CN1576217A

CN1576217A - Energy storage means for a yarn guide of a textile machine for producing a cross-wound bobbin

Info

Publication number: CN1576217A
Application number: CN 200410036832
Authority: CN
Inventors: J·霍恩博格
Original assignee: Saurer GmbH and Co KG
Current assignee: Lida Automatic Winder Co ltd
Priority date: 2003-07-17
Filing date: 2004-04-19
Publication date: 2005-02-09
Anticipated expiration: 2024-04-19
Also published as: JP2005035795A; EP1498378A1; CN100537385C; DE502004008140D1; DE10332399A1; EP1498378B1

Abstract

This energy accumulator has at least two permanent magnets arranged in fixed positions and one permanent magnet capable of traversing with the finger yarn guide. These permanent magnets are arranged so that poles in the same direction face to each other, and the permanent magnets arranged in the fixed positions are positioned near a motor shaft of an electric mechanical driving device, which is formed with a finger thread guide turning shaft in a left or a right turning range of the finger yarn guide, so that magnetic force of the permanent magnets returns the finger yarn guide to a central area, wherein magnetic force of the permanent magnets are neutral, in the condition that the driving device is disconnected.

Description

Be used to make the energy storage of finger-type thread-carrier of the spinning machine of cross winding bobbin

Technical field

The present invention relates to a kind of energy storage as described in the preamble as claimed in claim 1.

Background technology

As everyone knows, in order to make the spinning bobbin, must satisfy at least two condition precedenies.On the one hand, must make the rotation of spinning bobbin, on the other hand, must make the yarn that is wound up on the rotary spinning bobbin traversing along the bobbin axis.

If yarn is traversing slowly, then form the parallel as far as possible spinning bobbin of volume yarn.If such spinning bobbin should have big volume and be basically perpendicular to the planar end surface of bobbin axis arranged, then position-arresting disk must be arranged in volume yarn both sides.So that form cross winding, then can avoid using position-arresting disk if yarn is traversing rapidly.Because therefore modern spinning machine, even when the coiling yarn is traversing, also needs very high traversing speed making the intersected coiled bobbin period of the day from 11 p.m. to 1 a.m as everyone knows with quite high winding speed running.

With traversing relevantly, known the multiple different form of implementation of reciprocator at the yarn of making the so-called intersected coiled bobbin period of the day from 11 p.m. to 1 a.m.

Except that so-called apron thread-carrier, for example be preferably groove drum form thread guide drum or also use the finger-type thread-carrier.Here, the finger-type thread-carrier generally drives by independent motor machine driving device respectively.

In EP0838422A1, a kind of so driven finger-type thread-carrier of independent motor machine driving device that passes through has for example been described.In addition, be provided with into the energy storage of coil spring form in the stroke final area of finger-type thread-carrier, they are supported the motion commutation of thread-carrier and should alleviate the burden of its driving device simultaneously, have also shortened thread-carrier at the last length of the halt of stroke.Can mechanical alignment on the position of energy storage, thereby just can adjust the thread-carrier stroke, to avoid for example on cross winding bobbin, occurring the seamed edge of protuberance.

This energy storage has various shortcomings certainly: owing to cause that thread-carrier is braked than more quickly on bumping against separately energy storage the time, thereby for example make the stressed maximum of whole paving system and thereby very high stability must be arranged, this has obviously increased the quality and the inertia of paving system.Yet, when reciprocating frequence is 30Hz or when higher, inertia has obviously had influence on driving device.In addition, produced noise when thread-carrier bump energy storage, in having the microscler spinning machine of many this paving systems, this noise just correspondingly adds up.If thread-carrier drives and to control by a regulating control, then in thread-carrier enters the zone of energy storage, also produced load and increased sharply, this obviously has influence on the quality of regulation of regulating control.

Therefore, existing people advises adopting such energy storage, and promptly its potential energy constantly increases progressively towards finger-type thread-carrier reversal point.

DE19960024 has described a kind of such finger-type thread-carrier, it be driven by a motor machine driving device and simultaneously with at least one be fixed on the drive housing torsion spring and preferably coil spring link to each other.Because so helical spring potential energy constantly increases progressively towards transition zone dead point direction, thereby one driven is connected with so helical spring finger-type thread-carrier on it and just forms a mechanical system of harmonic vibration basically.

But, rotating spring once was the presumable weakness of such can both perfect work in theory and practice and reciprocator can well-tuned, and may enough satisfy the strict demand that such paving system is proposed the service life of this spring reliably.

Summary of the invention

Therefore, based on above-mentioned prior art, task of the present invention is to improve the energy storage of the above-mentioned type, on the one hand, energy storage potential energy is constantly increased progressively towards transition zone dead point direction, on the other hand, guarantees that this energy storage has long service life.

According to the present invention, this task is finished by a kind of energy storage, and this energy storage has the described feature of characteristic as claimed in claim 1.

