CN202347163U

CN202347163U - Spinning machine

Info

Publication number: CN202347163U
Application number: CN 201120396897
Authority: CN
Inventors: 太田成利; 坂元直孝
Original assignee: Murata Machinery Ltd
Current assignee: Murata Machinery Ltd
Priority date: 2010-11-05
Filing date: 2011-10-18
Publication date: 2012-07-25
Anticipated expiration: 2021-10-18
Also published as: JP2012097391A; CN102465363A; EP2450478A3; EP2450478B1; CN102465363B; EP2450478A2

Abstract

The utility model discloses a spinning machine (100). The spinning machine is provided with a plurality of spinning units (1), wherein each spinning unit (1) is provided with an air-jet spinning device (6) which utilizes the air to twist fiber bundles (F). The air-jet spinning device is provided with an air pressure feed device (21), an air piping (22), an additive supply device (3) and a control device (C), wherein the air pressure feed device (21) performs pressure feed on the air; the air piping (22) guides the air which is subjected to pressure feed by the air pressure feed device (21); the air which flows in the air piping (22) faces upstream sides of various branches of the air-jet spinning device (6), and the additive supply device (3) supplies an additive to the air piping (22); and the control device (C) adjusts the supply quantity of the additive supplied by the additive supply device (3).

Description

Spinning machinery

Technical field

The utility model relates to a kind of technology that disposes the spinning machinery (Spinning Machine) of many spinning units.

Background technology

All the time, known a kind of turn air-flow of air that utilizes is twisted and the open end spinning apparatus of manufacturing spun yarn fibre bundle.Open end spinning apparatus does, through producing turn air-flow (whirling airflow) to spinning room (spinning chamber) air supply, makes each fiber twist that constitutes fibre bundle, makes spun yarn (for example TOHKEMY 2009-1935 communique) thus.

There is following problem in open end spinning apparatus: for example make under the situation of spun yarn at the fibre bundle that is endowed finish from polyester fiber etc., finish adheres to and is deposited on the wall of spinning room.Therefore, following technology is proposed:, prevent the accumulation (for example TOHKEMY 2008-95208 communique) of finish thus through preventing to pile up agent to adding in the air that supplies to open end spinning apparatus.

But, in to the air pipe arrangement, add preventing to pile up agent and making it in the structure of each open end spinning apparatus branch in institute's flow air, according to the workbench number of open end spinning apparatus and the air mass flow in the air pipe arrangement changes.Therefore, according to the difference of the workbench number of open end spinning apparatus, the quantity delivered that prevents to pile up agent becomes sometimes too much or becomes very few.Therefore, require a kind of technology that can regulate the quantity delivered that prevents to pile up agent according to the workbench number of open end spinning apparatus.

The utility model content

The purpose of the utility model is to provide a kind of technology; In disposing the spinning machinery of many spinning units; Can be to adding additive in the air that supplies to open end spinning apparatus, and can regulate the quantity delivered of additive according to the workbench number of open end spinning apparatus.

First utility model relates to a kind of spinning machinery that disposes many spinning units, and this spinning unit possesses the open end spinning apparatus that utilizes air that fibre bundle is twisted.This spinning machinery possesses air force feed device, air pipe arrangement, additive feedway and control device at least.Air force feed device carries out force feed to air.The air pipe arrangement is to the air channeling conduct of air force feed device force feed.Additive feedway institute's flow air in the air pipe arrangement is supplied with additive towards the upstream side of each open end spinning apparatus branch to the air pipe arrangement.Control device is regulated the additive quantity delivered of additive feedway.

Second utility model relates to the spinning machinery of first utility model.The additive feedway of this spinning machinery possesses additive at least and stockpiles groove, additive supplying tubing and pressure-regulating device.Additive stockpiles groove and stockpiles additive.The additive supplying tubing stockpiles groove with additive from additive and guides to the air pipe arrangement.Pressure-regulating device stockpiles the groove pressure inside to additive and regulates.Control device is controlled through the operating condition to pressure-regulating device, will be changed by the flow of the additive of additive supplying tubing guiding thus, and the quantity delivered of additive is regulated.

The 3rd utility model relates to the spinning machinery of first or second utility model.Control device makes the quantity delivered increment of additive according to the increase of the workbench number of open end spinning apparatus, makes the quantity delivered decrement of additive according to the minimizing of the workbench number of open end spinning apparatus.

The 4th utility model relates to the spinning machinery of each utility model of first to the 3rd.Control device is grasped the workbench number of open end spinning apparatus thus through receiving the signal of telecommunication that sends from each spinning unit.

The 5th utility model relates to the spinning machinery of each utility model of first to the 3rd.Possesses air flow rate measuring device at this spinning machinery.Air flow rate measuring device is measured the flow of institute's flow air in the air pipe arrangement.Control device is grasped the workbench number of open end spinning apparatus according to the mensuration result of air flow rate measuring device.

The 6th utility model relates to the spinning machinery of each utility model of first to the 5th.The air pipe arrangement disposes with being tilted, makes attached to the inner additive of this air pipe arrangement to accumulate the regulation position.

The 7th utility model relates to the spinning machinery of the 6th utility model.The air pipe arrangement possesses the additive outlet, and this additive outlet is discharged to the outside with the inner additive of being accumulated of this air pipe arrangement.

