CN202558377U - Bobbin processing device and yarn take-up system - Google Patents

Abstract

The utility model provides a bobbin processing device and a yarn take-up system. A conveyor belt is used for conveying feed bobbins. The conveyor belt is provided with an endless annular flat belt, a motor (31), a motor bracket (34) and an oblique movement adjusting component. The flat belt is disposed between a driven roller and a drive roller (28). The drive roller (28) is fixed on a rotating output shaft (31a) of the motor (31). The motor (31) is installed on the motor bracket (34). The oblique movement adjusting component can rotate around an axis of an oblique movement adjusting shaft (40). In addition, an eccentric portion (42) which is eccentric corresponding to the oblique movement adjusting shaft (40) is disposed on the oblique movement adjusting component. Moreover, the motor bracket (34) is positioned by contacting with the periphery of the eccentric portion (42).

Description

Bobbin processing equipment and Yarn reeling system

Technical field

The utility model relates to the diagonal adjustment that is used for carrying at the bobbin processing equipment load-transfer device of yarn feeding bobbin.

Background technology

Known have after the yarn feeding bobbin that utilizes spinning frame to generate is carried out predetermined process, yarn feeding bobbin is supplied to the bobbin processing equipment of Yarn reeling device.This bobbin processing equipment is for example disclosed in TOHKEMY 2008-247517 communique.

In this bobbin processing equipment, be formed with bobbin and carry the road, this bobbin carries the road to be used to carry the delivery tray that is equipped with yarn feeding bobbin.As the mechanism that is used to carry delivery tray, adopt sometimes and utilize a plurality of roller circulations to drive the structure (so-called load-transfer device) of the flat belt that constitutes as the endless loops body.

If in load-transfer device, do not carry out diagonal adjustment, then can produce flat belt break away from or delivery tray such as carries at unfavorable condition with being tilted from roller.About this point, real opening discloses the structure that can easily adjust the diagonal of belt in the clear 61-133862 communique in Japan.Japan is real to open the structure that clear 61-133862 communique put down in writing and is characterised in that, will be as axially being set to of the axle of the S. A. of tension wheel, can be around the rotation of the normal direction of the face that moves of belt, and with the stagger angle of regulation of this normal direction.

Yet opening the diagonal adjusting mechanism of being put down in writing in the clear 61-133862 communique need possess tension wheel in fact in Japan, the problem that the space that therefore exists this diagonal adjusting mechanism to be occupied increases.In addition, Japan real to open clear 61-133862 communique disclosed be the equal structure of driven rotation of roller and belt wheel of setting up belt.Yet, in the load-transfer device that the bobbin processing equipment is possessed, set up in the roller of flat belt one by motor etc. on one's own initiative rotation drive.Therefore, in the load-transfer device of bobbin processing equipment, can't adopt the real structure of opening clear 61-133862 communique of Japan.

The utility model content

The utility model is accomplished in view of above situation, and its main purpose is to provide the mechanism of the compactness of the diagonal that can in the bobbin processing equipment, easily adjust load-transfer device.

Next the problem that the utility model will solve describes method and the effect thereof that is used to solve this problem as stated.

According to the viewpoint of the utility model, the following structure of utilizing load-transfer device to carry the bobbin processing equipment of yarn feeding bobbin is provided.That is, said conveyer belt possesses flat belt, carriage and the diagonal adjustment component of endless loops.Above-mentioned flat belt is set up between a plurality of rollers.At above-mentioned carriage the S. A. of any roller in above-mentioned a plurality of roller is installed.Above-mentioned diagonal adjustment component constitutes can be around the diagonal adjusting shaft rotation of regulation.And above-mentioned diagonal adjustment component possesses with respect to above-mentioned diagonal adjusting shaft accentric eccentric part.And above-mentioned carriage is positioned through contacting with the periphery of above-mentioned eccentric part.

In this structure, through being rotated, the diagonal adjustment component make eccentric part carry out the off-centre rotation, and therefore the carriage by this eccentric part location moves.Can adjust the inclination of the S. A. of roller thus, therefore can carry out the diagonal adjustment of load-transfer device.Like this, make the diagonal adjustment component rotate so simple structure to carry out diagonal adjustment owing to can utilize, so can be configured for carrying out the mechanism of this diagonal adjustment compactly.

