CN1676698A

CN1676698A - Yarn joining device and handy splicer

Info

Publication number: CN1676698A
Application number: CN200510063916.2A
Authority: CN
Inventors: 美马博志; 畠山泰典; 铁见太郎
Original assignee: Murata Machinery Ltd
Current assignee: Murata Machinery Ltd
Priority date: 2004-03-30
Filing date: 2005-03-30
Publication date: 2005-10-05
Anticipated expiration: 2025-03-30
Also published as: EP1584595A1; JP4110415B2; CN1676698B; JP2005314104A; DE602005017962D1; EP1584595B1; ATE450468T1

Abstract

The present invention provides a yarn joining device for joining two yarns (Ya,Yb) with the tail ends (eo) thereof aligned in the same direction. The yarn joining device reduces the size of the joint portion of the yarns even if the yarn joining is successively performed, and also adjusts the yarn joining length, and thereby forms the joint portion of yarns uniformly and reliably. In the yarn joining device for joining tail ends of two yarns with the tail ends aligned in the same direction, loosening and twining of the tail ends of the yarns is performed successively by a single air jet nozzle (2).

Description

Piecing devices and portable splicer

Technical field

The present invention relates to a kind of piecing devices that are used for the splicing of the yarn ends of two one threads, particularly under the state that the yarn ends of the yarn of two velamen joints is gathered in the same direction, carry out the piecing devices of splicer formula of joint and the portable splicer that these piecing devices can be constituted with carrying.

Background technology

As known technology, piecing devices in the past are known piecing devices that are called the tieing device and the piecing devices that are called splicer, and the former forms tieing and carries out joint; The latter is in advance with the yarn ends part backtwisting of two one threads, this yarn ends part is overlapped in nipple orifice mutually in the opposite direction, compressed fluid (compressed air etc.) is acted on this intersection as gyration airflow, makes two one thread end parts whirling vibrations thus and twine (Network body mutually and close ゎせ), joint.

In above-mentioned these piecing devices, in the jointing method that the piecing devices that are called the tieing device carry out, tieing portion compares with other parts, on the diametric(al) of yarn, outstanding along full week, thereby for example in subsequent handling, be in the knitting process, by knitting needle the time, can produce the reason that snag becomes broken end.On the other hand, in the jointing method that the piecing devices that are called splicer carry out,,, the problem of the broken end due to the snag is arranged also even on this device though compare with above-mentioned tieing, the overhang of seam is less.

To address these problems is purpose, and the applicant proposed jointing method and the piecing devices as the spun yarn of patent documentation 1 record.Even but under the situation of the jointing method of this patent documentation 1 record and piecing devices, also do not become in this joint the piecing devices that are considered to most important, are used under uniform state, forming reliably seam portion.

[patent documentation 1] TOHKEMY 2004-27463 number (summary, Fig. 1)

The present invention makes for the problem that solves above-mentioned prior art existence, its objective is provides a kind of piecing devices, it is to carry out joint under the state that the yarn ends of the yarn of two velamen joints is gathered in the same direction, even when carrying out continuous joint, also can make and dwindle more by the seam of joint, and can adjust seam length, can form this seam portion evenly, reliably.

Summary of the invention

The present invention who makes in order to achieve the above object, specifically, it is to carry out joint under the state that the yarn ends of the yarn of two velamen joints is gathered in the same direction, it is characterized in that, by an air jetting nozzle, carry out the backtwisting and the twisting of the yarn ends of above-mentioned each yarn continuously.

Technical scheme 2 described inventions in the present invention, it is technical scheme 1 a described device, above-mentioned air jetting nozzle have with by under the yarn ends of two one threads of joint, the state gathered in the same direction, accommodate the yarn accepting hole of this two one thread, and having an air blow-off mechanism, this air blow-off mechanism contains can be from the electromagnetic valve of the direction ejection air-flow that intersects with above-mentioned yarn accepting hole.

Technical scheme 3 described inventions in the present invention, it is technical scheme 1 or technical scheme 2 described devices, one side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with clamp mechanism that two one threads that are housed in above-mentioned yarn accepting hole are gripped and with a side closure of above-mentioned yarn accepting hole and adjust the joint length guiding mechanism that joint length is adjusted; The opposite side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with the distolateral cutting mechanism of yarn that cuts off two one threads.

Technical scheme 4 described inventions in the present invention, it is technical scheme 1～technical scheme 3 each described devices, the structure of above-mentioned air blow-off mechanism, clamp mechanism, joint length guiding mechanism and cutting mechanism comprises a driving cam that is installed on the cam rotating shaft respectively, is revolved to turn around by above-mentioned cam rotating shaft and just can finish the joint action.