The 8th utility model relates to the spinning machinery of each utility model of first to the 7th.By the additive that the additive feedway is supplied with to the air pipe arrangement, be the finish that prevents to be imparted to fibre bundle adhere to and pile up prevent to pile up agent.

The effect of utility model

As the effect of the utility model, the effect shown in performance is following.

According to first utility model, can be to adding additive in the air that supplies to open end spinning apparatus, and can regulate the quantity delivered of additive.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus from becoming too much or become very few, can improve the spun yarn quality.

According to second utility model, can be to adding additive in the air that supplies to open end spinning apparatus, and can regulate the quantity delivered of additive with high accuracy in the simple structure.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus from becoming too much or become very few, can improve the spun yarn quality.

According to the 3rd utility model, can be to adding additive in the air that supplies to open end spinning apparatus, and can regulate the quantity delivered of additive according to the workbench number of open end spinning apparatus.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus from becoming too much or become very few, can improve the spun yarn quality.

According to the 4th utility model, can correctly grasp the workbench number of open end spinning apparatus, so can suitably regulate the quantity delivered of additive.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus from becoming too much or become very few, can improve the spun yarn quality.

According to the 5th utility model, can correctly grasp the workbench number of open end spinning apparatus, so can suitably regulate the quantity delivered of additive.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus from becoming too much or become very few, can improve the spun yarn quality.

According to the 6th utility model, can make attached to the inner additive of air pipe arrangement and accumulate the regulation position.Thus, can prevent to flow into open end spinning apparatus, can improve the spun yarn quality attached to the inner additive of air pipe arrangement.

According to the 7th utility model, can discharge and be accumulated in the inner additive of air pipe arrangement.Thus, can prevent to flow into open end spinning apparatus, can improve the spun yarn quality attached to the inner additive of air pipe arrangement.

According to the 8th utility model, can prevent that finish from adhering to and be deposited in the spinning room, can improve the spun yarn quality.

Description of drawings

Fig. 1 is the figure that the integral body of expression spinning machinery constitutes.

Fig. 2 is the figure of the formation of expression spinning unit.

Fig. 3 is the figure that representes drafting system set in the spinning unit.

Fig. 4 is the figure that representes open end spinning apparatus set in the spinning unit.

Fig. 5 is the figure that representes yarn defect checkout gear set in the spinning unit.

Fig. 6 is the figure that representes tension stabilizing device set in the spinning unit.

Fig. 7 is the figure of the formation of expression air distribution device and additive feedway.

Fig. 8 is illustrated in the figure that produces the state of the more weak spun yarn of turn (soft twist yarn) under the situation that the quantity delivered that prevents to pile up agent becomes too much.

Fig. 9 is illustrated in the figure that produces the state of the more weak spun yarn of turn (soft twist yarn) under the situation that the quantity delivered that prevents to pile up agent becomes very few.

Figure 10 is the control mode of the quantity delivered that prevents to pile up agent is regulated in expression according to the workbench number of open end spinning apparatus figure.

Figure 11 is other figure of the formation of expression air distribution device and additive feedway.

The specific embodiment

Use Fig. 1 that the spinning machinery 100 of the embodiment of the utility model is described.As shown in Figure 1, spinning machinery 100 mainly is made up of many spinning units 1.Spinning machinery 100 possesses an air distribution device 2 (not shown among Fig. 1, with reference to Fig. 7) and additive feedway 3 (not shown among Fig. 1, with reference to Fig. 7).

At first, use Fig. 2 that the formation of spinning unit 1 is elaborated.

Spinning unit 1 is to make spun yarn Y and make the spinning machinery of package P from fibre bundle (below be called " sliver ") F.Spinning unit 1 comprises along the throughput direction of sliver F and spun yarn Y and according to sliver feed unit (sliver supplying unit) 4, drafting system (draft device) 5, open end spinning apparatus (air-jets pinning device) 6, yarn defect checkout gear (yarn defect detecting device) 7, tension stabilizing device (tension stabilizing device) 8 and the coiler device (winding device) 9 of following arranged in order.

Sliver feed unit 4 will be supplied with to drafting system 5 as the sliver F of the raw material of spun yarn Y.Sliver feed unit 4 mainly comprises sliver case 41 and guide strip rack 42 (with reference to Fig. 3).The sliver F that is stockpiled in the sliver case 41 is supplied with to drafting system 5 by guide strip rack 42 guiding.

Drafting system 5 makes the even thicknessization of this sliver F through drawing-off sliver F.As shown in Figure 3, drafting system 5 comprise along the throughput direction of sliver F and according to the back roller of following arranged in order to the 51, the 3rd roller to 52, intermediate calender rolls to 53 and preliminary roller right to 54 these four groups of drawing roller.In addition, the arrow shown in the figure is represented the throughput direction of sliver F.

Four groups of drawing roller comprise

lower roll

51A, 52A, 53A, 54A and

top roll

51B, 52B, 53B, 54B respectively to 51,52,53,54.Constitute intermediate calender rolls to being wound with the tengential belt 53C and the 53C of skin or synthetic rubber system on 53 lower roll 53A and the top roll 53B respectively.

Lower roll

51A, 52A, 53A, 54A rotate to equidirectional through not shown drive unit.

Top roll

51B, 52B, 53B, 54B are driven in the rotation of

lower roll

51A, 52A, 53A, 54A and rotate to equidirectional.Each drawing roller is set to 51,52,53,54, accelerates successively along the throughput direction rotating speed of sliver F.

