CN107557920A - One kind winding pipe connection - Google Patents
One kind winding pipe connection Download PDFInfo
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- CN107557920A CN107557920A CN201610515883.9A CN201610515883A CN107557920A CN 107557920 A CN107557920 A CN 107557920A CN 201610515883 A CN201610515883 A CN 201610515883A CN 107557920 A CN107557920 A CN 107557920A
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- Prior art keywords
- rolling tube
- pipe connection
- winding pipe
- sliding members
- rest
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Abstract
The present invention relates to one kind to wind pipe connection, has the cylindrical body for being used for axially laying rolling tube along rolling tube and is arranged on the rolling tube locking mechanism for being used for fixing wound pipe inside the cylindrical body.In order to advantageously improve the operability and success rate of winding tube grip and release especially in full volume, according to the present invention, the cylindrical body surface is provided with some through holes, the rolling tube locking mechanism has movable trigger element and some movable rest elements, and the trigger element and the rest element coordinate so as to by the motion of trigger element rest element can be caused to be stretched out from the through hole to lock rolling tube.
Description
Technical field
The present invention relates to axially lay rolling tube along rolling tube and fixed winding pipe connection and using should
Wind the coiler device for winding yarn of pipe connection.
Background technology
In the shaping processing in the later stage of yarn, the yarn that coiler device is used to have treated in preceding process is laterally handed over
Fork ground is on rolling tube.Yarn after winding be cylindrically shaped or taper so-called " package ".Generally, individually driven
The friction roller of dynamic source driving drives rolling tube to rotate by the form contacted with rolling tube by mutual frictional force.Together
When, according to yarn direction of advance, the upstream side of friction roller sets the Yarn guide device of a traversing.The Yarn guide device is horizontal
To moving back and forth, yarn it is continual be fed to rolling tube while, also uniformly spread by the axis direction along rolling tube
If.
Publication No. CN102912490 prior art literature discloses the company for laying and discharging above-mentioned rolling tube
Connect device.
The approximate cylinder that the connector is is made up of synthetic resin elastomeric material, external diameter is roughly the same with winding bore
The part of shape.The cross-member at both ends is close on the inner peripheral surface of rolling tube using its elastic protuberance, thus rolling tube
It is fixed on cross-member.In order to discharge rolling tube, it is necessary to act directly on rolling tube and axially apply
Power, ball movement is made so that protuberance diameter to be diminished by the effect of frictional force, when protuberance no longer acts on rolling tube inner circumferential
When on face, rolling tube is in the free state that can be removed at any time from connector.
Because the power of release needs to be applied directly on rolling tube, said mechanism is to discharging the requirement of process applying power more
It is harsh.Especially when carrying full volume yarn on the surface of rolling tube, release remove exist with the rolling tube completely rolled up it is operable
Property and success rate simultaneously it is relatively low the problem of.
The content of the invention
The purpose of the present invention is to improve winding pipe connection of the prior art so that can be reliably and high successful
Rate rolling tube is fixed and discharged.
It is a further object to provide the coiler device including winding pipe connection after improvement so that can increase
The efficiency changed between empty rolling tube and full rolling tube.
According to the first string of the invention, one kind winding pipe connection has for rolling tube is axial along rolling tube
The cylindrical body of placement and it is arranged on the rolling tube locking mechanism for being used for fixing wound pipe inside the cylindrical body, the cylindrical body
Surface is provided with through hole, and the rolling tube locking mechanism has movable trigger element and some movable against member
Part, wherein the trigger element and the rest element coordinate so that by the motion of the trigger element can cause it is described against
Element is stretched out from the through hole to lock rolling tube.
This programme instead of in the prior art directly to rolling tube force in a manner of installing or discharge, and be touched by manipulating
Element is sent out to complete identical purpose so that effectively lifted in simple operation.Further, in release equipped with certain weight
When measuring the rolling tube of package, success rate because of the weight penalty of rolling tube and the problem of step-down in the prior art can be overcome.
In order that trigger element pass to rest element action it is more reliable and laborsaving, according to the present invention second side
Case, further comprise that the action of the trigger element is converted into the rest element stretches out to lock rolling tube from the through hole
Action intermediary element.
