CN101001800A - Apparatus for winding yarn - Google Patents

Abstract

An equipment which is used for winding the yarn comprises the following components: a frame, a cam unit, a cylinder cam which is rotatablely fixed to the frame and comprises a guiding groove on the surface, and a reciprocating moving part which does straight reciprocating motion according to the rotation of the cylinder cam to guide the yarn; and a bobbin unit comprising a bobbin which winds the yarn guided by the reciprocating moving part. One periodic movement of the reciprocating moving part comprises a left turning point (P1, P3, P5, P7 ... P2n-1), a right turning point (P2, P4, P6 ... P2n) and a sub-path formed wherein. The width (Wn) of n sub-path of the reciprocating moving part satisfies the following relationship: Wn= Pn+1 - Pn <W0, wherein Pn+1 - Pn is the moving distance between the turning point (Pn+1) and (Pn), and W0 is the winding width of the yarn winded by the roll. The left and right turning point are not arranged in one line relative to the winding direction of the yarn.

Description

The equipment that is used for winding yarn

Technical field

The present invention relates to a kind of equipment that is used for winding yarn, in particular, relate to a kind of equipment that is used for winding yarn, its winding thickness that can prevent the yarn that roll twines at the two ends of bobbin or another specific part the saddle phenomenon (saddle phenomenon) that increases appears.

Background technology

Usually, Yarn winding device is used for the continuous winding yarn of roll.Yarn winding device comprises the yarn feeding unit that is used to supply with yarn, be mounted to a plurality of parts that move back and forth that in the cycle of certain width, move back and forth the yarn of supplying with from the yarn feeding unit with guiding, and the bobbin unit that a plurality of bobbins rotatably are installed, so that can twine by roll by the yarn that moves back and forth the part guiding.

It moves back and forth part and is connected slidably in the lip-deep groove that is formed at the rotating cylindrical cam, so that can periodically move back and forth along with the rotation of cylindrical cam with the guiding yarn.Fig. 1 shows that traditional yarn twines cylindrical cam 10 and the view that moves back and forth the example of part 20.

As shown in Figure 1, yarn inserts the guiding that is formed in the pilot hole 21 that moves back and forth part 20 front sides and is subjected to this pilot hole 21, so that yarn passes wherein.Circular guide protrusions part 22 is formed on the rear side that moves back and forth part 20, and guide protrusions part 22 is inserted and is connected slidably in the guide groove 11 of cylindrical cam 10.Therefore, if cylindrical cam 10 rotations, then guide protrusions part 22 is slided along guide groove 11, moves back and forth part about 20 then and moves back and forth.

Specify this operation with reference to Fig. 2 a and 2b below.Fig. 2 a is the expansion view that shows the guide groove 11 of cylindrical cam 10.With reference to Fig. 2 a, when cylindrical cam 10 rotation one-periods, be connected the guide protrusions part 22 that moves back and forth part 20 in the guide groove 11 from starting point P _SBegin to move, along guide groove at limit (or, turning point) P _HTurn to, turn back to starting point P then _STherefore, the much the same stroke of width W along with moving back and forth with the yarn width of twining corresponding to roll moves back and forth part 20 roll (not shown) winding yarns.Move back and forth part 20 and move back and forth and the roll winding yarn along with repeating, Fig. 2 b shows to move back and forth the part 20 this scheme drawings that move back and forth.That is to say, move back and forth part 20 along with at starting point P with respect to bobbin excircle S _SWith turning point P _HBetween move back and forth winding yarn.

Yet, in aforesaid traditional yarn winding method, because yarn is along with at starting point P _SWith turning point P _HBetween reciprocal guiding and be wound, so the winding thickness of yarn is at the two end portions thickening of bobbin, that is, near starting point P _SWith turning point P _HPlace's thickening, rather than at the core of bobbin, so the cross section of bobbin forms horse-saddle.That is to say that owing to move back and forth part 20 always at same point, promptly turning point changes its moving direction, so, turning point P passed _HThe linearity region in yarn gather that to twine thickness bigger than other zones.

Therefore this saddle phenomenon can cause yarn to be easy to cut problem because of twining instability upon deployment, nor can guarantee smooth operation.

