CN110195292A - Double rib warp loom - Google Patents

Abstract

Present invention illustrates a kind of double rib warp loom (1), have: the first needle bed (2), first needle bed have with multiple the first circle forming components for being in the circle forming type in being drivingly connected via drive assembly and the first main shaft (10) respectively；Second needle bed (3), second needle bed have with multiple the second circle forming components for being in the circle forming type (14,16,18) in being drivingly connected via drive assembly and the second main shaft (20) respectively；And sley bar component (24), the sley bar component can move between first needle bed and second needle bed.It is expected that realizing has large-duty double rib warp loom.This is arranged to, sley bar component is in via the first drive assembly (29,31) and the first main shaft effectively connect in and via the second drive assembly (30,32) with the second main shaft in effective connect；First drive assembly and the second drive assembly driving sley bar component make same movement.

Description

Double rib warp loom

Technical field

The present invention relates to a kind of two-needle bar (Doppelfonturig) tricot machines, have: the first needle bed (Nadelfontur), which has with multiple respectively via drive assembly (Antriebsaggregat) and first Main shaft is in the first circle forming component of the circle forming type in being drivingly connected；Second needle bed, second needle bed have band There are multiple the second circle forming groups for being in the circle forming type in being drivingly connected via drive assembly and the second main shaft respectively Part；And sley bar component, the sley bar component can move between the first needle bed and the second needle bed.Sley bar component equally carries lopping Tool.

Background technique

Such tricot machine is for example for generating space fabric (Abstandsgewirk).There are two tables for space fabric tool Layer, is disposed with septal line (Abstandsfaden) between the two surface layers.Two surface layers are generated by circle forming respectively, In circle forming for generating surface layer needle bed has been respectively associated.For septal line application sley bar component, the sley bar component is It is the guide interval line between the first needle bed and the second needle bed between one surface layer and the second surface layer.Each circle forming class of needle bed Type is typically secured at sley bar.Each sley bar must implement scheduled movement in stitch forming process.The movement passes through driving Assembly generates, and the drive assembly is again with main shaft in effectively connecting.Drive assembly is for the total of all motion parts herein Claim, the motion parts belong to circle forming type and circle forming movement and have kinematic feature.

Usual multiple similar drive assembly act at sley bar in the length of sley bar.More drive assembly act on Sley bar can more quickly operate tricot machine in principle.In the presence of more drive assembly, more branch there is for corresponding sley bar The power of support part position and each support zone is with regard to smaller.

However the raising of the quantity of the assembly of each sley bar is economically limited.For economic reason, it is expected that using to the greatest extent The drive assembly that may lack, so that noise, friction, component cost and assembly cost are kept lower.Another problem is that limited Structure space.Any more drive assembly can not be constructed in a certain width section of tricot machine.Because being deposited in each needle bed In the different circle forming types for making different movements, the drive assembly of each circle forming type and circle forming movement Quantity must be distributed according to load and dynamics.

Each main shaft for example bears different loads i.e. not due to unbalanced Mass Distribution and eccentric wheel when rotated Same power and torque.This can lead to the fluctuation of speed, which is admissible only within a certain range.In two-needle bar machine In, usually promote the movement of the sley bar component of guide interval line via one in main shaft, so that the main shaft is additionally born Therefore load and its torque ripple and its fluctuation of speed may increase.But importantly, two masters in the operation of tricot machine Axis operation synchronized with each other.Which dictates that the upper limit of its operating rate.In addition, being passed in the situation of different revolving speeds when using one Motivation structure is to make abrasion increase when driving two main shafts, the abrasion of the increase then can lead to equipment downtime, the shutdown Time can negatively affect the productivity of tricot machine.

Summary of the invention

Task of the invention lies in provide a kind of with large-duty double rib warp loom.

The task solves in the following manner in the double rib warp loom of type that beginning refers to, i.e., sley bar component passes through It is in by the first drive assembly and the first main shaft in effectively connect and via the second drive assembly and the second main shaft in effectively connecting In connecing；First drive assembly and the second drive assembly driving sley bar component make same movement.