Such formation below above-mentioned bobbin processing equipment is preferred.That is, this bobbin processing equipment possesses driven roller and the motor that is used to drive above-mentioned flat belt.Above-mentioned driven roller is fixed in the rotating output shaft of above-mentioned motor.And above-mentioned motor is fixed in above-mentioned carriage.

According to this structure, can be with the motor direct mount in driven roller, and motor self can carry out the diagonal adjustment.

Such formation below above-mentioned bobbin processing equipment is preferred.That is, above-mentioned eccentric part, quilt be circle with the contour shape in the cross section that above-mentioned diagonal adjusting shaft plane orthogonal is cut off.Be formed with slotted hole at above-mentioned carriage, this slotted hole has and the roughly consistent width of the diameter of above-mentioned eccentric part.And above-mentioned eccentric part is disposed at the inboard of above-mentioned slotted hole.

Like this, the shape in the hole through will disposing eccentric part is made as slotted hole, can tackle moving of the eccentric part that caused by the off-centre rotation.

Such formation below above-mentioned bobbin processing equipment is preferred.That is, this bobbin processing equipment possesses threaded, and this threaded is from contacting with above-mentioned carriage with the direction of the length direction almost parallel of above-mentioned slotted hole.And the mentioned strain adjustment component constitutes the position on the direction that can adjust with the length direction almost parallel of above-mentioned slotted hole.

That is, carriage is moved on the length direction of slotted hole.Therefore, through threaded is contacted limit carriage on above-mentioned direction, to move with carriage.And, be made as and can adjust through position threaded, can make carriage on the length direction of slotted hole, move and change the position of roller, therefore can adjust the tension force that puts on flat belt.

In above-mentioned bobbin processing equipment, preferred above-mentioned slotted hole is located at the mentioned strain adjustment component and contacts and execute on the dummy line of drawing on the power-assisted direction with above-mentioned carriage.

Thus, it is crooked significantly because of the diagonal adjustment to prevent to put on the power of flat belt.

In above-mentioned bobbin processing equipment, preferably be formed with pinch hand in above-mentioned diagonal adjustment component.

Thus, the diagonal adjustment component is easily rotated, therefore, can easily carry out the diagonal adjustment of flat belt.

Other viewpoints according to the utility model can provide the Yarn reeling system, and this Yarn reeling system possesses: above-mentioned bobbin processing equipment; With the Cylinder feeder portion of yarn feeding bobbin to above-mentioned bobbin processing equipment supply; And the Yarn reeling device that batches yarn from the yarn feeding bobbin that utilizes above-mentioned bobbin processing equipment to be implemented predetermined process.

That is, because above-mentioned bobbin processing equipment can easily carry out the diagonal adjustment of load-transfer device, so the efficient of safeguarding improves.Therefore, can also improve the productivity of Yarn reeling entire system.

Description of drawings

Fig. 1 is the integrally-built birds-eye view of the related automatic bobbin winder system of an embodiment of expression the utility model.

Fig. 2 is the block diagram of expression based on the structure of the conveying mechanism of round belt.

Fig. 3 is the birds-eye view of load-transfer device.

Fig. 4 is the assembling stereogram of diagonal adjusting mechanism.

Fig. 5 (a) is a block diagram of observing the diagonal adjustment component from the eccentric part side.Fig. 5 (b) is a block diagram of observing the diagonal adjustment component from pinch hand.

Fig. 6 is the birds-eye view of diagonal adjusting mechanism.

To be expression begin to make the birds-eye view of the situation of diagonal adjustment component rotation from the state of Fig. 6 to Fig. 7 (a).Fig. 7 (b) is the birds-eye view that expression makes the situation that the diagonal adjustment component rotates round about.

The specific embodiment

Next, describe with reference to the embodiment of accompanying drawing the utility model.Fig. 1 is the approximate vertical view that expression possesses the automatic bobbin winder system (Yarn reeling system) 1 of the related bobbin processing equipment 3 of this embodiment.

This automatic bobbin winder system 1 possesses: automatic bobbin winder (Yarn reeling device) 2, bobbin processing equipment 3 and bobbin supply apparatus (Cylinder feeder portion) 4.

Automatic bobbin winder 2 possesses the winding unit 5 of a plurality of arrangements.Known each winder unit 5 constitutes, and from being wound with the yarn feeding bobbin unwinding spun yarn of spun yarn, and batching and forms package in batching bobbin.Be formed with the supply road 6 that is used for yarn feeding bobbin automatically is delivered to each winding unit 5 at automatic bobbin winder 2.And, be formed with the recovery road 7 that is used to carry the bare bobbin of discharging from each winding unit 5 at automatic bobbin winder 2.