Through this formation, drawing roller is to the sliver F of 51,52,53,54 clampings, whenever 51,52,53,54 o'clock transporting velocities just being increased through each drawing roller, adjacent drawing roller between drafted.So, drafting system 5 makes the even thicknessization of this sliver F through drawing-off sliver F.

Open end spinning apparatus 6 is made spun yarn Y through the sliver F twisting to institute's drawing-off.As shown in Figure 4, open end spinning apparatus 6 mainly comprises fiber guide device 61, spindle 62 and nozzle block 63.In addition, the black arrow shown in the figure is represented the throughput direction of sliver F and spun yarn Y.The flow direction of the air that the blank arrow shown in the figure is represented to be supplied with.

Fiber guide device 61 is the parts that constitute the part of spinning room (spinning chamber) SC.Fiber guide device 61 will be guided to spinning room SC by the sliver F of drafting system 5 drawing-offs.Explanation particularly, fiber guide device 61 imports road 61g through the fiber that is communicated with spinning room SC, and sliver F is guided in this spinning room SC.In fiber guide device 61, be provided with pin 61n highlightedly to spinning room SC inside, make sliver F along this pin 61n channeling conduct.

Spindle 62 is the parts that constitute the part of spinning room SC.The sliver F that spindle 62 will be twisted in spinning room SC is that spun yarn Y is to 7 guiding of yarn defect checkout gear.Explanation particularly, spindle 62 passes through road 62s through the fiber that is communicated with spinning room SC, and spun yarn Y is guided to the yarn defect checkout gear 7 that conveyance direction downstream side disposed.

Nozzle block 63 is the parts that constitute the part of spinning room SC.Nozzle block 63 with after the air of air force feed device 21 force feeds stated guide to spinning room SC.Explanation particularly, the airport 63a of nozzle block 63 through being communicated with spinning room SC guides air in this spinning room SC.In addition; On the nozzle block 63 each set airport 63a be connected into; Making from the air of each airport 63a ejection is center and flowing to equidirectional each other with the central shaft of spinning room SC, therefore at the inner turn air-flow (white arrow in reference to figure) that produces air of this spinning room SC.

SC explains in more detail to spinning room.Spinning room SC is the space that is surrounded by fiber guide device 61, spindle 62 and nozzle block 63.Say that at length spinning room SC is the space that is surrounded by the fiber guide device of being installed on the spindle 62 of the conical shaped shape that inserts from a side with respect to the through hole 63p of conical shaped shape set on the nozzle block 63 and the opposing party 61.

Spinning room SC is divided into: the space S C1 that is constituted between fiber guide device 61 and the spindle 62; And the space S C2 that is constituted between spindle 62 and the nozzle block 63.In space S C1, each fiber that constitutes sliver F is that the rearward end of each fiber is inverted (with reference to double dot dash line among the figure) through the turn air-flow.In space S C2, the rearward end of each fiber that is reversed is through the turn air-flow and by turn (with reference to double dot dash line among the figure).

Through this formation, the sliver F that is directed along pin 61n does, the rearward end of each fiber that constitutes this sliver F is by turn, and constantly is wound up on the fiber of central part.So, open end spinning apparatus 6 can utilize the turn air-flow of air to sliver F twisting, and makes spun yarn Y.In addition, open end spinning apparatus 6 also can be the formation that pin 61n is not set on fiber guide device 61.In this case, fiber guide device 61 is realized the function of pin 61n through the edge of the downstream of this fiber guide device 61.

Yarn defect checkout gear 7 detects the defective part that on spun yarn Y, produces.As shown in Figure 5, yarn defect checkout gear 7 mainly comprises light source portion 71, light accepting part 72 and housing 73.In addition, the arrow shown in the figure is represented from the direction of light of light source portion 71 irradiations.

Light source portion 71 is through carrying out luminous semiconductor element, be light emitting diode just upwards applying voltage.Light source portion 71 is configured to, and can the light from this light source portion 71 be shone to spun yarn Y.

Light accepting part 72 be can through optical signal carry out Current Control semiconductor element, be photistor.Light accepting part 72 is configured to, and can receive light to the light by light source portion 71 irradiations.

Housing 73 is the parts that light source portion 71 and light accepting part 72 remained on assigned position.In housing 73, be provided with the yarn path 73a that spun yarn Y passes through.Housing 73 remains light source portion 71 and light accepting part 72 that to clip spun yarn Y opposed.

Through this formation, light accepting part 72 receives the light quantity of light, becomes the value that among the light of spun yarn Y irradiation, will be removed by the light quantity of spun yarn Y shading from light source portion 71.In addition, yarn defect checkout gear 7 is connected (with reference to Fig. 7) via electric wiring with control device C.Control device C grasps the defective part that on spun yarn Y, produces thus through receiving the detection signal from yarn defect checkout gear 7.

Yarn defect checkout gear 7 can detected defective part, except the part of spun yarn Y cross thick or meticulous unusual, also be included in the situation that has impurity such as polypropylene on the spun yarn Y.Yarn defect checkout gear 7 can also adopt the sensor of electrostatic capacitive except the sensor of the optical profile type of above-mentioned that kind.

Tension stabilizing device 8 will remain the tension force that spun yarn Y applies suitably and make it stable.As shown in Figure 6, tension stabilizing device 8 mainly comprises roller 81, power part 82 and unwinding parts (unwinding member) 83.In addition, the arrow shown in the figure is represented the throughput direction of spun yarn Y.