Using the solution, due to sley bar component driving and the Load Balanced that generates be assigned on two main shafts. Each main shaft participates in the control of the movement of sley bar component.This, which not only has, be more evenly distributed into load can on two main shafts The advantages of, and sley bar component can be driven in a manner of being distributed over its length via multiple " support zones ", which improve The stability of sley bar component.

Preferably, at least one first drive assembly is parallel to the centre that main shaft is arranged between two the second drive assembly In space.Thus likely, it may be said that alternately promote the manipulation of sley bar component by two main shafts.Certainly at least one the Two drive assembly are also disposed between at least two first drive assembly.In the ideal case, the first drive assembly and second Drive assembly is alternately arranged along the length of sley bar component.The arrangement of point symmetry can be applied.

In a kind of preferred design scheme, each main shaft has multiple sections, wherein each section is supported on driver In structure case, adjacent transmission case be connected to each other by jackshaft and at least two transmission cases to be parallel to main shaft wrong each other Position ground arrangement.The alternatively referred to as transmission case of " fuel tank " section that corresponding main shaft is usually supported in two endface.When When making transmission case be parallel to main shaft to miss one another, then the corresponding support zone at sley bar component equally can be with simple Mode be parallel to main shaft and miss one another.Dislocation may imply that transmission case is arranged to have gap each other.But may also It is that transmission case is overlapped on the direction for be parallel to main shaft each other.

Preferably, sley bar component is driven using the movement obtained from the superposition of two foundation motions, wherein each base Plinth movement is controlled by drive assembly respectively, and the drive assembly is distributed on two main shafts.One in foundation motion is Pendulum motion, the pendulum motion use for coil formation.Dislocation ground is realized at least twice on the main shaft per revolution time Coil is formed, i.e., every needle bed is primary.Another foundation motion is then the movement between two needle beds.Another foundation motion be used for across Big spacing more between needle bed.When the movement of sley bar component is formed by the stack combinations of two foundation motions, this letter Change the control of movement and realizes the manufacture of the space fabric with big thickness.

It is preferred here that at least one section control first foundation movement of main shaft and the second foundation motion.Therefore exist Arrangement is there are two different drive assembly on this main shaft section in the situation, each control two in the two drive assembly One in a foundation motion.

It is also advantageous that being in turn disposed with the drive assembly and control second of control first foundation movement at main shaft The drive assembly of foundation motion.The load of corresponding main shaft is kept into smaller by same this.

It is arranged in a kind of preferred design scheme, depth of the drive assembly being connected with the first main shaft about tricot machine Degree sley bar component is acted at first position and the drive assembly that is connected with the second main shaft about tricot machine depth the Sley bar component is acted at two positions, wherein first position and the second position are arranged parallel to main shaft and stretch between main shaft Mid-plane at it is not ipsilateral on." depth " of tricot machine is the direction between two needle beds herein.Drive assembly is so Sley bar component is acted on except centre between needle bed.

It is preferred here that first position and the second position are symmetrical with mid-plane arrangement.Warp knit in any case as a result, Machine as much as possible can by two nearly or completely identical machine part construct, the two machine parts are arranged back-to-back.This letter Change and has produced and be therefore kept into cost lower.

Preferably, each main shaft has dedicated drive motor.So only it is necessary that synchronous two drive motors, this It is realized using motor controller.Therefore the abrasion at the transmission mechanism component between two main shafts can be kept into smaller.

Detailed description of the invention

The present invention is then described in conjunction with drawing in accordance with the preferred embodiment.Wherein:

Fig. 1 shows the very schematical diagram of the first embodiment of double rib warp loom,

Fig. 2 shows the very schematical diagram of the simplified embodiment of tricot machine,

Fig. 3 shows the top view of embodiment according to Figure 2.