Above-mentioned supply road 6 and reclaim road 7 and be made up of load-transfer device etc. constitutes and can carry delivery tray.This delivery tray constitutes can yarn feeding bobbin be carried with erectility roughly and puts.

Yarn feeding bobbin will before the spun yarn-winding that generates in the spinning frame of operation around bobbin.The yarn feeding bobbin that is generated by spinning frame is carried to bobbin supply apparatus 4, and puts into this bobbin supply apparatus 4.Bobbin supply apparatus 4 constitutes input yarn feeding bobbin carried with erectility roughly one by one and places on the delivery tray.This bobbin supply apparatus 4 possesses and is used on delivery tray carrying the bobbin skewed slot (bobbin chute) 9 of putting yarn feeding bobbin.

Bobbin processing equipment 3 is configured between bobbin supply apparatus 4 and the automatic bobbin winder 2.The yarn feeding bobbin of supplying with from bobbin supply apparatus 4 be in keep intact and can not be automatic bobbin winder 2 state of unwinding suitably.Therefore, constitute in bobbin processing equipment 3, the yarn feeding bobbin of supplying with from bobbin supply apparatus 4 is carried out proper process in advance.As the disposal that utilizes bobbin processing equipment 3 to carry out, for example, have the unwinding of tip bunch weft end coiling, loose thread processing and pick finding processing etc.In addition, handle and the pick finding processing for example record to some extent in TOHKEMY 2008-247517 communique about the unwinding of tip bunch weft end coiling, loose thread.Bobbin processing equipment 3 possesses the tip bunch weft end take-off device 10 that is used to carry out the unwinding of tip bunch weft end coiling, be used to carry out the Yarn-end treating device 11 that loose thread handles and be used to carry out the pick finding device 12 that pick finding is handled.

In bobbin processing equipment 3, be formed with the conveying road 8 of carrying yarn feeding bobbin.As shown in Figure 1, the supply road 6 of carrying road 8 to constitute automatic bobbin winder 2 is connected with recovery road 7.

In addition, bobbin processing equipment 3 possesses control part, and this control part is used for each structure that this bobbin processing equipment 3 is possessed is controlled.

When to mobile the describing of the delivery tray in this automatic bobbin winder system, as following.

Bobbin processing equipment 3 possesses at each position of carrying road 8 and is used for bobbin sensor that having or not of yarn feeding bobbin detected.And bobbin processing equipment 3 possesses at each position of carrying road 8 and is used for tray sensor that having or not of delivery tray detected.In addition, in following explanation, there is the situation gather bobbin sensor and tray sensor and only to be called " sensor ".

For example, when the delivery tray (not carrying the delivery tray of bobbin) of sky arrives the positive upper/lower positions 16 of bobbin skewed slot 9, utilize the sensor to detect this empty delivery tray.In this case, control part makes bobbin skewed slot 9 action, a yarn feeding bobbin is carried with erectility roughly put on the delivery tray of above-mentioned sky.

Carrying the delivery tray that is equipped with yarn feeding bobbin with utilizing bobbin skewed slot 9 is carrying road 8 to carry towards the tip bunch weft end take-off device 10 in downstream.Arrived to yarn feeding bobbin (and delivery tray) in sensor under the situation of front position 17 of tip bunch weft end take-off device 10, control part makes 10 actions of tip bunch weft end take-off device, removes the underwinding that is formed at yarn feeding bobbin.

Having removed the yarn feeding bobbin of underwinding is further carrying road 8 to carry towards the Yarn-end treating device 11 in downstream.Arrived to yarn feeding bobbin (and delivery tray) in sensor under the situation of front position 18 of Yarn-end treating device 11, control part makes Yarn-end treating device 11 actions, the after-combustion yarn that cuts off the periphery that is wound in yarn feeding bobbin, and form loose thread.

Having cut off the yarn feeding bobbin of after-combustion yarn is further carrying road 8 to carry towards the pick finding device 12 in downstream; Arrived to yarn feeding bobbin (and delivery tray) in sensor under the situation of front position 19 of pick finding device 12; Control part makes 12 actions of pick finding device, the inboard (pick finding) that will insert bobbin by the loose thread that Yarn-end treating device 11 forms.