Technical scheme 5 described inventions in the present invention, it will be carried out the portable splicer of joint under the yarn ends of two one threads of joint, the state gathered in the same direction, have and to prop up base member and the mobile base parts that tie point connects rotatably round pivot, in the movable distolateral connector portions that is being provided with of above-mentioned base member and mobile base parts with air jetting nozzle, by the operation of once holding with a firm grip just can be by an air jetting nozzle, carry out the backtwisting and the twisting of the yarn ends of above-mentioned each yarn continuously.

Technical scheme 6 described inventions in the present invention, it is technical scheme 5 described portable splicers, above-mentioned air jetting nozzle has the yarn accepting hole of accommodating this two one thread under the state that will be gathered in the same direction by the yarn ends of two one threads of joint, and having can be from the mechanism of the direction ejection air that intersects with above-mentioned yarn accepting hole.

Technical scheme 7 described inventions in the present invention, it is technical scheme 5 or technical scheme 6 described portable splicers, a side of the yarn accepting hole in above-mentioned air jetting nozzle, be provided with to be housed in two one threads in the yarn accepting hole grip in, with a side closure of above-mentioned yarn accepting hole and adjust the joint length guiding mechanism of joint length; The opposite side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with the cutting mechanism with the distolateral cut-out of yarn of two one threads.

The present invention has effect as described below.

According to piecing devices of the present invention, it is to carry out joint under the state that the yarn ends of the yarn of two velamen joints is gathered in the same direction, wherein, just can carry out the backtwisting and the twisting of the yarn ends of each yarn continuously with an air jetting nozzle, the air jetting nozzle has the yarn accepting hole of accommodating this two one thread under the state that will be gathered in the same direction by the yarn ends of two one threads of joint; And has an air blow-off mechanism, it contains can be from the direction of intersecting with above-mentioned yarn accepting hole, the electromagnetic valve of ejection air-flow, one side of the yarn accepting hole in above-mentioned air jetting nozzle is being provided with clamp mechanism that two one threads that are contained in the yarn accepting hole are gripped and with a side closure of above-mentioned yarn accepting hole and adjust the joint length guiding mechanism of joint length; The opposite side of the yarn accepting hole in above-mentioned air jetting nozzle, the distolateral cutting mechanism of yarn that cuts off two one threads is being set, by such structure, even when carrying out joint continuously, also can make and dwindle more by the seam portion of joint, and can butt joint length adjust, can be reliable, be formed uniformly this seam portion.

According to portable splicer of the present invention, it is to carry out joint under the state that will be gathered in the same direction by the yarn ends of two one threads of joint, wherein have and to prop up base member and the mobile base parts that tie point connects rotatably round pivot, in the movable distolateral connector portions that contains the air jetting nozzle that is being provided with of above-mentioned moving base member and mobile base parts, by the operation of once holding with a firm grip just can be by an air jetting nozzle, carry out the backtwisting and the twisting of the yarn ends of above-mentioned each yarn continuously.Have utmost point effective function in the following areas: can be transported to expectation the joint operation the position and use, can by the operation of once holding with a firm grip, economic power and easily carry out yarn backtwisting, interweave, a series of operation of joint.

Description of drawings

Fig. 1 is the schematic diagram of an example of piecing devices of the present invention, and to be expression be applicable to the approximate three-dimensional map of a structure example of the connector portions of winder with this device to Figure 1A, and Figure 1B is a sectional side view of representing the major part of these piecing devices with section.

Fig. 2 is in piecing devices of the present invention, each mechanism that will be used to its each mechanism is moved decomposes respectively and represents, Fig. 2 A is expression is used for gripping the clamp mechanism actuating mechanism of two one threads under the state that yarn ends is gathered in the same direction a approximate three-dimensional map, Fig. 2 B is that expression is used for a side closure of yarn accepting hole and adjusts the approximate three-dimensional map of the seam length guiding mechanism actuating mechanism of seam length, Fig. 2 C represents to be used to cut off the approximate three-dimensional map of the distolateral cutting mechanism actuating mechanism of the yarn of two one threads, Fig. 2 D is that expression is used to take out the approximate three-dimensional map of electromagnetic valve actuating mechanism of signal of splicing, and this signal of splicing is that the electromagnetic valve to the air jetting nozzle carries out switch control.

Fig. 3 A～Fig. 3 G is the summary sectional side view of the sequence of movement of expression these piecing devices self, and Fig. 3 H is the summary side elevation of representing enlargedly by the seam state of the yarn of joint.

Fig. 4 A～Fig. 4 D when to be expression with these piecing devices be used for winder W and go up, with the summary side elevation of the order of two one thread guides in the yarn accepting hole 3 of the air jetting nozzle 2 of piecing devices.