According to the 3rd scheme of the present invention, the trigger element is sliding members, and the sliding members is arranged on tubular
And can be along the axial movement in body cavity;The intermediary element includes thread metallic elastic body, the thread metallic elastic body
It is connected along the axial direction in bending shape and with the rest element;It is provided with the sliding members along the axial direction described in confession
Some perforation that thread metallic elastic body passes through in a contact fashion;Wherein, the sliding members and the thread metallic elastic
Body coordinates so that the rest element is moved and then locks or discharge the rolling tube.In this case, thread metallic elastic
Body deformation drive rest element motion, and trigger element only need directly to thread metallic elastic body act on, it is ensured that from touch
Element is sent out to the ride comfort of the action conversion process of rest element.
According to second of possible concrete structure of the rolling tube locking mechanism, in the of the invention the 4th scheme, institute
Trigger element is stated as can be around the prism that Pivot Point Center rotates;The rest element is provided with towards the face in the cylindrical body axle center and used
In the recess engaged with seamed edge;Wherein, the prism and the rest element coordinate so that, when the seamed edge rotates to and institute
When stating the position of recess engaging of rest element, the rest element stretches out above-mentioned through hole.Here, trigger element and rest element
Directly be engaged the simplification for making the stability of a system also take into account system architecture while getting a promotion.
According to the third possible concrete structure of the rolling tube locking mechanism, according to the 5th scheme of the present invention,
The trigger element is a sliding members, and the sliding members is arranged on inside the cylindrical body and can be along the axial movement;
The sliding members is each provided with domatic with the axially opposite overlapping part of the rest element;The sliding members can be along institute
State that to be axially facing the rest element mobile so that the two domatic fittings, so that the rest element is in the sliding members
Thrust under stretched out from the through hole to lock rolling tube.Similarly, the advantageous effects of this scheme are, trigger element with against member
Part, which is directly engaged, further to be optimized the structure of rolling tube locking mechanism and make it that overall structure is more stable.
In view of the winding pipe connection can be used for carrying several rolling tubes wound in a coiler device, according to
The 6th scheme of the present invention, the surface of cylindrical body are made up of some independent placement regions, wherein, it is each individually to lay region
Between along described axially spaced.Each region of individually laying is used to lay a rolling tube.The mode of placement is rolling tube
It is enclosed on the surface for laying region.So, some rolling tubes sequentially can be placed on winding pipe connection successively.
According to the 7th scheme of the present invention, each region of individually laying respectively arranges a rolling tube locking mechanism.So
Each independent operation separately from other regions for individually laying region can be achieved.
In situation existing for multiple rolling tube locking mechanisms, can consider to carry out by a small margin whole system from convenience
Structure change, i.e. according to the 8th scheme of the present invention, each institute individually laid in the rolling tube locking mechanism that region arranges
Trigger element is stated to connect by straight-bar to realize being synchronized with the movement for all rolling tube locking mechanisms.So, all windings can be achieved
Unification and simultaneously the locking of pipe or release operation, the rolling tube locking in the case of multiple rolling tubes and release behaviour can be increased
Make efficiency.
In order that rest element can be more favourable locking rolling tube, it is each described according to the 9th scheme of the present invention
The acting surface that rest element is acted on rolling tube has tooth-shape structure, to increase gripping coefficient.
According to the tenth scheme of the present invention, a coiler device includes a rotatable reel cage, directly driven by driving source
Dynamic friction roller, the Yarn guide device of traverse motion, further with foregoing winding pipe connection.Blank coil around
On the basis of the efficiency optimization changed between pipe and full rolling tube, the winding of the winding pipe connection proposed using the invention is filled
The operating efficiency put accordingly is improved.
In the 11st scheme of the present invention, a coiler device is corresponding with a reel cage, and two or two
Individual above Yarn guide device.The winding pipe connection that the invention proposes is proved to the conjunction when carrying multiple rolling tubes particularly
It is suitable, accordingly, it is necessary to which two or two Yarn guide devices carry out the yarn according to pre-provisioning request in the upstream position of rolling tube
The laying guiding of line.
Brief description of the drawings
Fig. 1 schematically shows a kind of top view of embodiment of the coiler device of the present invention,
Fig. 2 schematically shows the cross-sectional view of the first embodiment of the winding pipe connection of the present invention,
Fig. 3 schematically shows sectional view of Fig. 2 embodiment along A-A directions,
Fig. 4 schematically shows the partial cross section view of the second embodiment of the winding pipe connection of the present invention,
Fig. 5 schematically shows the side view of the 3rd embodiment of the winding pipe connection of the present invention.