Pick finding yarn feeding bobbin further carrying road 8 to carry towards downstream, and supply with to the supply road 6 of automatic bobbin winder 2.Yarn feeding bobbin is being supplied with road 6 conveyings, and any supply in winding unit 5.

In winding unit 5, carry out the unwinding of yarn from yarn feeding bobbin, the yarn after the unwinding is batched in package.Carry yarn all by unwinding the delivery tray of bobbin (bare bobbin), be discharged from from winding unit 5, turn back to the conveying road 8 of bobbin processing equipment 3 once more via reclaiming road 7.

In carrying road 8, dispose bobbin withdrawing device (bobbin propeller) 13 at the upstream side of bobbin skewed slot 9.Bobbin withdrawing device 13 is to be used to extract out turning back to the device that the delivery tray of carrying road 8 is uploaded the bare bobbin of putting from reclaiming road 7.Arrived to the delivery tray that is equipped with bare bobbin in sensor under the situation of positive upper/lower positions 20 of bobbin withdrawing device 13, control part makes 13 actions of bobbin withdrawing device, and this bare bobbin is extracted out from delivery tray.

Next, utilize the conveying road 8 of bobbin processing equipment 3 to carry the conveying mechanism of yarn feeding bobbin to describe to being used to.This conveying mechanism is by constituting based on the conveying mechanism of round belt with based on the conveying mechanism of flat belt.

At first, the conveying mechanism based on round belt is described.Conveying mechanism based on round belt constitutes, and the round belt of endless loops is set up between a plurality of belt wheels (figure slightly) and along carrying road 8 set, and through driving above-mentioned belt wheel above-mentioned round belt circulation is driven.As shown in Figure 2, contact with round belt 21 through the lower surface that makes the delivery tray 14 that is equipped with yarn feeding bobbin 15, and above-mentioned round belt 21 circulations are driven, can be along carrying 8 pairs of delivery trays 14 in road (and yarn feeding bobbin 15) to carry.

As shown in Figure 2, the part of round belt 21 between belt wheel and belt wheel by leaf spring 22 from following side bearing.This leaf spring 22 disposes towards oblique upper, and through making part bending midway be formed with the curve 22a towards raising.The upper surface of this curve 22a is contacted with the lower surface of round belt 21, constitute leaf spring 22 thus from following this round belt 21 of side bearing.In addition, in bobbin processing equipment in the past, adopt the midway parts of part of the driven pulley of driven rotation as supporting round belt 21.Yet, in this structure in the past, exist wind cotton (hard waste) etc. to be wrapped on the driven pulley of rotation the problem that maintenances such as cleaning become loaded down with trivial details easily.To this point, if adopt above-mentioned structure, then because leaf spring 22 does not have the parts of rotation, so there is not the cotton situation of twining of wind.Therefore, according to this structure, can reduce the time of maintenance.

Be used to drive the below that the driving pulley (figure slightly) of round belt 21, the motor (figure slightly) that rotation drives this driving pulley etc. are disposed at outer dress panel 23.Through utilizing outer dress panel 23 to cover driving pulley, motor etc., can prevent that the operator from touching driving pulley, motor etc. unintentionally in the course of action of bobbin processing equipment 3.

Driving pulley, motor adhere to the wind cotton easily because of having rotating part.Therefore, need maintenance such as clean termly to them.To adorn panel 23 outward in order to carry out this maintenance constitutes and can easily dismantle.Particularly, utilize screw 25 will adorn outward panel 23 screw threads for fastening outside being disposed at this, adorn panel 23 below matrix 24 on.Can dismantle outer dress panel 23 through unclamping screw 25.Adorn outside to be formed with on the panel 23 and be used to supply screw 25 to insert logical screw holes 26, this screw hole 26 forms as known keyhole hole.Therefore, only just can not extract this screw 25 out and dismantle outer dress panel 23 through unclamping screw 25.Screw 25 is lost when adorning panel 23 outside can preventing thus to dismantle, and can successfully carry out this field-strip.Owing to carry out safeguard (cleaning) of driving pulley etc. termly, carry out the outer field-strip of adorning panel 23 continually.Therefore, through as above-mentioned constitute, can significantly improve the operation property of maintenance.

Next, the conveying mechanism based on flat belt is described.

