CN107109713A - Retainer component with induction element - Google Patents

Abstract

The present invention relates to a kind of retainer component (1) of drafter for frame, it has two guiding band (4a for being used for guided rings around double pressure rolls (2), retainer (3) 4b), with the center attachment point (23) for being releasably attached to retainer (3) and with two side (35a away from one another, retainer supporting member (13) 35b), and with respective end (14a, 14b) stretch out two side (35a of retainer supporting member (13), induction element (14) 35b), wherein retainer (3) has deflection edge (8a, 8b), in every case, it is used to deflection guiding band (4a, 4b).In order to prevent induction element (14) from being rotated around the center attachment point (23) of retainer (3), retainer component (1) has at least one supporting member (25), for between corresponding deflection edge (8a, 8b) and induction element (14), at center attachment point (23) certain distance (24) place away from retainer (3), the respective end (14a, 14b) of supporting induction element (14).

Description

Retainer component with induction element

The present invention relates to a kind of retainer component of the drafter for frame, it, which has, is used for guided rings around double pressure The retainer of two of roller guiding bands, with the center attachment point for being releasably attached to retainer and with away from one another The retainer supporting member of two sides, and the induction element of two sides with respective end stretching retainer supporting member, Wherein retainer has deflection edge, in every case, is used to deflection guiding band.

Such retainer component from the A1 of DE 10 2,009 018 125 and CN 201 756 611 be known. In those references, retainer is releasably attached to by retainer supporting member in the induction element of round bar form.This point On, retainer supporting member (it is referred to as " spacing block " in the U of CN 201 756 611) is connected independently of induction element by engaging The mode of connecing is attached to retainer.For this purpose, retainer has the center attachment point in axle journal shape teat form.Conversely, keeping Frame supporting member has the recess related to axle journal shape teat.Thus, the retainer supporting member with induction element can be by very light Loose ground is clamped on retainer, and is successfully released again from retainer.Used in addition, retainer supporting member has on the downside of it In the supporting surface directly contacted with retainer.Supporting surface (retainer supporting member directly abuts retainer by it) is with engaging Connected mode ensure that retainer supporting member and induction element being accurately positioned during installation on retainer together.In drawing-off During drawing-off being carried out in the draft zone of mechanism, be directed on retainer component two of two adjacent drafter units Fibre bundle moves through induction element.On this point, induction element is positioned in draft zone by retainer supporting member so that Fibre bundle is offset slightly from their resultant draft direction.On this point, induction element applies in draft zone on fibre bundle Guiding function power.Conversely, applying active force on each comfortable induction element of fibre bundle, the active force is by two fibre bundles and guiding element Friction between part causes.In fact, it has now been shown that, the active force of induction element is acted in every case to be had Institute is different, that is, at a distance from each other two active forces for acting on induction element are varying level.This has negative shadow Ring, i.e., during the drawing-off of fibre bundle, there is moment of torsion to act on induction element 14.Because retainer supporting member is releasably attached to guarantor The axle journal shape teat of frame is held, acting on the moment of torsion of induction element can not be compensated.As a result, retainer supporting member and guiding Axle journal shape teat of the element together around retainer during drawing-off is handled rotates.So, induction element is relative during drawing-off Occurs inaccurate positioning in retainer.This has negative effect to the quality of fibre bundle being drafted adjacent to each other.

Therefore, the present invention based on task be to improve the retainer component of the type, prevented with reaching during drawing-off Effect of the induction element around the center attachment point rotation of retainer.

The task is accomplished by the following way：Retainer component has at least one supporting member, in corresponding deflection Between edge and induction element, at a certain distance from the center attachment point away from retainer, the respective end of induction element is supported.Branch Holding element prevents the center attachment point rotation of retainer supporting member and induction element around retainer during drawing-off.So, really Induction element has been protected to be positioned accurately on retainer during drawing-off.On this point, supporting member and center attachment point away from From being advantageously achieved 20-50mm.Distance away from center attachment point is towards on the inside of the attachment point of center since supporting member Calculate.

It is also advantageous that supporting member has 2-10mm width on the direction at corresponding deflection edge.So, realize Induction element is supported by element and fully supported.Induction element is thus prevent to rotate during drawing-off.

In addition, having been demonstrated advantageously, supporting member is connected in corresponding deflection edge with retainer.On this point, Supporting member stretches out on the direction of the respective end of induction element from corresponding deflection edge.For example, supporting member is injected into Type is on the corresponding deflection edge of retainer.Thus, it is possible to produce the retainer group with supporting member in the way of cost advantages Part.Further it is possible that supporting member is releasably attached in corresponding deflection edge with retainer, for example, connected by engaging Connect mode or thread connecting mode.So, there is existing retainer component of the repacking with supporting member.