Reference numerals list
1 reel cage
2 friction rollers
3 Yarn guide devices
4 traversing drive devices
5 rolling tubes
6 packages
7 cylindrical bodies
8.1,8.2 sliding members
8.3 prism
9.1,9.2 rest elements
10 accommodating cavities
11.1 left individually placement regions
11.2 right individually placement regions
12 through holes
13 first is domatic
14 second is domatic
15 stoppings are domatic
16 recesses
17 first seamed edges
18 second seamed edges
19 strong points
20 winding pipe connections
21 thread metallic elastic bodies
22 spring leafs
23 straight-bars
24 tooth-shape structures
25 irregularly-shaped holes
L1, L2 linear section
T1 first declines domatic
T2 first rises domatic
T3 second declines domatic
T4 second rises domatic
D1 First Transitions the lowest point
The second transition of D2 the lowest point
Embodiment
Textile machine, the false twist texturing machine such as using chemical fibre as raw material, utilizing the place to be arranged successively by yarn direction of advance
After reason device carries out yarn predetermined processing, need to carry out well-regulated integration to yarn in final stage.That integrates is final
State, which is generally, to be formed in rolling tube either yarn package cylindric on paper tube or taper.Fig. 1 is shown according to the present invention
Coiler device one embodiment.Coiler device include can be using reel cage arm as radius of turn reel cage (1), friction roller (2),
Rolling tube (5), Yarn guide device (3), traversing drive device (4), the conduct institute of the present invention shown in (6) and Fig. 2 is wrapped
The winding pipe connection (20) of another object of protection.Wherein, reel cage (1), Yarn guide device (3), rolling tube (5) three
Between the corresponding relation of quantity be:One corresponding two Yarn guide device (3) of reel cage (1) and two rolling tubes (5).This feelings
Condition is that a coiler device produces two individually packages.Fig. 2 is shown schematically two rolling tubes (5) and connected in the form of coaxial
Connect and be enclosed on the outside of winding pipe connection (20), so that rolling tube (5) is sequentially fixed at winding in a manner of axially arranging
On pipe connection (20).Further, two rolling tubes (5) are clamped in two of reel cage (1) with rotatable state
Between bare terminal end.
Here, bare terminal end is optionally clamped on rolling tube (5) or is clamped on winding pipe connection (20)
To be clamped, the summation depending on less or greater than two rolling tube (5) length of length of winding pipe connection (20).
Friction roller (2) is directly driven by the driving source not shown in figure to rotate.The outer peripheral face and friction roller of rolling tube (5)
(2) outer peripheral face keeps linear contact lay.The friction roller (2) of rotation driven brings rolling tube (5) in synchronous rotary into.Yarn is pressed from both sides
Between friction roller (2) and rolling tube (5), so that the rolling tube (5) of rotation drives yarn wound on the periphery of rolling tube (5)
Face.According to yarn direction of advance, be arranged on rolling tube (5) upstream is Yarn guide device (3).The Yarn guide device (3)
It is arranged in traversing drive device (4).The traversing drive device (4) is connected with the source that is operated alone not shown in figure, in its drive
Under dynamic, traversing drive device (4) the reciprocal motion of transverse reciprocating in the horizontal direction.Here reciprocal motion can pass through correspondingly back and forth
Driving source both forward and reverse directions rotation obtain.Two Yarn guide devices (3) are spaced apart and arranged in traversing drive device (4) simultaneously
The motion reciprocal with transverse reciprocating together with traversing drive device (4).Yarn is fed into through the Yarn guide device (3) and rubbed
Wipe between roller (2) and rolling tube (5), in the presence of transverse reciprocating reciprocating motion, yarn is uniformly spread in crossing manner
It is located on the outer peripheral face of rolling tube (5).