Summary of the invention

The present invention is designed to solve above-mentioned the problems of the prior art, therefore, one of purpose of the present invention is to provide a kind of yarn Wiring apparatus, wherein owing in moving back and forth a round moving period of part, comprise a plurality of turning points, and these turning points are set in different positions, the saddle phenomenon occurs so can prevent the yarn that roll twines.

In order to realize above purpose, the invention provides a kind of equipment that is used for winding yarn, comprising: frame; The cam unit has the frame of being rotatably fixed to and the surface has the cylindrical cam of guide groove, and according to the rotation of cylindrical cam and straight reciprocating motion with the part that moves back and forth of guiding yarn; And the bobbin unit with bobbin, wherein twine around described bobbin by the yarn that moves back and forth the part guiding.

Wherein, the one-period motion that moves back and forth part comprises a plurality of left steering point (P ₁, P ₃, P ₅, P ₇P _2n-1), a plurality of right steering point (P ₂, P ₄, P ₆P _2n) and be formed at a plurality of sub-paths between the turning point.

Wherein, move back and forth the width (W of the n sub-path of part _n) have following relation a: W _n=| P _N+1-P _n|＜W ₀, wherein, | P _N+1-P _n| for moving back and forth part at turning point (P _N+1) and turning point (P _n) between miles of relative movement, and W ₀The winding width of the yarn that twines for roll, and wherein, with respect to the winding direction of yarn, right steering point and left steering point are not arranged on the same line.

In optimal way, move back and forth the mobile width (W of the n+1 sub-path of part _N+1) less than the mobile width (W of n sub-path _n).

In preferred mode, as the gap (G that gives a definition _n) be formed between the left and right sides turning point adjacent one another are: G _n=| P _N+1-P _N-1|＞0, wherein, the gap (G between the turning point _n) be equal to each other.

In addition, the minimum mobile width (W of sub-path _Min) be set at the minimum clearance (G that is less than or equal between the turning point _Min).

In another aspect of this invention, provide a kind of equipment that is used for winding yarn, wherein moved back and forth the mobile width (W of the n+1 sub-path of part _N+1) greater than the mobile width (W of n sub-path _n).

In another aspect of this invention, provide a kind of equipment that is used for winding yarn, the mobile route that wherein moves back and forth part comprises with in the lower area at least one:

By mobile width gradually or the path formed of the sub-path that progressively reduces reduce the zone; And

The path that the sub-path that gradually or is progressively increased by mobile width is formed increases regional.

Description of drawings

These and other features, aspect and the advantage of the preferred embodiment for the present invention be with reference to corresponding accompanying drawing, and more clear by following specifying.In the drawings:

Fig. 1 is the partial perspective sketch that shows the cylindrical cam of traditional Yarn winding device and move back and forth part;

Fig. 2 a is the guide groove expansion sketch in the plane that shows on the cylindrical cam that is formed at Fig. 1;

Fig. 2 b be displayed map 1 move back and forth the sketch that move back and forth path of part on the excircle of bobbin;

Fig. 3 is the sketch that shows the equipment that is used for winding yarn according to the preferred embodiment of the present invention;

Fig. 4 is the sketch of demonstration according to the mobile route that moves back and forth part on the bobbin excircle of the yarn Wiring apparatus of one embodiment of the present invention;

Fig. 5 is the sketch that shows the mobile route that moves back and forth part on the bobbin excircle of the yarn Wiring apparatus of another embodiment according to the present invention;

Fig. 6 is the sketch that shows the mobile route that moves back and forth part on the bobbin excircle of the yarn Wiring apparatus of another embodiment according to the present invention;

Fig. 7 is the sketch that shows the mobile route that moves back and forth part on the bobbin excircle of the yarn Wiring apparatus of another embodiment according to the present invention.