Fig. 5 A is the integrally-built approximate vertical view of expression winder W, and Fig. 5 B is the summary side elevation of winder W.

Fig. 6 is the summary stereoscopic figure of an embodiment of the portable splicer of expression the present invention.

Fig. 7 is the detailed approximate three-dimensional map of the internal structure after yarn guiding part and mobile base parts are unloaded in expression.

Fig. 8 is the key diagram that is used to illustrate the manner of execution of this portable splicer, Fig. 8 A is the summary side elevation of seeing with respect to jet element, from a side that has disposed cutting mechanism, Fig. 8 B is the approximate three-dimensional map of seeing from a side that has disposed the joint length guiding mechanism, and Fig. 8 C is the detailed summary side elevation of expression joint length guiding mechanism.

Fig. 9 is the schematic diagram of the occupation mode of this portable splicer, Fig. 9 A is the summary side elevation of the state at the expression joint operation position that will this portable splicer be brought into expectation, the summary side elevation of Fig. 9 B state that to be expression guided, this 2 one thread is gathered and sandwich yarns Y a, Yb by this portable splicer, Fig. 9 C are that the two point among Fig. 9 B is drawn the summary sectional side view that part that yarn surrounds is represented enlargedly.

The specific embodiment

Below, with reference to specific embodiment shown in the drawings, explain piecing devices of the present invention.Fig. 1 is the schematic diagram of an example of piecing devices of the present invention, and to be expression be applicable to the approximate three-dimensional map of a structure example of the connector portions of winder with this device to Figure 1A, and Figure 1B is a sectional side view of representing the major part of these piecing devices with section.

On the other hand, Fig. 2 is in piecing devices of the present invention, each mechanism that will be used to its each mechanism is moved decomposes respectively and represents, Fig. 2 A is expression is used for gripping the clamp mechanism actuating mechanism of two one threads under the state that yarn ends is gathered in the same direction a approximate three-dimensional map, Fig. 2 B is that expression is used for a side closure of yarn accepting hole and adjusts the approximate three-dimensional map of the seam length guiding mechanism actuating mechanism of seam length, Fig. 2 C represents to be used to cut off the approximate three-dimensional map of the distolateral cutting mechanism actuating mechanism of the yarn of two one threads, Fig. 2 D is that expression is used to take out the approximate three-dimensional map of electromagnetic valve actuating mechanism of signal of splicing, and this signal of splicing is that the electromagnetic valve to the air jetting nozzle carries out switch control.

And Fig. 3 A～Fig. 3 G is the summary sectional side view of the sequence of movement of expression these piecing devices self, and Fig. 3 H is the summary side elevation of representing enlargedly by the seam state of the yarn of joint.

Piecing devices 1 of the present invention are under with the yarn end eo of two one thread Ya and Yb, state that eo gathers in the same direction, this two one threads Ya and Yb are carried out joint, are the splicer formula piecing devices that carried out joint by compressed-air actuated ejection spraying.These piecing devices 1 are made of mechanisms such as containing air jetting nozzle 2.This air jetting nozzle 2 shown in each figure of each figure of Fig. 1 and Fig. 3, have a yarn accepting hole 3, it is under with the yarn end eo of the yarns Y a of two velamen joints and Yb, state that eo gathers in the same direction, accommodates this two one thread.And, this air jetting nozzle 2 also is provided with air blow-off mechanism 5 it has with air-flows such as compressed air, from the nozzle opening 4 of the direction ejection that intersects with above-mentioned yarn accepting hole 3; This air blow-off mechanism 5 is provided with electromagnetic valve 6, controls and the ejection of control air by the switch to this electromagnetic valve 6.

On a side 3a of the yarn accepting hole 3 of above-mentioned air jetting nozzle 2, be provided with clamp mechanism 7 and joint length guiding mechanism 8, the former is used for the two one thread Ya and the Yb that are contained in above-mentioned yarn accepting hole 3 are gripped; The latter is used for a side 3a of above-mentioned yarn accepting hole 3 is closed and adjust joint length; On the opposite side 3b of the yarn accepting hole 3 of above-mentioned air jetting nozzle 2, be provided with cutting mechanism 11, each yarn that is used to cut off two one thread Ya and Yb is distolateral.Above-mentioned joint length guiding mechanism 8 comprises yarn accepting hole shut-off block 9 that the side 3a with above-mentioned accepting hole 3 closes and the seam length adjustment component 10 that is used to adjust Yarn connecting length.In Figure 1A and Figure 1B, reference marks 12 is yarn guide mechanisms that expression is used for above-mentioned two one thread Ya and Yb are inserted into the yarn accepting hole 3 of above-mentioned air jetting nozzle 2.

