CN100352159C - Driving control system for spinning machine - Google Patents

Abstract

The present invention provides a driving control system that allows a spinning machine with a large number of spinning units to continue its operation even during an instantaneous electric power failure. The driving control system works for a spinning machine having a plurality of spinning units, individual driving devices (50B) provided for the respective spinning units to drive members acting directly on a bundle of fibers or a yarn, a shared driving device (50A) provided to drive all of the plurality of spinning units, and a intra-frame member driving device (50C) that drives members not acting directly on the bundle of fibers or yarn. The driving control system includes electric power failure detecting means (56) for detecting an electric power failure in a system electric power source (51) for the driving devices (50A, 50B, 50C), deceleration control means (57) for controllably decelerating the intra-frame member driving device (50C), and supply means (54) for supplying the individual driving devices (50B) for the respective spinning units with regenerative electric power resulting from the deceleration control.

Description

The spinning machine driving control system

Technical field

The present invention relates to a kind of driving control system that is used in the spinning machine that comprises a large amount of spinning units, say especially, relate to the control of when having a power failure, implementing.

Background technology

In the prior art, as example, a kind of drive controlling method is disclosed in the Japanese kokai publication hei 11-107065 communique (summary) that describes below, and this method is used in the manufacturing equipment of synthetic fiber yarn.This method is performed in the following equipment, this equipment comprises a plurality of inverters of being used to drive corresponding motor, be used for to each inverter supply direct current (DC) power supply transducer, be used for providing the controller of speed command to each inverter.This method is implemented control, thereby when instantaneous power-off took place, inverter reduced the speed of the motor that links to each other with corresponding inverter in a controlled manner, so that the motor of supplying the electric energy deficiency originally causes having excessive electric energy to be provided because of their deceleration.In addition, the variation of direct voltage is monitored so that control in real time, thereby with power adjustment in preset range.

In addition, as also disclosing a kind of roving frame control device in the Japanese kokai publication hei 05-044118 communique of describing below (summary).Under non-power down mode, control part with batch control part and all be powered with (AC)/direct current (DC) transducer that exchanges from this power line branch by power line.When having a power failure, an inverter enters the electric power reproduced state.Then, transducer batches the necessary minimum device provisioning regenerative electric energy of control from main motor to batching control part and enforcement.

Japanese kokai publication hei 11-107065 communique (summary) and Japanese kokai publication hei 05-044118 communique (summary) all relate to a kind of like this structure that is used for the yarn feeding or batches, i.e. deceleration by main drive shaft produces regenerative electric energy, and described main drive shaft is used for driving action each element on fibre bundle or yarn.Therefore, when having a power failure, the main drive shaft Be Controlled deceleration, to realize the yarn feeding or to batch.

Especially, in comprising respectively a plurality of spinning units of making spinning, the manufacturing that the deceleration of the drive unit of being shared by a plurality of spinning units may cause spinning departs from standard.

Summary of the invention

The present invention considers the problems referred to above and develops.The purpose of this invention is to provide a kind of driving control device, it is used for implementing control, so that comprise that the spinning machine of a plurality of spinning units can continued operation, even under the situation that instantaneous power-off takes place.

To achieve these goals, provide a kind of spinning machine driving control system according to a first aspect of the invention, this spinning machine comprises: a plurality of spinning units; Be the drive device that each spinning unit is equipped with respectively, they are used to drive some and act directly on element on fibre bundle or the yarn; A shared driving device, it is used to drive all above-mentioned a plurality of spinning units, acts directly on element on fibre bundle or the yarn to drive other; And the interior cell driving device of frame, it is used to drive the element that does not act directly on fibre bundle or the yarn.Described driving control system is characterised in that and comprises: power cut detection device, and it is used to detect a power failure that is used for the system power supply of described each drive unit; Deceleration control system, it is used to make, and cell driving device slows down in a controlled manner in the described frame; And electric supply installation, it is used for the regenerative electric energy that the described drive device provisioning to each spinning unit produces because of described deceleration control.

Utilize said structure, do not act directly in the frame on fibre bundle or the yarn cell driving device and can slow down in a controlled manner and produce regenerative electric energy.Regenerative electric energy is supplied to the drive device of each spinning unit, to continue to drive the drive device that is equipped with respectively for each spinning unit; Otherwise, these spinning units can shut down when having a power failure immediately.According to the present invention, during power failure, shared driving device can be for not producing the regenerative electric energy Be Controlled.Like this, shared driving device can not slow down rapidly.

