GB2313366A - Tape winding apparatus - Google Patents

Description

2313366 The present invention relates to apparatus for winding for a

tape-shaped package strip onto a reel, the tape-shaped package strip being of the type comprising a carrier strip provided along its length with a plurality of pockets longitudinally spaced one from the other and each shaped to house a workpiece, a succession of which workpieces are to be supplied to a work-station by the process of longitudinally advancing the package strip to the work-station, and a cover strip sealed to the upper surface of the carrier strip to enclose and seal those workpieces within their individual pockets in the carrier strip.

In the manufacture of electronic equipment it is known to supply chiplike electronic components such as chip resistors, chip-like miniature mold transistors, chip-like miniature diodes or the like, to an assembly station in the form of a prepackaged tape-shaped package carrying those workpieces equispaced along the length of the strip. At the assembly station, those components or workpieces are automatically removed from the strip by a manipulator, for subsequent automatic mounting on a semiconductor substrate at a predetermined position.

Generally, the tape-shaped package strip comprises a carrier tape having one or two rows of drive perforations along the length of the tape and 2 provided with a plurality of pockets along the length of the tape each containing an individual electronic component and sealed therein by a peelable cover tape thermally fused to the carrier tape. The carrier tape usually comprises a film of a synthetic resin having a plurality of pockets moulded therein and supported by a cardboard strip having a plurality of holes punched therein to receive the moulded pocket.

During manufacture the tape-shaped packages are continuously produced by a packaging machine, and after loading and sending, the tape is cut to length and wound around a reel on a tape winding apparatus. In order to wind the packaging strip onto the reel the foremost end of the tape-shaped package is inserted into a tape insert slot formed in the hub of the reel. At the tail end of the wound strip the carrier tape is usually cut to a shorter length than that of the cover tape e.g. by about 200 mm. That extra length of cover tape serves as a leader portion when the tape-shaped package is subsequently fed to a workpiece mounting machine on the production line.

In order to prevent the tape-shaped package from becoming unwound from the reel the end of the leader strip is adhesively sealed to the wound reel.

Methods and apparatus for the manufacture of such packaging strip are disclosed in Japanese Published 3 Patent Applications Nos. 63-123746, 63-200993 and 4239418 and to which reference should be made for further details.

In the manufacture of such tape-shaped packages problems arise from the roll set of the carrier tape f rom undesirable warping due to the thermal strain arising in the carrier strip after cover tape has been thermally fused to the carrier tape.

For example, in the winding method disclosed in Japanese Published Patent Application No 63-123746 there is a possibility that when the foremost end of the tape-shaped assembly is conveyed to the winding reel the foremost end of the tape- shaped packaging strip is undesirably disconnected from the guide portion during the course of the conveying operation, resulting in the foremost end of the tape-shaped assembly failing to be introduced into the tapered opening portion of the product guide. Similarly, in the case of the winding apparatus disclosed in Japanese Published Patent No 4-239418, and although.a thrust roller and a turnable pawl are additionally attached to the tape guiding mechanism in order to prevent the packaging tape from disengaging from the tape guide, it is still difficult to reliably deliver the foremost end of the packaging tape to the guide shoe because of roll set and possible warping of the 4 lead end of the carrier strip.

Furthermore, tape winding apparatus of the type described of ten suf f ers f rom the problem that the position of the tape insert slots in the hub of the reel varies from reel maker to reel maker. For this reason, the foremost end of the tape-shaped package usually has to be fed manually into the tape insert slot in the reel hub, rather than automatically. Consequently, the tape winding operation cannot be run continuously.

Still further problems arise with respect to the mechanism disclosed in Japanese Published Patent Application Laying-Open No 63-200993 for forming a leader portion for a packaging tape. In that case the leader portion formed by the extra length of cover tape only has a length corresponding to the distance between a longitudinally spaced pair of cutters. Thus, when a longer length is required the distance between the pair of cutters has to be increased resulting in a machine of large dimensions.

Still other problems arise with packaging tape winding apparatus of the type disclosed in Japanese Published Patent Application No 4-239418. In that case to assure that the leader portion of the tape is wound around the reel after it is formed, an adhesive end seal is applied to the terminal end of the leader portion. This prevents the tape-shaped package from becoming accidentally unwound from the reel. However, as the terminal end of the leader portion is not positively guided during winding, there is the possibility that the terminal end of the leader will become laterally displaced by vibration during winding and adhere to one of its side flanges of the reel rather than to the wound package.

The present invention seeks to alleviate some or all of these problems, and especially to provide a tape winding apparatus which ensures that the foremost end of a tape-shaped package having any roll set or thermal warpage arising in the tape-shaped package during a winding operation performed for the tape-shaped package can reliably be delivered to the interior of a reel, and moreover, ensures that the foremost end of the tape-shaped package can automatically be inserted into the tape insert slot, in the reel hub.

The apparatus of the present invention at least in its preferred embodiments also ensures that a leader portion having an arbitrary length can easily be formed without changing the position of the cutters.

In another preferred aspect the invention provides a tape winding apparatus which ensures that 6 the terminal end of the leader portion can be precisely and accurately sealed to the wound package. In general terms, and in accordance with the principal aspect of the present invention, there is provided a tape winding apparatus of the type described, comprising:

a stub shaft for receiving and temporarily holding in a fixed angular position thereon, the reel onto which the package strip is to be wound, the said reel comprising a hub around which the package strip is to be wound and a tape-receiving slot formed in the hub for receiving the leading end of the length of package strip that is to be wound onto the reel; means for driving the stub shaft to wind the is package strip onto the reel; means for detecting the angular position of the tape-receiving slot formed in the hub of the reel, when the reel is mounted onto the stub shaft; means for indexing the stub shaft, with the reel mounted thereon, so as to bring the tape-receiving' slot in the reel hub to a predetermined angular position relative to the axis of the stub shaft for receiving the leading end of the package strip when fed thereto by a package strip feeding and guiding means; and a package strip feeding and guiding means for 7 feeding and guiding the package strip to the reel at the commencement of and during the winding of the package strip pnto the reel, the package strip feeding and guiding means comprising:

a pair of pinch rolls for receiving the package strip from a packaging station in which the workpieces are charged to the pockets in the carrier strip and sealed therein by the attachment of the cover tape to the carrier strip, and for feeding the package strip along a feed path to a reel mounted on the stub shaft; a slider mounted for reciprocal sliding movement along said feed path from a first position adjacent the pinch rolls and in which position the slider receives from the pinch rolls the forward end of the package strip which is to be wound onto the reel to a second position adjacent the stub shaft and in which position the slider delivers the forward end of the package strip to the tape receiving slot in the reel hub that has been aligned with the said feed path by the said indexing means; means on said slider for releasably gripping the forward end of the package strip during the travel of the slider from the said first position adjacent the pinch rolls to the second position adjacent the stub shaft; 8 means for operating the releasable gripping means to grip the forward end of the package strip, when the slider is in said first position, and to release the strip when the slider is in said second position so that the strip can then be wound onto the reel; means for reciprocating the slider between the said first and second positions, the said operating means being operable to maintain the gripping means in an open, non-gripping position during the return of the slider from the second to the first position thereby allowing the package strip to run freely past the slider as the strip is being wound onto the reel; and guide means on the slider to guide the passage of the strip across the slider as the strip is fed along the feed path from the pinch rolls to the reel.

In the operation of the apparatus of the present invention, an empty reel is first fitted onto the reel driving shaft, and subsequently, one of the tape insert slots of the reel is indexed to a predetermined rotational position relative to the axis of the shaft under the control of the reel driving shaft controlling means operating in response to detection signals from the insert slot detecting means. Then, as the slider driving means is actuated, the tape-shaped package guiding slider is 9 displaced to the tape-shaped package receiving stop position in which the foremost end of the tape-shaped package is delivered toward the tape- shaped package guiding slider by the pair of pinch rollers. At this time, the foremost end of the tape-shaped package is gripped and held on the tape-shaped package guiding slider by actuating the package gripping means.

The slider is then displaced to the delivery stop position by actuating the slider driving means. The foremost end of the package is then released by the gripping means and fed into the aligned tape insert slot in the reel. The reel is then rotated in synchronization with the rotation of the pinch rollers at a low speed for several revolutions thereby to wind the foremost end of the tape-shaped package onto the reel by several turns. The guiding slider then returns to its initial position ready to receive the next length of tape for delivery to the next reel, optionally after being held.at an intermediate stop position, whilst the rest of the package strip is wound onto the reel.

After the initial feed, the reel is rotated at high speed to complete the winding operation, during which time the movement of the tape-shaped package is properly guided by the tape-shaped package guiding slider.

With this apparatus therefore, the foremost end of the tape-shaped package can be delivered to the interior of the reel regardless of any roll set or thermal warpage arising on the tape-shaped package during a winding operation performed to the latter. In addition, the foremost end of the tape-shaped package can automatically be inserted into one of the tape insert slots formed through the hub core of each feel manufactured in conformity of a different dimensional standard.

In a first preferred aspect of the present invention, the tape winding apparatus further comprises a cover tape sucking means disposed between the pair of pinch rollers and the reel driving shaft for holding the cover tape in the sucked state; a carrier tape cutter disposed on the opposite side relative to the cover tape sucking means with the tape- shaped package interposed therebetween, the carrier tape cutter being reciprocably displaced inthe direction toward and away from the tape-shaped package; a tape-shaped package cutter disposed opposite to the carrier tape cutter with the tapeshaped package interposed therebetween, the tape- shaped package cutter being reciprocably displaced in the direction toward and away from the carrier tape cutter; a tape thrusting cylinder disposed sideward of the carrier tape cutter for thrusting the carrier tape toward the tape-shaped package cutter side; and a cutter receiver adapted to be inserted between the carrier tape of the tape-shaped package and the cover tape of the same for cutting the carrier tape by actuating the carrier tape cutter, and moreover, cutting the tape-shaped package by actuating the tape-shaped package cutter.

With the tape winding apparatus constructed according to this preferred aspect of the present invention, when the tape-shaped package is wound around the reel fitted onto the reel driving shaft by a predetermined length, the rotational speed of the is pinch rollers is increased to assume a value higher than that of the reel driving shaft, whereby a part of the tape-shaped package is held in the loosened state between the pinch rollers and the reel fitted into the reel driving shaft. When the cover tape is sucked by actuating the cover tape sucking means, a. gap is formed between the cover tape and the carrier tape. Subsequently, the cutter receiver is inserted into this gap so that the carrier tape interposed between the cutter receiver and the carrier tape cutter is cut by actuating the carrier tape cutter. At this time, since the reel driving shaft is 12 continuously rotated, a part of the cover tape which should serve as a leader portion is wound around the reel.

When the leader portion having a predetermined length is formed with the tape-shaped package, the cutter receiver is escapably retracted, and therefore, the carrier tape is thrusted toward the tape-shaped package cutter by actuating a tape thrusting cylinder. While the foregoing state is maintained, the cutter receiver is projected so that the cutter receiver and the tape-shaped package cutter face each other with the carrier tape between, and thereafter, the cover tape and the carrier tape located between the tape-shaped package cutter and the cutter receiver are cut by actuating the tapecutter, resulting in the terminal end of the leader portion to be wound around the reel being formed.