That is, there is the very difficult shortcoming that keeps on even keel to carry the posture of delivery tray 14 in the conveying mechanism based on round belt 21 of above-mentioned that kind.Usually, some do not have problems yet even delivery tray 14 tilts, but in the flat-hand position that has delivery tray 14 midway of carrying road 8 very important position.For example in above-mentioned bobbin chute 9,, yarn feeding bobbin 15 needs the posture of this delivery tray 14 is remained horizontality for suitably being equipped on delivery tray 14.

Therefore,, load-transfer device (based on the conveying mechanism of flat belt) is set, and constitutes and utilize this load-transfer device that delivery tray 14 is carried with respect to above-mentioned round belt 21 is parallel in the flat-hand position of such delivery tray 14 very important position.Because the face (upper surface of flat belt) based on the lift-launch delivery tray 14 of the load-transfer device of flat belt is the plane, so can keep the flat-hand position ground of delivery tray 14 to carry.

The structure of this load-transfer device is as shown in Figure 3.As shown in Figure 3, load-transfer device 27 possesses driven roller 28, driven voller 29 and flat belt 30.

Flat belt 30 constitutes endless loops, is set up between driven roller 28 and the driven voller 29.This flat belt 30 sets conveyor surface (upper surface of the flat belt) level of approximation into this flat belt for delivery tray 14 is carried with horizontality.Above-mentioned driven roller 28 is fixed in the rotating output shaft 31a as the motor 31 of the drive source of load-transfer device (being stepping motor in this embodiment).In driven roll shaft 29a, and to constitute with this driven roll shaft 29a be that the center rotates freely to driven voller 29 via bearing installation.This driven roll shaft 29a is fixed via driven voller carriage 32.

In above structure, make driven roller 28 rotations through drive motor 31, and flat belt 30 circulations that are set up between this driven roller 28 and the driven voller 29 are driven.Thus, can carry the delivery tray 14 (and yarn feeding bobbin 15) that carries on flat belt 30.

The load-transfer device 27 of this embodiment has the diagonal adjusting mechanism 33 that is used to carry out the diagonal adjustment.This diagonal adjusting mechanism 33 mainly possesses electric machine support 34 and diagonal adjustment component 35.

Above-mentioned motor 31 is fixed in electric machine support (carriage) 34.As shown in Figure 4, this electric machine support 34 is screwed to the motor attachment face 37 that constitutes approximately horizontal plane.On this electric machine support 34, be formed with slotted hole 39, this slotted hole 39 supplies to be used to carry out 38 slotting the leading to of screw of above-mentioned screw threads for fastening.Wherein, above-mentioned screw 38 with respect to motor attachment face 37 roughly the mode of quadrature be screwed into motor attachment face 37.Above-mentioned motor 31 is installed on electric machine support 34 with its rotating output shaft 31a with motor attachment face 37 parallel modes.

On diagonal adjustment component 35, be formed with and be used to supply diagonal adjusting shaft 40 to insert logical circular hole 41.This diagonal adjusting shaft 40 constitutes as screw.As shown in Figure 4, diagonal adjusting shaft 40 is screwed into above-mentioned motor attachment face 37 via the circular hole 41 of diagonal adjustment component 35.Thus, diagonal adjustment component 35 is by screw threads for fastening, and be fixed to can not be around 40 rotations of diagonal adjusting shaft.In addition, the screw through unclamping this diagonal adjusting shaft 40 fastening, can make diagonal adjustment component 35 is the center rotation with this diagonal adjusting shaft 40.

Shown in Fig. 5 (a), on the face of a side of diagonal adjustment component 35, be formed with cylindric outstanding eccentric part 42.The profile in cross section eccentric part 42, that quilt and diagonal adjusting shaft 40 plane orthogonal are cut off forms toroidal.Why will this cylindric outstanding part being called eccentric part 42 is because above-mentioned circular hole 41 is formed at from the position of the misalignment of cylinder.That is, eccentric part 42 is with respect to diagonal adjusting shaft 40 off-centre that are inserted into circular hole 41.Therefore, when making diagonal adjustment component 35 be the center rotation with diagonal adjusting shaft 40, eccentric part 42 carries out eccentric motion.In addition, above-mentioned diagonal adjusting shaft 40 with respect to motor attachment face 37 roughly the mode of quadrature be screwed into motor attachment face 37.Therefore eccentric part 42 carries out eccentric motion in the plane parallel with motor attachment face 37.

