CN1692190A - Method for the operation of a weaving and a shedding machine with separate drives - Google Patents

Abstract

The aim of the invention is to arrange the start-up and stopping process with separate drives for weaving and shedding machines such that the necessary electrical currents or powers can be kept as low as possible and/or as regular as possible with a high degree of control and operational security. Said aim is achieved for the start-up phase, whereby the weaving machine is firstly operated at a crawling speed after a start time (t2), which can be set just before, at the same time, or just after the start time (t1) of the shedding machine, whilst the shedding machine is accelerated up to operating speed with an acceleration dependent only on the drive and the weaving machine is then accelerated sharply out of the crawling speed movement to operating speed after reaching a given position, speed, or torque value, or on reaching a time (t3). According to the invention, on stopping, the weaving machine is correspondingly sharply decelerated to a crawling speed operation in order to come to a standstill at a time (t11), which can be set to be just before, at the same time, or just after the stopping time (t12) of the shedding machine, whilst the shedding machine is braked more slowly relative to the sharp braking process for the weaving machine. In a preferred embodiment there is also the possibility of arranging the start of the shedding machine, either by presetting or by independent control of the drive system such that the working speed necessary for the operation is first achieved after the beat-up of the weaving machine and the stopping of the shedding machine is introduced before the stopping of the weaving machine (after beat-up).

Description

The loom under individual drive and the method for work of tapping machine

The present invention relates to a kind of by the loom of the described feature of claim 1 preamble and the method for work of tapping machine.

DE 100 53 079 C1 disclose a kind of method; the starting of tapping machine is postponed the time that can predesignate or the time period that can predesignate in advance with respect to the starting of loom; and in the shutdown stage; the braking of tapping machine is slower with respect to the braking of loom; method is to predesignate a time value or time difference like this for tapping machine, makes tapping machine with respect to one corresponding period of the more late shutdown of loom.

This method is specially adapted to this tapping machine, and promptly the such shedding motion of shank or pusher jack is not mandatory and motion associated movement drive unit, but depends on that pattern can predesignate the motion of shedding motion.This method relates to for example dobby machine and jacquard.

The shortcoming of DE 100 53 079 methods that C1 provides is that loom is " suddenly " starting on sometime.Because the starting asynchronous of tapping machine and loom carries out in the method, but on two machine technology in a certain (time) but must keep synchronous regime on the point, so this start-up period is a sensitizing range.For example, on drive for mechanical loom, can there be the defective of having only starting order of utilizing or actual beginning starting process to understand.There is not operational measure (preliminary examination campaign yet; Measure) with the information of relevant loom state, particularly its degree of heat.But the latter has material impact to machine performance or power consumption in the starting exactly.

In addition, if shedding motion does not have the many transhipments of wefting insertion when starting moving, according to the invention of document DE 100 53079 C1, the space of tapping machine " soft " starting that offers the mandatory motion associated movement (for example so-called shedding cam machine) with drive unit of shedding motion is very little.

There is this adverse effect of for example warp thread napping that must avoid in this motion to warp thread.

The objective of the invention is to, design starting and stopping process under the independent control device of loom and tapping machine make it under the situation of regulation technology and operation tight security, with required electric current or power remains on the as far as possible little degree and/or evenly.

This purpose is achieved thus according to the present invention, and promptly loom was lighted at first with the rotating speed of the predesignating operation corresponding to the adjustment stroke motion from a certain starting time, and can begin to start tapping machine simultaneously or even started before it.

If the motion of actual beginning adjustment stroke, probability that on the one hand can be higher subsequently during " suddenly " acceleration from the zero defect function of drive system.On the other hand, drive system particularly obtains the particularly statement of degree of heat of loom state by the moment of torsion that needs of loom movement.It can be for example be used to constitute by adjusting regulator parameter that subsequently " suddenly " quickens and synchronous with tapping machine.

In addition, no matter equipment control device is the adjustment stroke motion or the residing stage of the starting of tapping machine of loom, all can analyze each other two motions, so as particularly to quicken for loom " suddenly " subsequently and with tapping machine coordinate these processes synchronously as far as possible.

In the present invention-special scheme, the starting of tapping machine is carried out like this, and tapping machine is carried out on first time point that beats up with the desired working speed of working at loom, has and the different rotating speed of the desired working speed of work.

If this rotating speed is lower than desired working speed, if this means the required acceleration of tapping machine also can reduce-and exactly for the reason of textile technology, the time that tapping machine starting is arranged on before the loom starting must not be arbitrarily, and this point is as there is the sort of situation of warp thread napping danger in above-mentioned shedding cam machine.