Roller 81 is that spun yarn Y is pulled out from open end spinning apparatus 6 and the rotary body of general cylindrical shape shape that this spun yarn Y is reeled.Roller 81 is installed on the rotating shaft 82a of power part 82, rotates through this power part 82.The spun yarn Y that is drawn out from open end spinning apparatus 6 is winding to the outer peripheral face of this roller 81.

Power part 82 is through being supplied to the electro-motor that electric power drives.Power part 82 makes roller 81 rotations, and the rotating speed of this roller 81 is maintained necessarily with setting.The winding speed of the spun yarn Y that can roller 81 be reeled thus, remains necessarily.

Unwinding parts 83 are following extension yarn parts: through with roller 81 one or rotate independently mutually, thus the unwinding of the spun yarn Y that reeled is assisted.An end of unwinding parts 83 is installed on the rotating shaft 84 of roller 81.Another end of unwinding parts 83 forms towards the outer peripheral face of roller 81 crooked.Unwinding parts 83 hang on the crooked position through making spun yarn Y, can this spun yarn Y be carried out unwinding from roller 81.Base portion at the rotating shaft that unwinding parts 83 are installed 84 disposes permanent magnet, and this permanent magnet produces the resistance of the rotation that stops unwinding parts 83.

Through this formation, under, the situation less than above-mentioned resistance lower at the tension force that spun yarn Y is applied, unwinding parts 83 rotate with roller 81 integratedly.On the other hand, under, the situation greater than above-mentioned resistance higher at the tension force that spun yarn Y is applied, unwinding parts 83 and roller 81 be rotation independently mutually.So, tension stabilizing device 8 can make unwinding parts 83 and roller 81 one or rotation independently mutually according to the tension force that spun yarn Y is applied, and can regulate the withdrawal speed of this spun yarn Y.So, tension stabilizing device 8 will remain the tension force that spun yarn Y applies suitably and make it stable.

In addition, as stated, tension stabilizing device 8 has the effect that spun yarn Y is pulled out from open end spinning apparatus 6.But, for example also can dispose outlet roller and niproll, and pull out spun yarn Y through this outlet roller and niproll in the downstream of open end spinning apparatus 6.And, also can constitute the configuration tension stabilizing device 8 in the downstream of outlet roller and niproll and spun yarn Y is reeled and stockpiles.Perhaps, also can constitute, omit tension stabilizing device 8, pull out spun yarn Y through coiler device 9.

Coiler device 9 is made the package P of general cylindrical shape shape (cheese shape) through coiling spun yarn Y.Coiler device 9 mainly comprises driven roller 91 and not shown reel cage.Reel cage remains rotation freely with bobbin 92.

Driven roller 91 is the rotary bodies that make bobbin 92 and the driven rotation of package P through being rotated.Driven roller 91 is regulated rotating speed according to the variation of the external diameter of package P, and the peripheral speed of this package P is maintained necessarily.The winding speed of the spun yarn Y that can bobbin 92 be reeled thus, remains necessarily.

Bobbin 92 is rotary bodies of the general cylindrical shape shape of coiling spun yarn Y through being rotated.Bobbin 92 through with the outer peripheral face state of contact of this bobbin 92 or package P under the driven roller 91 that is rotated and driven rotation.In addition, coiler device 9 traverses spun yarn Y through not shown traversing gear (traverse device), prevents the deflection of the spun yarn Y on the package P.

Through this formation, the spun yarn Y that is directed into bobbin 92 can not be wound up into the outer peripheral face of this bobbin 92 on the bias.So, coiler device 9 can be made the package P of general cylindrical shape shape (cheese shape).In addition, except the package P of the general cylindrical shape shape (cheese shape) of that kind shown in Figure 2, coiler device 9 for example can also be made the package P of conical shaped shape (taper).

Then, utilize Fig. 7 that the formation of air distribution device 2 and additive feedway 3 is elaborated.In addition, the arrow shown in the figure is represented the flow direction of air.

As stated, spinning machinery 100 possesses an air distribution device 2.Air distribution device 2 mainly comprises air force feed device 21, the first air pipe arrangement 22, first distributing pipe 23, the second air pipe arrangement 24 and second distributing pipe 25.

Air force feed device 21 is that air is pressurizeed and the device seen off.Air force feed device 21 mainly comprises motor compressor that air is pressurizeed through making electrical motor driven etc.In addition, regulate the pressure of the air of air force feed device 21 force feeds through pressure-regulating valve 211.

The first air pipe arrangement 22 is the paths to the air channeling conduct of air force feed device 21 force feeds.The first air pipe arrangement 22 is installed to be, the parallel or almost parallel of direction that is disposed along each spinning unit 1.

First distributing pipe 23 is to make flow air branch in the first air pipe arrangement 22 and to the path of open end spinning apparatus 6 guiding.An end of first distributing pipe 23 is connected with open end spinning apparatus 6.Another end of first distributing pipe 23 is connected with the pars intermedia of the first air pipe arrangement 22.Thus, first distributing pipe 23 can make flow air branch in the first air pipe arrangement 22 and guide to open end spinning apparatus 6.In addition, the open and close valve 231 of the pars intermedia through being configured in this first distributing pipe 23 is to being regulated to the flow of the air of open end spinning apparatus 6 guiding by first distributing pipe 23.