In a second preferred aspect, the tape winding apparatus alternatively comprises a cover tape sucking means disposed between the pair of pinch rollers and the reel driving shaft, the cover tape sucking means being capable of holding the cover tape in the sucked state; a carrier tape cutter disposed on the opposite side relative to the cover tape sucking means with the tape-shaped package interposed therebetween, the carrier tape cutter being 13 reciprocably displaced in the direction toward and away from the tape- shaped package; a cover tape cutter disposed opposite to the carrier tape cutter with the tape-shaped package interposed therebetween, the cover tape cutter being reciprocably displaced in the direction toward and away from the carrier tape cutter; and a cutter receiver adapted to be inserted between the carrier tape of the tape-shaped package and the cover tape of the same for cutting the carrier tape by actuating the carrier tape cutter, and moreover, cutting the cover tape by actuating the cover tape cutter.

According to the previous preferred aspect of the present invention, when a leader portion having a predetermined length is to be formed with a part of the tape-shaped package, the carrier tape cutter and the cover tape cutter are actuated, causing the cover tape and the carrier tape located between these cutters and the cutter receiver to be cut, resulting in the terminal end of the leader portion to be wound around the reel being formed with the tape-shaped package.

In a final preferred aspect of the present invention, the tape winding apparatus comprises a reel driving shaft having a reel for winding the tape-shaped package and the leader portion 14 therearound detachably fitted thereonto; means for connecting an end seal to the terminal end of the leader portion; a turn arm located on the upper side of the reel having the reel driving shaft fitted thereinto, the base end of the turn arm being turnably fitted onto a pivotal shaft extending in parallel with the reel driving shaft; a retaining roller rotatably fitted to the foremost end of the turn arm, the retaining roller coming in rolling contact with the tape-shaped package, the leader portion and the end seal; and sucking means for sucking the leader portion and the end seal, the sucking means being kept open on the reel side of the turn arm.

With the tape winding apparatus constructed according to this latter aspect of the present invention, the retaining roller is normally biased toward the reel driving shaft side by the dead weight of the turn arm and the retaining roller in such a manner as to turn about the pivotal shaft fitted to the base end of the turn arm, causing the leader portion to be thrusted toward the inside of the reel. At this time, the sucking means is actuated to firmly hold the leader portion by the air suction force without any vibrative movement of the leader portion. Since the end seal adheres to the terminal end of the leader portion with the aid of end seal connecting means while the foregoing state is maintained, the end seal can reliably adhesively be connected to the leader portion or the tape-shaped package wound around the reel.

Additionally, in accordance with the second alternatively preferred embodiment of the present invention, a leader portion having an arbitrary length can be formed with the tape winding apparatus constructed in the above-described manner. Since the tape-shaped package cutter and the cover tape cutter are disposed on the opposite of the Packaging tape to the carrier tape cutter, with a cutter receiver interposed therebetween, the necessity for an elongated conveyance path through the apparatus does not arise. The dimensions of the tape winding apparatus can thus be kept relatively small. Further, since the sucking means for sucking the leader portion and the end seal is disposed on the lower surface side of the turn arm adapted to holdthe tape retaining roller, causing the leader portion wound around the reel to be retained by the tape retaining roller, the terminal end of the leader portion and the end seal can reliably be wound around the reel.

Other features, aspects and advantages of the 16 present invention will become apparent from the following description made with reference to the accompanying drawings. Other independently claimed aspects of the apparatus illustrated are to be found in divisional applications Nos and In the drawings:

Fig. 1 is a front view of a tape winding apparatus constructed in accordance with the preferred aspect of the present invention; Fig. 2 is a side view of the tape winding apparatus shown in Fig. 1 as seen from the right- 17 hand side of the latter; Fig. 3 is a perspective view which schematically shows the contour of a tape-shaped package employable for the tape winding apparatus; Fig. 4 is a fragmentary enlarged front view of a dancer unit arranged for the tape winding apparatus; Fig. 5 is a sectional view of the dancer unit in FJ-. 4; taken along line -15 - 5 A. - J.'d Fig. 6 is an enlarged front view of a Pin roller 10 section arranged for the tape winding apparatus; Fig. 7 is a sectional view of the Pin roller section taken along line 7 - 7 in Fig. 6; Fig. 8 is a fragmentary enlarged sectional view of the pin roller section represented by an arrow15 shaped mark of 8 in Fig. 7; Fig. 9 is a perspective view of a guide member arranged for the tape winding apparatus; Fig. 1-0 is an enlarged front view of a Pinch roller section arranged for the rape winding 20 apparatus; Fig. 11 is a sectional- view of the pinch roller section taken along line 11 - 11 in Fig. 10; Fig. 12 is an enlarged sectional view of a tapeshaped package cutting unit arranged for the tape 25 winding apparatus; Fig. 13 is an enlarged rear view of a tapeshaped package foremost end guiding unit arranged for the tape winding apparatus as seen from the 18 inside of an upper casing of the tape winding apparatus; Fig. 14 is a sectional view of the tape-shaped package foremost end guiding unit taken along line 14 - 14 in Fig. 13; Fig. 15 is an enlarged sectional view of a carrier tape cutting unit arranged for the tape winding apparatus; Fig. 16 is an en-'-=r-e-- Se2tional view of a tape- shaped package guiding a-r7,. section arranged for the tape-shaped package foremost end guiding unit shown in Fig. 13; Fig. 1-7 is an enlarged v-Lew of a reel driving shaft section arranged for the tape winding apparatus; Fig. 18 is an enlarged front view of a reel indexing unit- arranged for the t-ape winding apparatus; Fig. 191 is a plan c-' the reel indexing unit shown in Fig. 18; - Fig. 20 is an enlarged front view of an end seal feeding unit arranged for the rape winding apparatus; Fig. 21 is a sectional view of a driving mechanism for the end seal feeding unit shown in Fig. 20, showing the developed state of the driving mechanism; Fig. 22 is a sectional view of a tape retaining 19 roller section for the end seal feeding unit shown in Fig. 20; Fig. 23 is an enlarged sectional view of a reel attaching/ detaching unit arranged for the tape 5 winding apparatus; Fig. 24 is an exploded plan view of a reel feeding/discharging unit arranged for the tape winding apparatus; Fig. 25 is a sectiona-' view of the reel feeding/ L 0 discharging unit taken along line 25 - 25 in Fig. 2 4; Fig. 26 is a sectional. view of the reel feeding/ discharging unit taken along line 26 - 26 in Fig. 24; Fig. 27 is a front view cl' a tape winding apparatus constructed in accordance with another embodiment of the present invention based on a second aspect of the latter in association with a fourth aspect of the same; no Fig. 28 Js an enlarged front. view of an upper casing of the tape winding apparatus shown in Fig. 27; Fig. 29 is an enlarged front view of a tape cutting unit arranged for the tape winding 25 apparatus; Fig. 30 is a side view of the tape cutting unit as seen from the right- hand side in Fig. 29; Fig. 31 is a plan view of a tape-shaped package foremost end guiding unit arranged for the tape winding apparatus; Fig. 32 is a front view of a driving mechanism for the tape-shaped package foremost end guiding 5 unit shown in Fig. 31; Fig. 33 is a sectional view of the driving mechanism taken along line 33 - 33 in Fig. 32; Fig. 34 is a sectional view of the driving mechanis,-.taken a-'cng line 3d - 34 'Ln Fig. 32; Fig. 35 is an enlarged sectional view of a reel driving shaft section arranged -for the tape winding apparatus; Fig. 36 is an exploded front view of a reel fitted onto the reel driving shaft, showing the inner structure c-." the ree'!; Fig. 37 is an enlarged front view of a tape retaining roller section arranged for the tape winding apparatus; and F,Lg. 38 is a sectiona.7 view of the tape retaining -rolle-r Section zaken along line 38 38 ifi Fig: 37.

The present invention will now be described in detail hereinafter with reference to the accompanying drawings which illustrate preferred embodiments thereof.

First, a tape winding apparatus constructed in accordance with an embodiment of the present 21 invention based on a first aspect of the latter will be described in detail below with reference to Fig. 1 to Fig. 26 wherein a tape-shaped package having a plurality of semiconductor chip components received 5 therein is used for the tape winding apparatus.

As is apparent from Fig. 1 which shows by way of front view the contour of the whole structure of the tape winding apparatus and. Fig. 2 which shows by way side view th.e c-.n--our t",.e tape winding apparatus as seen _frorr, the r-Jgh---hand side in Fig. 1, the tape w.'L.- ,d;Lna apparatus 4Lneludes a lower casing 106 which is mounted on a floor surface 104 with the aid cf; four expansible/con-ractible feet 102 each having a caster 1-00 attached thereto, and a control panel 108 and an upper casing 11-10 are arranged on the lower casing 106. A start switch, a stop switch, varicus k-Inds c-.0 alarm 'Lamps, a display unit and a coun.:ie-- (each cf,' which i_c not shown in the drawings) are arranaed on the control panel 108 for properly c-erar-ing the --ape wir..din--. apparatus. Witb this consz-- uc---J--n, t-he tape winding apparatus can automatically be operated by actuating these switches with an operator's hand in order to assure that a tape-shaped package 112 fed from a taping machine (not shown) is successively wound around an empty reel 116 fitted onto a reel driving shaft 114.

First, the empty reel 116 is fitted onto the reel driving shaft 114 and one of tape insert slots 22 (see Fig. 18) formed through a hub core 118 of the empty reel 116 is then indexed to a predetermined position. Subsequently, the foremost end of the tape-shaped package 112 is inserted into the tape insert slot 120 formed through the hub core 118 of the empty reel 116, and the tape-shaped package 112 is then wound around the reel 116 by a predetermined length bv rcr-at-onaliv driving the reel driving shaft 114. en ec.T,DletLon of the winding operation, a leader 122 (see Fig. 3) is formed on the terminal end of the tame-shamed package 112, and after an end seal 124 is adhesively connected to the terminal. end of the leader portion 122, the reel 116 is detached from the reel driving shaft 114, and thereafter, a next winding operation is performed again from the beginning.

In this embodiment, te _assure that a series of operations as mentJ.oned abeve are repeated, a pair of pinch 126 and 1-93 for feeding the 'Loremost end o_f the tape-shaped package' 112 -toward the reel driving shaft 114, a tape-shaped package foremost end gulding unit 130 for conducting the tape-shaped package 112 discharged from the pair of pinch rollers 126 and 128 to the empty reel 116 fitted onto the reel driving shaft 114 while seizing the foremost end of the tape-shaped package 112 therewith, a tapeshaped package cutting unit 132 located between the pair of pinch rollers 126 and 23 128 and the tape-shaped package foremost end guiding unit 130 to cut the tape-shaped package 112 therewith, a carrier tape cutting unit 136 for cutting only a carrier tape 134 of the tape-shaped package 112 to form a leader portion 122 with the cut part of the carrier tape 134, an end seal feeding unit 138 for connecting an end seal 124 to the terminal end of the leader portion 122, a reel attaching/detaching unit 140 for attaching the reel 116 to the reel driving shaft 114 and detaching the former from the lazzer (see Fig. 17), and a reel chip components unit 142 for indexing one of the tape insert slots 120 formed through the hub core 118 of the reel 116 to a predetermined position are arranged in the upper casing 110. In addition, a reel receiving/delivering unit 1442 for delivering an empty reel 116 to the reel shaft 114 and receiving t'.',.e ree]. 2.16 hav'ng a iape-shaped package 112 wound therearound from the reel driving shaft 114 (see Fig. 23) and a reel de'L ive ring/ di s charging unit 146 for delivering an empty reel 116 to the reel receiving/delivering unit 144 and receiving the reel 116 having a tape-shaped package 112 wound therearound from the reel receiving/delivering unit 144 (see Fig. 24) are firmly arranged in the lower casing 106. Additionally, a dancer unit 148 for temporarily storably holding the fore end side of the tape-shaped package 112 delivered from the 24 taping machine is arranged within the range extending between the upper casing 110 and the lower casing 106.