The specific embodiment

Hereinafter, prove absolutely preferred implementation of the present invention with reference to corresponding accompanying drawing.Yet, term of Shi Yonging and vocabulary should not constitute the implication that is restricted in general and the dictionary therein, allow to limit principle basis and should be based on the present inventor, according to the implication and the notion of purport spirit and scope of the present invention as the term that is used for illustrating better corresponding concepts.Therefore, should not constitute in this explanation and to limit the scope of the invention, and only provide the explanation of some preferred implementations of this invention.Should be appreciated that, can make other changes or change and can not break away from purport spirit and scope of the present invention.

Fig. 3 has shown the sketch according to the equipment that is used for winding yarn of one embodiment of the present invention.With reference to Fig. 3, the bobbin unit that yarn Wiring apparatus of the present invention comprises frame 110, is fixed to the cam unit of frame 110 and is installed in below, cam unit.

The cam unit comprises the camhousing 200 that is installed to frame 110 and is rotatably installed in cylindrical cam 210 in the camhousing 200.Guide slot 200a is formed at the front surface of camhousing 200, a plurality ofly moves back and forth the length direction that part 130 is mounted to by guide slot 200a axle unit along the line and moves back and forth.

A plurality of part 130 relative frames 110 that move back and forth are installed at regular intervals.Be used for guiding the guide groove 21 (referring to Fig. 1) of the yarn of supplying with from the Yarn feed device (not shown) 100 to be formed at and move back and forth part 130.

Guide groove 220 is formed in the excircle of cylindrical cam 210, moves back and forth part 130 and is connected in the guide groove 220 to slide therein.Therefore, by guide groove 220 rotation of cylindrical cam 210 is converted to the straight reciprocating motion that moves back and forth part 130.According to the path that moves back and forth that moves back and forth part 130, guide groove 220 can have different shape.

The bobbin unit is provided with the rotatable cylindrical holder 165 that supports the bobbin 160 that is wound with yarn 100, and a plurality of bobbins 160 are fixed to support 165.In optimal way, vacuum is inhaled the hole (not shown) and is formed in the support 165, so that support ring is around the bobbin 160 of its excircle cooperation securely.Therefore, when support 165 rotations, bobbin 160 also rotates, and moves back and forth axially moving back and forth of part 130 axles along the line, so that yarn is around the excircle winding of bobbin 160.

In the present invention, as shown in Figure 4, move back and forth part 130 in its direction of different position changes.Fig. 4 has shown the expansion sketch of the mobile route that moves back and forth the relative bobbin excircle of part S.

With reference to Fig. 4, this embodiment move back and forth part according to the rotation of peripheral cam from starting point P ₀A plurality of sub-path N are passed in beginning ₁～N ₆, turn back to starting point P then ₀From starting point P ₀Beginning also turns back to starting point P ₀Mobile route be called one-period.

According to this embodiment, in corresponding to the mobile route that moves back and forth the part one-period, be provided with a plurality of left steering point P ₁, P ₃, P ₅, P ₇P _2n-1With a plurality of right steering point P ₂, P ₄, P ₆... P _2nAnd be formed at left steering point P ₁, P ₃, P ₅, P ₇P _2n-1With right steering point P ₂, P ₄, P ₆P _2nBetween sub-path N ₁～N ₆Left steering point P ₁, P ₃, P ₅, P ₇P _2n-1Change the point of its moving direction for moving back and forth part, for example, from left to changing into right, on the contrary, right steering point P ₂, P ₄, P ₆... P _2nFor move back and forth part with its moving direction from right change to left to point.

In Fig. 4, move back and forth the first sub-path N of part ₁Be formed at the first turning point P ₁With the second turning point P ₂Between, and the second sub-path N ₂Be formed at the second turning point P ₂With the 3rd turning point P ₃Between.Same mode moves back and forth the n sub-path N of part _nBe formed at n turning point P _nWith n+1 turning point P _N+1Between.

In addition, the first sub-path N ₁Mobile width W ₁Corresponding to the second turning point P ₂With the first turning point P ₁Between the gap, and the second sub-path N ₂Mobile width W ₂Corresponding to the 3rd turning point P ₃With the second turning point P ₂Between the gap.Same mode, n sub-path N _nMobile width W _nCorresponding to n+1 turning point P _N+1With n turning point P _nBetween the gap.