In Yarn connecting device 1 of the present invention, above-mentioned air blow-off mechanism 5, clamp mechanism 7, joint length guiding mechanism 8 and cutting mechanism 11 are shown in each figure of Fig. 2, contain and be installed in a

driving cam

14,15,16 and 17 on the cam rotating shaft 13 separately.Promptly, above-mentioned air blow-off mechanism 5, clamp mechanism 7, joint length guiding mechanism 8 and cutting mechanism 11 are constituted as to be revolved by above-mentioned cam rotating shaft 13 and turn around and finish joint action.

According to Fig. 2 A～Fig. 2 D, the structure of above-mentioned air blow-off mechanism 5, clamp mechanism 7, joint length guiding mechanism 8 and cutting mechanism 11 is described in detail.Shown in Fig. 2 D, above-mentioned air blow-off mechanism 5 is by being installed in driving cam 14 on the above-mentioned cam rotating shaft 13 and detector 18 combinations and constituting, the function of above-mentioned driving cam 14 is to work as splicing the signal timing cam, be provided with jut 14a, when detecting this jut 14a by above-mentioned detector 18, output makes the electromagnetic valve actuating signal of above-mentioned electromagnetic valve 6 actions.

Shown in Fig. 2 A, above-mentioned clamp mechanism 7 contains the driving cam 15 that is installed on the above-mentioned cam rotating shaft 13, the cam face 15a and the cam follower 21 of above-mentioned driving cam 15 join, this driven member 21 is installed on the drive rod 20 that can swingingly be supported on the drive rod back shaft 19, like this, just constitute by the rotation of above-mentioned driving cam 15, above-mentioned drive rod 20 swung to arrow a direction by cam follower 21.Connecting linkage 24 in the output 20a of above-mentioned drive rod 20 side, a clamp clip 23 in a pair of

clamp clip

22,23 is driven to arrow b direction, yarns Y a and Yb are clamped between the above-mentioned a pair of

clamp clip

22,23 are driving.

Above-mentioned joint length guiding mechanism 8 is structure divisions important among the present invention, and it is the structure shown in Fig. 2 B.This joint length guiding mechanism 8 contains the driving cam 16 that is installed on the above-mentioned cam rotating shaft 13, the cam face 16a and the cam follower 26 of above-mentioned driving cam 16 join, this cam follower 26 is installed on the drive rod 25, drive rod 25 is supported on the drive rod back shaft 19 swingably, by the rotation of above-mentioned driving cam 16, by above-mentioned cam follower 26 above-mentioned drive rod 25 is swung to arrow c direction.

Connecting linkage 27 in the output 25a of above-mentioned drive rod 25 side, this linkage 27 makes the yarn accepting hole shut-off block 9 of a side 3a who cuts out above-mentioned yarn accepting hole 3 drive to arrow e direction to the Yarn connecting length adjustment parts 10 that arrow d direction drives and make the joint length of adjustment yarn to use.Yarn accepting hole shut-off block 9 in this joint length guiding mechanism 8 is constituted as shown in Fig. 3 A and Fig. 3 G, can move between position P1 that opens above-mentioned yarn accepting hole and closed position P2, above-mentioned joint length adjustment component 10 is constituted as from Fig. 3 A to moving Fig. 3 F.

Shown in Fig. 2 C, above-mentioned cutting mechanism 11 comprises the driving cam 17 that is installed on the above-mentioned cam rotating shaft 13, the cam face 17a and the cam follower 29 of this driving cam 17 join, this cam follower 29 is installed on the drive rod 28, this drive rod 28 is supported on the drive rod back shaft 19 swingably, makes the structure of above-mentioned drive rod 28 to the swing of arrow f direction by the rotation of above-mentioned driving cam 17, by above-mentioned cam follower 29.Connecting linkage 32 in the output 28a of above-mentioned drive rod 28 side, it makes a cutting blade 30 in a pair of

cutting blade

30,31 move to arrow g direction, is cut off the action of yarns Y a and Yb by above-mentioned a pair of

cutting blade

30,31.

Below, according to each figure of Fig. 3, illustrate by 1 couple of yarns Y a of this Yarn connecting device and yarns Y b in the distolateral order of carrying out joint of its yarn.At first, Fig. 3 A for example represents by guide (yarn the is posted せ) mechanism 12 shown in Figure 1A and Figure 1B, will and accommodate state in the yarn accepting hole 3 of above-mentioned air jetting nozzle 2 from the yarns Y b of package Pa from the yarns Y a of bobbin Bo.Among the figure, reference marks Ba represents to attract the distolateral attraction mechanism of yarn of yarn.In the stage of Fig. 3 B, by above-mentioned clamp mechanism 7 yarns Y a and Yb are gripped together, yarn accepting hole shut-off block 9 and joint length adjustment component 10 in the above-mentioned joint length guiding mechanism 8 move to yarn accepting hole closed position P2.On the other hand, in the stage shown in Fig. 3 C, make above-mentioned cutting mechanism 11 actions, on the position of predetermined length, two one thread Ya and Yb are cut off.