As shown in Figure 4, on electric machine support 34, be formed with the slotted hole 43 that supplies above-mentioned eccentric part 42 to insert.The width of this slotted hole 43 (with the length of the direction of the length direction quadrature of slotted hole 43) is roughly consistent with the diameter of eccentric part 42.As shown in Figure 4, when diagonal adjustment component 35 is screwed to motor attachment face 37, eccentric part 42 is inserted into the inboard of slotted hole 43, and under this state, carries out the screw threads for fastening of diagonal adjustment component 35.Thus, as shown in Figure 6, eccentric part 42 is configured in the inboard of slotted hole 43.As stated, because the width of slotted hole 43 is roughly consistent with the diameter of eccentric part 42, so the edge of slotted hole 32 contacts with the periphery of eccentric part 42.Thus with electric machine support 34 location.

According to above structure, be the center rotation through making diagonal adjustment component 35 with diagonal adjusting shaft 40, can carry out the diagonal adjustment of load-transfer device 27.That is, rotate through making diagonal adjustment component 35, thereby eccentric part 42 carries out eccentric motion, its result, the peripheral part of this eccentric part 42 is pushed the edge of slotted hole 43.Thus, shown in Fig. 7 (a) or Fig. 7 (b), electric machine support 34 is that rotate at the center with screw 38.In addition, eccentric part 42 can and be on the length direction of this slotted hole 43, to relatively move at the inboard of slotted hole 43.Therefore, can not hinder the eccentric motion of eccentric part 42.

As stated, because through making diagonal adjustment component 35 rotation that electric machine support 34 is rotated, so can be in the plane parallel the inclination of the S. A. (the rotating output shaft 31a of motor 31) of driven roller 28 be adjusted with motor attachment face 37.Here, motor attachment face 37 is set at the conveyor surface (upper surface of flat belt 30) parallel (level) with flat belt 30.Therefore, through making diagonal adjustment component 35 rotation, can be in the plane parallel the inclination of the S. A. of driven roller 28 be adjusted with the conveyor surface of flat belt 30.

Like this, according to the structure of the diagonal adjusting mechanism 33 of this embodiment, only, just can easily carry out the diagonal of load-transfer device 27 and adjust through making 35 rotations of diagonal adjustment component.In addition, the diagonal adjusting mechanism 33 of this embodiment is the compact design that is made up of electric machine support 34 and the diagonal adjustment component 35 that contacts with electric machine support 34.Therefore, even for the load-transfer device that is provided in the narrow space, the diagonal adjusting mechanism 33 of this embodiment can be set also.

In addition, shown in Fig. 5 (b), in diagonal adjustment component 35, be formed with pinch hand 44 at the opposition side of the face that is formed with eccentric part 42.The operator who carries out diagonal adjustment can easily make diagonal adjustment component 35 rotate through pinching this pinch hand 44 with finger or utilizing instrument etc. to clamp and pinch stem 44.In addition, when diagonal adjustment finished, the screw of operator through utilizing diagonal adjusting shaft 40 was with fastening 35 the rotatable phase that fixes this diagonal adjustment component of diagonal adjustment component 35.Thus, the angle of the S. A. of driven roller 28 (rotating output shaft 31a) is fixed.

In this embodiment, slotted hole 39,43 forms, their length direction and flat belt 30 set direction (moving direction) almost parallel.Therefore, even behind the rotatable phase of having fixed diagonal adjustment component 35, electric machine support 34 integral body are being moved with setting on the parallel direction of direction of flat belt 30.Owing on flat belt, be applied with the tension force of regulation, so on driven roller 28, be applied with the power of stretching to driven voller 29 laybacks.Therefore, electric machine support 34 desires are near driven voller 29 side shiftings.Therefore in this embodiment, possesses the threaded 45 that contacts with electric machine support 34 from driven voller 29 sides.Thus, can limit electric machine support 34 moves to the direction near driven voller 29 sides.

This threaded 45 constitutes, and can go up the adjustment position with the parallel direction of direction (with the direction of the length direction almost parallel of slotted hole 39,43) that sets of flat belt 30.Through the position of adjustment threaded 45, can with the direction that sets the direction almost parallel of flat belt 30 on electric machine support 34 location.Thus, can adjust the distance between driven roller 28 and the driven voller 29, therefore can adjust the tension force of flat belt 30.