Provide according to a second aspect of the invention that a kind of it also comprises the free-running operation control device as the described spinning machine driving control system in first aspect, front, be used for making described shared driving device with low load operation when having a power failure detecting.Utilize this structure, when having a power failure, shared driving device is with uncontrolled mode free-running operation.The driving shaft of shared driving device has inertia, and therefore its speed can not descend rapidly when having a power failure.

Provide a kind of according to a third aspect of the present invention as front first or second described spinning machine driving control system in aspect, wherein, cell driving device comprises a motor and a DC-to-AC converter that is used for this motor that is used for the drawing-in type hair-dryer in the described frame, and this hair-dryer is used for drawing dust or the refuse yarn line that each spinning unit produces.Utilize this structure, the motor that is used for hair-dryer has inertia, even and when instantaneous power-off, be used to draw under the situation that the power of dust and refuse yarn line reduces also not can the appreciable impact yarn generation.Like this, the motor that promptly is used in hair-dryer slows down in the power failure process in a controlled manner, continues to drive the required regenerative electric energy of drive device to produce, and quality of yarn can not be subjected to appreciable impact yet.

Provide a kind of according to a fourth aspect of the present invention as arbitrary described spinning machine driving control system in front first to the 3rd aspect, wherein, be provided with an operation chassis that is used for carrying out at each spinning unit the yarn splicing operation, they can be along described a plurality of spinning unit operations.Utilize this structure, when having a power failure, the drive device can not stop, and shared driving device also can be continued to drive because of inertia.Therefore can not cause yarn breakage because of power failure.So just need after returning to normal condition, power down mode not utilize the operation chassis a large amount of spinning units, to carry out concatenation.Therefore, can prevent the decrease in efficiency that yarn produces.Can also reduce the quantity of the operation chassis that is used to carry out concatenation.

Provide a kind of according to a fifth aspect of the present invention as arbitrary described spinning machine driving control system in first to fourth aspect, front, wherein, described drive device is arranged on the one or more combination in the exciter of electromagnetically operated valve in each spinning unit, solenoid, motor, this motor.In the prior art, electromagnetically operated valve that is equipped with for each spinning unit and solenoid can interrupt operations immediately when having a power failure; For motor and motor actuator that each spinning unit is equipped with also can interrupt operations immediately when having a power failure.Yet, utilize said structure of the present invention, under the effect of the renewable power supply that the drive device produces, electromagnetically operated valve, solenoid, motor, motor actuator still can continuous firings.

Description of drawings

Fig. 1 is the control block diagram according to the driving control system of the embodiment of the invention.

Fig. 2 is the line map of the wiring between power supply bus and the various drive unit.

Fig. 3 is the mode of operation figure according to the driving control system of the embodiment of the invention.

Fig. 4 is the front view of spinning machine.

Fig. 5 is the enlarged diagram of the internal structure of a spinning machine part.

Fig. 6 is the another kind of line map of the wiring between power supply bus and the various drive unit.

Embodiment

Describe with reference to the accompanying drawings according to spinning machine driving control system of the present invention.

At first, describe the spinning machine that has adopted this driving control system with reference to the accompanying drawings.In this manual, term " upstream " and " downstream " are to determine according to the traffic direction of yarn in spinning process.Specifically, spinning apparatus is positioned at upstream side, and devices for taking-up is positioned at the downstream.

Fig. 4 is the front view of an example of spinning machine 1.Fig. 5 is the schematic enlarged drawing of internal structure of the part of spinning machine 1.Spinning machine 1 is become by for example air spinning mechanism, and comprises: a control part 1A; The 1B of spinning portion has been set up in parallel a large amount of spinning unit 2 in it; The 1C of blowing portion; And yarn splicing device 17.A critical elements in the spinning machine 1 is an operation chassis 3, and it can be along track R free-running operation between each spinning unit 2.

Control part 1A implements control to following element: the drive motors 31,32,33,35 of driving shaft 141,142,143,145, these driving shafts are present in all spinning units 2 that constitute the spinning 1B of portion, be used for rotation and drive the second roller 4d, front offset roll 4e, yarn feeding 6 and friction roller 13, so that feeding sliver (fibre bundle) SL or the required power of yarns Y to be provided; The drive motors 34 of driving shaft 144, this driving shaft 144 are used for providing actuating force to the traversing gear T that the drive yarns Y is traversed; Motor 36,37 for each spinning unit 2 outfit; Devices for taking-up 12; Or the like.In this example, (spin speed based on each class value that is input among the input part a, spin the ratio of speed and take up roll speed, or the like), a calculating part b spins velocity information by inverter (inverter) 41 to 45 or exciter 30 to motor 31 to 36 outputs.In addition, output to the motor 37 of Yarn relaxation eliminating device 10 by an exciter 40 about a lax rotary speed information of eliminating roller (will describe below).