After by of the yarn distolateral cut-out of above-mentioned cutting mechanism 11 with two one thread Ya and Yb, in the stage shown in Fig. 3 D, a little moves to arrow e direction to make joint length adjustment component 10 in the above-mentioned Yarn connecting length adjusting mechanism 8, and length is adjusted and determined to the joint length of two one thread Ya and Yb.Be clamped between above-mentioned air jetting nozzle 2 and the above-mentioned yarn accepting hole shut-off block 9 at this stage, yarns Y a and Yb, be in bulged-in state.

Shown in Fig. 3 E, still under the state shown in Fig. 3 D, make above-mentioned air blow-off mechanism 5 actions, compressed air is blown on two one thread Ya and the Yb by nozzle opening 4, with the yarn ends part backtwisting of this yarn.Under the state shown in Fig. 3 E,, the joint length adjustment component 10 in the above-mentioned joint length guiding mechanism 8 is moved to arrow e direction again, above-mentioned yarns Y a and Yb are drawn in the yarn accepting hole 3 from air jetting nozzle 2 after the yarn ends part backtwisting.At this moment, by backtwisting near the yarn of part by the compressed-air actuated blow-off outlet in the nozzle time, by fiber each other mutual complexing and with yarns Y a and Yb joint.With this complexing part when nozzle is drawn owing to yarns Y a and Yb are drawn when pushing, thereby can prevent the contraction of complexing part with above-mentioned yarn accepting hole shut-off block 9, make seam portion be difficult to formation sea-tangle shape.

After in the yarn accepting hole 3 from above-mentioned air jetting nozzle 2, drawing fully, above-mentioned clamp mechanism 7 is opened yarns Y a and Yb, make each mechanism revert on the original position after, finish joint action.

In the present invention, the method that above-mentioned complexing is partly shortened is to adjust with 10 pairs of length of joint length adjustment component, but also can adopt such method, promptly, after this when yarn is drawn, cutter (among the figure not expression) is set in addition, the method for unnecessary tieing part No being cut off and seam being gathered.And, shown in Fig. 3 H, in the present invention, owing to being swung to the downstream with respect to yarn flow direction St, thereby can prevent the snag of yarn as much as possible by the tieing part No of joint.And, also can play useful effect to being become point-like by the yarn border of joint.

Piecing devices 1 of the present invention are to be applicable to arranged type winder AW shown in Figure 5 effectively by the utmost point.So-called arranged type winder AW is meant the joint batching apparatus of variety classes yarn, as shown in Figure 5, is that yarn feeder 41, yarn variety selection portion 42, connector portions 43, the long storage part 44 of survey and reeling end 45 are lined up a yarns basically, and is provided with control part 46.

Above-mentioned yarn feeder 41 is to be made of the yarn feeding package bobbin cradle 47 that multiple yarn feeding package group is installed, for example with the dyed yarn Yb of the dyed yarn Ya of colored a, colored b ... n kind yarn feeding package SPa, the SPb that the dyed yarn Yn of colored n forms ... SPn is configured to draw uninterruptedly mutually.From above-mentioned yarn feeding package SPa, SPb ... the dyed yarn Ya that SPn draws, dyed yarn Yb ... dyed yarn Yn passes through guide member 51 and tensioner (not expression among the figure) respectively, is fed to yarn variety selecting arrangement 48.

Dyed yarn Ya from these dyed yarn groups, dyed yarn Yb, dyed yarn Yn is selected by the yarn variety selecting arrangement 48 that is provided on the yarn variety selection portion 42 of wanting the pattern design that specific implementation designs in advance, by piecing devices 49 joint in addition that is provided on the connector portions 43, surveyed the storage that lives forever by being provided in the survey of surveying on the long storage part 44 storage device 50 that lives forever, with the length of determining according to the pattern design of design in advance, and according to the serial number of determining, in turn form for example warp thread package Pa by the batching apparatus WA that contains reciprocal drum 52, above-mentioned reciprocal drum 52 be provided in as by joint the reeling end 45 of joint yarn CY on.

On the other hand, above-mentioned yarn variety selection portion 42 is formed by yarn variety selecting arrangement 48, the structure of this yarn variety selecting arrangement be make can keep from above-mentioned each yarn feeding package SPa, SPb ... the dyed yarn Ya that SPn draws, dyed yarn Yb ... the end of dyed yarn Yn, according to from the instruction of control part 46, to the fixed dyed yarn band of major general's one Gent to advanced positions.