Furthermore it is advantageous that supporting member has the supporting surface of the respective end of supporting induction element.On this point, Supporting surface is located on the side of the respective end of the sensing induction element of supporting member.The respective end energy of induction element will be certainly Body is fully supported on supporting member by supporting surface.Induction element is thus prevent to rotate during drawing-off.This Outside, supporting surface ensure that the geometry in retainer supporting member changes and induction element is transverse to the defeated of fibre bundle In the case of sending direction generation relevant position change, the respective end of induction element continues fully to be supported on supporting member On.

Furthermore it is advantageous that supporting member is for example by being connected together mode or thread connecting mode is releasedly attached To the respective end of induction element.Thus, the respective end of induction element can will be supported on retainer self by supporting member Deflection edge on.Induction element is prevented to rotate.In addition, so, there is existing holding of the repacking with supporting member The possibility of frame component.In addition, having been demonstrated that advantageously, supporting member is set in the respective end of induction element.This Sample, similarly there are the possibility of existing retainer component of the repacking with supporting member.

Finally it is advantageous that supporting member has the bearing for being used for being attached to induction element.On this point, the bearing structure Cause the cross sectional shape of matching induction element.Thus, it is possible to which supporting member to be simply pressed to the corresponding of induction element by bearing On end.The bearing extends through the whole width of supporting member or only extends through a part for the width of supporting member.Have Profit, the pedestal configurations are into round shape or tear-drop shape.

The still other advantage and feature of the present invention in the description of two exemplary embodiments by from below to becoming aobvious and easy See.

In accompanying drawing：

Fig. 1 is the perspective view of the retainer component for the drafter for frame for belonging to prior art,

Fig. 2 is the sectional view of the drafter of the frame with retainer component shown in Fig. 1,

Fig. 3 is the perspective view of the retainer component of the drafter for frame according to the present invention,

Fig. 4 is the partial side view X of retainer component shown in Fig. 3,

Fig. 5 is the perspective view of another retainer component of the drafter for frame according to the present invention.

The retainer component 1 shown in Fig. 1 and Fig. 2 substantially by double pressure rolls 2, retainer 3 and two guiding band 4a and 4b is constituted.Double pressure rolls 2 are formed by two upper rollers 5a and 5b, and described two upper roller 5a and 5b are arranged in fixing axle 6 freely Ground rotates.Retainer 3 has the bearing 7 for axle 6.Retainer 3 further has two deflection edges 8a and 8b, for deflecting Guiding band 4a and 4b.In addition, being provided with retainer 3 part 9 is laterally guided for guiding with 4a and 4b.

Two adjacent drafters of the drafter that retainer component 1 can be used in the preferably ring spinner of frame Unit 10a and 10b.Retainer component 1 is maintained on axle 6 and is in stress supporting member (not shown).Supported by means of stress Part, upper roller 5a and 5b is against can powered lower roll 12 (Fig. 2).

The retainer component 1 shown in Fig. 1 and Fig. 2 is further comprising retainer supporting member 13 and for guiding two fibers The induction element 14 of beam 15.On this point, induction element 14 stretches out retainer supporting member 13 with its corresponding end 14a, 14b Two side 35a, 35b away from one another.Retainer supporting member 13 is attached independently of induction element 14 by the mode that is connected together To retainer 3.For this purpose, retainer 3 has the center attachment point 23 in the form of axle journal shape teat 23.Conversely, retainer branch Bearing member 13 has the recess 29 related to axle journal shape teat 23.Therefore, retainer supporting member 13 can be non-together with induction element 14 Often easily it is clamped on retainer 3, and is discharged again from retainer 3.In addition, retainer supporting member 13 has cradle 31.By bearing 31, retainer supporting member 13 is pushed on the leading edge 32 of retainer 3, and is positioned within frame 3.Will Illustrate retainer supporting member 13 and induction element 14 function using Fig. 2.

In fig. 2, it is schematically shown drafter unit 10a.Retainer component 1 is with its upper roller 5a, retainer 3 and draws Conduction band 4a is distributed to lower roll 12.Treat that the fibre bundle 15 of drawing-off passes through roller to 12,5a along conveying direction A operations.Guiding band 16 is divided Lower roll 12 is assigned to, the band also passes through lower band guiding piece 17.Lower roll 12 and lower band guiding piece 17 extend through multiple adjacent drawing-offs Mechanism unit 10a, 10b.Roller to be after 12,5a roller to 18,19, it can be driven with higher circumferential speed.Fibre bundle 15 in roller to 12,5a and roller to being drafted between 18,19 so that after roller is to 18,19, obtain fine fibre beam.Drafter Can be comprising other roller to (not shown).