Specific embodiment

The double rib warp loom 1 schematically presented has the first needle bed 2 and the second needle bed 3.First needle bed 2 has lopping Tool, which for example forms the surface layer of space fabric, and the second needle bed 3 has circle forming, which forms Second surface layer of space fabric.

In addition, the first needle bed 2 includes knitting needle 4, which is arranged at knitting needle sley bar 5；Sley point (Legenadel) 6, The sley point 6 is arranged at sley point sley bar 7；And sinker holding (Stechkammplatine) 8, the sinker holding 8 It is arranged at sinker sley bar 9.Circle forming at all one be arranged in sley bar 5,7,9 implements identical fortune It is dynamic.The movement is controlled by the first main shaft 10, and first main shaft 10 is respectively via drive assembly 11,12,13 and corresponding sley bar 5,7,9 are connected.Drive assembly 11,12,13 is only presented in the form of a line herein.In fact, drive assembly generally include it is multiple Element, such as eccentric wheel or connecting rod and lever, knuckle joint and tappet at the first main shaft 10, such as this known per se that Sample.

In an identical manner, the second needle bed includes knitting needle 14, which is arranged at knitting needle sley bar 15；Sley point 16, The sley point 16 is arranged at sley point sley bar 17；And sinker holding 18, the sinker holding 18 are arranged in sinker comb At comb 19.In a manner of identical in the situation of the first needle bed, sley bar 15,17,19 is driven by the second main shaft 20, second master Axis 20 is connected via drive assembly 21,22,23 with sley bar 15,17,19 respectively.

Two needle beds 2,3 substantially mirror surface symmetrically can be constructed and can so be arranged back-to-back each other each other.

In some double rib warp looms, sley point 6,16 and correspondingly sley point sley bar 7,17 does not move.So The drive assembly 12,22 for being attached to this can be omitted herein.`

In addition, tricot machine 1 has sley bar component 24, using the sley bar component 24 can between two needle beds 2,3 place mat line back and forth. Therefore sley bar component 24 is arranged for generating septal line in space fabric.Sley bar component 24 has multiple sley bars 25, these Sley bar carries yarn guide or sley point (Lochnadel) 26 respectively.Yarn guide 26 is presented, at a sley bar only so as not to influence The visual field.

The movement of sley bar component 24 is composed of two foundation motions.First foundation is moved via the first lever assembly 27 Promote, the second lever assembly 28 is hingedly supported at first lever assembly 27, second lever assembly 28 control the Two foundation motions.First foundation movement promotes sley bar component to move back and forth between two needle beds 2,3.Second foundation motion promotes Sley bar 25 can form coil using its sley point 26.Therefore second foundation motion considerably less and is generally used only for around first The knitting needle 4 of needle bed 2 guides sley point 26 around the knitting needle 14 of the second needle bed 3.

First lever assembly 27 is controlled by the first main shaft 10 using the first drive assembly 29 and by the second drive assembly 30 It is controlled by the second main shaft 20.However the movement that two drive assembly 29,30 facilitate the first lever assembly 27 same.

First drive assembly 29 and the second drive assembly 30 tricot machine working width or length (in drawing perpendicular to Drawing plane) on acted at respectively different position at the first lever assembly 27.Thus reach two effects: on the one hand the One lever assembly 27 can be driven at relatively more Support Position by two main shafts 10,20.Another aspect load is by the first lever Component 27 is uniformly distributed on two main shafts 10,20, to act on two main shafts by the movement of the first lever assembly 27 10,20, torque without or only smaller difference.Fluctuation in terms of the rotation speed of two main shafts 10,20 is corresponding Ground, which can be kept into the smaller and described fluctuation, at least approximate each other to be changed in the same manner.

