CN1239066A - Take-up apparatus of linear body - Google Patents

Abstract

The present invention relates to a linear body winding device, a bobbin is attached to a bobbin winding shaft, a linear body guide is attached to a traverse shaft to be reciprocated by a servomotor, a winding diameter measuring arm is fixed to a measuring shaft, a measuring roller attached to the arm is pressed again the bobbin, the rotation of the measuring shaft is measured by a potentiometer and taken as the winding diameter. The measured winding diameter is fed to a controller, the servomotor is controlled by the controller, the reciprocating stroke of the traverse shaft is changed, and the traverse width is made to a value, the rotate speed of bobbin is reduced with the winding diameter is increased, as a result, tension is controlled and is made to a fixed value.

Description

Take-up apparatus of linear body

The present invention relates to a kind ofly reel such as the equipment of the monofilament material of slide fastener, yarn, rope etc. by bobbin with tapered flanges.

A kind of known, come the equipment of winding line body to comprise that a rotation drives the mechanism of bobbin and along a transversing mechanism of axial direction side travel (traverse) wire guide rob of bobbin, this equipment is wound on the line body on the cylindrical portion of bobbin with suitable overlapped way by bobbin.

If above-mentioned bobbin is a kind of bobbin with tapered flanges, promptly on the opposite end of cylindrical portion has side within it, comprise the opposed tapered flanges of taper winding face, then reel width along with wire member roll around the increase of diameter and increase continuously.Therefore, the width that traverses of wire guide rob must increase with the increase of coiling width.For example, disclosed a kind of winding apparatus among the Japanese patent application publication No. 58-167358, wherein the width that traverses of wire guide rob increases according to the reach the standard grade winding diameter of body of bobbin.

Above-mentioned winding apparatus moves the axial direction of a swing arm along bobbin by the rotation of two transverse screws.One mobile contact is mounted to and can moves into place on the opposed end of bobbin and have on the framework slope (framing tilting) of a wire guide rob by an electrical motor and screw rod, and this mobile contact can slide along the longitudinal direction of swing arm.Come rotating screw bolt by electrical motor according to winding diameter, and mobile contact is slided along swing arm, wire guide rob is moved along the axial direction of bobbin, thereby regulate the width that traverses.

When the line body is reeled by bobbin, if being used to rotate one, bobbin drives this bobbin so that come with fixing tension force to rotate under the mechanism controls of winding line body, then can come the weight winding body by being in the bobbin that fixing tension force is imposed in the state of line body.Therefore, can recoil this line body accurately continuously.

In above-mentioned winding apparatus, change the width that traverses owing to need to activate a plurality of parts, therefore the traverse width relative with winding diameter is easy to generate error.

In addition, owing to used many parts, such as two transverse screws, swing arm, framework, electrical motor, screw rod and mobile contacts, so structure is comparatively complicated, and is easy to generate error in the operation of each parts.These operate misss can comprehensively produce a combined error in the width that traverses relative with winding diameter.

On the other hand, come adjustment of tonicity though tried by various governing mechanism of tension, so that bobbin comes the winding line body with fixing tension force, but because the structure of mechanism is comparatively complicated or this mechanism adjustment of tonicity accurately, so this mechanism does not make us satisfied fully.

The object of the present invention is to provide a kind of take-up apparatus of linear body that can address the above problem.

According to an aspect of the present invention, it provides a kind of take-up apparatus of linear body, this equipment comprises: a bobbin rotating shaft of being rotated by first rotary driving source, a bobbin that has tapered flanges and rotated by the bobbin rotating shaft, have a wire guide rob and by second source of rotational drive along the reciprocating transversing mechanism of bobbin, be used to measure the wire member roll that is wound onto on the bobbin and measure mechanism around a winding diameter of diameter, and a controller.In this equipment, thereby controller has by control the function of the value that the width that traverses that second rotary driving source makes wire guide rob equates with winding diameter according to the winding diameter of being measured.

Under the situation of said structure, since the wire member roll of reeling by bobbin around diameter by practical measurement, and control second rotary driving source with the change width that traverses according to the actual winding diameter of this mensuration, therefore can change the width that traverses according to winding diameter accurately.

In addition because control second rotary driving source must make all promptly be to change the miles of relative movement of wire guide rob and the change width that traverses, so need only operate a few parts at work and can reduce error.Therefore, can further accurately change the width that traverses according to winding diameter.