During carrying out drawing-off in draft zone 20 between roller pair, fibre bundle 15 is by guiding band 16,4a.In order that fine Dimension beam 15 is not directed band 16 and 4a in draft zone 20 and exceedingly compressed, define deflection edge 8a for upper band 4a with The deflection edge 21 of lower band guiding piece 17 has institute's set a distance.It is wide that the distance between deflection edge 21 and 8a is referred to as mouth Degree.Mouth width can be changed by using the different retainer supporting members 13 with different geometries.In order to improve To the guiding of fibre bundle 15 in draft zone 20, the guiding surface 22 of induction element 14 is set in guiding band 16 and 4a downstreams. Guiding surface 22 is formed by the outer peripheral edge for extending through the bar of whole retainer component 1.Guiding surface 22 is preferably located such that Fibre bundle 15 is easily deflected from a virtual link line, and the virtual link line is by guiding band 16,4a outlet and roller to 18,19 Clamping line between most short connecting portion formed.Induction element 14 is applied in draft zone 20 during deflecting on fibre bundle 15 Plus guiding function power.Conversely, fibre bundle 15 applies active force on induction element 14, the active force is by fibre bundle 15 and guiding element Friction between part 14 causes.

In fact, it has now been shown that, act on induction element 14 at adjacent drafter unit 10a and 10b Respective end 14a, 14b active force it is different, i.e., two fibre bundles 15 being directed each other across certain distance are drawing Apply different size of active force in respective end 14a, 14b of guiding element 14.This has negative effect, i.e., during drawing-off, There is moment of torsion to act on induction element 14.On this point, acting on the moment of torsion of induction element 14 can not be compensated, because retainer Supporting member 13 is connected with axle journal shape teat 23 to loosen.As a result, retainer supporting member 13 is being led together with induction element 14 Rotated (see the arrow 30 in Fig. 1) around axle journal shape teat 23 during stretching.As a result, induction element 14 occurs during drawing-off Relative to the position inexactness of retainer 3.This has negative effect to the quality of fibre bundle 15 being drafted adjacent to each other.

Using Fig. 3 and Fig. 4, the first embodiment of the retainer component 1 of the present invention will be clarified in more detail.With Fig. 1 and Fig. 2 In the retainer component 1 that shows it is similar, retainer component 1 of the invention is also included with the guiding element for being used to guide fibre bundle 15 The retainer supporting member 13 of part 14.On this point, induction element 14 stretches out retainer supporting member with its corresponding end 14a, 14b Side 35a, the 35b of two of 13 away from one another.Retainer supporting member 13 passes through the mode that is connected together independently of induction element 14 It is attached to retainer 3.For this purpose, retainer 3 also has the center attachment point 23 in the form of axle journal shape teat 23.Conversely, protecting Frame supporting member 13 is held with the recess 29 related to axle journal shape teat 23.Thus, retainer supporting member 13 can be with induction element 14 Very easily it is clamped on retainer 3, and is discharged again from retainer 3 together.Used in addition, retainer supporting member 13 has In the cradle 31 of retainer 3.By bearing 31, retainer supporting member 13 is pushed on the leading edge 32 of retainer 3, and It is positioned within frame 3.Be contrasted with the retainer component for belonging to prior art that is shown in Fig. 1 and Fig. 2, it is corresponding partially Turn to be provided with the supporting member of respective end 14a, 14b for supporting induction element 14 between edge 8a, 8b and induction element 14 Part 25a, 25b, 24 are separated by a certain distance with the axle journal shape teat 23 or center attachment point 23 of retainer 3.Supporting member 25a, 25b Injection moulding is on corresponding deflection edge 8a, 8b of retainer 3.At this point, supporting member 25a, 25b and center attachment point 23 Distance 24 reach 35mm.Distance 24 away from center attachment point 23 is from supporting member 25a, 25b towards center attachment point 23 Inner side 33a, 33b start calculate.Supporting member 25a, 25b prevent retainer supporting member 13 and induction element 14 in the drawing-off phase Between rotated around the center attachment point 23 of retainer 3.Guarantor is positioned accurately at during drawing-off this ensures that, induction element 14 Hold on frame 3.Supporting member 25a, 25b have 8mm width 16 on the direction of deflection edge 8a, 8b.So, guiding is realized Respective end 14a, 14b of element 14 is fully supported on retainer 3 by means of supporting member 25a, 25b.It is such as bright from Fig. 4 Show what is found out, supporting member 25a, 25b have the supporting surface 28 for respective end 14a, 14b for being used to support induction element 14. On this point, supporting surface 28 is located at towards on the side of induction element 14.Respective end 14a, 14b of induction element 14 can be by Fully it is supported on supporting member 25a, 25b self by supporting surface 28.In addition, supporting surface 28 ensure that in retainer The geometry of supporting member 13 changes and transverse to the conveying direction A of fibre bundle 15 position phase occurs for induction element 14 In the case of should changing, respective end 14a, 14b of induction element 14 continues fully to be supported on supporting member 25a, 25b On.