Formula 1

W _n＝|P _n+1-P _n|

At this, ' | P _N+1-P _n| ' for moving back and forth part at turning point P _N+1With turning point P _nBetween miles of relative movement.According to the present invention, be formed at the mobile width W of the shunt warp that moves back and forth part between the turning point _nLess than by moving back and forth the winding width W of the yarn that the part roll twines ₀

Formula 2

W _n＜W ₀

In addition, according to the present invention, because left steering point P ₁, P ₃, P ₅, P ₇P _2n-1With right steering point P ₂, P ₄, P ₆... P _2nWith respect to the winding direction of yarn or the hand of rotation of bobbin, no fix on same straight line, so, move back and forth part and change its moving direction in different turning points.

Specifically, move back and forth the left steering point P of part at diverse location ₁, P ₃, P ₅, P ₇P _2n-1Turn to the right side, and at the right steering point P of diverse location ₂, P ₄, P ₆P _2nPort.

Therefore, because turning point is not arranged on the same straight line of relative yarn winding direction, so, different with traditional approach, moving back and forth part when moving one-period, yarn can not accumulate in turning point, or accumulates on the extended line of turning point.

Fig. 5 has shown another embodiment of the present invention.

With reference to Fig. 5, in this embodiment, the mobile route that moves back and forth part has a plurality of sub-path N ₁～N ₈, its width in one-period gradually or gradually reduce.In addition, in this embodiment, the width W of n sub-path _nAs previous embodiment as give a definition.

Formula 3

W _n＝|P _n+1-P _n|＜W ₀

Left steering point P ₁, P ₃, P ₅, P ₇P _2n-1With right steering point P ₂, P ₄, P ₆... P _2nNo fix is on the same straight line with respect to the yarn winding direction.

Simultaneously, because n+1 sub-path N _N+1Mobile width W _N+1Less than n sub-path N _nMobile width W _nSo,, sub-path shortens gradually or progressively.In specification sheets and claim, the situation that term ' minimizing gradually (or increasing) ' differs from one another corresponding to the gap between the turning point, term ' gradually reduces (or increasing) ' corresponding to the identical situation in the gap between the turning point simultaneously.

Formula 4

W _n+1＜W _n

Therefore, clearance G _nBe formed at left steering point P adjacent one another are ₁, P ₃, P ₅, P ₇P _2n-1With right steering point P ₂, P ₄, P ₆... P _2nBetween, as shown in Figure 5.

Formula 5

G _n＝|P _n+1-P _n-1|＞0

Clearance G between the turning point _nCan differ from one another, but be preferably set to identical.As another form, the clearance G between the turning point _nCan reduce or increase with predetermined ratio.

In addition, can suitably set sub-path N bottom _MinThe mobile width that moves back and forth part, just minimum mobile width N _Min, but preferably be less than or equal to clearance G between the turning point _nIf the clearance G between the turning point _nDiffer from one another, then it is set at and is less than or equal to minimum clearance G _Min

Formula 6

W _min≤G _min

In the case, since the mobile route that moves back and forth part have with corresponding to the clearance G between the turning point _nTurning point spaced apart, so yarn can twine with the uniform thickness roll that do not gather.Clearance G between the turning point _nCompact more, the winding of yarn is just even more.

Fig. 6 has shown according to the present invention the reciprocating sketch that moves back and forth part of another embodiment.

The mobile route that moves back and forth part shown in Figure 6 comprises a plurality of sub-path N that width gradually or progressively increases in one-period ₁～N ₈

In this embodiment, the clearance G between the turning point _nBe defined as follows.

Formula 7

G _n＝|P _n+2-P _n|＞0

Simultaneously, because n+1 sub-path N _N+1Mobile width W _N+1Greater than n sub-path N _nMobile width W _nSo,, sub-path prolongs gradually or progressively.

Formula 8

W _n+1＞W _n

Even in this case, can suitably set the minimum mobile width W that moves back and forth part _Min, but preferably be less than or equal to clearance G between the turning point _nIf the clearance G between the turning point _nDiffer from one another, then it is set at and is less than or equal to minimum clearance G _Min

According to another embodiment of the present invention, as shown in Figure 7, move back and forth part a repetition period move back and forth the sub-path that comprises gradually or gradually reduce and gradually or progressively increase together.