The second air pipe arrangement 24 is the paths to the air channeling conduct of air force feed device 21 force feeds.The second air pipe arrangement 24 is installed to be, the parallel or almost parallel of direction that is disposed along each spinning unit 1.

Second distributing pipe 25 is to make flow air branch in the second air pipe arrangement 24 and to the path of open end spinning apparatus 6 guiding.An end of second distributing pipe 25 is connected with open end spinning apparatus 6.Another end of second distributing pipe 25 is connected with the pars intermedia of the second air pipe arrangement 24.Thus, second distributing pipe 25 can make flow air branch in the second air pipe arrangement 24 and guide to open end spinning apparatus 6.In addition, the open and close valve 251 of the pars intermedia through being configured in this second distributing pipe 25 is to being regulated to the flow of the air of open end spinning apparatus 6 guiding by second distributing pipe 25.

So, air distribution device 2 can be supplied with the air of air force feed device 21 force feeds via the first air pipe arrangement 22 or the second air pipe arrangement 24 to open end spinning apparatus 6.In addition, as the embodiment of the utility model, also can be the formation of omitting the second air pipe arrangement 24, also can be the formation that possesses than the air pipe arrangement of the spinning machinery more than 100 of this embodiment.

In addition, as stated, spinning machinery 100 possesses an additive feedway 3.Additive feedway 3 comprises that mainly branch's pipe arrangement 31, pressure-regulating device 32, additive stockpile groove 33 and additive supplying tubing 34.

Branch's pipe arrangement 31 is to make flow air branch in the first air pipe arrangement 22 and path from groove 33 guiding to additive that stockpile.An end of branch's pipe arrangement 31 stockpiles groove 33 with additive and is connected.Another end of branch's pipe arrangement 31 is connected with the pars intermedia of the first air pipe arrangement 22.Thus, branch's pipe arrangement 31 can make flow air branch in the first air pipe arrangement 22 and stockpile groove 33 guiding to additive.In addition, the valve 311 of the pars intermedia through being configured in this branch's pipe arrangement 31 is to being regulated to the flow that additive stockpiles the air of groove 33 guiding by branch's pipe arrangement 31.

Pressure-regulating device 32 be to being directed into that air that additive stockpiles groove 33 pressurizes and to this additive stockpile groove 33 in compress into the device that row is regulated.Pressure-regulating device 32 mainly comprises the pressure charging valve that air pressurizeed through sliding plunger is driven etc.Perhaps, also can use the motor compressor that air is pressurizeed through making electrical motor driven.In addition, pressure-regulating device 32 is connected with control device C via electric wiring.Control device C suitably controls the operating condition of this pressure-regulating device 32 thus through transmitting control signal to pressure-regulating device 32.

It is the containers that stockpile additive that additive stockpiles groove 33.Additive stockpiles the liquid level sensor 331 that groove 33 possesses the amount of stockpiling that detects additive.Liquid level sensor 331 is connected with control device C via electric wiring.Control device C grasps the amount of stockpiling of additive thus through receiving the detection signal from liquid level sensor 331.

Additive supplying tubing 34 is that additive is stockpiled the additive that stockpiled in the groove 33 path to 22 guiding of the first air pipe arrangement.An end of additive supplying tubing 34 is connected to, and stockpiles the bottom opening of groove 33 at additive.Another end of additive supplying tubing 34 is connected towards the upstream side of each open end spinning apparatus 6 branches with flow air in the first air pipe arrangement 22.

So, additive feedway 3 can stockpile the additive that is stockpiled in the groove 33 with additive and supply to the first air pipe arrangement 22.In addition, additive feedway 3 stockpiles the interior pressure of groove 33, the quantity delivered that can regulate additive through regulating additive.

Through this formation, this spinning machinery 100 can be to adding additive in the air that supplies to open end spinning apparatus 6, and can regulate the quantity delivered of additive with high accuracy in the simple structure.Thus, can prevent that quantity delivered to the additive of open end spinning apparatus 6 from becoming too much or become very few, can improve spun yarn Y quality.

In addition; The spinning machinery 100 of this embodiment does; The valve 221 of the upstream portion through will being configured in the first air pipe arrangement 22 open valve, and the valve 241 that will be configured in the upstream portion of the second air pipe arrangement 24 close valve, can only use the first air pipe arrangement 22 to open end spinning apparatus 6 air supplies thus.Thus, can only the air that contains additive be supplied to open end spinning apparatus 6.

On the other hand; The spinning machinery 100 of this embodiment does; The valve 221 of the upstream portion through will being configured in the first air pipe arrangement 22 close valve, and the valve 241 that will be configured in the upstream portion of the second air pipe arrangement 24 drive valve, can only use the second air pipe arrangement 24 to open end spinning apparatus 6 air supplies thus.Thus, can only the air that does not contain additive be supplied to open end spinning apparatus 6.

Then, use Fig. 8 that the reason that produces the more weak spun yarn of turn (soft twist yarn) Y under the situation that becomes too much in the quantity delivered to the additive of open end spinning apparatus 6 is described.Black arrow shown in the figure is represented the throughput direction of sliver F and spun yarn Y.The flow direction of the air that the blank arrow shown in the figure is represented to be supplied with.In addition, suppose to the additive that the first air pipe arrangement 22 is supplied be the finish that prevents sliver F is given pile up prevent that piling up agent describes.