The inverter 41,42,43,44,45 that is used for the drive motors 31,32,33,34,35 of driving shaft 141,142,143,144,145 and is used for these motors has constituted a shared driving device 50A, and it is used to drive all described a large amount of spinning units 2.Be provided with motor 36 in each spinning unit 2 and be used for exciter 30, the motor 37 of motor 36 and be used for the exciter 40 of motor 37.Motor 36,37 and exciter 30,40 have constituted drive device 50B, are used to drive each and act directly on element on sliver SL or the yarns Y.The motor 38 and the exciter 48 thereof that are used for waxing attachment 11 as described later if any, are provided in each spinning unit 2 and are included among the drive device 50B.

In the 1B of spinning portion, be set up in parallel a large amount of spinning unit 2.In spinning machine 1,, also be provided with relaxation eliminating device 10 except spinning apparatus 5 and devices for taking-up 12.The structure of each spindle in the spinning unit 2 will be described below.

Comprise the negative voltage supply device among the 1C of blowing portion, be used for applying negative pressure (suction pressure) to the precalculated position of spinning unit 2 by air conduit.The 1C of blowing portion makes and attracts negative pressure to act on the desired location.

Dust collecting duct 21, a refuse yarn line draw catheter 22 and a yarn splicing chassis draw catheter 24 are installed in the described air conduit with embedded mode.The dust that produces in draw-gear 4 or the spinning apparatus 5 is drawn and transmitted to dust collecting duct 21, refuse yarn line draw catheter 22 is communicated with the sag pipe 7 that is described further below, and yarn splicing chassis draw catheter 24 is used to draw the refuse yarn line that the yarn splicing portion at the operation chassis produces when for example knotter, splicer etc. carry out the yarn splicing operation.

The 1C of blowing portion is holding an impeller 25 as rotating element, is used for producing the attraction air-flow at each conduit 21 to 24.The rotating shaft of the almost horizontal positioned of impeller 25 is being connected the driving shaft of hair-dryer motor 39 by a speed change gear that is made of belt wheel and belt (not shown).Hair-dryer motor 39 is the induction machines that driven by inverter 46.Hair-dryer motor 39 and inverter 46 constitute an interior cell driving device 50C of frame that is used for drives impeller 25, and its driving with respect to each spinning unit 2 is provided with independently, and does not act directly on sliver SL or the yarns Y.

Based on the yarn splicing request signal that the spinning unit 2 that is required yarn splicing by any one spreads out of, operation chassis 3 moves on track R, so that move on the position of this spinning unit 2 and stop at this.Fig. 5 is the schematic side elevation of the structure of the 1B of spinning portion, and as shown in Figure 5, operation chassis 3 comprises: a yarn splicing device 17, for example knotter or splicer; A suction pipe 18, an end of the yarn that it will be formed by spinning apparatus 5 attract and guide to yarn splicing device 17; And a suction nozzle 19, the yarn ends of the tube yarn 16 that it will supported by devices for taking-up 12 attracts and guides to yarn splicing device 17.It is contemplated that,, can be equipped with yarn splicing device 17, suction pipe 18 and suction nozzle 19 respectively for each spinning unit as example.Yet,, can only utilize one group of said elements that all spinning units 2 are carried out the yarn splicing operation if yarn splicing device 17, suction pipe 18 and suction nozzle 19 are installed on the operation chassis 3 of the direction operation that can be set up in parallel along spinning unit 2.Like this, can simplify the structure of spinning machine 1.

The a plurality of spinning units 2 that are placed among the 1B of spinning portion are described below with reference to Fig. 5.Spinning unit 2 is respectively the unit of sliver SL being made yarn as raw material.Spinning unit 2 comprises draw-gear 4, spinning apparatus 5, yarn feeding 6, yarn suction device (sag pipe) 7, cutter 8, yarn faults detector 9, Yarn relaxation eliminating device 10, waxing attachment 11, devices for taking-up 12.These elements with above-mentioned order along thread path E from upstream side downstream side arrange.