In another special projects of the present invention, under the situation that needs are shut down, the braking procedure of tapping machine was just beginning before relative beating up for the last time of shutting down with the desired working speed of working with loom.In this manner, can the time range or the rotation angle range that use for braking procedure obtain prolonging,, reach time point that tapping machine shuts down or spin angular position and be in that to reach loom must not be arbitrarily after shutting down although for the reason of textile technology.That is to say moment of torsion braking that can be less.But it should be noted that this shutdown principle can only use in the ad hoc approach of outstanding effect wefting insertion.

The present invention is described in detail by the embodiment of accompanying drawing below.Wherein:

Fig. 1 illustrates the embodiment of rotating speed starting characteristic curve;

Fig. 2 illustrates another embodiment of rotating speed starting characteristic curve, and wherein, loom started (t before tapping machine ₂At t ₁Before);

Fig. 3 illustrates another embodiment of rotating speed starting characteristic curve, wherein, mildly finishes to the transition of high acceleration from the adjustment stroke of loom;

Fig. 4 illustrates and is similar to Fig. 1 rotating speed and shuts down characteristic embodiment;

Fig. 5 illustrates and is similar to Fig. 2 rotating speed and shuts down characteristic embodiment (t ₁₂At t ₁₁Before);

Fig. 6 is illustrated in the embodiment of the first also not synchronous rotating speed starting characteristic curve when beating up;

Fig. 7 illustrates and shuts down characteristic embodiment, and wherein, the shutdown of loom begins after tapping machine is shut down.

Fig. 1 illustrates loom and tapping machine from an identical starting time point t ₁=t ₂The rotation speed change of setting out, tapping machine be with constant acceleration n_fbm, and loom according to the rotating speed of predesignating from time point t ₃Rise and accelerate to working speed n_wm.

That is to say, until time point t ₃Loom is adjusted stroke motion always, so that then at t ₃The time " suddenly " starting.Time point t ₄For no matter loom still is that time point that tapping machine all reaches working speed that work requires.

The difference of Fig. 2 and Fig. 1 is the time point t of loom ₂Time point t at tapping machine ₁Before.Other methods of operation of tapping machine and loom are corresponding with the method for operation shown in Figure 1.

What Fig. 3 illustrated loom predesignates rotating speed from time point t ₃Rise to higher acceleration smooth transition and continue to rise until working speed.

Here, the starting of tapping machine and loom is at time point t ₁On carry out; t ₁=t ₂

Fig. 4 illustrates rotation speed change and Fig. 1 mirror image symmetry of loom and tapping machine shutdown.At time point t ₈On, loom beat up before the beginning stopping process at last with desired working speed n_wm.Time point t ₉For no matter being to loom or tapping machine all being begun that time point of stopping process.At time point t ₁₀On, the braking procedure of loom finishes.Loom is subsequently until time point t ₁₁On adjustment stroke, move, and tapping machine is braked until reaching t from working speed ₁₂The shutdown at place.

Fig. 5 illustrates rotation speed change and Fig. 2 mirror image symmetry of loom and tapping machine shutdown.Here, tapping machine is at time point t ₁₂Last shutdown; This time point is in the time point t that knits shutdown ₁₁Before.

Fig. 6 illustrates a kind of rotation speed change, wherein, reaches time point t at the working speed of loom ₅On first beat up before, the acceleration n_wm that loom is higher and the acceleration curve n_fbm of tapping machine are tangent.By at t _5aAnd t _5bThe rotating speed that beats up in the zone descends, so that rise to working speed then again.

Time point t ₁And t ₂The district is on the point, that is to say, starts simultaneously at this time point loom and tapping machine.At loom until time point t ₃Carry out adjustment stroke between moving period, tapping machine accelerates to working speed.

At time point t ₅On, loom carries out first with the desired working speed of working and beats up.

Time point t _5aAnd t _5bOutstanding around the zone of beating up; At this, t ₅For loom carries out first time point that beats up with working speed.

Loom is at t ₆On reach the desired working speed of work.

T in the curve map ₆And t _5aOverlap.Because at t _5at _5bRotating speed should be constant in the zone, so t ₆Preferably be in t _5aBefore or with this time point simultaneously.

Time point t ₇For loom carries out second time point that beats up with the desired working speed of working.

Time point t _7aAnd t _7bOutstanding around the second time point t that beats up ₇The zone.

The time point that tapping machine reaches working speed that work requires is time point t ₁₃

At time point t _5bAnd t _7aBetween by corresponding change loom rotating speed, guarantee that loom and tapping machine are then from time point t _7aPlay the desired synchronism of work.