The taping machine installed for producing a tape-shaped package 112 is equipped with a chip component inserting mechanism (not.. shown) for successively receiving semiconductor chip components 152 in a series ofr)ocket oortions 150 formed on a carrier tape 134 one by one and a tape connecting LO mechanism not shown) for thermally fusing a cover tape 154 to the carrier tape 134 having the semiconductor chip components.152 received in the pocket portions 150 thereof as shown jin Fig. 3 which schematically illustrates h-he structure of the tape- shaped package 112. The chip component inserting mechanism is constructed such that semiconductor chip components 152 are received in the pocket portions 150 on the carrier tape 1-34, and after a predetermined number o_f s e.T..J_ = duct or chip components 152 are successively re--e--"ve-.--J in, the pocket portions 150, a -predetermined number of empty pocket portions 150 having no semiconductor chip components received therein are formed on the carrier tape 134. In addition, the tape connecting mechanism is constructed such that the cover tape 154 is thermally fused to a part of the carrier tape 134 having semiconductor chip components 152 received in the pocket portions 150 thereof and a part of the cover tape 154 is used as a leader portion 122 by forming a non-fusing part on the cover tape 154 without any thermal fusion of the latter to the empty pocket portions 150.

As shown in Fig. 1, Fig. 4 that is a fragmentary enlarged front view of the dancer unit 148 and Fig.

that is a sectional view of the dancer unit 148 taken along line 5 - 5 in Fig. 4, a slider 164 having two tape guide rollers 160 and 1-62 rotatably held thereon to rotate about their horizontal shafts is slidably fitted onto a guJLde rod 158 supported by a pair of upper and lower rod holders 156 fixedly secured to the side wall Portion cf the upper casing 110 at the upper end of the latter as well as the side wall portion of the lower casing 106 at the lower end of the latter in such a r".anner as to allow the slider 164 to be sl-,'dab;,_, raised up and lowered along the guide rQd 158 J.n the upward/downward direction. To prevent the slider 164 from being turned in the hor-z'--nta-l direction, a slide turning movement preventive pin 1-68 threadably fixed to the slider 164 is slidably received in the substantially U-shaped groove of a slider turning movement preventive member 166 firmly secured to the upper casing 110 and the lower casing 106 while extending in parallel with the guide rod 158 in the spaced relationship.

In addition, as shown in Fig. 1, four slider 26 position detecting sensors 170, 172, 174 and 176 located in the order as seen from below are disposed sideward of the slider turning movement preventive member 166 corresponding to a highest winding speed, a high winding speed, a low winding speed and a lowest winding speed, and the base end of a dog plate 178 adapted to cooperate with the slider position detecting sensors 1-70, 172, 174 and 176 is fixedlv secured to the slide-r 1,64. In response to a detection signal outputzed from each of the slider position detecting sensor-- 1.7,.^, 172, 1-74 and 176, the winding speed o.IL' the tape-shaped package 1-12 set by the reel driving snaz-- 1, IIA-1 a,-,--oT.atica--1,; changed by controlling unit (not shown) .5 Specifically, in zne case that the position detecting sensor 170 detects the position of the slider 164 --crrescond-2ng to a highest winding speed, the windina speed the tape-shaped package 112 is increased z rea cre -7 i'mi nar --'- 1v de::e--mined highest speed, causing the position of the slider 164-to be quickly raise, -.-; up. _In addition, in the case that the slider position detecting sensor 172 detects the position of the slider 164 corresponding to a high winding speed, the winding speed of the tape-shaped package 112 is increased to reach a preliminarily determined high speed, causing the position of the slider 164 to be correspondingly raised up. Additionally, in the case that the 27 slider position detecting sensor 174 detects the position of the slider 164 corresponding to a low winding speed, the winding speed of the tape-shaped package 112 is reduced to assume a preliminarily determined low speed, causing the position of the slider 164 to be correspondingly lowered. Further, in the case that the slider position detecting sensor 176 detects the of the slider 164 corresponding to a lowest w-ind-4,-g speed, the winding speed of the tape-shaped package 112 is reduced to assume a preliminarily deEerr...ned lowest speed, causing the positicn of the slider 164 to be quickly lowered.

As shown in FJg. 1, F.J.1g. 4, Fig. 5, Fig. 6 that is an enlarged front view of a p-';_n ro'Ller 186 arranged at the left upper end part of the upper casing 110, Fig. 7 that -1s an enlarged sectional view of the pin roller 186 taken along -l-ine 7 - 7 in Fig. 6 and Fig. 8 z-.ac _Js an enlarged sectional view of a section represented b., an arrow-shaped mark of 8 in Fig. 7, the pin roller 1806 is disposed slantwise downward of a tape-shaped package introduction pulley 646 which is rotatably disposed at the left uppermost end of the upper casing 110, and a number of pins 182 arranged in the equally spaced relationship as seen in the circumferential direction of the pin roller 186 so as to be brought in meshing engagement with a plurality of 28 perforation holes 180 formed through the tape-shaped package 112 (see Fig. 3) are radially projected from the pin roller 186 with the aid of a plurality of set screws 184. In addition, a rotary encoder 188 is disposed integral with the pin roller 186 in the coaxial relationship relative to the latter in order to detect the length of passage of the tape-shaped package 112 past the nin roller 182, -i.e., the length of the tapeshaped package 112 wound around the reel 116.

In this e=,odime-.z, the zins 1-86 on the pin roller 186 are brought in meshing engagement with the perforation holes 180 formed t-hrough the tapeshaped package 112 in the equally spaced relationship in order to detect the length of passage of the tape-shaped package 112 by utilizing the followable rotarv movement of the pin roller 186 caused as the 7--ape-s'."-=zed eac'-,-=a,e 1121 Tcves lin the forward direction. A-!zerna--ivelv, a pair of light permeation type opl--c-;7--" sensors having the perforation holes 180 inte-rposed therebetween may be substituted for the pin roller 186. In this case, the length of passage of the tape-shaped package 112 is detected by counting a series of pulse-like detection signals each outputted every time the optical sensors detect one perforation hole 180 without any necessity for coming in contact with the perforation hole 180.

29 To assure that the tape-shaped package 112 is properly conducted from the package introduction pulley 646 to a pair of pinch rollers 126 and 128 to be described later, a stationary guide member 196 having a guide portion 194 formed thereon to slidably hold the right-hand end of the tape-shaped package 112 therewith and a movable guide member 198 capable of moving toward or awav from the stationary guide member 1-96 (4i-.e.,.--,-.,.,-.zwarr-l/leftward direction as seen in Fig. 7) c=responding to the width oil. the tapeshaped package 112 are mounted on an inverted L-shaped bracket 1192 f- ixedly secured to the upper casing IL10 by using bolts 190.

As is apparent from Fig. 9 which shows by way of perspective view the appea-rance of both the guide members 196 and 198, to assure -khat the movable guide member 198 can be displaced toward or away from the stationary guJ';.de member 19C6 with the aid of two bolts 200 threada'--1,,.. z..,.e bracket 192, a pair of elongated ho'Les 202 are formed through tYie movable guide member 1.98 so as to allow a series of pocket portions 150 on the tape- shaped package 112 to move past a gap 204 formed between the stationary guide member 196 and the movable guide member 198.

A relief groove 208 is formed at the central part of a guide portion 206 of the movable guide member 198 usable for slidably holding the left-hand end of the tape-shaped package 112 in order to allow the pins 182 on the pin roller 186 to be successively received in the relief groove 208. With this construction, when the tape-shaped package 112 moves between the pin roller 186 and both the guide members 196 and 198, the fore end part of each pin 182 on the pin roller 186 is fitted into one perforation hole 180 formed through the tape-shaped package 112, whereby as the tape-shaped package 112 moves in the forward direction, the Pin roller 186 is followably rotated so as zo enable a quantity of movement of the tape-shaped package 11-2 to be detected by the rotary encoder 188.

As is apparent 'from Fig. 10 that is an enlarged front view of a pair of pinch rollers 2-26 and 128 and Fig. 11 that is a sectional view of the pinch rollers 126 and 128 taken along line 11 - 11 in Fig.

10, a pinch roller driving shaft 212, of which fore end part is projected outside of the upper easing 110, is rotatably supported by a pair of bearings 214 in a cylindrical holder 210 fixedly secured to the rear surface of the upper easing 110. A pair of driving pinch rollers 126a and 126b adapted to hold the opposite sides of the tape-shaped package 112 with the pocket portion 150 on the tape-shaped package 112 interposed therebetween are fitted onto the fore end part of the pinch roller driving shaft 212, and the driving pinch roller 126a located outside of the driving pinch roller 126b can 31 immovably be held on the pinch roller driving shaft 212 at an arbitrary position determined corresponding to the width of the tape-shaped package 112 as seen in the longitudinal direction of the pinch roller driving shaft 212 by tightening a set screw 216. A pinch roller driving motor 218 for rotationally driving the pinch roller driving shaft 212 is attached to a frame 220 in the upper casing via a speed reducing unit 222, and an endless toothed belt 232 is bridged ber-ween a driving gear 226 integrated with an output shaft 224 of the speed reducing unit 222 and an idling gear 230 rotatably fitted onto the pinch roller driving shaft 212 via bearings 228 while extending around the driving gear 226 and the idling gear 230.

An electromagnetic clutch 234 is interposed between the idling gear 230 and the upper casing 110. In this embodiment, the electromagnetic clutch 234 is substantially composed of a Spline sleeve 236 integrated with the idling gear 230, an armature 238 slidably fitted onto the spline sleeve 236 to sliaably move on the latter, a frictional plate 240 integrally fitted onto the pinch roller shaft 212, a compression coil spring 242 interposed between the spline sleeve 236 and the armature 238 for normally biasing the armature 238 toward the frictional plate 240, and a coil block 244 for magnetizing the frictional plate 240 for biasing the armature 238 32 toward the idling gear 230 by the magnetic force against the resilient force of the compression coil spring 242. The coil block 244 having the pinch roller driving shaft 212 surrounded thereby with bearings 246 interposed therebetween is held by a coil holder 248 fixedly secured to the upper casing 110 at the left-hand end thereof.

Thus, when the coil block 244 is turned off, the armature 238 is thrusted against the -f-rictional plate 240 by the olf zhe compression coil spring 242 so that the rotational force of the pinch roller driving motor 218 is transmitted from the frictional plate 240 to the pinch roller driving shaft 212 by the frictional force arising between the armature 238 and the frictional plate 240, via the endless toothed belt 232, the spline sleeve 236 integrated with the idling gear 230 and the armature 238. On the contrary, when the coil block 244 is turned on, the armature 238 is parted away from the frictional plate 240 by the magnetic force generated by the coil block 244 the force of the-compression coil spring 242. Thus, the rotational force of the pinch roller driving motor 218 is transmitted only to the spline sleeve 236 integrated with the idling gear 230 and the armature 238 via the endless toothed belt 232, resulting in the spline sleeve 236 and the armature 238 being idly rotated relative to the pinch roller driving 33 shaft 212.