Second foundation motion (controlling the second lever assembly 28 using second foundation motion) is also passed through by two main shafts 10,20 Promoted by the first drive assembly 31 and the second drive assembly 32.The two drive assembly also drive the second lever group in the same manner It part 28 and is acted at different positions in the length of tricot machine 1 or working width.This feelings in two lever assemblies 27,28 Show that i.e. two drive assembly 29,30 or 31,32 act on before or after lever assembly 27,28 in shape in the following manner.

Fig. 2 shows the simplified design schemes of tricot machine 1, in a basis fortune for wherein only needing sley bar component 24 It is dynamic.It is correspondingly provided only with a lever assembly 28, which is controlled by two drive assembly 31,32, wherein First drive assembly 31 and the first main shaft 10 and the second drive assembly 32 be in the second main shaft 20 effectively to be connect.

Two drive assembly 31,32 act on different positions with being distributed in the length of tricot machine 1 or working width, this Show that i.e. the first drive assembly 31 acts on after lever assembly 28 and the second drive assembly 32 is in lever group in the following manner It is acted on before part 28.Two drive assembly 31,32 facilitate the same movement of sley bar component 24 again.

Fig. 3 very schematically illustrates the top view of tricot machine 1 according to fig. 2.It is not in herein for the reason of visual field Existing sinker holding 9,19.

Main shaft 10 is driven by drive motor 33.Main shaft 20 is driven by drive motor 34.Two drive motors 33,34 are with electricity Mode is synchronized with each other, this is presented by route 35.But it is also possible that two drive motors 33,34 mechanically It is synchronized with each other or apply single-motor, the single-motor via transmission mechanism drive two drive shafts 10,20.

Main shaft 10 have multiple sections 35,36,37, these sections 35,36,37 are coupled via jackshaft 38 each other respectively. Jackshaft 38 only presents between section 36 and 37 for the reason of the visual field and via clutch 39,40 and the two sections 36, 37 are connected.Same jackshaft is also equipped between section 35,36 and between drive motor 33 and section 35.

The section 35 of main shaft 10 is arranged in transmission case 41, and section 36 is arranged in transmission case 42 and section 37 It is arranged in transmission case 43.Transmission case is alternatively referred to as " fuel tank ".

In order to drive knitting needle sley bar 5 and in order to drive sley point sley bar 7, each section 35,36,37 of the first main shaft 10 with Drive assembly 11,12 is connected.In addition, the first section 35 and the second section 37 of main shaft 10 are via the first drive assembly 31 and thick stick Bar assembly 28 is connected, which controls sley bar component 24.

In a similar way, the second main shaft has the first section 44 and the second section 45, wherein the first section 44 is supported on In first fuel tank 46 and the second section 45 is supported in the second fuel tank 47.

First section 44 is connected via drive assembly 21 with knitting needle sley bar 15.First section 44 is furthermore via drive assembly 22 are in sley point sley bar 17 and effectively connect.In addition, the second section 45 is in via drive assembly 21 and knitting needle sley bar 15 It is in effectively in connection and via drive assembly 22 with knitting needle sley bar 17 in effectively connecting.

In addition, two sections 44,45 are in effective via the lever assembly 28 of the second drive assembly 32 and sley bar component 24 In connection, so that the driving of sley bar component 24 is realized simultaneously and in the same manner via two main shafts 10.

Two sections 46,45 and motor 34 are in connection via jackshaft as in the situation of the first main shaft 10, Jackshaft is not presented in more detail for the reason of visual field.

The transmission case 41,42,43 of first main shaft 10 and the transmission case 46,47 of the second main shaft 20 are parallel to main shaft 10,20 longitudinal direction is arranged with missing one another.They can also be overlapped herein.But they are also arranged as gap each other.

According to the working width or length of tricot machine, it may also set up three sections 35 of the presentation more than the first main shaft 10, 36,37 and second main shaft 20 two sections 44,45.The minimum spacing of one fuel tank and next fuel tank may be, for example, 300 to 350mm.The spacing of assembly 11,12,31 or 21,22,32 within crankcase inner casing may be, for example, 140 to 150mm.