As stated, the airport 63a through nozzle block 63 becomes turn air-flow (with reference to figure empty arrow) to the air that spinning room SC supplies with in this spinning room SC.At this moment, prevent to pile up agent to what open end spinning apparatus 6 was supplied with, form epithelium at the side face of spindle 62 etc., and prevent the accumulation of finish with air.But, to open end spinning apparatus 6 prevent pile up situation that the quantity delivered of agent becomes too much, be preventing of containing in the air piling up agent is under the situation more than the ormal weight, prevent to pile up that agent becomes drop and attached to side face of spindle 62 etc.Therefore, the rearward end of the fiber that in spinning room SC, reverses is difficult to the turn through the turn air-flow.As a result, produce the more weak spun yarn of turn (soft twist yarn) Y.

Explanation particularly, to open end spinning apparatus 6 prevent pile up under the situation that the quantity delivered of agent becomes too much, prevent to pile up that agent becomes drop and attached to the side face of spindle 62 etc.Therefore, that adheres to prevents to pile up agent, becomes the resistance (double dot dash line in reference to figure) that carries out the fiber of turn to this spindle 62 with reeling.Therefore, the rearward end of the fiber that in spinning room SC, reverses is difficult to the turn through the turn air-flow, therefore can not be wound up into fully on the fiber of central part.Preventing to pile up under the situation that the quantity delivered of agent becomes too much to open end spinning apparatus 6; The rearward end of the fiber that is reversed just is imported into fiber before through road 62s on the fiber that is wound up into central part fully, therefore produce the more weak spun yarn of turn (soft twist yarn) Y.

Then, use Fig. 9 that the reason that produces the more weak spun yarn of turn (soft twist yarn) Y under the situation that becomes very few in the quantity delivered to the additive of open end spinning apparatus 6 is described.Black arrow shown in the figure is represented the throughput direction of sliver F and spun yarn Y.The flow direction of the air that the blank arrow shown in the figure is represented to be supplied with.In addition, suppose to the additive that the first air pipe arrangement 22 is supplied be the finish that prevents sliver F is given pile up prevent that piling up agent describes.

As stated, the airport 63a through nozzle block 63 becomes turn air-flow (with reference to figure empty arrow) to the air that spinning room SC supplies with in this spinning room SC.At this moment, prevent to pile up agent to what open end spinning apparatus 6 was supplied with, form epithelium at the side face of spindle 62 etc., and prevent the accumulation of finish with air.But, to open end spinning apparatus 6 prevent pile up situation that the quantity delivered of agent becomes very few, be contain in the air prevent to pile up under the situation of agent less than ormal weight, the finish that sliver F is given adheres to and is stacked into side face of spindle 62 etc.Therefore, the rearward end of the fiber that in spinning room SC, reverses is difficult to the turn through the turn air-flow.As a result, produce the more weak spun yarn of turn (soft twist yarn) Y.

Explanation particularly, to open end spinning apparatus 6 prevent to pile up under the situation that the quantity delivered of agent becomes very few, the finish that sliver F is given adheres to and is stacked into the side face etc. of spindle 62.Therefore, the finish of accumulation becomes opposing (double dot dash line in reference to figure) from the fiber of turn to this spindle 62 that carry out with reeling.Therefore, the rearward end of the fiber that in spinning room SC, reverses is difficult to the turn through the turn air-flow, therefore can not be wound up into fully on the fiber of central part.Preventing to pile up under the situation that the quantity delivered of agent becomes very few to open end spinning apparatus 6; The rearward end of the fiber that is reversed just is imported into fiber before through road 62s on the fiber that is wound up into central part fully, therefore produce the more weak spun yarn of turn (soft twist yarn) Y.

So, the quality that improves spun yarn Y in order to prevent to produce the more weak spun yarn of turn (soft twist yarn) Y importantly prevents to become too much or become very few to the quantity delivered of piling up agent that prevents of open end spinning apparatus 6.And, to open end spinning apparatus 6 prevent pile up under the situation that the quantity delivered of agent becomes too much, prevent sometimes to pile up that agent can dye also that spun yarn Y goes up and to produce dyeing bad, so requirement will prevent that the quantity delivered of piling up agent is adjusted to proper technique.But; In this spinning machinery 100 that kind; Prevent to pile up agent and make it in the structure of each open end spinning apparatus 6 branches adding in the flow air in air pipe arrangement (being the first air pipe arrangement 22 in this spinning machinery 100), be difficult to make the quantity delivered of piling up agent that prevents to become optimization to open end spinning apparatus 6.

Explanation particularly, each spinning unit 1 that constitutes spinning machinery 100 do, each spinning unit 1 is different with the period that finishes to reel begin to reel period of package P, so the workbench number of open end spinning apparatus 6 changes.For example, in batch when change of spinning machinery 100, spinning unit 1 beginning that finishes from coiling package P shuts down successively, so the workbench number of open end spinning apparatus 6 reduces gradually.In addition, under the situation that begins to spin through whole spinning units 1 after the spinning unit 1 of minority spins in through spinning machinery 100, the workbench number of open end spinning apparatus 6 increases gradually.When the workbench number of open end spinning apparatus 6 changed, the requirement of air changed, so the flow air flow also changes in the first air pipe arrangement 22.At this moment, the quantity delivered of piling up agent when preventing of being supplied with by additive feedway 3 is one regularly, and the quantity delivered of piling up agent that prevents that becomes to open end spinning apparatus 6 becomes too much or the reason that becomes very few.Therefore, in this spinning machinery 100, prevent to pile up the adjusting of the quantity delivered of agent according to the workbench number of open end spinning apparatus 6.