As example, draw-gear 4 is made up of the one-tenth pair roller of four linear arrangement, and they are rear side roller 4a, the 3rd roller 4b, have the second roller 4d, front offset roll 4e from its lateral margin 4c that extends out that these rollers begin to arrange from upstream side with above-mentioned order.

It is for example air type that spinning apparatus 5 adopts, and it utilizes gyration airflow to produce spun yarn Y (hereinafter to be referred as making " yarns Y ") from sliver SL, and can be with per minute hundreds of rice spin yarn at a high speed.Spinning apparatus 5 comprises that one is used to spray the spinning nozzle of gyration airflow and the hollow guide shaft in a generation path that is used to form yarns Y.Spinning apparatus 5 can produce the real shape spinning of twisting with the fingers when carrying out the spinning operation.Spinning apparatus 5 is provided with an electromagnetically operated valve 5a, and it switches on and off the supply of compressed air to spinning nozzle in a controlled manner.In addition, as disclosed in the TOHKEMY 2001-131834 communique, the retainer by making the hollow guide shaft rotatablely moves (lifting) with respect to the retainer of spinning nozzle, the spinning nozzle spinning nozzle can be separated with the hollow guide shaft, and then can carry out attended operation.For this reason, be provided with a cylinder solenoid valve 5b, be used to control rotatablely moving of hollow guide shaft retainer.

Yarn feeding 6 comprises nip rolls 6a and transfer roller 6b, is used for yarns Y is clipped in mode between roller 6a, the 6b with yarn feeding downstream.Yarn suction device 7 is always drawn air, removes the fragment of the yarns Y of being cut off by cutter 8 when yarn faults detector 9 detects the defective of yarns Y.

The Yarn relaxation eliminating device 10 that is located in each spinning unit 2 comprises respectively: the lax roller 10a that eliminates, and it is used for yarns Y being reeled and being retained in its outer surface 21a; A upstream side guide (not shown), it is arranged on the lax upstream side slightly of eliminating roller 10a; Motor 37 (see figure 4)s, stepping motor for example, it is used for rotation and drives the lax roller 10a that eliminates; Exciter 40 (see figure 4)s, it is used to control motor 37; And a downstream guide (not shown), it is located at the downstream of lax elimination roller 10a and has slit.

When yarn splicing device 17 carries out concatenation, Yarn relaxation eliminating device 10 rotation, with spinning apparatus 5 spun reel for yarns around and be retained in lax the elimination on the roller 10a, thereby absorb the slack of yarns Y.In some cases, even in normal spinning process, Yarn relaxation eliminating device 10 is almost rotation always also, keeping yarns Y wound thereon, thus issuable yarn tension difference when being absorbed in yarns Y and being wound into a tin yarn 16.Situation when situation about describing later is wound into awl tube yarn 16 corresponding to yarns Y.In this case, Yarn relaxation eliminating device 10 can be absorbed in the winding tension difference that produces between the big footpath side of a yarn and the path side.When the winding tension that applies when devices for taking-up 12 reduced, Yarn relaxation eliminating device 10 caused the lax roller 10a coiling yarns Y of eliminating, and is used for yarns Y is wound up into the power of a yarn 16 with opposing, thereby keeps tension force.When the winding tension that applies when devices for taking-up 12 increased, Yarn relaxation eliminating device 10 caused the lax roller 10a that eliminates further to put on display yarns Y, suppressing the increase of tension force, thereby yarns Y was wound into a yarn 16 glibly.Like this, tension force can maintain predetermined value.

Waxing attachment 11 slides yarns Y when keeping yarns Y and wax 11a contacts on the surface of wax 11a, so that wax on the surface of yarns Y.As needs, each spinning unit 2 all can adopt waxing attachment 11.Waxing attachment 11 makes on the end face of yarns Y at wax 11a when keeping yarns Y and wax 11a contacts and slides.Be assemblied on the rotating shaft by the axis hole that is formed on wax 11a center with, waxing attachment 11 can also drive wax 11a rotation.For this reason, each spinning unit 2 is provided with and is used to rotate motor 37 (Fig. 2) that drives wax 11a and exciter 48 (see figure 2)s that are used to control motor 37.