The visible dependent claims of favourable embodiment of the present invention.

A kind of have at least two fixed and one can bring following advantage with the use of the magnetic energy storage of the traversing permanent magnet of thread-carrier, promptly such device does not have mechanical wear and thereby has almost unlimited service life.In addition, the productive costs of such energy storage is lower and can both work very reliably under various operating modes.

In favourable form of implementation, these two fixed permanent magnets are as being integrated in the magnet seat board as described in the claim 2,3, and this seat board distolateral is fixed on the motor housing of motor machine driving device of finger-type thread-carrier.

This magnet seat board has a base plate and two bearing supports that are projected into backward outside the base plate, and the supporting secret mark has the support holes that is used for fixing motionless permanent magnet.Such design-calculated magnet seat board is stable bearing to the magnetic force that appears between the permanent magnet in the winder operation.In addition, such magnet seat board for example can be made than the lowland with die-casting technique or injection moulding cost, and can be fixed on the motor housing of thread-carrier driving device (claim 4) by screw or similarity piece simple and reliablely.

As described in claim 5, can be integrated in the switch lug boss by traversing permanent magnet, this switch lug boss is anti-to be connected with the motor shaft of thread-carrier driving device rotationally.

The switch lug boss is also more advantageously by being bolted to (claim 6) on the motor shaft.In addition, also be applicable to claim 5 and 6 with the advantage that claim 2-4 describes relevantly.

Form of implementation in claim 7 li description is necessary certainly, because have only when the utmost point of permanent magnet is in such direction, could realize supporting the ideal effect of magnetic energy storage of the motion commutation of finger-type thread-carrier.

Description of drawings

Below the present invention is described in detail for the embodiment shown in reference to the accompanying drawings.Be depicted as:

Fig. 1 schematically illustrates the cone winding position finger-type thread-carrier, that make the spinning machine of cross winding bobbin with a band energy storage of the present invention;

Fig. 2 with the electromagnetic actuator device of a finger-type thread-carrier of perspective representation and one according to magnetic energy storage of the present invention.

The specific embodiment

Fig. 1 is the diagrammatic side view of station 2 of making the spinning machine of cross winding bobbin.Here, it is so-called intersection winder automatic equipment 1.On the station 2 of this intersection winder automatic equipment 1, as is known and thereby need not be described in detail like that, those cops 3 of producing on a ring spinner are become the cross winding bobbin 5 of large volume by after-combustion.

Cross winding bobbin 5 after finishing by a cover (not shown) automatically work docking facility and preferably cross winding bobbin more changing device be transferred to the cross winding bobbin feedway 7 of a machine length and be sent to one and be placed in machine distolateral bobbin loading depot or allied equipment.

The winder automatic equipment 1 that intersects generally also has a logistics device that becomes bobbin bobbin conveying system 6 forms.6 li of bobbin bobbin conveying systems, cop 3 is bare bobbin around the movement on transfer dish 11 in other words.In Fig. 1, only show the cop transportation section 24 of 6 li of bobbin conveying systems, reversibly driven memory paragraph 25, a lateral transfer section 26 and a bobbin return phase 27 that leads to cone winding position 2.

In addition, each cone winding position as everyone knows and thereby only have mechanisms of various assurance station 2 normal operations with mentioning.Such mechanism for example is a winding device 4.Winding device 4 had a bobbin bank 8 as in the past, it is supporting and it can be orthogonal to the rotational of pivot center 12 around another movingly around a pivot center 12, so that for example produce the taper cross winding bobbin.

In the embodiment shown in fig. 1, cross winding bobbin 5 is placed in a supporting hold-down roller 9 that supports on the hold-down roller 9 and drive this nothing driving by frictional transmission with its surface in winder work.In this case, the driving device by (unshowned) rotating speed adjustable drives cross winding bobbin, and this driving device directly is placed on the bobbin bank or is integrated into 8 li of bobbin banks.In optional form of implementation, a driven hold-down roller can certainly be set, it then relies on frictional transmission to drive the cross winding bobbin that is bearing in the bobbin bank free to rotately.

For making yarn 16 in the winder process, realize crank motion, be provided with a yarn reciprocator 10.Such yarn reciprocator 10 that schematically illustrates in Fig. 1 has for example more at large been described in DE19960024A1.Yarn reciprocator 10 mainly is made of a finger-like yarn guide device 13, and this finger-type thread-carrier is driven by a motor machine driving device 14 and makes yarn 16 traversing between the end face of cross winding bobbin 5.

Shown in Fig. 1 was further, motor machine driving device 14 also had one according to magnetic energy storage 20 of the present invention.

Each station 2 of intersection winder automatic equipment 1 also has a station computing machine 28, and it is received on the Central Processing Unit (CPU) 17 by a total wire joint 15.Carry air pressure to be undertaken by an air-breathing transverse arm 18 for these stations 2, this air-breathing transverse arm for example links to each other with a negative pressure source 21 by negative pressure line 19.