Use Figure 10 that the control mode of regulating the quantity delivered that prevents to pile up agent according to the workbench number of open end spinning apparatus 6 is described.The transverse axis of Figure 10 is represented the workbench number of open end spinning apparatus 6.The preventing when longitudinal axis of Figure 10 is represented actual quantity delivered with respect to whole open end spinning apparatus 6 work piled up the ratio of the quantity delivered of agent.

This spinning machinery 100 makes the quantity delivered increment that prevents to pile up agent according to the increase of the workbench number of open end spinning apparatus 6.Explanation at length, the control device C of this spinning machinery 100 controls the pressure-regulating device 32 that constitutes additive feedway 3, and the increase according to the workbench number of open end spinning apparatus 6 makes the quantity delivered increment that prevents to pile up agent thus.

On the other hand, this spinning machinery 100 makes the quantity delivered decrement that prevents to pile up agent according to the minimizing of the workbench number of open end spinning apparatus 6.Explanation at length, the control device C of this spinning machinery 100 controls the pressure-regulating device 32 that constitutes additive feedway 3, and the minimizing according to the workbench number of open end spinning apparatus 6 makes the quantity delivered decrement that prevents to pile up agent thus.

In addition, shown in the solid line of Figure 10, in this spinning machinery 100, according to the workbench number of open end spinning apparatus 6 and regulate the quantity delivered that prevents to pile up agent interimly.Its former because, for producing more weak this problem of spun yarn (soft twist yarn) Y of turn, prevent that the quantity delivered of piling up agent from can not exert an influence sensitively, therefore regulate preventing that the quantity delivered of piling up agent from can make control mode simplify interimly.But, also can be such shown in the dotted line of Figure 10, regulate the quantity delivered that prevents to pile up agent continuously.In addition, control device C controls through the duration of runs and the ratio of dwell time, so-called dutycycle to the time per unit of pressure-regulating device 32, regulates the quantity delivered that prevents to pile up agent thus.Also can directly control, prevent to pile up the adjusting of the quantity delivered of agent thus through quantity delivered to the additive of the differential pressure regulation of being undertaken or additive feedway 3 by adjuster.

Through this formation, this spinning machinery 100 can prevent to pile up agent to adding in the air that supplies to open end spinning apparatus 6, and can regulate the quantity delivered that prevents to pile up agent according to the workbench number of open end spinning apparatus 6.Thus, can prevent to become too much or become very few, can improve the quality of spun yarn Y to the quantity delivered of piling up agent that prevents of open end spinning apparatus 6.

Then, the method for the control device C of this spinning machinery 100 being grasped the workbench number of open end spinning apparatus 6 describes.

Control device C grasps the workbench number of open end spinning apparatus 6 thus through receiving the signal of telecommunication that sends from each spinning unit 1.Explanation particularly, control device C grasps the workbench number of open end spinning apparatus 6 thus through receive the working signal of expression duty from each spinning unit 1.Perhaps, control device C grasps the workbench number of open end spinning apparatus 6 thus through receiving the yarn running signal that sends from yarn defect checkout gear 7.In addition, for example can also wait the workbench number of grasping open end spinning apparatus 6 according to yarn running signal at drafting system 5 sensor installations such as grade from this sensor.

The mensuration result of the air flow rate measuring device 222 that control device C can also be possessed according to the first air pipe arrangement 22 grasps the workbench number of open end spinning apparatus 6.In this case, as stated, control device C is utilized in the situation that has dependency relation between the workbench number of flow air flow and open end spinning apparatus 6 in the first air pipe arrangement 22.Air flow rate measuring device 222 can be hot-wire flowmeter or differential pressure flowmeter etc. for example, and the mensuration form does not limit.

Through this formation, this spinning machinery 100 can correctly be grasped the workbench number of open end spinning apparatus 6, therefore can suitably regulate the quantity delivered that prevents to pile up agent.Thus, can prevent to become too much or become very few, can improve the quality of spun yarn Y to the quantity delivered of piling up agent that prevents of open end spinning apparatus 6.

Then, use Figure 11 to describe to preventing the structure of piling up agent inflow open end spinning apparatus 6 attached to 22 inner the preventing of the first air pipe arrangement.

As stated, for the first air pipe arrangement 22, supply with additives such as preventing to pile up agent through additive feedway 3.Therefore, might flow into open end spinning apparatus 6 in large quantities attached to the first air pipe arrangement, 22 inner additives.Therefore, this spinning machinery 100 will be directed to the regulation position attached to these first air pipe arrangement, 22 inner additives thus through the first air pipe arrangement 22 is installed obliquely.Through this formation, this spinning machinery 100 can be with accumulating the regulation position attached to the first air pipe arrangement, 22 inner additives.Thus, can prevent to flow into open end spinning apparatus 6, can improve the quality of spun yarn Y attached to the first air pipe arrangement, 22 inner additives.

The first air pipe arrangement 22 possesses additive outlet 223, and this additive outlet 223 is discharged to the outside with the additive of accumulating in this first air pipe arrangement 22.Through this formation, this spinning machinery 100 can be discharged the additive that accumulate the first air pipe arrangement, 22 inside.Thus, can prevent that the additive of accumulating the first air pipe arrangement, 22 inside from flowing into open end spinning apparatus 6, can improve the spun yarn quality.