The concrete structure of winding pipe connection (20) has been described in detail in Fig. 2, Fig. 3, Fig. 4, Fig. 5.Wind pipe connection
(20) there is the cylindrical body (7) for being used for axially laying rolling tube along rolling tube and be arranged on inside cylindrical body (7) and be used for admittedly
Determine the rolling tube locking mechanism of rolling tube, cylindrical body (7) surface is provided with through hole (12), the rolling tube locking mechanism tool
There are movable trigger element and some movable rest elements (9.1,9.2), wherein the trigger element and described supporting
Coordinate by element (9.1,9.2) so as to which rest element (9.1,9.2) can be caused from the through hole by the motion of trigger element
(12) stretch out to lock rolling tube (5).
Fig. 2 and Fig. 3 schematically shows the first embodiment of winding pipe connection (20).The winding pipe connection
(20) intermediary element is further comprised.Trigger element under the implementation state is specially a sliding members (8.1), and intermediary element has
Body is thread metallic elastic body (21).Winding pipe connection (20) is configured to a cylindrical body (7), its outer surface be divided into
Region (11.1) are individually laid on a left side for very little apart and region (11.2) are individually laid in the right side.Due to left individually to lay area
Domain (11.1) and the right composition for individually laying region (11.2) and structure are essentially identical, therefore individually lay region (11.1) with left
Exemplified by be explained in detail.Left individually lay region (11.1) are provided with through hole (12) on the position in left and right ends portion.
Through hole (12) quantity per side is preferably set to 6, it is, one is individually laid region and preferably offers 12 through holes
(12).As Fig. 3 shows, the through hole (12) equidistantly distributes along end circumferencial direction.The interior intracavitary of cylindrical body (7) is provided with two
Individual rolling tube locking mechanism.Rest element (9.1), thread metallic elastic body are included according to the rolling tube locking mechanism of the embodiment
And sliding members (8.1) (21).By taking left individually placement region (11.1) as an example, its respective specific shape of following detailed description
State, effect and matching relationship.
Corresponding to the position of through hole (12), winding pipe connection (20) is provided with accommodating cavity (10).The accommodating cavity (10) with
Through hole (12) communicates.Rest element (9.1) is located in accommodating cavity (10) and can be along the open direction movement of through hole (12).Thread gold
Belong to elastomer (21) to be set with cylindrical body (7) axis direction that is substantially parallel, and it is in axially case of bending.Slide
Element (8.1) is arranged to the plate shape part that axially can move back and forth in cylindrical body (7) inner chamber.Thread metallic elastic body (21)
Left and right ends portion be connected respectively with a rest element (9.1) of the left left part for individually laying region (11.1) and left list
Solely lay another corresponding rest element (9.2) connection of the right part of region (11.1).Here, thread metallic elastic body
(21) wall through accommodating cavity (10) in the form of taking and be placed on accommodating cavity (10) wall connects with rest element (9.1,9.2).Should
Take the place of putting and form a strong point (19).Risen in rest element (9.1, the 9.2) motion that this strong point (19) is described below
To the effect of leverage points.The sliding members (8.1) passes through provided with what is opened vertically for thread metallic elastic body (21)
Irregularly-shaped hole (25).Have the function that to be always maintained at thread metallic elastic body (21) contact in the madial wall of the irregularly-shaped hole (25)
Wall.The effect wall is towards the part of cylindrical body (7) axis on irregularly-shaped hole (25) madial wall.
The concrete structure of thread metallic elastic body (21) will be described in detail with reference to Fig. 2.
Referred to using the angle of diagram as direction, the left and right ends part of thread metallic elastic body (21) is all close to level
Linear section (L1, L2), the correspondence of linear section (L1, L2) each part of rest element (9.1,9.2) and rest element
(9.1) connect.Each linear section (L1, L2) is respectively erected in the strong point (19) on accommodating cavity (10).With in scheming from left to right
Direction be reference, that turns right extension after linear section (L1) is one towards the first of cylindrical body (7) axis bending and declines
Domatic (T1), and then first domatic (T1) is rise domatic (T2) backwards to the first of the axis bending afterwards, described the
The domatic gradient in one declivity face (T1) is with gradient bigger than the described first rising domatic (T2) but with shorter length of grade.