In addition, contact with electric machine support 34 and when executing the dummy line 46 (Fig. 6 and Fig. 7) of drawing on the power-assisted direction, slotted hole 39,43 forms and is positioned on the above-mentioned dummy line 46 in threaded 45 when considering.In addition, on this dummy line 46, dispose screw 38 and diagonal adjusting shaft 40.In addition, this dummy line 46 and flat belt 30 sets the direction approximate horizontal.

As stated, slotted hole 39,43 is formed on the dummy line 46, when making 35 rotations of diagonal adjustment component carry out the diagonal adjustment, can the distance that electric machine support 34 moves be made as Min. on dummy line 46 directions thus.The power that therefore, can prevent to put on flat belt 30 is because of diagonal adjustment crooked significantly (effect has irrational power on flat belt 30).

That kind as described above, the bobbin processing equipment 3 of this embodiment utilize load-transfer device 27 to carry yarn feeding bobbin 15.Load-transfer device 27 possesses: the flat belt 30 of endless loops, electric machine support 34 and diagonal adjustment component 35.Flat belt 30 is set up between driven voller 29 and the driven roller 28.At above-mentioned electric machine support 34 the rotating output shaft 31a as the S. A. of driven roller 28 is installed.Diagonal adjustment component 35 can be around 40 rotations of diagonal adjusting shaft.In addition, diagonal adjustment component 35 possesses with respect to diagonal adjusting shaft 40 accentric eccentric parts 42.And electric machine support 34 contacts through the periphery with eccentric part 42 and is positioned.

In this structure, make eccentric part 42 carry out the off-centre rotation through making 35 rotations of diagonal adjustment component, therefore the electric machine support 34 by eccentric part 42 location moves.Thus, can adjust the inclination of the S. A. (rotating output shaft 31a) of driven roller 28, therefore can carry out the diagonal adjustment of load-transfer device 27.Like this, can utilize to make the so simple structure of diagonal adjustment component 35 rotations carry out the diagonal adjustment, therefore can constitute diagonal adjusting mechanism 33 compactly.

In addition, the bobbin processing equipment 3 of this embodiment constitutes as following.That is, this bobbin processing equipment 3 possesses driven roller 28 and the motor 31 that is used to drive flat belt 30.Driven roller 28 is fixed in the rotating output shaft 31a of motor 31.And motor 31 is fixed in electric machine support 34.

According to this structure, can be with motor 31 direct mounts in driven roller 28, and motor 31 self can carry out the diagonal adjustment.

In addition, the bobbin processing equipment 3 of this embodiment constitutes as following.That is, the contour shape in cross section eccentric part 42, that quilt and diagonal adjusting shaft 40 plane orthogonal are cut off be a circle.On electric machine support 34, be formed with slotted hole 43, this slotted hole 43 has and the roughly consistent width of the diameter of eccentric part 42.And eccentric part 42 is disposed at the inboard of slotted hole 43.

Like this, the shape in the hole through will disposing eccentric part 42 is made as slotted hole 43, can tackle moving of the eccentric part 42 that caused by the off-centre rotation.

In addition, the bobbin processing equipment 3 of this embodiment constitutes as following.That is, this bobbin processing equipment 3 possesses threaded 45, and this threaded 45 is from contacting with electric machine support 34 with the direction of the length direction almost parallel of slotted hole 43.And threaded 45 constitutes the position on the direction that can adjust with the length direction almost parallel of above-mentioned slotted hole 43.

That is, electric machine support 34 is moved on the length direction of slotted hole 43.Therefore, through threaded 45 is contacted limit electric machine support 34 on above-mentioned direction, to move with electric machine support 34.And, through the position of adjustment threaded 45, can make electric machine support 34 on the length direction of slotted hole 43, move and change the position of driven roller 28, therefore can adjust the tension force that puts on flat belt 30.

In addition, in the bobbin processing equipment 3 of this embodiment, slotted hole 43 is located at threaded 45 and contacts and execute on the dummy line 46 of drawing on the power-assisted direction with electric machine support 34.

Thus, it is crooked significantly because of the diagonal adjustment to prevent to put on the power of flat belt 30.

In addition, in the bobbin processing equipment 3 of this embodiment, on diagonal adjustment component 35, be formed with pinch hand 44.

Thus, diagonal adjustment component 35 is easily rotated, therefore can easily carry out the diagonal adjustment of flat belt 30.