Fig. 7 is corresponding with Fig. 6 to utilize intersecting of delay curve to illustrate to beat up the stopping process of back loom and tapping machine.

Time point t ₈The time point that beats up at last before the stopping process in beginning with the desired working speed of working for loom.

Time point t _8aAnd t _8bOutstanding around this zone of beating up and predesignating; In this case, this is that loom is with beating up at last that the desired working speed of working carried out before stopping process.

At time point t ₁₄The upper shed machine begins stopping process.At time point t ₁₅On, loom begins stopping process.T in the curve map ₁₅And t _8bOverlap.Because at t _8at _8bRotating speed should be constant in the zone, so time point t ₁₅Be preferably in time point t _8aAfterwards or with this time point simultaneously.

Loom " unexpected " braking procedure is at time point t ₁₀Last end.On this time point, the motion of the adjustment stroke of loom is immediately following the time point t that finishes at the loom stopping process ₁₁Afterwards.Time point t ₁₁Time point t with the end of tapping machine stopping process ₁₂Overlap.That is to say that tapping machine and loom are shut down.

Claims (14)

1. the method for work of loom and tapping machine; wherein; electronic main drive of loom equipment; electronic assistant drive device of tapping machine equipment; utilize a control device that electronic main drive and electronic assistant drive device are transmitted signal in view of the above and control, loom and tapping machine arrive a rotating speed of predesignating from shutting down in view of the above, and loom and tapping machine are shut down by brake apparatus when breaking down; it is characterized in that loom is from a starting time point (t ₂) playing at first rotating speed operation to predesignate, tapping machine is then from its starting time point (t ₁) rise and utilize an acceleration that only depends on drive unit itself on the direction of working speed (nfbm), to quicken, then, the rotating speed of loom from predesignating itself reaching position, rotating speed or torque value or the time point (t that predesignates ₃) time starts suddenly to working speed (n_wm) and/or in stopping process, loom on the contrary suddenly retarding braking to predesignating rotating speed, so that at a time point (t who predesignates ₁₁) go up and shut down, and the tapping machine braking procedure at first unexpected with respect to loom braked more slowly.

2. by the described method of claim 1, it is characterized in that the starting time point (t of tapping machine ₁) and braking time point (t ₁₄) with the starting time point (t of loom ₂) and braking time point (t ₉t ₁₅) relevant can be directly or indirect result as mathematical operation predesignate.

3. by the described method of claim 1, it is characterized in that the starting of tapping machine and braking time point (t ₁And t ₁₄) can predesignate by position, rotating speed or the torque value of loom indirectly.

4. by the described method of claim 1, it is characterized in that the starting time point (t of tapping machine ₁) be in the starting time point (t of loom ₂) before.

5. by the described method of claim 1, it is characterized in that the starting time point (t of tapping machine ₁) with the starting time point (t of loom ₂) simultaneously.

6. by the described method of claim 1, it is characterized in that the starting time point (t of tapping machine ₁) be in the starting time point (t of loom ₂) afterwards.

7. by the described method of claim 1, it is characterized in that point (t downtime of tapping machine ₁₂) be in point (t downtime of loom ₁₁) before.

8. by the described method of claim 1, it is characterized in that point (t downtime of tapping machine ₁₂) with point (t downtime of loom ₁₁) simultaneously.

9. by the described method of claim 1, it is characterized in that point (t downtime of tapping machine ₁₂) be in point (t downtime of loom ₁₁) afterwards.

10. by the described method of claim 1, it is characterized in that, carry out the first time point (t that beats up with the desired working speed of working at loom ₅) on, tapping machine has can predesignate an or rotating speed of determining from management system by drive system, and this rotating speed is different with the desired working speed of working.

11. by the described method of claim 10, it is characterized in that, as long as tapping machine does not have the desired working speed of work (n_fbm), the operation synchronism that requires between loom and the tapping machine reaches by following measure, be that loom is in the angle value that can predesignate, before beating up and afterwards not to be the rotating speed operation of the desired working speed of work.

12., it is characterized in that under failure condition, the braking procedure of tapping machine before relative beating up for the last time of shutting down begins with the desired working speed of loom work by one of claim 2-4 described method.

13. by the described method of claim 1, it is characterized in that, tapping machine at first also is the motion of predesignating that is lower than working speed, from this motion, tapping machine transforms to the acceleration that only depends on drive unit, wherein, the working speed that is lower than predesignated from it at loom of this conversion transforms to it and carries out before quickening suddenly.

14. be used to implement drive unit system by one of claim 1-12 described method, it is characterized in that tapping machine is a dobby machine, in preferred mode, be electronic dobby loom, shedding cam machine or jacquard weaving machine.

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