The electromagnetic clutch 234 is held in the inoperative state that it is turned off until the foremost end of.the tape-shaped package 112 is seized by the tape-shaped package foremost end guiding unit 130 located at the position where the receipt of the package to be described later is stopped. In addition, the electromagnetic clutch 234 is held also in the Lnoperative state that it is turned off when the reel driving shaft 114 is rotated at a low speed so as to allow the fore end part of the tape-shaped package 112 to be wound around the hub core 118 of the reel 1-1-6 while the package foremost end guiding unit 130 is located at the position where the delivery of the tape-shaped package is stopped. While the foregoing state is maintained, the rotational force of the pinch roller driving motor 218 is transmitted to the pinch roller 126a. However, the electromagnetic clutch 234 is held in the operative state that it is turned on for a period of time other than the aforementioned one.

- On the other hand, a turn shaft holding sleeve 250 is fixedly secured to the upper casing 110 in the vicinity of a bearing holder 210 so that a turn shaft 252 extending through the upper casing 110 in parallel with the pinch roller driving shaft 212 is rotatably supported in the turn shaft holding sleeve 250. The upper end part of a turn arm 254 is firmly 34 fitted onto the turn shaft 252 at the left-hand end of the latter as seen in Fig. 11, and a roller holding shaft 256 is projected from the lower end part of the turi arm 254 in parallel with the pinch 5 roller driving shaft 212. An idling pinch roller 128 is rotatably supported on the roller holding shaft 256 while facing to the pair of driving pinch rollers 126a and 126b with the tape-shaped package 112 interposed therebetween in the clamped state. A tension pin 260 is projected.'--om the rear surface of the upper casing 110 at the position above the turn shaft 252, and an adjustment screw shaft 262 is threadably inserted through the tension pin 260 with a pair of lock nuts 264 located on the opposite sides of the tension pin 260. As the lock nuts 264 are threadably tightened from the opposite sides of the tension pin 260, the tension pin 260 is immovably held on the adjustment screw shaft 262 while building an integral structure with the adjustment screw shaft 262. A tension coil spring 268 is bridged between the left-hand end of the adjustment screw shaft 262 and a circular discshaped tension ring 266 immovably fitted onto the turn shaft 252 at the left-hand end of the latter in order to normally bias the idling pinch roller 128 toward the driving pinch rollers 126a and 126b.

With this construction, the idling pinch roller 128 is normally biased toward the driving pinch rollers 126a and 126b by the resilient force of the tension coil spring 268, whereby as the driving pinch rollers 126a and 126b are ratationally driven, the tape-shaped package 112 held between both the driving pinch rollers 126a and 126b in the clamped state is slantwise downward conveyed in the rightward direction as seen in Fig. 1. It is obvious that the resilient force of the tension coil spring 268 can arbitrarily be changed by adequately adjusting the position where the lock nuts 264 are threadably fitted onto the adjustment screw shaft 262.

A tape-shaped package cutting unit 132 is arranged at the position slantwise downward of the pair of pinch rollers 126 and 128. Fig. 12 shows by way of an enlarged sectional view the structure of the package cutting unit 132.

Specifically, a knife driving air cylinder 270 is arranged on the rear surface of the upper casing 110 via a bracket 272 fastened to the latter with a downward attitude, and the left-hand end part of a rod-holder 276 extending through the upper casing is connected to the lower end of a piston rod 274 extending through the knife driving air cylinder 270. In addition, the lower end of a cutter rod 280 slidably held by a pair of guide bushes 278 fastened to the front surface of the upper casing 110 is firmly connected to the right-hand end part of the 36 rod holder 276. A cutter holder 282 is secured to the lower end of the cutter rod 280, and a cutter knife 284 is firmly attached to the cutter holder 282 in order to cut the tape-shaped package 112 therewith. A plate-shaped knife receiver 286 adapted to be projected from the rear side of the upper casing 110 is slidably held relative to a knife receiver holder 288 fastened to the rear surface of the upper casing 110 directly below the cutter knife 284 in such a manner as to slidably move in the normal direct..Lon relative to the upper casing 110 (i.e., in the rightward/leftward direction as seen in Fig. 13).!he foremost end of a piston rod 294 projected from the holder driving cylinder 292 fixedly secured to the rear surface of the upper casing 110 via a bracket 290 is connected to the left-hand end of the knife receiver holder 288 via a connecting meTber 29E. In operation, before the piston rod 274 of the knife driving air cylinder 270 is lowered, the piston rod 294 of the holder driving cylinder 292 is displaced in the forward direction, causing the fore end part of the knife receiver holder 288 to be projected directly below the carrier tape 134 of the tape-shaped package 112 in order to receive the thrusting force of the cutter knife 284.

On the other hand, to damp the shock caused when the tape-shaped package 112 is cut by the cutter 37 knife 284, a damper ring 298 having a substantially U-shaped sectional shape is attached to the upper end of the piston rod 274 of the knife driving air cylinder 270. In this connection, the lower end part of the damper ring 298 adapted to collide against the upper surface of the bracket 272 is molded of an elastic material such as a rubber or the like. The tape-shaped package cutting unit 132 is actuated when it is detected by the rotary encoder 188, that the tape-shaped package 112 is wound around the reel 116 by a predetermined length. At this time, the reel driving shaft 114 is held in the temporarily stopped state.

It should be noted that any hitherto known structure other than that described above may be employed for the package cutting unit 132.

Fig. 13 schematically shows by way of rear view the structure of a tapeshaped package foremost end guiding unit 130 for conduct-ing the tapeshaped package 112 discharged from the pair of pinch rollers 126 and 128 to the empty reel 11-6 fitted onfo the reel driving shaft 114 while the foremost end of the tape-shaped package 112 is seized by the guiding unit 130, Fig. 14 shows by way of sectional view the structure of the tape-shaped package foremost end guiding unit 130 taken along line 14 14 in Fig. 13, and Fig. 15 shows by way of sectional view the structure of a carrier tape cutting unit 38 136.

The opposite ends of a slider guide shaft 300 extending in the direction in parallel with a line segment between the pair of pinch rollers 126 and 128 and the reel driving shaft 114 are held on the upper casing 110 within the range between the pair of pinch rollers 126 and 128 and the reel driving shaft 114 with the aid of a bracket 302, and a slidable pin 310 slidably received between a guide block 308 and an upper guide member 306 having an inverted L-shaped sectional contour and fixedly secured to the upper casing 110 in parallel with the slider guide shaft 300 is _firmly secured to a slider base 304 slidably fitted onto the slider guide shaft 300 to slidably move along the latter by tightening screws.

An air cylinder 322 includes a pisr-on rod 316 of which foremost end is operatively connected to the slider base 304 via a bracket 3,18 and a connecting member 320. To assure that a slide werrber 312 of a rodless cylinder 314 fixedly secured to the upper casing 110 can reciprocably move in the direction in parallel with the slide guide shaft 300, the air cylinder 322 is firmly secured to the sliding member 312. Three stop positions, i.e., a tape-shaped package receiving stop position located in the vicinity of the pinch rollers 126 and 128 to receive the fore end part of the tape-shaped package 112 39 delivered from the pinch rollers 126 and 128, a tape-shaped package delivering stop position located in the vicinity of the reel driving shaft 114 to deliver the forg end part of the tape-shaped package 112 to the reel 116 fitted onto the reel driving shaft 114, and a tape-shaped package guiding stop position located between the tape-shaped package receiving stop position and the tape-shaped package delivering stop position for guiding the movement of the tape-shaped package 112 from the pair of pinch rollers 126 and 128 to t-he reel driving shaft 114 in the course of a winding operation for winding the tape-shaped package 112 arcund the reel 116 are determined by combining the opposite end positions of reciprocable movement of the sliding member 312 of the rodless cylinder 314 with the opposite end positions of reciprocable movement of the piston rod 316 of the air cylinder 322.

A slider 324 having the sLider base 304 firmly secured to the lower surface thereof -4s projected outside of an opening portion 3260 formed through the upper casing 110 in parallel with the slider guide shaft 300 so that a tape-shaped package introduction block 328 and a tape-shaped package guide arm 330 are mounted on the fore end part of the slider 324.

The tape-shaped package introduction block 328 having a tape-shaped package guide groove 332 formed so as to slidably receive the tape-shaped package

112 therein is exchangeably secured to the slider 324 by tightening screws. A block holder 336 is firmly fitted onto a rotary clamp shaft 334 rotatably inserted through the central part of the tape-shaped package introduction block 328 in the horizontal direction at a right angle relative to the direction of conveyance of the tape-shaped package 112, and a clamp block 338 having an inverted L-shaped sectional contour is firmly secured to the block holder 3-36 by tightening set.

screws. In addition, a clamp pawl 340 adapted to thrust the fore end part of the tape-shaped package 112 received in the tape-shaped package guide groove 332 of the tape-shaped package introduction block

328 against the tape-shaped package guide groove 332 is integrally secured to the clamp block 338. In addition, a clamp lever 342 of which left-hand end part is integrally fitted onto the rotary clamp shaft 334 is connected to a lever extension member 346 while a tension coil spring 344 is spanned between the right-hand end part--- of the clamp lever 342-and the right-hand end part of the bracket 318.

To turn the clamp lever 342 about the rotary clamp shaft 334 together with the lever extension member 346 in the anticlockwise direction as seen in Fig.

13 against the resilient force of the tension coil spring 344, an air cylinder 350 including a piston rod 348 is firmly mounted on the bracket 318.

41 Specifically, while the tape-shaped package 112 is wound around the reel 116, the piston rod 348 of the air cylinder 350 is retracted in the downward direction as shomn in Fig. 13, and the clamp lever 342 is turnably biased by the resilient force of the tension coil spring 344 in such a manner as to allow the tape-shaped package guide groove 332 of the tape-shaped package introduction block 328 to be parted away from the clamp pawl 340. As a result, a gap wide enough to allow the tape-shaped package 112 to pass between the clamp pawl 340 and the tapeshaped package guide groove 332 is formed therebetween. On the contrary, in the case that the fore end part of the tape-shaped package 112 is delivered to the reel 116, the piston rod 348 of the air cylinder 350 is expanded from the state shown in Fig. 13 in the upward direction, causing the clamp lever 342 to be turnably biased so as zo allow the tape-shaped package guide groove 332 of the tape- shaped package introduction block 328 to come in contact with the clamp pawl 340, whereby the fore end7part of the tape-shaped package 112 received in the tape-shaped package introduction block 328 is thrusted against the tape-shaped package guide groove 332, resulting in the fore end part of the tape-shaped package 112 being firmly seized by the clamp pawl 340 in the tape-shaped package introduction block 328.

42 On the other hand, as is apparent from Fig. 13 and Fig. 16 which shows by way of enlarged sectional view structure of the tap'eshaped package guide arm 330, the tape-straped package guide arm 330 is turnably supported to turn about a pivotal pin 354 which is inserted through an arm support plate 352 integrated with the slider 324. To assure that the tape-shaped package 112 is reliably brought in contact with the cape-shaped Package guide groove 356 as the former slidably moves along the latter, a leaf spring 358 is fastened zo the upper surface of the tape-shaped package gu.'.de arm 330 by tightening a screw 360 in order to apply a certain intensity of resilient force of the leaf spring 358 to the tape shaped package 112 from above. In addition, a compression coil spring 362 is disposed between the tape-shaped package guide arm 330 and the slider 324 to normally bias the package guide arm 330 in such a manner as to allow the latter to turn about the pivotal pin 354 in the clockwise direction as seen in Fig. 13.

The fundamental st--uczure of a carrier ta-ce cutting unit 136 located between the tape-shaped package cutting unit 132 and the reel driving shaft 114 to form a leader portion 122 by cutting only the carrier tape 134 of the tape-shaped package 112 is substantially coincident with that of the tape shaped package cutting unit 132, and the carrier 43 tape cutting unit 136 is operated directly after the tape-shaped package cutting unit 132 is operated.