Below, the concrete structure of above-mentioned yarn variety selecting arrangement 48 is described according to Fig. 1 and Fig. 5.As shown in Figure 5, above-mentioned yarn variety selecting arrangement 48 be provided with contain organic frame 53, to each dyed yarn Ya, Yb ... the guide member 54 that Yn guides respectively.On above-mentioned frame 53, common axle 55 is installed, is setting and each dyed yarn is inserted respectively lead on this common axle 55 and made its yarn of advancing select guiding part 56.Above-mentioned each yarn selects guiding part 56 to be respectively equipped with hook plate (Off ッ Network プレ one ト), and extension spring is installed to tensioning between this hook plate and above-mentioned frame, selects guiding part 56 bullets to the 1st position (selection dyed yarn advance guiding position) on above-mentioned yarn.

On the other hand, above-mentioned yarn variety selecting arrangement 48 also is provided with the external force applying mechanism, be used to overcome each extension spring tension force, make above-mentioned each yarn select guiding part 56 to move to the 2nd position (selection position of readiness), by the action that is installed in the electromagnetism yarn coil mechanism on the above-mentioned frame 53, make and take the 2nd locational yarn to by the action of this external force applying mechanism and select the guiding part 56 and the hook portion of hook plate to fasten, thus yarn is selected guiding part 56 to remain on the 2nd position.

In addition, above-mentioned yarn variety selecting arrangement 48 also is provided with yarn ends part capture mechanism 61, and it is used to catch the yarn ends part that each yarn that is in above-mentioned the 2nd position (selection position of readiness) is selected the dyed yarn of guiding part 56 guidings.The structure of yarn ends part capture mechanism 61 as shown in Figure 1, the yarn ends of the dyed yarn of the front that can have been cut off by piecing devices is caught and is kept.

According to embodiment as shown in the figure, yarn is selected selected the 1st position (select dyed yarn advance guiding position) that the dyed yarn Yb of front is directed to travel condition that is set in of guiding part 56b; Yarn selects guiding part 56a to be in the 2nd position (selection position of readiness), is caught by yarn ends part capture mechanism 61 by the yarn ends of the dyed yarn Ya of its guiding part and keeps.

Like this, because the structure of above-mentioned yarn variety selecting arrangement 48 is to contain can arrange the yarn that is arranged on the common axle 55 respectively rotationally and select guiding part 56, and can operate this yarn selectively and select guiding part 56, be located the 1st position (select dyed yarn advance guiding position) and the 2nd position (selection position of readiness), thereby, selecteed back yarn is not limited to 1, can select many simultaneously, can make selecteed many dyed yarns with the collocation state, carry out variational joint.

Below, according to each schematic diagram of Fig. 4, explanation piecing devices 1 of the present invention are applicable under the situation of above-mentioned such winder W, yarns Y a and Yb are directed into the order in the yarn accepting hole 3 of the air jetting nozzle 2 in these piecing devices 1.In the stage shown in Fig. 4 A, select guiding part 56b to select to be set in the 1st position (select dyed yarn advance guiding position) that the yarns Y b of front is directed to travel condition on yarn; Yarn is selected guiding part 56a, and (selection position of readiness) carries out standby in the 2nd position, caught by yarn ends part capture mechanism 61 by the yarn ends of the yarns Y a of its guiding part and keeps.

In the stage shown in Fig. 4 B, yarn is selected guiding part 56b, and (select dyed yarn advance guiding position) moves to the 2nd position (selection position of readiness) from the 1st position, at first by Yarn guide mechanism 12 make yarns Y b move to can guide the position.Then, in the stage shown in Fig. 4 C, (selection position of readiness) moves to the 1st position (select dyed yarn advance guiding position) from the 2nd position to make yarn select guiding part 56a, by yarn mechanism 12 make yarns Y a move to can guide the position.After this, Yarn guide mechanism 12 is moved, with yarns Y a and Yb guide and be housed in the yarn accepting hole 3 of the air jetting nozzle 2 in these piecing devices 1.

Then, with reference to Fig. 6～Fig. 9, explain and Yarn connecting device of the present invention made the portable splicer that can carry, can carry out the joint operation at the position of expectation.

Fig. 6 is the summary stereoscopic figure of an embodiment of expression portable splicer of the present invention, Fig. 7 is the detailed approximate three-dimensional map that internal structure is afterwards unloaded yarn guiding part and mobile base parts in expression, Fig. 8 is the key diagram that is used to illustrate the manner of execution of this portable splicer, Fig. 8 A is the approximate three-dimensional map of seeing with respect to jet element, from a side that has set cutting mechanism, Fig. 8 B is the approximate three-dimensional map of seeing from a side that has set the joint length guiding mechanism, and Fig. 8 C is the detailed summary side elevation of expression joint length guiding mechanism.