In this winding apparatus, controller preferably has by controlling first rotary driving source according to the increment of the winding diameter of being measured, thereby reduces the function of the rotating speed of bobbin rotating shaft continuously.

Like this because the rotating speed system of bobbin is reduced continuously by controller when winding diameter increases, so can with the line body with fixing tension winding on bobbin.So, can in continuous operation, carry out failure-free processing, can not occur in addition such as because the increase of winding diameter and problem the line body broken yet.

In addition, a kind of ad hoc structure as transversing mechanism, this transversing mechanism comprises: have one of the spiral slot axle that traverses, be meshed with the axial screw shape groove that traverses, rotate and can not axially movable first nut piece, and the one end is fixed on that the axle that traverses is gone up and the other end has one of the wire guide rob connecting rod that traverses by second rotary driving source.

Drive first nut piece by rotating with second rotary driving source, the rotation of first nut piece is converted into traverse axle crank motion vertically by means of spiral slot, thereby makes the connecting rod side travel vertically that traverses with the wire guide rob that is fixed on the axle that traverses.Meanwhile, the rotation that is used for second actuating device of side travel by control drives, and can be easy to change the width that traverses.Consequently, can be easy to change the width that traverses accurately around diameter according to wire member roll.

The preferable structure that a kind of winding diameter that is used for measuring line body winding diameter is measured mechanism comprises: second nut piece that is meshed with keyway on being formed on the axle that traverses, be used to measure one of winding diameter and measure axle, a potential device that is used for the rotation of detection assay axle, be fixed on a winding diameter of measuring on the axle and measure arm, being installed in winding diameter measures on the arm, and measure roller with bobbin contacted, be fixed on first gear on second nut piece, be fixed on second gear of measuring on the axle, and be meshed with first gear and second gear, and winding diameter measured arm and the connecting rod that traverses synchronously is flapped toward surface of bobbin or pendulum from this surperficial actuating device.

Because winding diameter is measured arm and the connecting rod that traverses synchronously is flapped toward surface of bobbin or pendulum from this surface by actuating device, therefore can make wire member roll between bobbin around the surface and be installed in the winding diameter of shifting to and move apart this bobbin measure the mensuration roller diameter on the arm distance and between the wire member roll of bobbin around the surface and be installed in distance between the wire guide rob on the connecting rod that traverses of shifting to and move apart this bobbin keep constant than always.Especially,, can obtain to be pressed against the suitable contact pressure of wire member roll, and can make between wire member roll around the surface and along with the distance that moves between the wire guide rob that moves synchronously of measuring roller keeps constant always around lip-deep mensuration roller whenever each arm shifts near bobbin.

In addition, when actuating device have control to make winding diameter and measure arm and traverse connecting rod along direction swing with the actuation force near (approach) bobbin carry out continuously (minutely) control usefulness near force control device the time, the mensuration roller that winding diameter is measured arm is backswing winding diameter mensuration arm reliably and smoothly along with the increase of the winding diameter that is wound on the line body on the bobbin.Therefore, measure axle and accurately rotate, and rotation that should mensuration spool detected by potential device, thereby can be measured winding diameter accurately according to winding diameter.

As mentioned above, in the present invention, controller is controlled first rotary driving source along with the increase of winding diameter so that reduce the rotating speed of bobbin rotating shaft continuously, thereby with the line body with fixing tension winding on bobbin.Except this control that winding tension carried out to the line body, carry out Tension Control if directly detect the tension force of the line body self of being reeled, then can control tension force more reliably.

In other words, preferably, this winding apparatus comprises and is used for directly measuring a tension detection mechanism that is wound on the line body tension force on the bobbin, thereby and with good grounds this institute of tension detection mechanism setting-out line body tension force of controling appliance control first rotary driving source line body tension force maintained function on the certain value.

Preferably, first rotary driving source is a servomotor torque constant; Tension detection mechanism has by spring along a tension detection arm of direction swing, a dance roller that is installed on the tension detection arm and is twined by the line body and a potential device that is used to detect the pendulum angle of tension detection arm; Difference between the actual detected value of with good grounds reference value of controling appliance and potential device increases or reduces the function of the electric flux that is supplied to (energize) of servomotor torque constant, and when line body tension force equaled predetermined tension, reference value was the detected value of potential device.