Specifically, as shown in Fig. 15, a knife driving air cylinder 364 is attached to the front surface of the upper casing 110 with the aid of a bracket 366 with an upward attitude, and the upper end of a piston rod 368 extending through the knife driving air cylinder 364 is slidably held by a rod cuide 370 secured to the upper casing 110 while extending through the rod guide 370. A cutter holder 372 is secured to the upper end of the piston rod 368, and a cutter knife 374 is firmly attached to the cutter holder 372 in order to cut the carrier tape 134 of the tape-shaped package IL12 therewith.

A plate-shaped knife receiver 376 projected outside of the upper casing 110 from the rear side of the latter is located directly above the cutter knife 374, and it is slidably held by a knife receiver holder 378 fastened to rear surface of the upper casing 110 to slidably move in the normal direction. relative to the upper casing 110 (11 e., in the rightward/ leftward direction as seen in Fig. 15). A holder driving cylinder 382 is secured to the knife receiver holder 378 via a bracket 380, and the foremost end of a piston rod 384 of the holder driving cylinder 382 is operatively connected to the left-hand end of the knife receiver holder 378 via a connecting member 386. The piston rod 368 of the 44 holder driving air cylinder 364 is expanded before the piston rod 368 of the knife driving air cylinder 364 is raised up, causing the fore end part of the knife receiver 376 to be projected between the carrier tape 134 and the cover tape 154 both ofwiich are not still fused to each other, in order to receive the thrusting force of the cutter knife 374 therewith. on the other hand, a tape sucking plate 642 having a L shaped sectional contour is fastened to the upper casing 110 by tightening screws in order to take up the cover rape 154 after the latter is cut by actuating the tapeshaped package cutting unit 132, and a suction tube 644 is disposed on the rear surface of the cape sucking plate 642 facing to the cover tape 154 of the tape-shaped package 112 while making communication with a suction pump (not shown). Thus, when the suction pump is driven before the tape- shaped package cutcing uniz 132 is actuated, the cover tape 154 is sucked up to reach the lower surface of the tape sucking plate 642, causing only the carrier tape 134 to be downwardly suspended from the tape sucking plate 642 due to its own dead weight. As a result, the carriertape 134 is separated from the cover tape 154, whereby only the carrier tape 134 can reliably be cut by the cutter knife 374 after the knife receiver 376 is inserted between the carrier tape 134 and the cover tape 154. The suction pump is continuously driven directly before the leader portion 122 of the tape shaped package 112 is completely wound around the reel 116.

To damp the shock caused when the carrier 134 is cut by the cutter knife 374, a damper ring 388 having a U-shaped sectional contour and molded of an elastic material such as a rubber or the like is attached to the lower end of the piston rod 368 of the knife driving air cylinde.r 364 to collide against the lower surface of t'.-e bracket 366. The carrier tape cutting unit 136 is actuated subsequent to the cutting operation achieved for the tapeshaped package 112 by actuating the tape-shaped package cutting unit 132. For this reason, the reel driving shaft 114 should temporarily be held in the stopped state between the z.4,-,,e when the tape-shaped package cutting unit 132 starts to be actuated and the time when the carrier zape cutting unit 136 concludes to be actuated.

The structure of the carrier taoe cutting unit 136 should not be limited only to that employed in this embodiment but any other type of hitherto known structure may be employed for the carrier tape cutting unit 136.

Fig. 17 shows by way of sectional view the structure of a reel attaching/detaching unit 140 constructed in accordance with this embodiment.

46 Specifically, a subframe 390 having a heavy thickness is immovably held inside of the upper casing 110 with the aid of a plurality of support columns 392 while extending in parallel with the upper casing 110. A cylindrical driving shaft holder 394 is immovably secured to the central part of the subframe 390, and a hollow shaft 396 extending through the driving shaft holder 394 is rotatably held in the driving shaft holder 394 with the aid of a pair of bearings 398. A compressed air supply source (not shown) is communicated with the left-hand end of the hollow shaft 396 via a rotary joint 400, and a reel Chuck shift valve 406 communicated with a compressed air supply path 402 in the hollow shaft 396 via an air piping 404 as well as a reel driving shaft expanding/contracting unit 410 including a _reel driving shaft 114 adapted to fitted into a reel hole 408 for.med through the central part of the hub core 118 of the reel 116 are connected to the right-hand end of the hollow shaft, 396.

In this embodiment, the reel driving shaft expanding/contracting unit 410 includes a reel driving shaft 114 having a split structure composed of three split segments so as to allow the outer diameter thereof to be reduced by the resilient force of spring means (not shown) and a plurality of engagement pins 414 adapted to be engaged with a 47 plurality of engagement grooves 412 radially formed outward of the outer periphery of the reel hole 408. As compressed air is fed 'from the reel chuck shifting valve 406, the three split segments of the reel driving shaft 114 are radially displaced in such a manner that the outer diameter of the reel driving shaft 114 is enlarged against the resilient force of spring means. When the enlarged outer diameter of the reel driving shaft 114 collides with the inner peripheral surface of the reel hole 408, the reel 116 is firmlv held on the reel driving shaft 114 while building an integral structure with the latter. On the contrary, when the compressed air in the reel driving shaft expanding/contracting unit 410 is exhausted to the outside by actuating the reel chuck shifting valve 406, the three split segments of the reel driving shaft 114 are equally radially displaced in the in.ward d-J--ec-%-.J&.on until the outer diameter of the reel drivIng shaft 114 is reduced to such an extent that the reel 116 can be detached from the reel driving shaft 114. Each of the engagement pins 414 is normally biased by the resilient force of a compression coil spring 415 received therein in such a manner as not to allow it to be projected from the outer end surface of the reel driving shaft 114. With such construction, when the position of each engagement pin 414 does not coincide with that of each engagement groove 412 in 48 the reel hole 408, the foremost end of each engagement pin 414 is retracted inside of the reel driving shaft 114 (i.e., in the leftward direction as seen in Fig.17) by the resilient force of the 5 compression coil spring 415.

In this embodiment, the reel chuck shifting valve 406 is actuated to stop the feeding of compressed air to the reel driving shaft expanding/contracting unit 410 only when the reel 116 is disp-laced between the reel driving shaft 114 and a reel receiving/delivering shaft 416 to be described later (see Fig. 23) so that it is received from and delivered to the reel receiving/delivering shaft 416. Otherwise, the reel chuck shifting valve 406 is actuated to feed compressed air to the reel driving shaft expanding/contracting unit 410. As will be described later, since the reel receiving/delivering shaft 4116 is dimensioned to have an outer diameter subszanz-ially equal to that of the reel driving shaft 114 in the contracted state, when the reel driving shaft 114 is correctly located opposite to the reel _receiving/delivering shaft 416 as seen in the axial direction, receiving of the reel 116 from the reel receiving/delivering shaft 416 and delivering of the former from the latter can be achieved between the reel driving shaft 114 and the reel receiving/delivering shaft 416 without an occurrence of any particular problem 49 irrespective of some downward positional offset of the center axis of the reel hole 408 of the reel 116 relative to the center axis of the reel driving shaft 114 and the reel receiving/delivering shaft 5 416.

A speed reducing unit 420 is mounted on the subframe 390 via a bracket 418. A driving gear 424 is firmly fitted onto an output shaft 422 of the speed reducing unit 420 and a follower gear 426 is firmly fitted onto the left-hand end part of the hollow shaft 396 so that an endless toothed belt 428 is spanned between both the gears 424 and 426 while extending around them. Thus, -ns a reel driving stepping motor 430 assembled with the speed reducing unit 420 is rotationally driven. the hollow shaft 396 is rotated at a reduced speed together with the reel chuck shifting valve 406 and the reel driving shaft expanding/contracting unIt. 410 via the speed reducing unit 420 and the endless toothed belt 428.

In response to detection signals outputted frorp the slider position detecting sensors 170, 172, 174 and 176, the rotary encoder 188 and an insert slot detecting sensor 452 to be described later, the rotational speed of the reel driving shaft 114 can arbitrarily be changed in conformity with a command issued from a controlling unit (not shown).

Basically, the reel driving shaft 114 is rotated at a low speed not only when the tape-shaped package 112 starts to be wound around the reel 116 but also directly before completion of the winding operation, and it is rotated at a high speed for a period of time other than the foregoing ones, but rotation of the reel driving shaft 114 is stopped at the time of exchanging the reel 116 with another one.

To assure that the reel 116 is detached from the reel driving shaft 114 after the tape-shaped package 112 is completely wound around the reel 116, an annular reel thrusting plate 432 is arranged in such a manner as to surround the reeI driving shaft 114 therewith, and the foremost ends of a plurality of guide rods 436 slidably inserted through rod guide bushes 434 attached to the upper casing 110 are fixedly secured to the rear surface of the annular reel thrusting plate 432. The left-hand ends of the guide rods 436 are fixedly secured to an annular connection plate 438 which surrounds the right-hand end part of the hollow shaft 396 therewith, and a piston rod 444 of a reel discharging air cylinder 442 mounted on the subframe 390 via a bracket 440 is operatively connected to the annular connection plate 438 via a flexible joint 446.

When the piston rod 444 of the reel discharging air cylinder 442 is expanded, the reel thrusting plate 432 located at the retracted position shown in Fig. 17 is displaced in the forward direction to reach a position represented by phantom lines shown 51 in the drawing, whereby the reel 116 fitted onto the reel driving shaft 114 is thrusted toward the reel receiving/delivering shaft 416 which is located opposite to the reel driving shaft 114 as seen in 5 the axial direction.

It should be noted that the structure of the reel attaching/detaching unit 140 should not be limited only to that in the aforementioned embodiment but any other type of hitherto known structure may be employed for the reel attaching/detaching unit 140.

To assure that the foremost end of the tapeshaped package 112 delivered from the tape-shaped package foremost end guiding unit l30 is automatically engaged with a tape insert slot 120 formed through a hub core 118 of an empty reel 116 fitted onto the reel driving shaft 114, a reel indexing unit 142 serves to stop the tape insert slot 120 at a predetermined position at all times.

Fig. 1 and Fig. 18 show the structure of the foregoing reel indexing unit 142, respectively.

Specifically, an expansible/contractible air cylinder 450 including a piston rod 448 adapted to expand toward and contract away from the hub core 118 is arranged at the lower end part of the upper casing 110. A reflection type insert slot detecting sensor 452 is disposed at the foremost end of the piston rod 448 of the air cylinder 450 via a sensor 52 bracket 454 in order to detect one of the tape insert slots 120 formed through the hub core 118 of the reel 116 by using an optical fiber. To assure that the sensorbracket 454 is smoothly displaced in the reel 16 in the forward direction to reach a detecting position represented by phantom lines in Fig. 18 while it is not adversely affected by any warpage of both the flange portions 456 of the reel 116, the sensor bracket 454 is tapered as shown in Fig. 19 that is a plan v44.ew of --he sensor bracket 454. In addition, to assure that the tape-shaped package 112 is reliably brought in the interior of the reel 116 by forcibly expanding both the flange portions 456 of the reel 116 in the outward direction, an enlarged portion 458 having an increased width is fastened to the rear end part of the sensor bracket 454 (on the left-hand side as seen in Fig. 19).

