CN100999842A

CN100999842A - Rotary cup spinning device provided with drivable rotary cup

Info

Publication number: CN100999842A
Application number: CNA2006100636671A
Authority: CN
Inventors: E·许勒尔; W·措特; M·布尔歇特; M·劳尔; M·库布勒; G·豪格; E·博克
Original assignee: Rieter Ingolstadt Spinnereimaschinenbau AG
Current assignee: Rieter Ingolstadt GmbH
Priority date: 2006-01-10
Filing date: 2006-12-30
Publication date: 2007-07-18
Anticipated expiration: 2026-12-30
Also published as: CZ200716A3; CN100999842B; DE102006001449A1; TWI397622B; DE102006001449B4; CH699260B1; TW200728532A; AT503064A2; AT503064B1

Abstract

A rotor spinning device includes a drivable rotor-spun having a rotor pan and a rotor shaft. The rotor shaft of the rotor-spun is supported on at least a radial bearing in high rotary speed. An overhanging part is provided on the rotor-spun, which is less than 29 mm measured from an anterior border of the rotor pan to a head of the radial bearing. The rotor-spun can be driven by a tangential transmission belt near the rotor shaft. Product of the overhanging part (mm) and diameter (mm) of the rotor shaft within a range of the tangential transmission belt is less than 250. In addition, it is predefined that the rotor shaft is radially supported on a pair of angular interstices of a pair of supporting discs while the interstices are separated for a certain distance in an axis direction, wherein, width of the supporting disc towards to the pair of supporting discs of the rotor pan is larger than that of the supporting disc opposite to the pair of supporting discs of the rotor pan.

Description

Band can drive the rotor spinning device that revolving cup spins

Technical field

The present invention relates to a kind of band and can drive the rotor spinning device that revolving cup spins, wherein, revolving cup has spun a revolving cup dish and a rotor axis, and revolving cup spins flying on the rotor axis changeing and is bearing at least one journal bearing, and revolving cup spins has the part that overhangs that a leading edge from the revolving cup dish measures the starting point of journal bearing.

Background technology

Revolving cup for such rotor spinning device spins, and be devoted to 180 today in practice, 000min ^-1The rotating speed of the order of magnitude.Spinning the rotating speed that can reach with revolving cup, is to be rated rotational frequency with critical speed basically, because consider security, running speed must be all the time under critical speed.

According to DE 19729941A1, people have recognized the measure that improves critical speed.For example according to regulation, the length of rotor axis approximately should be ten times of its diameter.Really, the measure of regulation is not enough to rotating speed is brought up to 150,000min ^-1More than.

Summary of the invention

Task of the present invention is, further improves critical speed, realizes 180 with this, 000min ^-1Running speed.

This task is to solve like this, and the part that promptly overhangs is less than 29mm, particularly less than 27mm.

Verified, revolving cup spins, and the part that overhangs has significant impact to the raising of critical speed.Even a small amount of effect of shortening the part that overhangs can obviously improve critical speed.

Revolving cup spins, and the part that overhangs should be defined as leading edge that revolving cup the spins distance to the journal bearing starting point.Therefore, it is inessential how designing journal bearing.Journal bearing can be that for example a supporting disk is right, an air bearing, and a magnetic bearing perhaps also can be a rolling bearing.

The revolving cup dish that normally used revolving cup spins is pressed on the rotor axis, and therefore, in order to compress connection, this part that overhangs must be a very big part.If shorten the length compress connection, just must guarantee, spin under the extreme high rotating speed at revolving cup and also can not become flexible even compress connection.As if can not obviously shorten the length that compresses connection by calculating the evidence of being done in conjunction with FEM.According to ways of connecting, the part that overhangs that can reach arrives in the scope of 20mm 15.

According to current technical level, be the rotor spinning machine of R20 by its applicant through the model that provides after many years, the overhang that its revolving cup spins is divided into 25.9mm.But known spinning machine is to be not suitable for high like this rotating speed, spins because have the revolving cup of the total length of very long 117mm, and part is not long though it overhangs, and its critical speed is relatively low.