By yarns Y being wound on the spool 15 that is being kept by rocking arm 14, and utilize a horizontal mobile yarns Y of traversing gear T simultaneously, devices for taking-up 12 forms tube yarns 16.Devices for taking-up 12 comprises friction roller 13, is used for keeping in touch with spool 15 or tube yarn 16 and rotating.Rocking arm 14 is configured to rotate mobile, so that spool 15 or tube yarn 16 contact with friction roller 13 or separate.

The rotation moving structure of rocking arm 14 makes predetermined contact pressure can be applied on spool 15 or the tube yarn 16.An actuating cylinder 14a who is used to apply contact force and be used as the lifting device is attached to rocking arm 14.Above-mentioned contact is to realize by a mechanism that comprises spring, lever and rocking arm solenoid 14c with the operation that separates.

Be used for the electromagnetically operated valve 50a of aforementioned spinning nozzle, the solenoid 14c that is used for the electromagnetically operated valve 50b of aforementioned spinning nozzle quill shaft retainer and is used for aforementioned rocking arm 14 and be provided in each spinning unit 2, and constitute the drive device 1C that is provided in each spinning unit 2 as actuator.

The aforementioned spinning apparatus 5 that produces yarns Y from sliver SY by gyration airflow can be replaced by other various types of devices.For example spinning apparatus 5 can utilize air spinning nozzle and a pair of twist yarn roller (the second air spinning nozzle) to produce yarns Y, perhaps can utilize revolving cup to carry out open-end-spinning to produce yarns Y.In these cases, quill shaft and electromagnetically operated valve 5b just needn't be provided with.

Referring now to the driving control system of Fig. 1 description according to present embodiment of the present invention.Fig. 1 is the control block diagram according to the driving control system of the embodiment of the invention.Fig. 2 is the line map of the wiring between power supply bus and the various drive unit.

The first power supply bus 52 that driving control system S comprises control part 1A, system power supply 51, come out from system power supply 51 branches, also be the second power supply bus 53 of coming out from system power supply 51 branches, cell driving device 50C, the drive device 50B that links to each other with the second power supply bus 53 in the shared driving device 50A that links to each other with the first power supply bus 52 and the frame, be used for the power regeneration power supply circuit 54 of bus 53 of cell driving device 50C and second in the frame.

Control part 1A comprises a power failure test section 55, is used for the power down mode of detection system power supply 51.Power failure test section 55 is used for the instantaneous power-off (can for example recover normal condition within several seconds in 0.5 second) of detection system power supply 51.In illustrated example, the cut-out that power failure test section 55 can detection system power supply 51.Yet power failure test section 55 can utilize the power failure of an AND circuit (with circuit) detection system power supply 51, and this AND circuit is used for detecting the power failure phenomenon when the voltage of inverter that is included in each drive unit 50A, 50B, 50C or exciter descends.

Control part 1A comprises the calculating part b and the input part a who is used for calculating part b that are used for to inverter that is included in each drive unit 50A, 50B, 50C or the instruction of exciter output speed etc.Control part 1A also comprises a free-running operation control part 56 and a deceleration control portion 57, and they detect at power failure test section 55 and are activated when system power supply 51 has a power failure.

Output to the inverter 46 of cell driving device 50C in the frame from the deceleration instruction of deceleration control portion 57.46 pairs of hair-dryer motors of inverter 39 carry out deceleration control.Output to the inverter 41 to 45 of shared driving device 50A from the free-running operation instruction of free-running operation control part 56.Then, inverter 41 to 45 is carried out free-running operation control, to make motor 31 to 35 with low load operation respectively.

The first power supply bus 52 for example is used for the alternating current of 400V (volt) directly is fed to inverter 46 from system power supply 51.Inverter 46 portion within it is transformed into for example direct current of 560V with this AC energy.Although not shown, the drive motors of operation chassis 3 is also connecting the first power supply bus 52.

The second power supply bus 53 utilizes transformer 60 and rectifier 61 that alternating current is transformed into for example direct current of 24V.The second power supply bus 53 is therefore and with the exciter 30,40,48 of supply of electrical energy to drive device 50B, electromagnetically operated valve 5a, the 5b of drive device 50B, and the solenoid 14c of drive device 50B.

Illustrated among Fig. 2 and connected the first power supply bus 52 and by shared shared driving device 50A of each spinning unit 2 and the drive device 50B that is connecting the second power supply bus 53 and be equipped with respectively for each spinning unit 2.Shared driving device 50A comprises motor 31 to 35 and inverter 41 to 45.Electromagnetically operated valve 5b, the electromagnetically operated valve 5a of spinning nozzle of the hollow guide shaft of the exciter 48 of the motor 38 that drive device 50B comprises the exciter 30 of the motor 36 of rear side roller, the lax exciter 40 of eliminating the motor 37 of roller, be used to wax, the solenoid 14c of rocking arm, spinning nozzle.