When one of the ape insert slots 1-20 is indexed to a predetermined position on the hub core 118 of the reel 116 fitted onto the reel driving shaft 114, the piston rod 448 of' the air cylinder 450 is expanded from the standby posizion as shown in Fig. 18, causing the sensor bracket 454 to be displaced in the space defined between both the flange portions 456 of the reel 116 in the forward direction to reach a detecting position located opposite to the hub core 118 of the reel 116. At 53 this time, the reel 116 is immovably held without any rotation thereof. Subsequently, the reel driving stepping motor 430 is rotationally driven at a low speed. Wheln the insert slot detecting sensor 452 detects one of tape insert slots 120 formed through the hub core 118 of the reel 116 while the foregoing state is maintained, a detection signal is outputted to a controlling unit (not shown) for the reel driving stepping motor 430. In response to the detection signal, the reel driving shaft 114 is rotated by a predetermined angle with the aid of the controlling unit, and thereafter, the rotation of the reel driving shaft 114 is stopped, whereby the tape insert slot 120 on the hub core 118 is located at the position facing to the foremost end of the tape-shaped package 112 conveyed from the tapeshaped package foremost end guiding unit 130.

In this embodiment, the insert slot detecting sensor 452 is employed for the reel indexing unit 142 as means for detecting the position of each tape insert slot 120 formed through the hub core 118 of the reel 116. It of course is obvious that any other type of hitherto known sensor such as a supersonic sensor, a contact sensor or the like may be substituted for the insert slot detecting sensor 452.

Fig.. 20 schematically shows by way of illustrative view the structure of an end seal 54 feeding unit 138 for connecting an end seal 124 to the terminal end of the leader portion 122, and Fig. 21 shows by way of sectional view the structure of the end seal feding unit 138 in the developed 5 state.

Specifically, an end seal feeding reel 464 is detachably and rotatably mounted on a reel mounting bracket 462 projected outside of the righthand side surface of the upper casing 110, and a release liner 466 having a plurality of ribbon-shaped end seals 124 adhesively attached thereto in the equally spaced relationship as seen in the longitudinal direction of the release liner 466 is wound around the end seal feeding reel 464. A release liner winding shaft 472 is rotatably supported by the upper casing 110 and an inner frame 468 arranged inside of the upper casing 110 with the aid of a pair of bearing bushes 470 while extending through the upper casing 110 and the inner frame 468, and a release liner winding reel 474 having a single flange structure is detachably fitted onto the fore end part of the release liner winding shaft 472 by tightening a screw 476.

A wedge-shaped peeling plate 478 is firmly secured to the upper casing 110 at the position above the tape-shaped package guiding arm 330 disposed at the tape-shaped package guiding stop position of the tape-shaped package foremost end guiding unit 130 in order to peel the fore end part of an end seal 124 from the release liner 466, and a pair of retaining rollers 480 and 482 are rotatably fitted onto roller shafts 484 and 486 projected outside of the upper casing 110 on the left-hand side of the peeling plate 478. As the release liner tape 466 is unwound from the end seal feeding reel 464, it is delivered to the release liner winding reel 474 via the first retaining roller 480, the peeling plate 478 and the second retaining roller 482. At this time, one of end seals 124 is peeled off from the release liner 466 due to a large magnitude of direction change induced by the peeling plate 478, resulting in the end seal 124 being projected away from the foremost end of the peeling plate 478.

A pair of tape seiz.4ing rc-liers 488 and 490 for holding the release liner 466 in the clamped state and an end seal sensor 492 for detecting whether an end seal 124 is adhesively attached to the release - liner 466 or not are disposed between the end seal feeding reel 464 and the first retaining roller 480 at the positions located in the order as seen from the end seal feeding reel 464 side, and the tape seizing rollers 488 and 490 are rotatably fitted onto roller shafts 494 and 496 projected outside of the upper casing 110. In addition, a pair of pinch rollers 498 and 500 for holding the release liner 56 466 in the clamped state are disposed between the second retaining roller 482 and the release liner winding shaft 472. One of the pair of pinch rollers 498 and 500, i.j., the driving pinch roller 498 is firmly fitted onto the fore end part of a pinch roller driving shaft 504 rotatably supported by the upper casing 110 and the inner frame 468 with the aid of a pair of bearing bushes 502, while the other one of the pair of cinch rollers 498 and 500, i.e., the idling pinch roller 500 is _rotazably fitted onto a roller supporting shaft 512 firmly secured to the outer end part of a turn lever 510 which is turnably supported by a turn shaft -5-108 which in turn is turnably held in a bearing bush 506 fixedly secured to the upper casing 110. Additionally, spring means (not shown) is disposed on the turn shaft 508 for the purpose of normally biasing the idling pinch roller 500 toward the driving pinch roller 498 side by the resilient force of the spring means.

A release liner driving motor 516 including a speed reducing unit 518 is mounted on a bracket 514 fastened to the upper casing 110 by tightening screws. An endless tooted belt 526 is spanned between a driving gear 522 firmly fitted onto an output shaft 520 of the speed reducing unit 518 and a follower gear 524 firmly fitted onto the pinch roller driving shaft 504 while extending around both the gears 522 and 524, and moreover, an endless 57 power transmitting belt 532 is spanned between a pulley 528 firmly fitted onto the rear end part of the release liner winding shaft 472 and a pulley 530 firmly fitted oto the rear end part of the pinch roller driving shaft 504 while extending around both the pulleys 528 and 530.

The release liner driving motor 516 is intermittently rotated every time a leader portion 122 is formed by actuating the carrier tape cutting unit 136. Specifically, the release liner driving motor 516 starts to be rotated at a low speed in synchronization with the rotation of the reel driving stepping motor 430 after completion of the cutting operation performed for cutting the carrier tape 134 by actuating the carrier tape cutting unit 136, in order to convey the release liner 466 at a speed correspond4,.ng to the conveying speed of the leader portion 122, whereby the foremost end of the end seal 124 is adhesively connected to the rear end mart z-f the leader portion 122 by utilizing the adhesive power of the end seal 124. When it is detected that the release liner 466 is wound around the release liner winding reel 474 by a predetermined length, the release liner driving motor 516 stops its rotation.

As shown in Fig. 20, Fig. 21 and Fig. 22 that is a sectional view of an end seal retaining roller 540 taken along line 22 - 22 in Fig. 20, a bearing bush 58 536 is fastened to the upper casing 110 at the position above the reel driving shaft 114 by tightening screws in order to rotatably support a tape retainer saft 534 which extends through the upper casing 110 and the bearing bush 536, and the tape retaining roller 540 adapted to be brought in the hollow space defined between both the flange portions 456 of the reel 116 firmly fitted onto the reel driving shaft 114 is _rotatably held at the foremost en of a turn lever 538 of which base end part is fitted onto the foremost end of the tape retaining shaft 534. The tape retaining roller 540 is turned about the tape retaining shaft 534 by its own dead weight in the clockwise direction as seen in Fig. 20. With this construction, as the tapeshaped package 112 is wound around the reel 116, the outer periphery of the tape-shaped package 112 is depressed toward the hub core 118 sidie by the dead weight of the tape retaining roller 540 in order to assure that there does not arise a malfunction that the end seal 124 is incarrectlv conneczed to the tape-shaped package 112. A relief lever 542 is firmly fitted onto the innermost end off: the tape retaining shaft 534, and a retaining roller relief cylinder 544 is immovably held inside of the upper casing 110 while facing to the upper end of the relief lever 542. As a piston rod 546 of the retaining roller relief cylinder 544 is expanded, 59 the foremost end of the piston rod 546 thrusts the relief lever 542. As a result, the tape retaining roller 540 is turnably displaced together with the turn lever 538 adapted to turn about the tape retainer shaft 534. In such manner, the reel 116 can be attached to or detached from the reel driving shaft 114.

It should be noted that the structure of the end seal feeding unit 138 should nor be limited only to the aforementioned one but any other type of hitherto known structure may be employed for the end seal feeding unit 138.

Fig. 23 shows by way of sectional view the structure of a reel receiving/delivering unit 144 which serves to feed an empty reel 16 to the reel driving shaft 114, and moreover, receives the reel 116 having the tape-shaped package 112 wound therearound from the reel driving shaft 114.

Specifically, a swing arm 550 is turnably mounted on a horizontally extending pivotal shaft 548 at a right angle relative to the reel driving shaft 114, and the pivotal shaft 548 is located above the upper end surface of the lower casing 106. The upper end of an arm turning air cylinder 554 is pivotally connected to the right-hand end of the swing arm 550, while the lower end of the same is pivotally connected to a bracket 552 fastened to the inner wall surface of the lower casing 106 at the upper end part of the latter. When the arm turning air cylinder 554 is actuated, the swing arm 550 selectively assumes a standby position, i.e., a horizontal attiude as represented by solid lines in 5 Fig. 23. Otherwise, it assume a vertical attitude, i.e., a reel receiving/delivering position as represented by phantom lines in the drawing.

A fitting shaft driving air cylinder 556 including a reel receiving/delivering shaft 416 adapted to be fitted into a reel hole 408 formed through the central part of the reel 116 is fixedly secured to the left-hand end part of the swing arm 550 with an upward attitude, and the reel receiving/delivering shaft 416 is dimensioned to have an outer diameter substantially equal to that of the reel driving shaft 114 which is held in the state that no compressed air is fed to the reel driving shaft enlarging/concracting uniz 410. In addition, a receiving ring driving air cylinder 558 is firmly disposed rightw.ard of the fitting shaft driving air cylinder 551d with an upward attitude while extending in parallel with the fitting shaft driving air cylinder 556. While the swing arm 550 is held in the standby state, a reel receiving ring 566 of which upper end surface is held in the horizontal state with the aid of a receiving ring bracket 564 is firmly connected to a piston rod 562 of the receiving ring driving air cylinder 558.

61 While the fitting shaft driving air cylinder 556 is held in the expanded state, the fore end part of the reel receiving/delivering shaft 416 is projected outside of the jentral part of the reel receiving ring 566 as represented by phantom lines in Fig. 23 so that it extends through the reel hole 408. On the contrary, while the fitting shaft driving air cylinder 556 is held in the retracted, the reel receiving/delivering shaf-- 416 -'s lowered below the reel receiving ring 566 as shown in the drawing. When the piston rod 562 of the receiving ring driving air cylinder 558 is expanded from the state that the reel driving shaft 114 is linearly aligned with the reel receiving/delivering shaft 416, the reel 16 held on the reel receiving/delivering shaft 416 is drawn out of the latter, and thereafter, it is thrusted toward reel driving shaft 114 side.

In this embodiment, the pivotal shaft 548 for the swing arm 550 of the reel receiving/delivering unit 144 is laid with a horizontal attitude so that' the-swing arm 550 is caused to turn about the pivotal shaft 548 by an angle of ninety degrees.

Jon should not be limited However, the present inventi. only to this embodiment. It of course is obvious that other type of structure rather than the foregoing one and any type of driving means for turnably driving the swing arm 550 may be employed for the reel receiving/delivering unit 144 depending 62 on the layout of a reel feeding/discharging unit 146 to be described later.

In this embodiment, the pass line of the tapeshaped package L2 is downwardly inclined at a certain angle relative to the horizontal plane in order to reduce a floor area required for mounting the tape winding apparatus, and moreover, a measure is taken such that the taping machine can continuously be operated without any reduction of an operation rate thereof by determining a raising/lowering stroke of the slider 164 of the dancer unit 148 to assume a large value.