As can be learnt from Fig. 3, two the second drive assembly 32 are arranged between two the first drive assembly 31.But It is also alternately to arrange the first drive assembly 31 and the second drive assembly 32.

The embodiment of the tricot machine presented in figs 2 and 3 only carrys out work with a foundation motion of sley bar component 24.When Sley bar component 24 in Fig. 1 as presented to transport made of the stack combinations as first foundation movement and the second foundation motion When moving to drive, then can in turn arrange the drive assembly 30,32 of 29,31 sum of drive assembly at main shaft 10,20, this is certainly It can also realize on the contrary.So preferably the two drive assembly are arranged in a transmission case.But it is also possible that These drive assembly are distributed in multiple transmission cases.

As can be learnt in fig 1 and 2, the drive assembly 29,31 that is connected with the first main shaft 10 and with it is second main The drive assembly 30,32 that axis 20 is connected is in mid-plane double side acting in lever assembly 27,28, and wherein mid-plane is parallel to It main shaft 10,20 and is stretched between main shaft.

Claims (9)

1. a kind of double rib warp loom (1), has: the first needle bed (2), first needle bed (2) have with it is multiple respectively via Drive assembly (11,12,13) and the first main shaft (10) are in the first lopping of the circle forming type (4,6,8) in being drivingly connected Tool assembly；Second needle bed (3), second needle bed (3) have with multiple respectively via drive assembly (21,22,23) and the Two main shafts (20) are in the second circle forming component of the circle forming type (14,16,18) in being drivingly connected；And sley bar group Part (24), the sley bar component (24) can move between first needle bed (2) and second needle bed (3), which is characterized in that The sley bar component (24) is in via the first drive assembly (29,31) and first main shaft (10) effectively connect in and via Second drive assembly (30,32) is with second main shaft (20) in effectively connecting；First drive assembly (29,31) and second Same movement is made in drive assembly (30,32) driving sley bar component (24).

2. tricot machine according to claim 1, which is characterized in that be parallel to the main shaft (10,20) at least one first Drive assembly (31) is arranged in the space between two the second drive assembly (32).

3. tricot machine according to claim 1 or 2, which is characterized in that each main shaft (10,20) have multiple sections (35, 36,37;44,45), wherein each section (35,36,37;44,45) it is supported on transmission case (41,42,43;46,47) in, Adjacent transmission case (42,43) is connected to each other by jackshaft (38) and at least two transmission cases (35,36,37; 46,47) main shaft (10,20) is parallel to arrange with missing one another.

4. tricot machine according to any one of claim 1 to 3, which is characterized in that the sley bar component (24) using from The movement driving obtained in first foundation movement and the superposition of the second foundation motion, wherein each foundation motion passes through driving respectively Assembly (29,30;31,32) it controls, the drive assembly (29,30;31,32) it is distributed on two main shafts (10,20).

5. tricot machine according to claim 4, which is characterized in that at least one section drive control one of the main shaft The drive assembly of the first foundation movement and the drive assembly of control second foundation motion.

6. tricot machine according to claim 4 or 5, which is characterized in that be in turn disposed with control described the at main shaft The drive assembly of one foundation motion and the drive assembly of control second foundation motion are arranged in reverse order.

7. tricot machine according to any one of claim 1 to 6, which is characterized in that be connected with first main shaft (10) The drive assembly (29,31) connect acts on the sley bar component (24) about the depth of the tricot machine (1) at first position, And the drive assembly (30,32) being connected with second main shaft (20) about the tricot machine depth in the second place Act on the sley bar component (24), wherein the first position and the second position be arranged parallel to the main shaft (10, 20) mid-plane and between the main shaft (10,20) stretched it is not ipsilateral on.

8. tricot machine according to claim 7, which is characterized in that the first position and the second position are symmetrical with institute State mid-plane arrangement.

9. tricot machine according to any one of claim 1 to 8, which is characterized in that each main shaft (10,20) has dedicated Drive motor (33,34).