In the illustrated embodiment of Figure 11, the first air pipe arrangement 22 is configured to, along with from additive feedway 3 away from and tilt downwards.The first air pipe arrangement 22 is not limited to this embodiment, for example also can be configured to, along with from additive feedway 3 away from and upwards square neck is oblique.In this case, additive outlet 223 be configured in additive feedway 3 near.In addition, also can make and turn back to additive attached to the additive on the first air pipe arrangement 22 from additive outlet 223 and stockpile the groove 33.

The spinning machinery 100 of this embodiment is the formation that possesses an additive feedway 3.But, a plurality of spinning units 1 are being divided under a plurality of groups the situation, also can additive feedway 3 and air force feed device 21 be set to each group.Through a plurality of spinning units 1 being provided with common additive feedway 3 and air force feed device 21, spinning machinery 100 whole formations being simplified, and can be avoided spinning machinery 100 to maximize.

In addition, the spinning machinery 100 of this embodiment does, carries sliver F towards the below from the top.But the spinning machinery 100 of the utility model is not limited to this embodiment.For example, also can constitute, the bar tube of depositing sliver F is configured in underpart, coiler device 9 is configured in body upper.

Claims

1. a spinning machinery disposes many spinning units, and this spinning unit possesses the open end spinning apparatus that utilizes air that fibre bundle is twisted, and it is characterized in that possessing:

Air force feed device carries out force feed to air;

The air pipe arrangement is to the air channeling conduct of above-mentioned air force feed device force feed;

The additive feedway, institute's flow air is supplied with additive towards the upstream side of each said flow spinning apparatus branch to this air pipe arrangement in above-mentioned air pipe arrangement; And

Control device is regulated the additive quantity delivered of above-mentioned additive feedway.

2. the spinning machinery of putting down in writing according to claim 1 is characterized in that,

Above-mentioned additive feedway possesses:

Additive stockpiles groove, stockpiles additive;

The additive supplying tubing stockpiles groove with additive from above-mentioned additive and guides to above-mentioned air pipe arrangement; And

Pressure-regulating device stockpiles the groove pressure inside to above-mentioned additive and regulates,

Above-mentioned control device is controlled through the operating condition to above-mentioned pressure-regulating device, will be changed by the flow of the additive of above-mentioned additive supplying tubing guiding thus, and the quantity delivered of additive is regulated.

3. the spinning machinery of putting down in writing according to claim 1 is characterized in that,

Above-mentioned control device makes the quantity delivered increment of additive according to the increase of the workbench number of said flow spinning apparatus, makes the quantity delivered decrement of additive according to the minimizing of the workbench number of said flow spinning apparatus.

4. the spinning machinery of putting down in writing according to claim 2 is characterized in that,

5. the spinning machinery of putting down in writing according to claim 1 is characterized in that,

Above-mentioned control device is grasped the workbench number of said flow spinning apparatus thus through receiving the signal of telecommunication that sends from each above-mentioned spinning unit.

6. the spinning machinery of putting down in writing according to claim 2 is characterized in that,

7. the spinning machinery of putting down in writing according to claim 3 is characterized in that,

8. the spinning machinery of putting down in writing according to claim 4 is characterized in that,

9. the spinning machinery of putting down in writing according to claim 1 is characterized in that,

Possess air flow rate measuring device, this air flow rate measuring device is measured the flow of institute's flow air in the above-mentioned air pipe arrangement,

Above-mentioned control device is grasped the workbench number of said flow spinning apparatus according to the mensuration result of above-mentioned air flow rate measuring device.

10. the spinning machinery of putting down in writing according to claim 2 is characterized in that,

11. the spinning machinery according to claim 3 is put down in writing is characterized in that,

12. the spinning machinery according to claim 4 is put down in writing is characterized in that,

13. the spinning machinery according to claim 1 is put down in writing is characterized in that,

Above-mentioned air pipe arrangement disposes with being tilted, makes attached to the inner additive of this air pipe arrangement to accumulate the regulation position.

14. the spinning machinery according to claim 2 is put down in writing is characterized in that,

15. the spinning machinery according to claim 3 is put down in writing is characterized in that,

16. the spinning machinery according to claim 4 is put down in writing is characterized in that,

17. the spinning machinery according to claim 5 is put down in writing is characterized in that,

18. the spinning machinery according to claim 6 is put down in writing is characterized in that,

19. the spinning machinery according to claim 7 is put down in writing is characterized in that,

20. the spinning machinery of being put down in writing according to Claim 8 is characterized in that,

21. the spinning machinery according to claim 9 is put down in writing is characterized in that,

22. the spinning machinery according to claim 10 is put down in writing is characterized in that,

23. the spinning machinery according to claim 11 is put down in writing is characterized in that,

24. the spinning machinery according to claim 12 is put down in writing is characterized in that,

25. each spinning machinery put down in writing according to claim 1 to claim 24 is characterized in that,

Above-mentioned air pipe arrangement possesses the additive outlet, and this additive outlet is discharged to the outside with the inner additive of being accumulated of this air pipe arrangement.

26. each spinning machinery put down in writing according to claim 1 to claim 24 is characterized in that,

By the additive that above-mentioned additive feedway is supplied with to above-mentioned air pipe arrangement, be the finish that prevents to be imparted to above-mentioned fibre bundle adhere to and pile up prevent to pile up agent.

27. the spinning machinery according to claim 25 is put down in writing is characterized in that,