Fig. 1 is that the tube of whole take-up apparatus of linear body of the present invention omits lateral plan.

Fig. 2 is the enlarged side view of bobbin department of assembly.

Fig. 3 is along the line A-A side cross sectional view among Fig. 2.

Fig. 4 is the cutaway view of the department of assembly of bobbin rotating shaft.

Fig. 5 is along the line B-B side cross sectional view among Fig. 2.

Fig. 6 is along the line C-C side cross sectional view among Fig. 5.

Fig. 7 activates the schematic representation of apparatus that the 3rd gear is used.

Fig. 8 is the longitudinal sectional view of tension detection mechanism.

Fig. 9 is the transverse sectional view of this tension detection mechanism.

Figure 10 is the scheme drawing of a controller.

As shown in Figure 1, some bobbin rotating shafts 2 are provided with along two lines up and down in apparatus body 1, and each rotating shaft spacing is in a lateral direction fixed.A vertical side 1a of each bobbin rotating shaft 2 slave unit body 1 extends laterally, and a bobbin 3 removably is housed on the extension of each rotating shaft 2.

Be installed with respectively and be used near each the bobbin rotating shaft 2 that is positioned on the vertical side la of apparatus body 1 traverse connecting rod 4 and a winding diameter of one of swing and measure arm 5.One tension detection mechanism 6 is housed on a lateral sides of apparatus body 1.

Send many line bodies 7 from a line body delivering mechanism (not shown) with fixing tension force, each line body 7 is through each dance roller 9 of a capstan roll 8, tension detection mechanism 6, a deflector roll 10 etc., and reeled by each bobbin through the wire guide rob 11 the roller on being installed in connecting rod 4 top ends of traversing.

As shown in Figures 2 and 3, apparatus body 1 is box-like, and has on one perpendicular side plate 20 and bobbin 3 as many peristomes 21.The substrate 22 that utilizes bolt 23 will be used for closed corresponding peristome 21 is removably mounted on perpendicular side plate 20.On each substrate 22, bobbin rotating shaft 2 is housed, the connecting rod 4 that traverses, winding diameter measure arm 5 and be used to rotate the rotary drive mechanism 24 of bobbin rotating shaft 2 and be used to make the axially reciprocating transversing mechanism 25 of connecting rod 4 that traverses.

Therefore, bobbin rotating shaft 2, the connecting rod 4 that traverses, winding diameter can be measured arm 5, rotary drive mechanism 24 and transversing mechanism 25 and unloaded on substrate 22 slave unit bodies 1, so that maintenance and maintenance.

Now with reference to Fig. 4 rotary drive mechanism 24 is described.

Bobbin rotating shaft 2 is hollow shafts, and it comprises the hollow shaft 27 of a distolateral hollow shaft of a foundation 26 and a roots and tops side, and these two axles link to each other by bolt 28.The axle 26 of bottom end side is loaded in the pipe box 29 by the bearing 30 that is used to rotate, and this pipe box 29 is fixed on the substrate 22.The axle 27 of tip side stretches out from substrate 22.

Servomotor torque constant 33 with rotary driving source, for example one speed reducer (reducer) 32 is contained on the plate 31 that is fixed to pipe box 29.The outgoing side of this retarder 32 is connected on the axle 26 of bottom end side by driven synchronizing wheel 34, one a synchronous driving band 35 and a servo-actuated synchronizing wheel 36.When driving servomotor torque constant 33, bobbin rotating shaft 2 is rotated.So just constituted a rotary drive mechanism 24.

Bobbin 3 is a kind of bobbin with tapered flanges, and it has relative tapered flanges 42,42 on the opposite end of its cylindrical portion 40, and the inboard of this tapered flanges has taper winding face 41,41.Bobbin 3 is by 27 mounting hole 43 that are inserted into the axle center that is positioned at bobbin 3 of bobbin rotating shaft 2 tip side are installed.

The axle 27 of tip side has some grooves 44 and forms so that the pressing plate 45 that moves along diametric(al) facing to corresponding groove 44.Pressing plate 45 is pressed, so that move to the center by spring 46.Each pressing plate 45 has a camming surface 47, and is installed in cam 49 on the body of rod 48 towards this camming surface 47.This body of rod 48 axially is installed in the hollow parts of bobbin rotating shaft 2 movably, and is pressed, so that move along axle 26 directions of stretching out from bottom end side by spring 50.