On the other hand, Fig. 9 is the schematic diagram of the use shape mode of this portable splicer, to be expression take portable splicer into the summary side elevation of state to the joint operation position of expectation to Fig. 9 A, Fig. 9 B is that expression is guided yarns Y a, Yb by this portable splicer, the summary side elevation of the state of this two one thread being gathered and sandwiching, Fig. 9 C are that the two point among Fig. 9 B is drawn the summary side elevation that part that yarn surrounds is represented enlargedly.

The structure of this portable splicer 101 such as Fig. 6 and shown in Figure 9, be with two one thread Ya and Yb, for example under with their yarn ends part eo, state that eo gathers in the same direction, carry out joint, be by with the compressed air ejection, blow and carry out the transportable portable splicer of joint.This portable splicer 101, make mobile base parts 112 and base member 110 pivot Zhi Lianjie by pivot fulcrum 111, be the utensil of so-called stapler formula that this base member 110 and 112 of mobile base parts are held with a firm grip, just can be moved, as be positioned at its inner, connector portions SP is set at the movable distolateral inside of above-mentioned base member 110 and mobile base parts 112.This connector portions SP is provided with above-mentioned relatively base member 110 and the air jetting nozzle 102 of installation.

Above-mentioned air jetting nozzle 102 is provided with yarn accepting hole 103, is to be used under will be by the yarn ends part eo of two one thread Ya, the Yb of joint, state that eo gathers in the same direction, this two one thread is guided and accommodated.This air jetting nozzle 102 also is provided with air blow-off mechanism 105, and it has with respect to above-mentioned yarn accepting hole 103, from the direction of intersecting, with the nozzle opening 104 of air-flows such as compressed air ejection.

On above-mentioned base member 110, yarn guiding part 113 is installed, it has a pair of guiding slit 114,114 that yarns Y a and Yb are gathered and guide, by yarns Y a and Yb being gathered and putting into this guiding slit 114,114, just this yarns Y a and Yb can be directed in the yarn accepting hole 103 of air jetting nozzle 102 (with reference to Fig. 6 and Fig. 9 B).

On a side Sa of the yarn accepting hole 103 of above-mentioned air jetting nozzle 102, joint length guiding mechanism 107 is being set, its yarns Y a and Yb gripping, length of butt joint on one side that on one side two velamens is housed in the above-mentioned yarn accepting hole 102 is adjusted, and the cutting mechanism 108 with two one thread Ya and Yb cut-out is being set on the opposite side Sb of this accepting hole 103.

In the embodiment of Fig. 6～shown in Figure 9, above-mentioned length of yarn guiding mechanism 107 comprises yarn guide plate 116 and yarn guide plate 117,118, and the former moves by the flat spring parts 115 that are installed on mobile base parts 112 sides; The latter is mounted on above-mentioned base member 110 sides.

In portable splicer 101 of the present invention, when mobile base parts 112 being rotated, make yarn guide plate 116 round fulcrum shaft 119, to arrow y1 direction rotation (with reference to Fig. 8 C) by flat spring parts 115 by the operation of once holding with a firm grip.Shown in Fig. 8 A, this portable splicer 101 keeps spring 133 by open state and with the movable distolateral open state that often is maintained in of base member 110 and mobile base parts 112, when holding base member 110 and mobile base parts 112 with a firm grip, keep spring 133 and move with regard to overcoming above-mentioned open state.

On the other hand, cutting mechanism 108 comprises cutting blade 120, on this cutting blade 120, bearing 121 is installed, when mobile base parts 112 being rotated, just joins, make cutting blade 120 to rotate to arrow y2 direction round fulcrum shaft 122 with bearing 121 by the operation of once holding with a firm grip.On this cutting blade 120 movable cutting edge 123 is installed, by the rotation towards arrow y2 direction, the yarns Y a and the Yb that will be between movable cutting edge 123 and the counteredge 124 cut off (with reference to Fig. 8 A).This cutting blade 120 synchronously rotates by the operation of once holding with a firm grip, with above-mentioned yarn guide plate 116.

Relative with above-mentioned yarn guide plate 116, on above-mentioned base member 110 sides, yarn guide plate 117,118 is installed.When with the operation of once holding with a firm grip, make yarn guide plate 116 when arrow y1 direction is rotated, yarns Y a and Yb are kept by yarn guide plate 116 and yarn guide plate 117, butt joint length is adjusted shown in Fig. 9 C.Above-mentioned yarn guide plate 118 has the function of the peristome of a side Sa who closes above-mentioned yarn accepting hole 103.