Regeneration power supply circuit (electric supply installation) 54 comprises that 63 and adverse currents of a DC/DC transducer (converter) prevent element (diode) 64, wherein DC/DC transducer 63 is carried out conversion operations, so that the voltage that is produced equals the direct voltage of the second power supply bus, 53 both sides.Under non-power down mode, the direct voltage of the second power supply bus, 53 both sides prevents that with the adverse current of regeneration power supply circuit 54 voltage of element 64 equates.Yet, do not have electric current and unexpectedly flow to DC/DC transducer 63 from the second power supply bus 53.

The operation of driving control system is described referring now to Fig. 1 to 3.In Fig. 3 (a), if temporary interruption (instantaneous power-off), then can occur 1. and in the interval built-in system power supply 51 2. having a power failure at point.The power failure test section 55 that occurs in the power failure meeting Be Controlled 1A of portion that a little 1. locates detects.After detecting power failure, the inverter 46 output deceleration instructions of the cell driving device 50C in frame of deceleration control portion 57.

Then, the hair-dryer motor 39 that comprises impeller 25 and deceleration device and have inertia is with the deceleration regime running, to produce the regenerative electric energy of expection.This electric energy is supplied to regeneration power supply circuit 54.Then, DC/DC transducer 63 converts the regenerative electric energy of supply to low-voltage direct current.Then, the regenerative electric energy after the conversion prevents that by adverse current element 64 is fed to the second power supply bus 53.

The electric energy that is fed to the second power supply bus 53 can suppress pressure drop among exciter 30,40,48, electromagnetically operated valve 5a, 5b, the solenoid 14c.On the other hand, the direct voltage that the internal electric source of the inverter that causes shared driving device 50A is controlled in free-running operation reduces with less speed, shown in Fig. 3 (b).As a result, can keep the control of inverter effective.Then, although the speed of the motor of shared driving device 50A 31 to 35 descends gradually, shown in Fig. 3 (c), can not influence practical operation.

Shown in Fig. 3 (d), 3. the point of the inverter of shared driving device 50A when reaching instantaneous power-off startup rank locate to start low load operation, to reduce output voltage.Specifically, voltage is reduced, and does not change the frequency of inverter 41 to 45, does not therefore have current loss.As a result, free-running operation is performed, and produces moment under the situation about coming into force with the Spin Control that prevents at inverter.Because shared driving device 50A has driving shaft 141 to 145, so it can apply inertia force.Like this, in continuing about 0.5 second instantaneous power failure process, the speed of shared driving device 50A remains unchanged basically.

After returning to normal condition, stop from the deceleration instruction of deceleration control portion 57 with from the free-running operation instruction of free-running operation control part from power down mode.On the other hand, the power supply of system power supply 51 is restarted.Shown in Fig. 3 (b), 2. the direct voltage of shared driving device 50A begins to recover to normal condition from the service restoration point just often of system power supply 51.Shown in Fig. 3 (c), the motor 31 to 35 of shared driving device 50A turns back to their steady state operation.

The exciter 30,40 of drive device 50B, solenoid 14c, electromagnetically operated valve 5a, 5b return their steady state operation and keep their mode of operation.

In addition, although do not illustrate in the drawings, also be supplied to control part 1A from the electric energy of regeneration power supply circuit 54, to keep the control that it is carried out.If be provided with the exciter 48 of waxing shown in Figure 2 in the system, then regeneration power supply circuit 54 is also to exciter 48 power supplies.

Because the motor 39 among Fig. 4 can Be Controlled slow down, so its rotating speed can significantly reduce.Yet along with restoring electricity from power down mode, motor speed can return to steady-state speed.

The embodiment of the driving control system that constructs as previously mentioned can produce following effect.

(1) when take place having a power failure, the speed of cell driving device 50C reduces in a controlled manner in the frame that is provided with independently with respect to the driving of spinning unit 2.Like this, the driving of spinning unit 2 can not be affected.On the other hand, the drive device 50B of spinning unit 2 carries out driving, with direct generation and the coiling that influences yarn.In addition, drive device 50B is not driven by shared driving device 50A, but is driven by the regenerative electric energy from cell driving device 50C in the frame.Therefore, speed can not reduce very significantly, even thereby the quality of the spinning of under power down mode, making also can be kept.