When the body of rod 48 during vertically towards a side shifting, cam 49 abuts against on the camming surface 47.So pressing plate 45 is pushed outwards moving,, thereby clamps bobbin 3 and it can't be rotated so that abut against on the mounting hole 43 of bobbin 3.

One pressure cylinder (cylinder) 51 installs towards the bottom of the body of rod 48.When the body of rod 48 was axially shifted to opposite side by the pressure cylinder 51 of top pressure spring 50, cam 49 moved apart camming surface 47, and pressing plate 45 is shifted to the center by spring 46.So pressing plate 45 moves apart the mounting hole 43 of bobbin 3, just can unload this bobbin 3.

The traverse bottom of connecting rod 4 is fixed on the axle 60 that traverses, and as shown in Figure 2, and wire guide rob 11 is installed in the top ends of the connecting rod 4 that traverses.One roller 61 is installed on the middle part of the connecting rod 4 that traverses, and line body 7 is reeled by bobbin 3 by roller 61 and via wire guide rob 11.

The axle 60 that traverses has a spiral slot 62 and all keyways, as shown in Figure 5.One pipe box 64 is fixed on the substrate 22, and first nut piece 65 and second nut piece 66 rotationally and can not be installed in respectively on the pipe box 64 with moving axially.This first nut piece 65 is provided with and spiral slot 62 contacted balls (ball), and second nut piece 66 is provided with an engaging piece that is meshed with keyway 63.If first nut piece 65 rotates forward or reverses, the axle 60 that then traverses moves axially.If second nut piece 66 rotates forward or reverses, the axle 60 that then traverses rotates forward or counter-rotating.

Servomotor torque constant 69 with a rotary driving source, for example one speed reducer 68 is installed on the plate 67 that is fixed to pipe box 64.The outgoing side of this retarder 68 is connected on first nut piece 65 by a synchronizing wheel 70, one a synchronous driving band 71 and a synchronizing wheel 72.

Therefore, so that first nut piece 65 rotates forward or when reversing, it is spools 60 reciprocating vertically to traverse, thereby has constituted transversing mechanism 25 when driving servomotor torque constant 69.

The bottom that winding diameter is measured arm 5 is fixed on the end of a mensuration axle 80, and as shown in Figure 2, and a mensuration roller 81 is installed in rotation on the top ends of winding diameter mensuration arm 5.Measure axle 80 and be loaded in rotationally in the body 82 by bearing 83 near that part of of the other end a little, this body 82 is fixed on the substrate 22, as shown in Figure 5.The rotating part 84a of potential device 84 is connected on the other end of measuring axle 80.This potential device 84 is installed on the pipe box 64 by a carriage 85.So just constitute a winding diameter and measured mechanism.

First gear 86 and second gear 87 are separately fixed at second nut piece 66 Face to face and measure on the axle 80, and the 3rd gear 88 is meshed with first gear 86 and second gear 87 respectively.The 3rd gear 88 among this embodiment is a tooth bar (rack), when the 3rd gear 88 longitudinally reciprocating (that is) perpendicular to the direction of drawing, and first gear 86 and second gear, 87 mutual backward rotation.In this embodiment, the 3rd gear 88 can be substituted by a pair of engaged gear.

Specifically, first gear 86 outwards exposes by otch (notch) 64a of portion of pipe box 64.Guide 89 is fixed on the opposed lateral edges of notch 64a, and the 3rd gear 88 is loaded along guide 89, so that vertically move.

As shown in Figure 6, a plate 90 is fixed on the pipe box 64, and a mobile device, for example air cylinder 91 are installed on the plate 90.The 3rd gear 88 is reciprocating by this air cylinder 91.

The expansion chamber 91a of air cylinder 91 and retract chamber 91b are connected to source of the gas 93 and the atmosphere under change-over valve 92 controls, as shown in Figure 7.If this change-over valve 92 switches to primary importance a, then air is conducted to expansion chamber 91a, and the 3rd gear 88 moves along the direction of arrow c indication, and traverse connecting rod 4 and winding diameter are measured arm 5 and swung along the direction of arrow.Shown in the long and short dash line among Fig. 2, measure roller 81 and contact, and wire guide rob 11 moves to the most close bobbin 3 with the cylindrical portion of bobbin 3.By to measuring the reducing valve 94 that arm 5 and the actuation force of the connecting rod 4 that traverses are controlled as the swing winding diameter, the air pressure of expansion chamber 91a is set in low pressure, for example 3kg/cm near force control device ²On, and the oscillatory forces of winding diameter mensuration arm 5 is faint.Reeled and winding diameter when increasing when the line body, winding diameter is measured arm 5 backswings.