First declines between domatic (T1) and the first rising domatic (T2) formed with sliding members (8.1) is limited into the of original state
One transition the lowest point (D1), the surface towards rolling tube of rest element (9.1,9.2) now is with winding pipe connection (20)
Outer surface is located in same level or less than winding pipe connection (20) outer surface, that is, the winding under this state
(5) are managed not by any clamping action.And then first to rise after domatic (T2) be one towards under the second of axis bending
Descending grade face (T3), described second declines the second rising domatic (T4) that domatic (T3) is the individual axis bending backwards afterwards.The
Two decline domatic (T3) with second rise domatic (T4) between formation sliding members (8.1) is limited to the of work lock-out state
Two transition the lowest point (D2), under this state, rest element (9.1,9.2) prominent winding in the presence of thread metallic elastic body (21)
Pipe connection (20) outer surface, is resisted against on the inner peripheral surface of rolling tube (5).It is it should be noted that past in sliding members (8.1)
During the right direction movement of diagram, because thread metallic elastic body (21) occurs for the positive action of sliding members (8.1) effect wall
Deformation, this deformation cause the side of linear section (L1, L2) to be lifted with the strong point (19) for leverage points.It is connected with against member
The side of part (9.1,9.2) causes rest element (9.1,9.2) outside towards winding pipe connection (20) while being lifted
It is prominent, continuing to during the right direction movement of diagram, the chucking power that rolling tube (5) is subject to further increases, until sliding members
(8.1) it is locked at relatively on the second transition the lowest point (D2).On the contrary, when sliding members (8.1) moves to the left direction of diagram,
Rest element (9.1,9.2) bounces back towards winding pipe connection (20) interior surface, then the work for fixing wound pipe (5) that do not recur
With.The embodiment is transported the transverse direction of sliding members (8.1) by an intermediary element, that is, thread metallic elastic body (21)
Turn is changed to the retraction of rest element (9.1) or stretches out motion.In the transfer process entirely moved, it is no longer necessary to sliding
Element instantaneously applies larger power.
Under this embodiment, it is seen then that left individually lay region (11.1) respectively arrange one with right individually lay region (11.2)
Individual rolling tube locking mechanism.The sliding members (8.1) of each rolling tube locking mechanism is connected by straight-bar (23), to obtain to two
Rolling tube (5) at the same release and locking.
The use of intermediary element is optional.In the case of the element of no centre, then need trigger element with against
The direct cooperation of element.Fig. 4 and Fig. 5 shows two possible embodiments under this situation.Fig. 4 schematically illustrates rolling tube
Second embodiment of attachment means (20).It is the difference of rolling tube locking mechanism with the main distinction point of upper one embodiment
Structure and composition, therefore the embodiment will combine Fig. 4 and specifically describe rolling tube locking mechanism.Trigger element described in the embodiment
For a sliding members (8.2).Rolling tube latch-up structure includes internal positioned at cylindrical body (7) and can be along the slip member that its axis moves
Part (8.2), the rest element (9.1) that can be stretched out or bounce back along through hole (12).Sliding members (8.2), which is arranged to cross section, to be had
Certain thickness slab structure.Rest element (9.1) and sliding members (8.2) it is relative and along cylindrical body (7) axially both
Between have it is a part of overlapping.Rest element (9.1) towards on sliding members (8.2) and overlapping face formed with the first slope
Face (13), it is corresponding, formed with second domatic (14) on the corresponding surface of sliding members (8.2), first domatic (13) and
Second domatic (14) can be bonded to each other, and form the sliding surface of other side each other.Using the direction of diagram as reference, sliding members
(8.2) when being slided to the left of diagram, second domatic (14) (13) domatic with first are bonded and relative motion.Continuing to the left
In motion process, rest element (9.1) is moved upwards in the presence of second domatic (14), stretches out winding pipe connection (20)
Surface, to be resisted against on the madial wall of rolling tube (5).Further, on the axial direction of cylindrical body (7), through hole (12)
Both sides be designed with stopping domatic (15), the stopping domatic (15) contacted with sliding members (8.2) completely fitting when play limit
The further movement of effect of sliding members (8.2) processed, the effect and the effect class of the second transition the lowest point (D2) in a upper embodiment
Seemingly.Likewise, when sliding members (8.2) into figure, slide by right, rest element (9.1), which is retracted, winds pipe connection (20)
Surface, to discharge rolling tube (5).In this embodiment, the motion of trigger element directly causes rest element to lock or discharge
The action of rolling tube.When point-like lines in Fig. 4 show that rest element (9.1) is fully extended, with matching somebody with somebody for sliding members (8.2)
Conjunction relation.