In addition, the automatic bobbin winder system 1 of this embodiment possesses: above-mentioned bobbin processing equipment 3; Supply with the bobbin supply apparatus 4 of yarn feeding bobbin 15 to bobbin processing equipment 3; And automatic bobbin winder 2, this automatic bobbin winder 2 batches yarn from the yarn feeding bobbin 15 that utilizes bobbin processing equipment 3 to be implemented predetermined process.

That is, because above-mentioned bobbin processing equipment 3 can easily carry out the diagonal adjustment of load-transfer device 27, so the efficient of safeguarding improves.Therefore, can also improve automatic bobbin winder system 1 single-piece productivity.

More than the preferred embodiment of the present invention is illustrated, but above-mentioned structure example is as changing as following.

In the above-described embodiment, to will being carried to bobbin supply apparatus 4 by the yarn feeding bobbin 15 that spinning frame generates, and the structure that this yarn feeding bobbin 15 is put in the bobbin supply apparatus 4 is illustrated.Yet be not limited thereto, also can constitute for example to utilize and carry the road to connect between bobbin processing equipment and the spinning frame, supply with continuously to the bobbin processing equipment by the yarn feeding bobbin that spinning frame generates.In this case, spinning frame is equivalent to Cylinder feeder portion.

The shape of diagonal adjustment component 35 is not limited to the shape that accompanying drawing is put down in writing, as long as have with respect to diagonal adjusting shaft 40 accentrics partly.In addition, as long as electric machine support 34 constitutes and contacts with the periphery of eccentric part 42 and be positioned, be not the inboard that must eccentric part 42 be disposed at slotted hole 43.

Be not limited to the structure that the inclination of the S. A. (rotating output shaft 31a) to driven roller 28 is adjusted, can also be with the structure applications of the utility model in the structure that the inclination of the S. A. (driven roll shaft 29a) of driven voller 29 is adjusted.

In addition, can have the roller that sets up flat belt more than three.In this case, also can be with the structure applications of the utility model in adjusting the S. A. of roller arbitrarily.

Though the structure to flat belt being set on even keel conveying bobbin is illustrated, even carry the structure of bobbin also can use the utility model obliquely.

Also can omit the structure of the tension force that utilizes threaded 45 adjustment flat belts 30.

Claims (7)

1. bobbin processing equipment, this bobbin processing equipment utilize load-transfer device to carry yarn feeding bobbin,

This bobbin processing equipment is characterised in that,

Said load-transfer device possesses flat belt, carriage and the diagonal adjustment component of endless loops; Said flat belt is set up between a plurality of rollers; At said carriage the S. A. of any roller in said a plurality of roller is installed; Said diagonal adjustment component constitutes can be around the diagonal adjusting shaft rotation of regulation, and said diagonal adjustment component possesses with respect to said diagonal adjusting shaft accentric eccentric part, and said carriage is positioned through contacting with the periphery of said eccentric part.

2. bobbin processing equipment according to claim 1 is characterized in that,

This bobbin processing equipment possesses: be used to drive the driven roller and the motor of said flat belt,

Said driven roller is fixed in the rotating output shaft of said motor, and said motor is fixed in said carriage.

3. bobbin processing equipment according to claim 2 is characterized in that,

Said eccentric part, quilt be circle with the contour shape in the cross section that said diagonal adjusting shaft plane orthogonal is cut off; Be formed with slotted hole at said carriage; This slotted hole has and the roughly consistent width of the diameter of said eccentric part, and said eccentric part is disposed at the inboard of said slotted hole.

4. bobbin processing equipment according to claim 3 is characterized in that,

This bobbin processing equipment possesses threaded; This threaded is from contacting with said carriage with the direction of the length direction almost parallel of said slotted hole, and said threaded constitutes the position on the direction that can adjust with the length direction almost parallel of said slotted hole.

5. bobbin processing equipment according to claim 4 is characterized in that,

Said slotted hole is located at said threaded and contacts and execute on the dummy line of drawing on the power-assisted direction with said carriage.

6. bobbin processing equipment according to claim 5 is characterized in that,

Be formed with pinch hand in said diagonal adjustment component.

7. a Yarn reeling system is characterized in that,

Said Yarn reeling system possesses:

According to each described bobbin processing equipment in the claim 1 to 6;

With the Cylinder feeder portion of yarn feeding bobbin to said bobbin processing equipment supply; And

Batch the Yarn reeling device of yarn from the yarn feeding bobbin that utilizes said bobbin processing equipment to be implemented predetermined process.

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