If change-over valve 92 switches to second place b, then air is conducted to retract chamber 91b, and the 3rd gear 88 moves along the direction of arrow d indication, and connecting rod 4 and the winding diameter mensuration arm 5 edges direction swing opposite with arrow of traversing.Shown in the long and two-short dash line among Fig. 2, wire guide rob 11 and mensuration roller 81 are removed from bobbin 3.Therefore, wire guide rob 11 and measure roller 81 and can not hinder bobbin 3 to be installed in the bobbin rotating shaft 2 and to unload from this rotating shaft.

When winding diameter is measured arm 5 swings, measure axle 80 and rotate, and detect this rotation by potential device 84.Potential device 84 is to controller 100 inputs one detection signal, as shown in figure 10.This controller 100 calculates winding diameter according to this incoming signal, and calculates and the corresponding width that traverses of this winding diameter.Controlledly supply with the servomotor torque constant electric energy that traverses according to the transverse width of calculating, so that the actual width that traverses is consistent with the width of calculating that traverses.

For example, calculate and the corresponding width L that traverses of winding diameter according to the size of bobbin 3 and the diameter of shape and line body 7 in advance.

Calculate and traverse the accordingly rotating speed of servomotor torque constant 69 of the width that traverses that sets according to the pitch of axle 60 the spiral slot 62 that traverses, reduction ratio etc., and setting reaches this rotating speed required current"on"time controller 100 in.By selecting the current"on"time with the servomotor torque constant 69 that traverses corresponding to corresponding current"on"time of the width that traverses of the winding diameter that is detected and change, wire guide rob 11 can be moved distance with the corresponding width that traverses of winding diameter.

Traverse and can calculate according to the winding diameter of being imported the rotating speed of width and servomotor torque constant 69 and current"on"time by controller 100.

Control is used to rotate the electric flux that is supplied to of the servomotor torque constant 33 of bobbin to controller 100 according to the winding diameter imported.When winding diameter increased, the rotating speed of bobbin rotating shaft 2 was lowered, so that line body 7 is fixedly being reeled under the tension force.In other words, when winding diameter increased, the coiling amount of the line body that the bobbin revolution is reeled also increased, and if this moment rotating speed unmodified words, then tension force has just increased.Therefore, reduce the rotating speed of bobbin 3 to keep constant tension.

Usually, can carry out the high control of reliability, yet in the present embodiment, the variation in each line body tension force is directly to detect, and the rotating speed of each bobbin 3 is controlled by controller 100 by above-mentioned Tension Control.Consequently, can also have a kind of than above-mentioned Tension Control of only carrying out according to the variation of the winding diameter of line body 7 failure-free Tension Control more.

Fig. 8 and Fig. 9 show the tension detection mechanism 6 that is used for Tension Control.This tension detection mechanism 6 comprises by a carriage 12 and is installed in a box body 13 on the transverse end surface 1b of apparatus body 1.One rotating shaft 14 is parallel to bobbin rotating shaft 2 and is installed on the box body 13.Be fixed in the rotating shaft 14 every a segment distance vertically with wheel 15 as many bobbin rotating shafts 2.Tension detection arm 16 with dance roller 9 is fixed on each and takes turns on 15, and first rope (cord) 17-1 and the second rope 17-2 are wrapped in each and take turns on 15.

The first rope 17-1 links to each other with a spring 18, and each tension detection arm 16 is exerted pressure by spring 18 and swing backward, so that apply tension force to the line body 7 that is wrapped on the dance roller 9.On that position that the oscillatory forces of the tension force of online body 7 and tension detection arm 16 balances each other, tension detection arm 16 transfixions.Each second rope 17-2 links to each other with the rotating part of each potential device 19.When the tension variation of line body 7 and tension detection arm 16 are swung up or down,, thereby measure the tension force of line body 7 by the pendulum angle of potential device 19 detection arm.Label 16a represents counterweight.