As another possible variant of rolling tube locking mechanism, Fig. 5 signals show winding pipe connection (20)
Rolling tube locking mechanism another embodiment.In order to rolling tube locking mechanism under clearer this embodiment of display
Feature structure, therefore select side view.Difference part is illustrated below in conjunction with the accompanying drawings.Under the implementation state, trigger element
Specially prism (8.3).The rolling tube locking mechanism includes prism (8.3) and includes the rest element of recess (16)
(9.1).The recess (16) is located on the face towards cylindrical body (7) axle center of rest element (9.1).The prism (8.3)
Preferably six prisms.It is described to support when rest element (9.1) is in the position between the first seamed edge (17) and the second seamed edge (18)
It is located at by the surface towards rolling tube of element (9.1) below the outer surface of winding pipe connection (20).When prism (8.3)
When being rotated up the recess (16) in either direction and engaging with any seamed edge, the rest element protrudes from through hole (12).This
When can realize clamping to rolling tube (5).Likewise, the point-like lines in Fig. 5 show that rest element (9.1) is fully extended
When, the matching relationship with sliding members (8.3).Recess (16) and any seamed edge are stated when prism (8.3) is rotated up no longer
Engaging, the rest element bounce back from through hole (12).It is not both to pass through the rotation to trigger element with two kinds of foregoing embodiments
Turn to obtain the chucking power to rolling tube (5).
In order that what rest element (9.1) can be relatively reliable in Fig. 4 and Fig. 5 retracts in winding pipe connection (20),
Can be by means of the spring leaf (22) that is shown in figure.The spring leaf (22) can be across through hole along the axial both sides, rest element
(9.1) while to be arranged on spring leaf (22) in through hole.When the effect of rest element (9.1) toggled element is stretched
During going out through hole, spring leaf (22) deforms.The recoverable force of spring leaf (22) can ensure that rest element is stable and return
Contracting, the rolling tube not discharged to needs are interfered.
Here, it is necessary to which explanation is that the position of through hole (12) is not limited to set in embodiment out listed above
Individually laying the both ends in region, it may have be arranged on the possibility of middle part.Further, rest element (9) against
Acting surface on rolling tube (5) has tooth-shape structure (23).The holding capability of rest element (9.1,9.2) can so be strengthened.
Except this, all independent placement regions each can individually arrange rolling tube locking mechanism, to realize each individually placement region
The independent operation separately from other regions.Or all individually placement public one rolling tube locking mechanisms of arranging in region, with
Realize co-operation simultaneously.Although possible there is also one kind not shown in Fig. 3 and Fig. 4, each rolling tube locking mechanism
Trigger element can be connected by straight-bar, be locked while to realize all rolling tubes and release, so as to obtain more excellent work effect
Rate.
For the present invention, there is also another possibility, it is, only a rolling tube is clamped in the feelings on reel cage
Condition.Under this situation, it is only necessary to which a Yarn guide device carries out the horizontal laying of yarn.And retouched in specification embodiment
State on the basis of two rolling tubes wind in the lump, those skilled in the art can obtain the present invention in the case of a rolling tube
Concrete structure, one is at this moment only needed individually to lay region and a rolling tube locking mechanism.Specifically, represented by Fig. 2
Embodiment in, left region (11.1) and its corresponding rolling tube locking mechanism of individually laying substantially can be individually regarded as
Specific structure of the invention in the presence of an only rolling tube.At this moment the bare terminal end of reel cage (1) is clamped directly at left independent
Lay the both ends in region.
The outstanding advantage of the present invention is, except when there is a rolling tube can when being wound process in a coiler device
Stably clamp and discharge outside rolling tube with convenient, when thering is two or more rolling tubes to be wound in a coiler device
During process, the present invention can favorably ensure efficiently to realize the clamping and release of two or more rolling tubes.
Claims (11)
1. one kind winding pipe connection, has the cylindrical body for being used for axially laying rolling tube along rolling tube and is arranged on institute
State the rolling tube locking mechanism for being used for fixing wound pipe inside cylindrical body, it is characterised in that:
The cylindrical body surface is provided with through hole;
The rolling tube locking mechanism has movable trigger element and some movable rest elements, wherein described touch
Hair element and the rest element coordinate so as to by the motion of the trigger element rest element can be caused to lead to from described
Hole is stretched out to lock rolling tube.