That is to say, as shown in Figure 7, sub-path N ₁～N ₄For mobile width as the embodiment of Fig. 5 gradually or the path that gradually reduces, and sub-path N ' ₁～N ' ₄For mobile width as the embodiment of Fig. 6 gradually or the path that progressively increases.

Certainly, even in this embodiment, left steering point P ₁, P ₃, P ₅, P ₇P _2n-1With right steering point P ₂, P ₄, P ₆... P _2nNo fix is on the same straight line with respect to the yarn winding direction.

Though understood the present invention specifically, yet, should be appreciated that, specification sheets has just provided by example and has specified and instantiation, shown preferred implementation of the present invention simultaneously, those skilled in the art can specify thus and make various changes and change, and do not break away from purport spirit and scope of the present invention.

Industrial applicibility

Be used for the equipment of winding yarn according to the present invention, owing to move back and forth the turning point that part changes moving direction Yarn is not arranged on the same straight line with respect to the yarn winding direction, so can not piled up and be gathered. Cause This if use yarn Wiring apparatus roll winding yarn of the present invention, then can prevent the saddle phenomenon, That is, prevent that the winding thickness of yarn is in specific part increase.

Claims (8)

1. an equipment that is used for winding yarn comprises: frame; Cam unit, described cam unit have the frame of being rotatably fixed to and the surface has the cylindrical cam of guide groove, and according to the rotation of cylindrical cam and straight reciprocating motion with the part that moves back and forth of guiding yarn; And the bobbin unit with bobbin, wherein twine around described bobbin by the yarn that moves back and forth the part guiding,

Wherein, the described one-period motion that moves back and forth part comprises a plurality of left steering point (P ₁, P ₃, P ₅, P ₇P _2n-1), a plurality of right steering point (P ₂, P ₄, P ₆P _2n) and be formed at a plurality of sub-paths between the described turning point,

Wherein, the described width (W that moves back and forth the n sub-path of part _n) satisfy following the relation:

W _n＝|P _n+1-P _n|＜W ₀

(at this, | P _N+1-P _n| for moving back and forth part at turning point (P _N+1) and (P _n) between miles of relative movement, and W ₀The winding width of the yarn that twines for roll),

Wherein, with respect to the winding direction of yarn, described right steering point and left steering point are not arranged on the same line.

2. the equipment that is used for winding yarn according to claim 1,

Wherein, the described mobile width (W that moves back and forth the n+1 sub-path of part _N+1) less than the mobile width (W of n sub-path _n).

3. the equipment that is used for winding yarn according to claim 2,

Wherein, as the gap (G that gives a definition _n) be formed between the left and right sides turning point adjacent one another are:

G _n＝|P _n+1-P _n-1|＞0，

Wherein, the gap (G between the described turning point _n) be equal to each other.

4. according to claim 2 or the 3 described equipment that are used for winding yarn,

Wherein, the minimum mobile width (W of described sub-path _Min) be set at the minimum clearance (G that is less than or equal between the turning point _Min).

5. the equipment that is used for winding yarn according to claim 1,

Wherein, the described mobile width (W that moves back and forth the n+1 sub-path of part _N+1) greater than the mobile width (W of n sub-path _n).

6. the equipment that is used for winding yarn according to claim 5,

Wherein, as the gap (G that gives a definition _n) be formed between the left and right sides turning point adjacent one another are:

G _n＝|P _n+2-P _n|＞0，

Wherein, the gap (G between the described turning point _n) be equal to each other.

7. according to claim 5 or the 6 described equipment that are used for winding yarn,

Wherein, the minimum mobile width (W of described sub-path _Min) be set at the minimum clearance (G that is less than or equal between the turning point _Min).

8. the equipment that is used for winding yarn according to claim 1, wherein, the described mobile route that moves back and forth part comprises with in the lower area at least one:

By mobile width gradually or the path formed of the sub-path that gradually reduces reduce the zone; And

The path that the sub-path that gradually or is progressively increased by mobile width is formed increases regional.

Images