For example, when the tension force of tension detection arm 16 online bodies 7 was predetermined tension and transfixion, the detected value of potential device 19 was used as a reference value.

If the tension force of line body 7 becomes greater than predetermined tension, then upwards swing of tension detection arm 16, the power of spring increases, and the oscillatory forces of arm also increases.When the oscillatory forces of arm and the mutual balance of tension force, tension detection arm 16 quits work.

Measure the tension force size of line body 7 according to the detected value of potential device 19 and the difference between the reference value and the variable quantity of this moment.

If the tension force of line body 7 becomes less than predetermined tension, then to lower swing, the power of spring 18 reduces tension detection arm 16 by the power of spring 18, and the oscillatory forces of arm also reduces.Tension detection arm 16 is parked on that position of the oscillatory forces of arm and the mutual balance of tension force.

Measure the tension force size of line body 7 according to the detected value of potential device 19 and the difference between the reference value and the variable quantity of this moment.

Therefore, when the tension force of each line body 7 of reeling by each bobbin when predetermined tension changes, can measure the variable quantity of tension force.

The detected value of each potential device 19 of tension detection mechanism 6 is imported in the controller 100.When the tension force of each line body 7 when predetermined tension changes, these controller 100 controls are used to rotate the electric flux that is supplied to of the servomotor torque constant 33 of bobbin.When tension force became greater than predetermined tension, the rotating speed of bobbin rotating shaft 2 reduced; And when tension force became less than predetermined tension, the rotating speed of bobbin rotating shaft 2 increased.

For example, when the tension force of line body 7 was predetermined tension and tension detection arm 16 transfixions, the detected value of potential device 19 was used as a reference value.Difference between the actual detected value of reference value potential device 19 with when 16 swings of tension variation and tension detection arm the time is used as consistent dynamic tension.Increase or reduce the rotating speed of the electric flux that is supplied to of servomotor torque constant 33 according to this actuating tension force (above-mentioned difference), thereby make this equalization of strain to predetermined tension with increase or minimizing bobbin 3.

When the difference between reference value and the actual detected value be on the occasion of the time, then judge to have increased tension force.The electric flux that is supplied to that then reduces servomotor torque constant 33 so that reduce the rotating speed of bobbin, thereby reduces tension force to reduce the rotating speed of servomotor torque constant 33.When this difference is negative value, then judge to have reduced tension force.The electric flux that is supplied to that then increases servomotor torque constant 33 so that increase the rotating speed of bobbin, thereby increases tension force to increase the rotating speed of servomotor torque constant 33.

Like this, when the rotating speed of bobbin reduces and the tension force of line body 7 when reducing, tension detection arm 16 is to lower swing, and tension force increases as mentioned above.When tension force is consistent with predetermined tension, tension detection arm 16 transfixions, and the detected value of potential device 19 is consistent with reference value.

When the rotating speed of bobbin increases and the tension force of line body 7 when increasing, upwards swing of tension detection arm 16, tension force reduces as mentioned above.When tension force was consistent with predetermined tension, tension detection arm 16 was slack, and the detected value of potential device 19 is consistent with reference value.

This Tension Control and above-mentioned Tension Control of being undertaken by the variation of winding diameter are carried out simultaneously.Yet, only can make tension force keep constant, and needn't carry out above-mentioned Tension Control of being undertaken by the variation of winding diameter by the tension force of each line body is controlled.

According to the foregoing description, because the winding diameter of the line body 7 of being reeled by bobbin 3 is by practical measurement, and control servomotor torque constant 69 with the change width that traverses according to the actual winding diameter of this mensuration, therefore can change the width that traverses according to winding diameter accurately.

In addition, control servomotor torque constant 69 palpuses make all promptly be to change the miles of relative movement of wire guide rob 11 and the change width that traverses, need only operate a few parts so at work and can reduce error.Therefore, can further accurately change the width that traverses according to winding diameter.

By driving first nut piece 65 axle 60 that traverses is moved axially, thereby the connecting rod 4 that traverses with wire guide rob 11 is moved vertically with servomotor torque constant 69 rotations of traversing.Therefore, drive, can be easy to change the width that traverses accurately according to winding diameter by the traverse rotation of servomotor torque constant 69 of control.