Using Fig. 5, the second embodiment of the retainer component 1 of the present invention will be clarified in more detail.With showing in Fig. 3 and Fig. 4 The retainer component 1 gone out is similar, and the second retainer component 1 of the invention is also included with the guiding element for being used to guide fibre bundle 15 The retainer supporting member 13 of part 14.On this point, induction element 14 stretches out retainer supporting member with its corresponding end 14a, 14b Side 35a, the 35b of two of 13 away from one another.Retainer supporting member 13 passes through the mode that is connected together independently of induction element 14 It is attached to retainer 3.For this purpose, same, retainer 3 has the center attachment point 23 in the form of axle journal shape teat 23.Conversely, Retainer supporting member 13 has the recess 29 related to axle journal shape teat 23.Thus, the energy of retainer supporting member 13 and induction element 14 are very easily clamped on retainer 3 together, and are discharged again from retainer 3.In addition, retainer supporting member 13 has Cradle 31 for retainer 3.By bearing 31, retainer supporting member 13 is pushed on the leading edge 32 of retainer 3, And be positioned within frame 3.

It is contrasted with Fig. 3 and Fig. 4 exemplary embodiment, supporting member 25a, 25b are releasably attached to guiding Respective end 14a, 14b of element 14.On this point, supporting member 25a, 25b set the respective end to induction element 14 On 14a, 14b.For this purpose, supporting member 25a, 25b have bearing 34, it extends through supporting member 25a, 25b width 26 part.Bearing 34 is configured to round shape, that is, matches the cross sectional shape of induction element 14.Supporting member 25a, 25b can pass through Bearing 34 is easily pressed in respective end 14a, 14b of induction element 14.Respective end 14a, 14b of induction element 14 It will can be supported on self by supporting member 25a, 25b on corresponding deflection edge 8a, 8b of retainer 3.So, it is therefore prevented that guiding Element 14 rotates during drawing-off around axle journal shape teat 23.As in front exemplary embodiment, supporting member 25a, 25b It is set to be separated by a certain distance 24 with the axle journal shape teat 23 or center attachment point 23 of retainer 3.Away from center attachment point 23 away from It is to be calculated since supporting member 25a, 25b inner side 33a, 33b towards center attachment point 23 from 24.Reequiping existing protect In the case of holding frame component 1, retainer 3 need not be changed now.Only to setting in respective end 14a, 14b of induction element 14 Supporting member 25a, 25b.Accordingly, it is capable to implement existing in the way of very simple and cost advantages using supporting member 25a, 25b The repacking of retainer component.

Claims (11)

1. a kind of retainer component (1) of drafter for frame, with for guided rings around two of double pressure rolls (2) The retainer (3) of guiding band (4a, 4b), with the center attachment point (23) for being releasably attached to retainer (3) and has The retainer supporting member (13) of two sides (35a, 35b) away from one another, and stretch out guarantor with respective end (14a, 14b) Hold the induction element (14) of two sides (35a, 35b) of frame supporting member (13), wherein retainer (3) have deflection edge (8a, 8b), in every case, it is used to deflection guiding band (4a, 4b), it is characterised in that the retainer component (1) has at least One supporting member (25), between corresponding deflection edge (8a, 8b) and induction element (14) in away from retainer (3) Heart attachment point (23) certain distance (24) place, the respective end (14a, 14b) of supporting induction element (14).

2. retainer component according to claim 1, it is characterised in that supporting member (25) corresponding deflection edge (8a, There is 2-10mm width (26) on direction 8b).

3. retainer component according to claim 1 or 2, it is characterised in that supporting member (25) is at corresponding deflection edge (8a, 8b) place is connected with retainer (3).

4. retainer component according to claim 3, it is characterised in that supporting member (25) corresponding deflection edge (8a, 8b) place is releasably attached with retainer (3).

5. the retainer component according to any one of claim 1-4, it is characterised in that supporting member (25), which has, to be used for Support the supporting surface (28) of the respective end (14a, 14b) of induction element (14).

6. retainer component according to claim 1 or 2, it is characterised in that supporting member (25) is releasedly attached The respective end (14a, 14b) of induction element (14) extremely.

7. retainer component according to claim 6, it is characterised in that supporting member (25) is set to induction element (14) in respective end (14a, 14b).

8. the retainer component according to claim 6 or 7, it is characterised in that supporting member (25), which has, to be used to be attached to The bearing (34) of induction element (14).

9. retainer component according to claim 8, it is characterised in that bearing (34) is constructed to round shape.

10. retainer component according to claim 8, it is characterised in that bearing (34) is configured to tear-drop shape.

11. a kind of drafter of frame, with the retainer component (1) according to any one of claim 1-10.