2. winding pipe connection as claimed in claim 1, it is characterised in that further comprise the dynamic of the trigger element
The rest element is converted into stretch out from the through hole to lock the intermediary element of the action of rolling tube.
3. winding pipe connection as claimed in claim 2, it is characterised in that the trigger element is sliding members, described
Sliding members is arranged in the cylindrical body cavity and can be along the axial movement;
The intermediary element includes thread metallic elastic body, the thread metallic elastic body along the axial direction in bending shape and
It is connected with the rest element;
It is provided with along the axial direction on the sliding members and some is worn for what the thread metallic elastic body passed through in a contact fashion
Hole;
Wherein, the sliding members and the thread metallic elastic body coordinate so that the rest element move so that lock or
Discharge the rolling tube.
4. winding pipe connection as claimed in claim 1, it is characterised in that the trigger element is that can be revolved around Pivot Point Center
The prism turned;The rest element is provided with towards the face in the cylindrical body axle center is used for what is engaged with the seamed edge of the prism
Recess;
Wherein, the prism and the rest element coordinate so that, when the seamed edge rotate to it is recessed with the rest element
During the position of portion's engaging, the rest element stretches out the through hole.
5. winding pipe connection as claimed in claim 1, it is characterised in that the trigger element is a sliding members, institute
Sliding members is stated to be arranged on inside the cylindrical body and can be along the axial movement;
The sliding members is each provided with domatic with the axially opposite overlapping part of the rest element;
The sliding members can be axially facing the rest element and move along described, so that the two domatic fittings, so that institute
Rest element is stated to stretch out to lock rolling tube from the through hole under the thrust of the sliding members.
6. the winding pipe connection as any one of claim 1 to 5, it is characterised in that the surface of the cylindrical body
It is made up of some independent placement regions, wherein, along described axially spaced between each individually placement region.
7. winding pipe connection as claimed in claim 6, it is characterised in that each region of individually laying respectively arranges an institute
State rolling tube locking mechanism.
8. winding pipe connection as claimed in claim 7, it is characterised in that each individually to lay the rolling tube that region arranges
The trigger element in locking mechanism is connected by straight-bar to realize being synchronized with the movement for all rolling tube locking mechanisms.
9. the winding pipe connection as any one of claim 1-8, it is characterised in that each rest element is made
There is tooth-shape structure with the acting surface on rolling tube.
10. a kind of coiler device, including a rotatable reel cage, the friction roller directly driven by driving source, traverse motion
Yarn guide device, it is characterised in that the further winding pipe connection with any one of preceding claims.
11. coiler device as claimed in claim 10, it is characterised in that a coiler device is corresponding with a reel cage,
And two or more Yarn guide devices.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610515883.9A CN107557920B (en) | 2016-07-01 | 2016-07-01 | Connecting device for winding pipe |
Applications Claiming Priority (1)
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CN201610515883.9A CN107557920B (en) | 2016-07-01 | 2016-07-01 | Connecting device for winding pipe |
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CN107557920A true CN107557920A (en) | 2018-01-09 |
CN107557920B CN107557920B (en) | 2022-05-31 |
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CN201610515883.9A Active CN107557920B (en) | 2016-07-01 | 2016-07-01 | Connecting device for winding pipe |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN202809066U (en) * | 2012-09-28 | 2013-03-20 | 高县长信线业有限责任公司 | Rotary shaft of lower spindle of all-in-one machine enabling wires to be twisted into drum |
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CN103979078A (en) * | 2013-02-11 | 2014-08-13 | 德国连接技术罗伯特·伯克有限公司 | Locking device for securing containers |
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JP4385173B2 (en) * | 1999-12-07 | 2009-12-16 | サンコースプリング株式会社 | Telescopic pipe device |
CN101765555A (en) * | 2007-06-15 | 2010-06-30 | 马里耶拉·克罗蒂 | spindle for winding yarns on winding tubes or tubular winding cores |
CN102912490A (en) * | 2011-08-05 | 2013-02-06 | 日本Tmt机械株式会社 | Yarn winder, connection member, and yarn winding method |
CN202809066U (en) * | 2012-09-28 | 2013-03-20 | 高县长信线业有限责任公司 | Rotary shaft of lower spindle of all-in-one machine enabling wires to be twisted into drum |
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