Next, Fig. 24 shows by way of plan view the structure of a reel feeding/discharging unit 146 which serves to feed an empty reel 116 to the reel receiving/delivering unit 144, and moreover, receive a reel 116 having a tape-shaped package 112 wound therearound from the reel receiving/delivering unit 144, Fig. 25 shows by way of sectional view the structure of the reel feeding/discharging unit 146 taken along line 25 25 in Fig. 24, and Fig. 26 likewise shows by way of sectional view the structure the reel feeding/dA4.schargiing unit 146 taken along line 26 26 in Fig. 24.

Specifically, an empty reel storage station 568 is arranged on the lower casing 106 on the left-hand side of the reel receiving/delivering unit 144 held in the standby state in order to storably hold a 63 plurality of empty reels 116 in the overlapped state, and spacers 570 fastened to the lower casing 106 by tightening screws while projecting upward of the lower casing 106 and two fore and rear support columns 574 each standing upright from the corresponding spacer 570 via a bracket 572 are mounted on the empty reel storage station 568. A plurality of empty reels 116 are placed one above another in the overlapped state in the hollow space defined by the four support columns 574, and one of the empty reels 116, i.e., the lowermost reel 116 is placed on the upper surface of the lower casing 106.

In addition, a recovered -reel storage station 576 is arranged rightward of the lower casing 106 on the opposite side to the empty reel storage station 568 while the reel receiving/delivering unit 144 located in the standby position is interposed therebetween. A stocker housing 578 -JS integrated with the lower casing 106 while su.-.--.unding the recovered reel storage station 576 therewith, and a' magazine base 582 is placed on 7--he bottom wall of the stocker housing 578 in order to detachably place a reel magazine 580 on the magazine base 582 in the correctly located state. The magazine base 582 is surrounded by a frame-shaped lifter 584 of which right-hand end part is integrated with a guide bush 588 adapted to be slidably displaced along an upright standing guide rod 586 in the stocker 64 housing 578. In addition, a raising/lowering screw shaft 592 is rotatably supported by upper and lower bearings 590 in the stocker housing 578 while upright standin in parallel with the guide rod 586, 5 and a feed nut 594 fastened to the lifter 584 is threadably engaged with the raising/lowering screw 592. A follower bevel gear 596 is firmly fitted onto the lower end of the raising/ lowering screw shaft 592 so as to mesh with a driving bevel gear 604 firmly fitted onto an shaft 602 of a speed reducing unit C'01"i secured to the lower surface of the stocker housing 578 via a bracket 598. As a lifter raising/lowering motor 606 integrated with the speed reducing unit 600 is rotationally driven in the normal/reverse direction, the raising/lowering screw shaft 592 is rotated in the normal/reverse direction with the result that the lifter 584 integrated with the feed nut 594 threadably engaged with the raising/lowering shaft 592 is raised up and lowered along the guide rod 586.

In this embodiment, Ce reel magazine 580 is substantially composed of a bottom plate 608 placed on the magazine base 582 in the correctly located state and a core rod 610 standing upright from the bottom plate 608 to extend through the reel hole 408 of the reel 116. When a predetermined number of reels 116 are placed one above another on the base plate 608 in the overlapped state while the core rod 610 extends through the respective reels 116, the reel magazine 580 can be exchanged with a new empty reel magazine 5O with an operator's hand. A dog 612 is integrated with the lifter 584 at the right hand end of the latter while projecting from the lifter 584 in order to detect the position of the lifter 584 in the stock housing 578. An upper position detecting sensor 0614 serves to detect the upper end of the dog 612, while a lower position detecting sensor 616 serves to detect the lower end of the dog 612, and both the position detecting sensors 614 and 616 are fastened to the stocker housing 578 on the right-hand side of the latter by tightening screws. To assure that the lifter 584 is lowered by a distance equal to the width of a reel 116 every time the reel 116 having a tape- shaped package 112 wound therearound is conveyed onto the reel storage station 576 so that the upper end surfaceof the uppermost reel 116 is always flush with the upper surface of the lower casing 106, a pair of upper end position detecting sensors 618 are disposed at the opposing positions with flange portions 456 of the uppermost end reel 116 interposed therebetween, in order to detect the position of the uppermost end reel 116 among a plurality of reels 116 placed on the recovered reel storage station 576 in the overlapped state. In 66 this embodiment, to cope with the problem that the width of a reel 116 varies corresponding to variation of the width of a tape-shaped package 112, a measure is taen such that the positions of the 5 upper end position detecting sensors 618 can correctively be changed in the vertical direction.

With this construction, when no reel is placed in the reel magazine 680, in response to a detection signal outputted from the upper end position sensor 614, the 111fter raising/lowering motor 606 is rotationally driven in the normal direction until the lifter 584 is raised up to reach the position where the upper surface of the lifter 584 is flush with the upper surface of the lower housing 106.

When a reel 116 is conveyed to the recovered reel storage station 576 while the foregoing state is maintained, in response 7-o a detection signal outputted from the upper enal detecting sensor 618, the lifter raising/lowering motor 606 is ratationally driven in the reverse direction so that the lifter 584 is lowered by a distance equal to the width of the reel 116, causing the core rod 610 of the reel magazine 580 to be relatively inserted through the reel hole 408 of the reel 116. Thus, a plurality of reels 116 are placed one above another in the reel magazine 580 in the overlapped state by repeating the aforementioned steps of operations. When a predetermined number of reels 116 are placed 67 one above another in the reel magazine 580 in the overlapped state, the lower position detecting sensor 616 is turned on, causing alarming means (not shown) to be acivated so as to promote an operator to exchange the reel magazine 580 with an empty one.

As is apparent from Fig. 24, the empty reel storage station 568, the reel receiving/delivering unit 144 held at the standby position and the recovered reel storage station 576 are arranged side by side in:the equally spaced relationship. To assure that a lowermost reelL 116 among a plurality of reels 116 placed on the empty reel storage station 568 in the overlapped state is thrusted to the position directly above the reel receiving/delivering unit 144 held in the standby position, a plateshaped empty reel feeding member 620 is reciprocably displaced between the reel receiving/delivering unit 144 held at the standby position and the empty reel sto-rage pc-Sition 568 represented by solid lines in Fig. 24. The empty reel feeding member 620 includes two epposing pairs of rollers 622 each of which can roll on the upper surface of the lower casing 106. In addition, to assure that a reel 116 having a tape-shaped package 112 wound therearound and placed on the reel receiving/delivering unit 144 held at the standby position is conveyed to the recovered reel storage station 576, a substantially U-shaped conveying 68 table 624 is reciprocably displaced between the recovered reel storage station 576 and the reel receiving/delivering unit 144 held at the standby position to suriound the reel receiving ring 566 therewith. The recovered reel conveying table 624 includes a pair of rollers (not shown) each of which can roll on the upper surface of the lower casing 106. The empty reel feeding member 620 and the recovered reel conveying table 624 are operatively connected to each other via a joint bracket 626 bridged therebetween, and a sliding member 630 of a rodless cylinder 628 fastened to the upper part of the lower casing 106 iS oper-atively connected to the joint bracket 626 via a plurality of bolts 632.

In the case that the sliding member 628 of the rodless cylinder 628 is held at one of stroke ends thereof, the empty reel feeding member 620 and the recovered reel conveying table 624 are located at their standby positions represented by solid lines in Fig. 24. In the case that the sliding member 630 of the rodless cylinder 628 is held at the other stroke end thereof, the position of the empty reel feeding member 620 is shifted to the empty reel storage station 568, and moreover, the position of the recovered reel conveying table 624 is shifted to the recovered reel storage station 576. Concretely, the empty reel feeding member 620 held in the standby state is displaced to the reel 69 receiving/delivering unit 144 side, a side end surface 634 of the empty reel feeding member 620 collides against the outer peripheral edge of a lowermost reel 116 held on the empty reel receiving storage station 568, causing the lowermost reel 116 to be thrusted to the reel receiving/delivering unit 144 side. At the same time, the recovered reel conveying table 624 is displaced to the recovered reel storage station 576 together with the reel 116 placed on t:he recovered reel conveying table 624 and having a tape- shaped package 112 wound therearound.

A reel retaining cylinder 638 including a piston rod 636 adapted to be projected in the forward direction is disposed on the side end of the upper casing 110 located directly above the stocker housing 578, and a reel retainer 640 interposed between the standby position of the reel receiving/delivering unit 1.44 and the recovered reel storage station 576 and adapted to collide against the outer periphery of the flange portions 456 of the reel 116 on the recovered reel conveying table 624 located on the recovered reel storage station 576 is firmly fitted onto the fore end part of the piston rod 636. To assure that the reel 116 placed on the recovered reel conveying table 624 and having a tape-shaped package 112 wound therearound is immovably retained on the recovered reel storage station 576 when the recovered reel conveying table 624 returns to its standby position from the recovered reel storage station 576, the reel retainer 640 is projected in the hollow space between the staAdby position of the reel receiving/delivering unit 144 and the recovered reel storage station 576, whereby the reel 116 on the recovered reel conveying table 624 can immovably be retained on the recovered reel storage station 576 when the recovered reel conveying table 624 moves to the reel re'ceiving/deliver-,-&g unit 1-44 side.

It should be noted that the structure of the reel feeding/discharging unit 146 as described above should not be limited only to the shown one but any other type of hitherto known structure may be employed for the reel feeding/ discharging unit 146.

Next, a tape winding apparatus constructed in accordance with another embodiment of the present invention based on a second aspect of the latter will be described in deta-41 below with reference to Fig. 27 to Fig. 38 wherei,n a,--ape-shaped package having a plurality of sem-'--Dndu--tcr chip components received therein is used for the tape winding apparatus. It should be noted that same structural components as those described above in the preceding embodiment are represented by same reference numerals.

As shown in Fig. 27 that is a front view of the tape winding apparatus and Fig. 28 that is an - 71 enlarged front view of an upper casing of the tape winding apparatus, an upper casing 108 having a control panel 108 attached to the front surface thereof is arranged on a lower casing 106 which in turn is mounted on a floor surface 104 with the aid of a plurality of casters 100. A start switch, a stop switch, various kinds of alarm lamps, a display unit and a counter (each of which is not shown in the drawings) are arranged an the control panel 108 for properly operating the tape winding apparatus. With this construction, the tape winding apparatus can automatically be operated by actuating these switches with an operator's hand in order to assure that a tape- shaped package 112 (see Fig. 3) fed from a taping machine (not shown) is successively wound around an empty reel 116 fitted onto a reel driving shaft 114. First, the empty reel 116 is fitted onto the reel driving shaft 114 and one of cape insert slots 20 120 formed through a hub core 118 (see Fig. 36) of the empty reel 116 is then indexed to a predetermined position. Subsequently, the foremost end of the tape-shaped package 112 is inserted into one of the tape insert slots 120 formed through the 25 hub core 118 of the empty reel 116, and the tapeshaped package 112 is then wound around the reel 116 by a predetermined length by rotationally driving the reel driving shaft 114. On completion of the 72 winding operation, a leader portion 122 (see Fig. 3) is formed at the terminal end of the tape-shaped package 112, and after an end seal 124 is adhesively connected to th terminal end of the leader portion 122, the reel 116 is detached from the reel driving shaft 114, and thereafter, a next winding operation is performed again from the beginning.