Can spin by the revolving cup that the tangential belt that adjoins rotor axis drives at one and to have done test widely, result of the test shows, rotor axis overhangs the product of part (millimeter) and diameter (millimeter) less than 250 in the tangential belt scope, and this is favourable for reaching high critical speed.On hitherto known rotor spinning device, the part that overhangs and the product of rotor axis diameter are always greater than 250.For example on the R20 spinning machine of having mentioned, this product is 266.Test verifiedly, the part that overhangs and the product of diameter can be used as the experience computation of characteristic values of the relation of description.When the value of characteristic value less than 250 the time, can from conflicting requirement, draw a compromise proposal preferably.In order to reach high as far as possible critical speed, predesignate an as far as possible little part that overhangs, predesignate a big as much as possible rotor axis diameter simultaneously, this itself may be significant.But for the tangential belt of transmission rotor axis, the diameter of rotor axis is too big, can cause the speed of service that causes driving belt is brought up to unallowable degree.In addition, under the bigger situation of rotor axis diameter, for example because revolving cup spins the increase that rubs in the journal bearing, the increasing of power loss can take place.Confirm by test that the characteristic value that multiply by diameter when the overhang branch is in 200 to 230 scope the time, critical speed is so high, to such an extent as to can reach 180 preferably, 000min ^-1The operation index.

In addition, the invention still further relates to and a kind ofly be applicable to that having a revolving cup dish spins with the revolving cup that an antitorque commentaries on classics is connected a kind of like this rotor spinning device of rotor axis.Predesignate according to the present invention, the product of revolving cup dish length (mm) and rotor axis diameter (mm) is less than 195, preferably in 170 to 190 scope.Such revolving cup spins that can be used for can be with 180,000min ^-1The rotor spinning device of running speed operation, be favourable.

The product that spins total length (mm) when overhang part (mm) and revolving cup can reach the purpose of the extra high rotor spinning device of further optimization running speed less than 3000 the time.The product that spins total length (mm) when the length (mm) of revolving cup dish and revolving cup is less than 2400 the time, and it is favourable that revolving cup is spun.

Description of drawings

Can understand other advantage of the present invention and feature according to following explanation to an embodiment.Among the figure:

Figure 1 shows that the side view of partial cross section in the bearing scope that a rotor spinning device revolving cup spins;

Figure 2 shows that along the view in the II-II cross section of Fig. 1.

The specific embodiment

Only the rotor spinning device shown in the part shows that basically a revolving cup spins 1 in Fig. 1 and 2, and it is bearing in the supporting disk bearing 2, can be driven by a tangential belt 3.Revolving cup spins 1 a revolving cup dish 4, carries out real yarn forming process within it.The device that adds the device of continuous single yarn and institute's yarn is doffed from revolving cup dish 4 is by not illustrate in scheming but itself is additional to revolving cup dish 4 by known mode.

Supporting disk bearing 2 comprises two secondary supporting disks to 5 and 6, and this two secondary supporting disk is to respectively being with two supporting

disks

7 and 8 and 9 and 10.Supporting disk constitutes 11, one of wedge gaps to 5 and 6 and is fixed on the revolving cup of twisting with the fingers on the ring disk 4 and spins 1 rotor axis 12 radial supports therein.The supporting

disk

7 and 9 and 8 and 10 that lays respectively at rotor axis 12 next doors one side is arranged on the

public axle

13 or 14.

Supporting

disk

7,8,9 and 10 structure are basic identical.They respectively are made of a discoid metallic matrix 15, and its periphery is furnished with a seat ring 16 that damping capacity is arranged.Four seat rings 16 respectively spin columnar rolling surface 17 of rotor axis 12 formations of 1 for revolving cup.Simultaneously, can be with not illustrating among the figure but itself by the known mode of people, in rolling surface 17, processed one or more groove in advance.