In Fig. 2, show motor machine driving device 14 that in Fig. 1, tightly schematically illustrate, that be furnished with a magnetic energy storage 20 and that be used for thread-carrier 13 with transparent view.As shown in the figure, driving device 14 has a motor housing 22, and it has a clamp flange 23 overleaf.By the long hole shape through hole 28 on the clamp flange 23, driving device 14 can be fixed on the doff head shell 29.

Magnetic energy storage 20 of the present invention has at least two fixed

permanent magnets

30,31 and at least one can be with the permanent magnet 32 of thread-carrier 13 commutations.

Here, fixed

permanent magnet

30,31 is integrated into 33 li of magnet seat boards, and its base plate 41 for example can be fixed on the motor housing 22 of motor machine driving device 14 by bolt 34.The base plate 41 of magnet seat board 33 has two

bearing support

35A or 35B integrally formed and that

corresponding support holes

36A or 36B are arranged, so that hold permanent magnet 30,31.In these

support holes

35A or 35B, fixing fixed

permanent magnet

30 or 31.

In addition, in the zone between bearing support 35A or the 35B, be provided with one can be movable switch lug boss 37, it is preferably also by corresponding bolts 38 anti-being fixed on rotationally on the motor shaft 39 of thread-carrier 13 drivings device 14.Switch lug boss 37 has a through hole 40 to be used to hold traversing permanent magnet 32.

Permanent magnet

30,31,32 so is arranged on its cooresponding bearing position, and is promptly oppositely directed each other opposed extremely mutually.

In other words, have permanent magnetism power between the fixed

permanent magnet

30,31 and the permanent magnet 32 that can support, they play " repulsion " effect traversingly.

Act on can be traversing permanent magnet 32 on magnetic force on the midway location of thread-carrier 13 and thereby also be on the midway location of switch lug boss 37, to cancel out each other.When thread-carrier 13 was traversing, when for example shifting to reversal point V1, the potential energy of the magnetic force of repulsion increased between the South Pole S of the South Pole of permanent magnet 30 S and permanent magnet 32 always, and magnetic force potential energy reduces between the N of the arctic of

permanent magnet

32 and 31 simultaneously.

Each comfortable reversal point V1 and V2 place have reached maximum potential energy and it is used to quicken again thread-carrier 13 on its opposite sense.

Claims

1. energy storage, its potential energy increases towards the reversal point in the crank motion district of a finger-type thread-carrier always, do commutation finite motion and that pass through the sense of motion of a driven finger-type thread-carrier of motor machine driving device so that support around a pivot center, this finger-type thread-carrier makes the yarn that is wound up on the spinning bobbin traversing, this spinning bobbin can be rotated to support in the bobbin bank of winding device of a spinning machine of making cross winding bobbin, it is characterized in that, energy storage (20) has at least two fixed permanent magnets (30,31) and one can be with the traversing permanent magnet (32) of finger-type thread-carrier (13), they are arranged to make separately the utmost point (N or S) in the same way opposite each other, and these fixed permanent magnets (30,31) in the left side in the swing district of finger-type thread-carrier (13) or the right side so locate near the motor shaft of the pivot center of this finger-type thread-carrier (13) of formation of motor machine driving device (14) (39), so that permanent magnet (30,31,32) magnetic force causes that when this driving device (14) disconnects finger-type thread-carrier (13) resets in middle position (M) zone of a neutrality.

2. by the described energy storage of claim 1, it is characterized in that, these fixed permanent magnets (31,32) with can with this pivot center identical radial spacing (R) be arranged with the traversing permanent magnet (32) of finger-type thread-carrier (13).

3. by the described energy storage of claim 1, it is characterized in that, these fixed permanent magnets (31,32) are integrated into a magnet seat board (33) lining, and the end face of this seat board is fixed on the motor housing (22) of motor machine driving device (14) of thread-carrier (13).

4. by the described energy storage of claim 3, it is characterized in that this magnet seat board (33) has the bearing support (35A, base plate 35B) (41) that have the back side, wherein, respectively there is a fixed permanent magnet (30 or 31) to be fixed on support holes (36A or 36B) lining.

5. by the described energy storage of claim 3, it is characterized in that this magnet seat board (33) releasably is fixed on the motor housing (22) by bolt (34).

6. by the described energy storage of claim 1, it is characterized in that, permanent magnet that can be traversing (32) is integrated into a switch lug boss (37) lining, and this switch lug boss can resist on the motor shaft (39) of the motor machine driving device (14) that is fixed on thread-carrier (13) rotationally.

7. by the described energy storage of claim 6, it is characterized in that this switch lug boss (37) releasably is fixed on the motor shaft (39) of motor machine driving device (14) by bolt (38).