Make winding diameter measure arm 5 swings by activating the 3rd gear along a direction, be pressed against on the bobbin 3 so that measure roller 81 with a faint power.So winding diameter is measured arm 5 and swung smoothly along reversing sense by the line body 7 of being reeled, and measure axle 80 and accurately rotate according to winding diameter.Detected by potential device 84 owing to measure the rotation of axle 80, therefore can be measured winding diameter accurately.

Because winding diameter is measured arm 5 and swung simultaneously with the connecting rod 4 that traverses, so wire guide rob 11 is removed from bobbin 3 along with the increase of winding diameter.Therefore, can make wire guide rob 11 and the distance that is wound onto between the line body 7 on the bobbin keeps constant, so that line body 7 is wound on the bobbin 3 smoothly.

Claims (7)

1. take-up apparatus of linear body, comprise: a bobbin rotating shaft (2) of being rotated by first rotary driving source, has tapered flanges, an and bobbin (3) that is rotated by described bobbin rotating shaft (2), has a wire guide rob (11), and by second source of rotational drive along the reciprocating transversing mechanism (25) of described bobbin (3), be used for measuring the winding diameter mensuration mechanism of the winding diameter that is wound onto the described line body (7) on the described bobbin (3), an and controller (100), wherein, described controller (100) has by controlling described second rotary driving source according to the described winding diameter of measuring, thereby the function of the value that the width that traverses that makes described wire guide rob (11) equates with described winding diameter.

2. take-up apparatus of linear body as claimed in claim 1, it is characterized in that, described controller (100) thus have by control the function that described first rotary driving source is controlled the rotating speed of described bobbin rotating shaft (2) according to the increment of the described winding diameter of measuring.

3. take-up apparatus of linear body as claimed in claim 1, it is characterized in that, described transversing mechanism (25) comprise have one of a spiral slot (62) traverse the axle (60), be meshed with the described described spiral slot (62) that traverses axle (60), rotate and can not axially movable first nut piece (65), and the one end is fixed on that the described axle (60) that traverses is gone up and the other end has one of described wire guide rob (11) connecting rod (4) that traverses by described second rotary driving source.

4. take-up apparatus of linear body as claimed in claim 3, it is characterized in that, the described winding diameter that is used to measure the described winding diameter of described line body (7) is measured mechanism and is comprised: second nut piece (66) that is meshed with keyway (63) on being formed on the described axle (60) that traverses, be used to measure one of described winding diameter and measure axle (80), be used to detect a described potential device (84) of measuring the rotation of axle (80), be fixed on a described winding diameter of measuring on the axle (80) and measure arm (5), being installed in described winding diameter measures on the arm (5), and measure roller (81) with described bobbin (3) contacted, be fixed on first gear (86) on described second nut piece (66), be fixed on described second gear of measuring on the axle (80) (87), and be meshed with described first gear (86) and second gear (87), and described winding diameter is measured arm (5) and the connecting rod that traverses (4) synchronously be flapped toward a surface of described bobbin (3) or put actuating device from described surface.

5. take-up apparatus of linear body as claimed in claim 4, it is characterized in that, described actuating device have to make described winding diameter measure arm (5) and the connecting rod that traverses (4) along direction swing with the actuation force of approaching described bobbin (3) carry out that continuous control uses near force control device (94).

6. as claim 1 or 4 described take-up apparatus of linear body, it is characterized in that, also comprise the tension detection mechanism (6) that is used for measuring the tension force that is wound on the line body (7) on the described bobbin (3); Described controller (100) have the described line body (7) measured according to described tension detection mechanism (6) thus tension force control described first rotary driving source tension force of described line body (7) maintained function on the certain value.

7. take-up apparatus of linear body as claimed in claim 5 is characterized in that, described first rotary driving source is a servomotor torque constant (33); Described tension detection mechanism (6) have by spring (18) along a tension detection arm (16) of direction swing, be installed in that described tension detection arm (16) is gone up and the dance roller (9) that twined by described line body (7) and being used to detects the potential device (19) of the pendulum angle of described tension detection arm (16); Described controller (100) has the function that increases or reduce the electric flux that is supplied to of described servomotor torque constant (33) according to the difference between the actual detected value of reference value and described potential device (19), when described line body (7) when tension force equals predetermined tension, described reference value is the detected value of described potential device (19).

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