Revolving cup spins 1 rotor axis 12 by tangential belt 3 loadings, and tangential belt 3 passes through on the traffic direction A longitudinally at rotor spinning machine, and the transmission simultaneously revolving cup of spinning machine one side at least spins 1.Under the pressure effect of tangential belt 3, revolving cup spins 1 and remains in the wedge gap 11 of supporting disk bearing 2.The termination 18 of the rotor axis 12 of revolving cup dish 4 is bearing on the thrust bearing 19 in the axial direction dorsad.Thrust bearing 19 can comprise a thrust bearing steel ball 20 according to illustrated mode, and the termination 18 of rotor axis 12 heads on this steel ball running.Scheme as an alternative, thrust bearing 19 also can be designed to air bearing or magnetic bearing equally well.

Supporting

disk

7,8,9 and 10 respectively has a hole, so that the

axle journal

21,22,23 and 24 of

axle

13 and 14 ends inserts in the hole.The diameter in

axle journal

21,22,23 and respectively corresponding each supporting

disk

7,8,9 of external diameter of 24 and 10 hole simultaneously.

Axle

13 and 14 is parts of roller bearing unit 25 or 26.Roller bearing

unit

25 or 26 comprises a bearing

housing

27 or 28, and

axle

13 and 14 is bearing in this bearing housing.

Revolving cup spins 1 high rotating speed and is bearing on the supporting disk bearing 2, and wherein, revolving cup spins 1 the part X that overhangs.The measurement of the part that overhangs X is the starting point from the leading edge 29 of revolving cup dish 4 to journal bearing, and the journal bearing here is made of 5 supporting disk.X is less than 29mm for the part that overhangs, preferably less than 27mm.The part that overhangs X (mm) multiply by the product of diameter D (mm) of rotor axis 12 less than 250, preferably in 200 to 230 scope.If rotor axis 12 has different diameters in the mode that does not illustrate in scheming, then diameter D is being standard in the scope of tangential belt 3.Diameter D is suitable to arrive in the scope of 8.3mm 7.8.

The product that part X (mm) and revolving cup spin 1 total length L (mm) if overhang is preferably between 2500 to 2900 (mm) less than 3000 (mm), is favourable.Wherein, to spin 1 measurement of length be terminal from its leading edge 29 to rotor axis 12 to revolving cup.Length L is preferably in 90 in the scope of 105mm.

For revolving cup dish 4 is fixed on the rotor axis 12, the length Y of revolving cup dish 4 is important.The product of the diameter D (mm) of length Y of revolving cup dish 4 (mm) and rotor axis 12 is less than 195, preferably in 170 to 190 scope.The length Y of revolving cup dish 4 (mm) and revolving cup spin the product of 1 length overall L (mm) less than 2400, preferably in 2000 to 2300 scope.By these combinations of the above part X that overhangs, length L, diameter D and length Y, revolving cup spins 1 and can reach at 180000min ^-1So very high running speed within the scope.

In another design of the present invention, can make and predesignating, optimize supporting disk bearing 2, the friction loss that wherein takes place is minimized for adapting to above-mentioned high running speed.It is high more that revolving cup spins 1 rotating speed, and the friction loss of supporting disk bearing 2 is big more.For the friction loss in the seat ring 16 that reduces supporting

disk

7,8,9 and 10, allowing towards the supporting disk of revolving cup dish 4 to the width B 5 of 5 supporting

disk

7,8 greater than the supporting disk of the revolving cup dish 4 dorsad width B 6 to 6 supporting

disk

9,10, may be favourable.The knowledge of this designing institute foundation is because revolving cup spins 1 the high-revolving cause of bearing, towards the journal bearing of revolving cup dish 4 and supporting disk to 5 bearing load obviously greater than supporting disk to 6 bearing load.Because the width B 6 of supporting

disk

9,10 is less, reduced the loss of supporting disk to 6 seat ring 16.Supporting disk is about 10mm to the width B 5 of 5 supporting

disk

7,8, and supporting disk is about 7mm to the width B 6 of 6 supporting

disk

9,10.