Above-mentioned joint length guiding mechanism 107 comprises the yarn joint length and adjusts stopper mechanism 125.This joint length is adjusted stopper mechanism 125 and is installed on the base member 110 by axial region 126.This joint length is adjusted stopper mechanism 125 and is provided with: have on every side cam face 128 cam disc 127, be arranged on handle pin 129 and fixed-use bolt 130 on the cam disc 127.

Relative with this joint length adjustment stopper mechanism 125, on above-mentioned yarn guide plate 116, projection 131 is being set, its with the opposition side of fulcrum shaft 119 on contact with the cam face 128 of above-mentioned cam disc 127 and the rotation of above-mentioned yarn guide plate 116 limited, adjust the adjustment of stopper mechanism 125 by above-mentioned joint length and set, just can adjust the rotational angle of yarn guide plate 116.

And, in portable splicer 101, air blow-off mechanism 105 is constituted as, near the rotation end of above-mentioned mobile base parts 112, with the depressing of air valve, thus, air is ejected in the yarn accepting hole 103 by these mobile base parts 112 by pressure bar 132, will be carried out joint by the yarn ends part eo of the yarns Y a of joint, Yb, eo side backtwisting with interweaving.

Expression makes yarns Y a, the Yb order at its yarn ends part eo, eo side connector by portable splicer 101 of the present invention.At first according to the yarn variety of wanting joint, calculate suitable joint length, with the joint length in this splicer 101 adjustment stopper mechanism 125 setting joint length.

Yarns Y a, the Yb of joint are gathered, be fixed in the guiding slit 114,114 in the yarn guiding part 113.Yarns Y a, Yb are directed in the yarn accepting hole 103 of nozzle 102 along guiding slit 114,114.In this stage, when holding base member 110 and mobile base parts 112 with a firm grip, mobile base parts 112 are that rotate at the center with fulcrum shaft 111 just, and the rotation of mobile base parts 112 is stopped on the application position of predefined joint length adjustment stopper mechanism 125.Like this, by the operation of once holding with a firm grip just the cut-out of yarn～nozzle can be moved (yarn interweave, joint) finish.

Claims

1. piecing devices, it is to carry out joint under with the yarn ends of the yarn of two velamen joints, the state gathered in the same direction, it is characterized in that, by an air jetting nozzle, carry out the backtwisting and the twisting of the yarn ends of above-mentioned each yarn continuously.

2. piecing devices as claimed in claim 1 is characterized in that, above-mentioned air jetting nozzle has the yarn accepting hole, and it is to take in this two one thread under will be by the yarn ends of two one threads of joint, the state gathered in the same direction; And having an air blow-off mechanism, it contains from the direction of intersecting with above-mentioned yarn accepting hole, the electromagnetic valve of ejection air-flow.

3. piecing devices as claimed in claim 1 or 2, it is characterized in that, one side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with clamp mechanism that two one threads that are contained in the yarn accepting hole are gripped and with a side closure of above-mentioned yarn accepting hole and adjust the joint length guiding mechanism of joint length; The opposite side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with the distolateral cutting mechanism of yarn that cuts off two one threads.

4. as any described piecing devices in the claim 1～3, it is characterized in that, the structure of above-mentioned air blow-off mechanism, clamp mechanism, joint length guiding mechanism and cutting mechanism comprises a driving cam that is installed on the cam rotating shaft respectively, is revolved to turn around by above-mentioned cam rotating shaft and just can finish the joint action.

5. portable splicer, it is to carry out joint under will be by the yarn ends of two one threads of joint, the state gathered in the same direction, it is characterized in that, have and to prop up base member and the mobile base parts that tie point connects rotatably round pivot, in the movable distolateral connector portions that contains the air jetting nozzle that is being provided with of above-mentioned base member and mobile base parts, operation just can be carried out the backtwisting and the twisting of the yarn ends of above-mentioned each yarn continuously by an air jetting nozzle by once holding with a firm grip.

6. portable splicer as claimed in claim 5, it is characterized in that, above-mentioned air jetting nozzle has the yarn accepting hole of accommodating this two one thread under the state that will be gathered in the same direction by the yarn ends of two one threads of joint, and having can be from the air blow-off mechanism of the direction ejection air-flow that intersects with above-mentioned yarn accepting hole.

7. as claim 5 or 6 described portable splicers, it is characterized in that, one side of the yarn accepting hole in above-mentioned air jetting nozzle, be provided with to be contained in two one threads in yarn accepting hole when gripping, with a side closure of above-mentioned yarn accepting hole and adjust the joint length guiding mechanism of joint length; The opposite side of the yarn accepting hole in above-mentioned air jetting nozzle is provided with the cutting mechanism with the distolateral cut-out of yarn of two one threads.