy rebound.

With reference to Fig. 2 and Fig. 4, in some embodiments, dynamic disk component 200 includes: Moving plate 210 and cover board 220.Wherein, it moves Disk 210 is located at the side of pipeline disk 700；Cover board 220 and the opposite other side for being located at pipeline disk 700 of Moving plate 210, and cover board 220 It links together with Moving plate 210, the inner ring of cover board 220 and Moving plate 210 rotationally covers on support axle bed 100.210 He of Moving plate Cover board 220 can cooperate from two sides limits pipeline disk 700 to reduce the probability that pipeline disk 700 is caving；It simultaneously can also be with Protection pipe drum 700 is to prevent bad working environments underground pipelines from breakage is occurred by external impacts.Preferably, cover board 220 and Moving plate 210 can It is linked together by Quick connection parts such as screws 230.

In some embodiments, cover board 220 further includes sealing plate 221, and sealing plate 221 is located at cover board 220 back to the one of Moving plate 210 Side surface, and one end of accumulation of energy resilience part 300 is connected with sealing plate 221.Specifically, sealing plate 221 can pass through connector such as spiral shell Bolt etc. links together, and can also directly be integrally formed with cover board 220.221 one side of sealing plate can be by accumulation of energy resilience part 300 One end connected with cover board 220；On the other hand accumulation of energy resilience part 300 can be blocked from outside prevents it to be directly exposed to In outside air, the probability polluted by exterior materials is reduced, service life is extended.

Referring to figs. 2 to Fig. 4, in some embodiments, 210 inner ring of Moving plate and/or 220 inner ring of cover board and support axle bed 100 Between be equipped with revolving support part 600.The setting of revolving support part 600 alleviates Moving plate 210 and/or cover board 220 with respect to support shaft Frictional force when seat 100 rotates between its inner ring and support axle bed 100, keeps the rotation of Moving plate 210 and/or cover board 220 more suitable It is sliding, it can effectively promote the smooth degree of winding pipe.

With continued reference to Fig. 3, in some embodiments, revolving support part 600 include bearing spider 610 and with support axle bed 100 are coaxially located at the bearing unit 620 in bearing spider 610.Specifically, the outer ring of bearing unit 620 is fixed on Moving plate 210 And/or 220 inner ring of cover board, on support axle bed 100, Moving plate 210 and/or cover board 220 rotate the interior snare of bearing unit 620 When, the outer ring rotating of meeting synchronous drive bearing unit 620, to effectively promote the smooth degree of rotation.Further, bearing branch 610 two sides of seat can further be arranged retaining ring 630 and move for limiting bearing spider 610 along axial.It is to be appreciated that at other In some embodiments, revolving support part 600 be can be respectively embedded in Moving plate 210 and/or 220 inner peripheral surface of cover board and support shaft The ball on 100 surfaces of seat also can promote Moving plate 210 and/or cover board 220 by the rotation of ball and support the phase between axle bed 100 To operating.

In some embodiments, revolving support part 600 further includes sealing structure 640, sealing structure 640 and support axle bed 100 are coaxially located at 610 two sides of bearing spider, improve waterproof performance, can be adapted for more severe operating condition.Preferably, close Seal structure 640 is sealing ring.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of winding device, which is characterized in that the winding device includes:

Axle bed is supported, the pipeline disk wound on its surface is used to support；

Dynamic disk component is rotatably arranged on the support axle bed, and the tube body of the dynamic disk component and the pipeline disk passes through Connecting component is connected；

Accumulation of energy resilience part, one end are connect with the support axle bed, and the other end is connect with the dynamic disk component, are used for the Moving plate Deformation accumulation of energy provides counter-rotational driving force to lay in for the dynamic disk component when component rotates.

2. winding device according to claim 1, which is characterized in that the connecting component includes:

Baffle ring is located on a side end face of the dynamic disk component around the support axle bed, and the baffle ring is equipped with opening；

Connector sleeve covers on the pipeline of the pipeline disk, and the connector sleeve surface is equipped with latch, and the latch cooperation is stuck in described The open edge of baffle ring.

3. winding device according to claim 1 or 2, which is characterized in that further include partition, cover in the support axle bed On, for separating the adjacent pipeline disk wound on the support shaft seating face side by side.

4. winding device according to claim 1 or 2, which is characterized in that the connector of the pipeline disk inner ring is fixed on On the connector mounting plate of described support axle bed one end.

5. winding device according to claim 1 or 2, which is characterized in that the accumulation of energy resilience part includes clockwork spring, The clockwork spring is located at one end of the support axle bed side by side, and the inner ring of the clockwork spring is fixed on the support axle bed In the fixing seat of end setting, the outer ring end of the clockwork spring is fixed on the dynamic disk component.

6. winding device according to claim 1 or 2, which is characterized in that

The dynamic disk component includes:

Moving plate is located at the side of the pipeline disk；

Cover board, the other side for being located at the pipeline disk opposite with the Moving plate, and the cover board links together with the Moving plate, The inner ring of the cover board and the Moving plate is rotationally covered respectively on the support axle bed.

7. winding device according to claim 6, which is characterized in that be additionally provided with sealing plate on the cover board, the sealing plate is set In the cover board back to a side surface of the Moving plate, and one end of the accumulation of energy resilience part is connected with the sealing plate.

8. winding device according to claim 6, which is characterized in that the Moving plate inner ring and/or the cover board inner ring with Revolving support part is equipped between the support axle bed.

9. winding device according to claim 8, which is characterized in that the revolving support part include bearing spider and with institute State the bearing unit that support axle bed is coaxially located in the bearing spider.

10. winding device according to claim 9, which is characterized in that the revolving support part further includes sealing structure, institute It states sealing structure and the support axle bed is coaxially located at the two sides of the bearing spider.