In order further to reduce to drive the loss of supporting disk bearing 2 desired power, has bigger diameter than the rolling bearing of revolving cup dish 4 dorsad towards the rolling bearing of the roller bearing unit 25 of revolving cup dish 4 and 26.The diameter of rolling bearing is little, and friction loss is also just few.

Two axle journals 21 that roller bearing unit is 25 13 have different diameters with 23, should be favourable.Supporting

disk

7 and 9 hole are mated

axle journal

21 and 23 different diameter certainly, so will prevent that the assembling of supporting

disk

7 and 9 on axle 13 is improper.The axle

journal

22 and 24 of another roller bearing unit 26 is certainly done same design.Axle

journal

21,22,23 and 24 diameter preferably less than 10mm and about 8 in the scope of 10mm.The difference of

axle journal

21 and 23 and 22 and 24 diameter is not about 0.5 to 1mm.Can get rid of reliably like this supporting

disk

7 and 9 and 8 and 10 is obscured.

Claims

1. band can drive the rotor spinning device that revolving cup spins (1), wherein, revolving cup spins (1) a revolving cup dish (4) and a rotor axis (12), revolving cup spins (1) and is bearing at least one journal bearing (5) at the last high rotating speed of its rotor axis (12), and revolving cup spins (1) and also has a leading edge from revolving cup dish (4) (29) to measure the part (X) that overhangs of the starting point of journal bearing (5), it is characterized in that, overhang part (X) less than 29mm, particularly less than 27mm.

2. rotor spinning device according to claim 1, it is characterized in that, revolving cup spins (1) can be by tangential belt (a 3) transmission of adjoining rotor axis (12), with mm be unit overhang part (X) with in tangential belt (3) scope, be that the product of diameter (D) of rotor axis (12) of unit is less than 250 with mm.

3. rotor spinning device according to claim 2 is characterized in that, in the scope of product between 220 and 230 of overhang part (X) and diameter (D).

4. rotor spinning device according to claim 3 is characterized in that, with mm be overhang part (X) and the revolving cup of unit spin (1) the product of length overall (L) less than 3000.

5. according to the described rotor spinning device of one of claim 1 to 4, it is characterized in that, in the scope of product between 2500 and 2900 of overhang part (X) and length (L).

6. according to the described rotor spinning device of one of claim 1 to 5, it is characterized in that, rotor axis (12) radial support two in the axial direction at certain intervals distance supporting disk arranged apart to (5,6) in the wedge gap (11), wherein, towards revolving cup dish (4) supporting disk to the width (B5) of the supporting disk (7,8) of (5) greater than revolving cup dish (4) supporting disk dorsad to the width (B6) of the supporting disk (9,10) of (6).

7. the revolving cup that is used to have the rotor spinning device of the rotor axis (12) that a revolving cup dish (4) is connected with an antitorque commentaries on classics spins (1), it is characterized in that, with mm be unit revolving cup dish (4) length (Y) be that the product of diameter (D) of rotor axis (12) of unit is less than 195 with mm.

8. revolving cup according to claim 7 spins, and it is characterized in that, in the scope of product between 170 and 190 of length (L) and diameter (D).

9. spin according to claim 7 or 8 described revolving cups, it is characterized in that, with mm be length (Y) and the revolving cup that with mm is unit of the revolving cup dish (4) of unit spin (1) the product of length overall (L) less than 2400.

10. spin according to the described revolving cup of one of claim 7 to 9, it is characterized in that, in the scope of product between 2000 and 2300 of length (Y) and length (L).

11. be used for supporting a bearing housing (27; 28) public axle (13 in; 14) two supporting disks (7,9 on; 8,10) roller bearing unit (25; 26), it is characterized in that an axle (13; 14) two axle journals (21,23; 22,24) has different diameters.