Specifically, the driven rear side roller 4a (see figure 5) in each spinning unit 2 with sliver SL tractive to draw-gear 4, so that act directly on the sliver SL.Even rear side roller 4a can not stop when having a power failure yet.When yarn splicing device 17 carried out the yarn splicing operation, the driven lax elimination roller 10a (Fig. 5) in each spinning unit 2 absorbed the slack of yarn.In addition, if produce an awl tube yarn 16, even then lax eliminate roller 10a when having a power failure also almost always in rotation, so that when yarn is wound into a tin yarn 16, absorb yarn tension difference.Like this, the lax roller 10a that eliminates acts directly on the yarn y, even and also can not stop when having a power failure.Driven roller shape wax 11a in each spinning unit 2 acts directly on the yarn by rotation, so that yarn moves along its end face.Even waxing attachment 11 can not stop when having a power failure yet.

Following elements will be kept their mode of operation: the supply of electromagnetically operated valve 5a, its drive controlling compressed air spinning nozzle (spinning apparatus 5 among Fig. 5) on acting directly on sliver SL; Electromagnetically operated valve 5b, it is held in a predetermined position hollow guide shaft (spinning apparatus 5 among Fig. 5); The solenoid 14c of rocking arm 14, it rotates in the take-up direction a yarn 16 by a yarn 16 is contacted with predetermined contact pressure with friction roller 13, thereby directly yarns Y is applied effect.Without undergoing deceleration control, but kept its driving condition by the shared shared driving device 50A of a large amount of spinning unit 2 by means of the inertia force of driving shaft 141 to 145.In this way, even directly to the generation of yarn with batch the drive device 50B and the shared driving device 50A that work and when having a power failure, also keep operation.Therefore, can normally produce and batch yarn, and can not rupture.

(2) when having a power failure, shared driving device 50A Be Controlled free-running operation.Therefore, shared driving device 50A can free-running operation under the effect of inertia of driving shaft 141 to 145, keeps the speed controlling function of inverter 41 to 45 simultaneously.Can guarantee enabling after having a power failure like this, and can not cause inverter 41 to 45 to cut off.

(3) hair-dryer motor 39 and inverter 46 thereof are used to cell driving device 50C in the frame.Hair-dryer motor 39 is used to draw dust and refuse yarn line, and not directly related with sliver SL or the feeding of yarns Y in spinning machine 2, also not with the generation of yarn with batch directly related.On the other hand, impeller 25, hair-dryer motor 39 and exciter 46 are provided with for each spinning power supply 2, and have enough big capacity respectively, to guarantee collecting dust and refuse yarn line from all spinning units 2.Like this, these elements have big inertia force.When having a power failure, can produce big regenerative electric energy by the controlled deceleration that hair-dryer is put machine 39.Therefore, in continuing about 0.5 second power failure process, the generation of previously described and yarn and the driving of the batching relevant drive device 51B running status of can remaining valid.In the prior art, the reserve capacitor can only be dealt with about 0.05 second power failure.Yet, the invention enables the reserve capacitor can deal with about 0.5 second power failure.Like this, for nearly all power-off condition, all can be when having a power failure with the generation of yarn with batch and maintain almost normal state, drive operation and do not need to change.On the other hand, the rotating speed of hair-dryer motor 39 can significantly descend.If only continue about 0.5 second but have a power failure, then rotating speed can recover immediately.Therefore, the reduction meeting of suction in seconds finishes.Suction is used to collect dust and refuse yarn line, and this decline of suction is minimum to the influence of spinning machine steady state operation.

(4), one or two operation chassis 3 only is set just can carries out concatenation each spinning unit 2 although spinning machine 1 is made of a large amount of spinning units 2.Therefore, when instantaneous power-off, the operation of sliver SL or yarns Y stops and therefore causing the spinning operation to stop if introducing, and then can cause yarn breakage, thereby make in all spinning units 2 yarn breakage takes place.So just need operation chassis 3 in all spinning units 2, to carry out concatenation successively, thereby cause operating efficiency to reduce.Yet in the present invention, even instantaneous power-off continues about 0.5 second, the running of spinning machine 2 also can be maintained, thereby can prevent yarn breakage.Like this, can avoid carrying out concatenation for a long time because of power failure causes operation chassis 3.

(5) except being each spinning unit 2 motor 36,37,38 and their exciter that are equipped with, drive device 50B also comprises as electromagnetically operated valve 5a, the 5b of the actuator in each spinning unit 2 and solenoid 14c.Therefore, even in the power failure process, the driving of each spinning unit 2 and mode of operation also can be kept.

The embodiment of the driving control system that constructs as previously mentioned can be by following transformation.

(1) in the description in front, the rear side roller 4a of spinning unit 2 is driven by the drive device.Yet similar with the second roller 4d or front offset roll 4e, rear side roller 4a can be by shared driving device by the shared drive shaft of spinning unit 2, so that the free-running operation when having a power failure of rear side roller.

(2) in the description in front, spinning machine 1 is provided with Yarn relaxation eliminating device 10.Yet spinning machine 1 also can be with Yarn relaxation eliminating device 10.In addition, in the description in front, spinning machine 1 is provided with waxing attachment 11.Yet spinning machine 1 also can be with waxing attachment 11.In addition, even spinning machine 1 has waxing attachment 11, also can when having a power failure, close waxing attachment 11 rather than supply regenerative electric energy to it.Even the roller shape wax 11a short time stops the rotation, yarn still can keep contacting with roller shape wax 11a.

(3) shared driving device 50A can be supplied the regenerative electric energy from cell driving device 50C in the frame, rather than Be Controlled free-running operation as shown in Figure 6.For this reason, a rectifier 65 is arranged on the supply side of the first power supply bus 52, and one first power supply bus 52a comprises and the identical direct current supply circuit of circuit that constitutes regeneration power supply circuit 54.After detecting power failure, power failure test section 55 is cell driving device 50C output deceleration instruction in frame.Shared driving device 50A is supplied the regenerative electric energy that the deceleration control because of cell driving device 50C in the frame produces by the first power supply bus 52a.This regenerative electric energy also is supplied to drive device 50B by regeneration power supply circuit 54.Like this, can when having a power failure, provide power supply to shared driving device 50A and drive device 50B simultaneously.Present embodiment can be applied under the bigger situation of interruption duration inertia short or the interior cell driving device 50C of frame.

According to the present invention, when the short time had a power failure, the drive device of each spinning unit was supplied the controlled deceleration that draws cell driving device in the frame and the regenerative electric energy that produces, and this operation is not directly related with the spinning operation of spinning unit, that is to say, not directly related with fibre bundle or yarn.Therefore, the drive device can be by Continuous Drive, and needn't make shared driving device carry out controlled deceleration.Therefore, the spinning operation can be carried out continuously, and can significantly not change the speed of each spinning unit.Therefore, yarn breakage can be prevented from when having a power failure, to take place, and spinning quality can be when having a power failure, kept.

Claims (5)

1. spinning machine driving control system, this spinning machine comprises: a plurality of spinning units; Be the drive device that each spinning unit is equipped with respectively, they are used to drive some and act directly on element on fibre bundle or the yarn; A shared driving device, it is used to drive all above-mentioned a plurality of spinning units, acts directly on element on fibre bundle or the yarn to drive other; And the interior cell driving device of frame, it is used to drive the element that does not act directly on fibre bundle or the yarn;

Described driving control system is characterised in that and comprises:

Power cut detection device, it is used to detect a power failure that is used for the system power supply of described each drive unit; Deceleration control system, it is used to make, and cell driving device slows down in a controlled manner in the described frame; And electric supply installation, it is used for the regenerative electric energy that the described drive device provisioning to each spinning unit produces because of described deceleration control.

2. spinning machine driving control system as claimed in claim 1 is characterized in that, also comprises the free-running operation control device, and it is used for making when detecting power failure described shared driving device with low load operation.

3. spinning machine driving control system as claimed in claim 1 or 2, it is characterized in that, cell driving device comprises a motor and a DC-to-AC converter that is used for this motor that is used for the drawing-in type hair-dryer in the described frame, and this hair-dryer is used for drawing dust or the refuse yarn line that each spinning unit produces.

4. spinning machine driving control system as claimed in claim 3 is characterized in that, is provided with an operation chassis that is used for carrying out at each spinning unit the yarn splicing operation, and they can be along described a plurality of spinning unit operations.

5. spinning machine driving control system as claimed in claim 4 is characterized in that, described drive device is arranged on the one or more combination in the exciter of electromagnetically operated valve in each spinning unit, solenoid, motor, this motor.

Images