In this embodiment, to assure that a series of operations as mentioned above are automatically repeated, a pair of pinch. rol^Lers 1206 and 128 for feeding the foremost end of the tape-shaped package 112 toward the reel driving shaft 114, a package fore end part guiding uniz 130 for conducting the tape-shaped package 112 discharged from the pair of pinch rollers 126 and 128 to the empty reel 116 fitted onto the reel driving shaft 114 while seizing the foremost end of the zape-shaped package 112 therewith, a tape cutting unit 648 located between the pair of pinch rollers 126 and 128 and the tape shaped package foremost end guiding unit 130 to cut only a carrier tape 13 sc as --) f--rm --- leadler portion 122 or to cut a cover tape 154 together with a carrier tape 134, an end seal feeding unit 138 for connecting an end seal 124 to the terminal end of the leader portion 122, and a reel attaching/detaching unit 140 (see Fig. 35) are arranged in the upper casing 110. In addition, a reel receiving/delivering unit 144 (see Fig. 23) for 73 feeding an empty reel 116 to the reel driving shaft 114 and receiving the reel 116 having a tape-shaped package 112 therearound from the reel driving shaft 114 and a reel eceiving/discharging unit 146 (see Fig. 24) for feeding an empty reel 116 to the reel receiving/delivering unit 144 and receiving the reel 116 having a tape-shaped package 112 wound therearound from the reel receiving/delivering unit 144 are arranged in the "-owe-r casing 1-06.

Additionally, to temporarily storably hold the fore end part of the tapeshaped package 112 continuously fed from the taping machine at the time when the reel 116 is attached to and detached from the reel driving shaft 114, a dancer unit 148 is displaceably arranged in such a manner as to be slidably displaced between the lower casing 106 and the upper casing 110.

In this embodiment, a label adhering unit for adhesively attaching a label 06-50 having various kinds of informations on a tvce of zape-shaped package 112, a content of each article received in the tape-shaped package 112 and other items printed thereon to one of flange portions 456 of the reel 116 having the tape-shaped package 112 wound therearound is disposed at the position located sideward of the tape winding apparatus.

With respect to a taping machine to be operatively associated with the tape winding 74 apparatus for producing a tape-shaped package 112 as shown in Fig. 3, the taping machine as described above in the preceding embodiment can be used as it is.

In this embodiment, a dancer unit 148 includes a slider 164 adapted to be slidably displaced along a guide rod 158 in the upward/downward direction, and the tape-shaped package 112 is caused to extend through the slider 164 in such a manner as to enable a speed of winding of the cape-shaped package 12 around the reel 116 caused by rotation of the reel driving shaft 114 to be automatically changed corresponding to the position of the slider 164 on the guide rod 158.

is Specifically, in the case that the slider 164 is slidably displaced to the lowermost end of the guide rod 158, the winding speed of the tape-shaped package 112 is increased to assume a preset highest speed, causing the position of the slider 164 to be quickly rased up. On the contrary, in the case that the slider 164 is slidably displaced to the uppermost end of the guide rod 158, the winding speed of the tape-shaped package 112 is reduced to assume a lowest speed, causing the position of the slider 164 to be quickly lowered. Thus, when it is required that the slider 164 is held at the intermediate position of the guide rod 158, the rotational speed of the reel driving shaft 114 is correspondingly adjusted.

A pair of pinch rollers 126 and 128 are disposed rightward of a tapeshaped package introduction pulley 646 rotatably mounted on the upper casing 110 at the left-hand end of the latter in order to convey the tape-shaped package 112 toward the reel driving shaft 114 side. The structure of the pair of pinch rollers 126 and 128 is entirely same to that shown in Fig. 11 that is a sectional view taken along line'll - 11 in Fig. 10.

In addition, a pin roller 186 is disposed rightward of the pair of pinch rollers 126 and 128, and the sectional structure of the pin roller 186 is entirely same to that shown in Fig. 7 and Fig. 8 that is an enlarged sectional view of a section represented by an arrow- shaped mark of 8 in Fig. 7.

Fig. 29 shows by way of sectional view the structure of a tape cutting unit 648 arranged rightward of the pin roller 186, and moreover, Fig.

30 shows by way of side view the structure of the tape cutting unit 648 as seen from the right-hand side of Fig. 29.

Specifically, a tape-shaped package cutter 652 and a carrier tape cutter 654 are disposed in the tape cutting unit 648 in the opposing relationship while a conveyance path for the tape-shaped package 112 is interposed therebetween. The tape- shaped package cutter 652 adapted to be actuated in the 76 downward direction includes a knife driving air cylinder 270 of which piston rod 274 is firmly equipped with a cutter knife 284 via a cutter holder 282 so as to cu a cover tape 154 of the tape-shaped package 112 therewith. On the other hand, the carrier tape cutter 654 adapted to be actuated in the upward direction likewise includes a knife driving air cylinder 364 of which piston rod 368 is firmly equipped with a --uz:er knife 374 via a cutter holder 372 to as to cut a:arr-ier tape 134 of the tape-shaped package 112 therewith.

As is best seen in Fig. 30, a plate-shaped knife receiver 286 adapted to be projected in the hollow space defined between both the cutter knifes 284 and 374 from the rear side of the upper casing 110 is slidably held by a knife receiver holder 288 fixedly secured to the rear surface of the upper casing 110 so as to be slidably displaced in the horizontal direction (i.e., in the leftward/rightward direction as seen in Fig. 30) while it is operatively connected to a cutter receiver driving cylinder (not shown). Before the piston rod 274 of the knife driving air cylinder 270 is driven in the downward direction and the piston rod 368 of the knife driving air cylinder 364 is driven in the upward direction, a piston rod 294 of a knife receiver driving air cylinder (not shown) is linearly driven in the forward direction, causing the fore end part 77 of the knife receiver 286 to be inserted into a gap formed between the carrier tape 134 and the cover tape 154 of the tape-shaped package 112 by way of steps to be desribed later, in order to receive the thrusting force of each of the cutter knives 284 and 374 therewith. Incidentally, the carrier tape 134 and the cover tape 154 are not still fused to each other at this time.

A tape projecting cylinder 656 adapted to be actuated in:the upward direction is disposed rightward of the carrier tape cutter 654 so as to enable the knife receiver 2806 zo be projected directly below the Carr-Ler z-zpe 134 by forcibly raising up the carrier tape 134 to the package cutter 652 side in excess of the knife receiver 286.

When the tape-shaped package cutter 652 and the carrier tape cutter 654 of the tape cutting unit 648 are actuated to cut the cover cape 1-54 and the carrier tape 134, the reel driving shaft 114 is temporarily immovably held together with the reel 116. Subsequently, after the carrier tape cutter 654 is actuated, the reel driving shaft 114 is rotationally driven again to wound the cover tape 154 around the reel 116 by a predetermined length so as to allow a part of the cover tape 154 to serve as a leader portion 122. Thereafter, the piston rod 294 of the cutter receiver driving cylinder is retracted in the rearward direction, causing the 78 knife riceiver 286 to be retracted inside of the upper casing 110. At this time, the carrier tape 134 held in the suspended state in the downward direction due to its own dead weight is raised up by expanding the piston rod 658 of the tape projecting cylinder 656 again, and subsequently, the knife receiver 286 is displaced in the forward direction to reach the position directly below the carrier tape 134. Thereafter, the tape-shaped Package cutter 652 is actuated to cut the cover tape 154 and the carrier tape 134 at the same time.

When the tape-shaped package cutter 652 is actuated, a cut piece of the carrier tape 134 falls down away from the tape-shaped package 112. To discharge the foregoing cut piece of the carrier tape 134 to a predetermined location on the lower casing 106 side, a cuz zape piece discharging chute 660 is disposed at the lower part of the upper casing 110 adjacent to the tape cutting unit 648.

It should be noted that the structure z11 the tape cutting unit 648 should not be llmited only to the aforementioned one but any other type of hitherto known structure may be employed for the tape cutting unit 648.

In contrast with the second aspect of the present invention as mentioned above, according to a third aspect of the present invention, the tape shaped package cutter 652 serves as a cutter for 79 cutting only the cover tape 154, and moreover, it can cut both the cover tape 154 and the carrier tape 134 without any necessity for actuating the tape projecting cylinder 656. Specifically, when the tape cutting unit 648 is actuated to cut both the cover tape 154 and the carrier tape 134, the knife receiver 286 is inserted between the cover tape 154 and the carrier tape 134, and while the foregoing state is maintained, the carrie-r tame cutter 654 is actuated to..cut the carrie_r tape 134. Subsequently, after the reel driving shaft 114 is rotationally driven to wound the cover cape 154 around the reel 116 by a predetermined length so as tc allow a part of the cover tape 154 to serve as a leader portion 122, the tape-shaped package cutter 652 and the carrier tape cutter 654 are successively actuated to cut the cover tape 154 with the tape-shaped package cutter 652, and moreover, cut the carrier tape 134 with the carrier tape cu.::-.-er 6=-,':.

A pair of cover rape sucking blocks 662 are firmly secured to upper casing 110 while they are disposed along a conveyance path of the tape-shaped package 112 at the positions directly above the foregoing conveyance path in such a manner that one of them is located before the tape cutting unit 648 and the other one is located behind the same. A plurality of suction holes 664 are formed through each of the cover tape sucking blocks 662 in order to bring the tape-shaped package 112 in contact with close contact with the lower surface of each cover tape sucking block 662 by the air suction force induced by the sbction of air through the suction holes 664 while the tape-shaped package 112 slidably moves along the lower surface of each cover tape sucking block 662, and the respective suction holes 664 are communicated with a suction pump (not shown). Thus, as the suetlon pu.mp 1-s driven, the cover tape 154 is brought in close contact with the lower surface of each cover tace sucking block 662, and the suction pump is continuously driven for a period of time than elapses from the time when the leader portion 122 is formed to the time when the cover tape 154 passes past a tape confirming sensor 666 to be described later.

In this embodiment, the cover tape sucking blocks 662, the suction holes 664 and the suction pump are used as cover tape su,king means. However, it of course is obvious that otl-er type of structure applicable to these components -rather than the aforementioned one mav be emplcve,.' for the same purpose, provided that the cover tape 154 of the tape-shaped package 112 can reliably be brought in the sucked state when the tape-shaped package cutter 652 is actuated.

Fig. 31 schematically shows by way of plan view the structure of a tapeshaped package foremost end 81 guiding unit 130 for conducting the tape-shaped package 112 discharged from the pair of pinch rollers 126 and 128 to the empty reel 116 fitted onto the reel driving shaft 114 while seizing the foremost end of the tape-shaped package 112 therewith, Fig. 32 shows by way of front view the structure of a driving mechanism for driving the tape-shaped package foremost end guiding unit 130, Fig. 33 shows by way of sectional view the driving mechanism for driving the zape-shaped paCkage foremost end guiding unit 130 taken along line 33 33 in Fig. 32, and Fig. 34 shows by way of sectional view the driving mechanism -fo-- driving the same taken along line 34 - 34 in Fig. 32.

Specifically, the opposite ends of a slider guide rail 668 extending in the direction in parallel with the line extending from the tape cutting unit 648 to the reel driving shaft 114 are held between the tape cutting unit 648 and the reel driving shaft 114 on the rear side of the upper casing 110 with the aid of a bracket 670. A slider 324 inserted through an opening portion 326 formed through the upper casing 110 in parallel with the slider guide rail 668 and having the fore end part thereof projected on the front side of the upper casing 110 is slidably engaged with the slider guide rail 668. A clamp block 338 and a tape- shaped package guide arm 330 are assembled with the slide 82 324 at the fore end part of the latter.

The clamp block 338 is f irmly secured to one end of a clamp turn shaft 334 which rotatably extends through the slider 324 in the horizontal direction at a right angle relative to the conveying direction of the tape-shaped package 112, and a receiving plate portion 672 facing to the upper surface of the clamp block 338 with a gap held therebetween is formed integral with the slider 324. In addition, a clamp lever 342 is firmly connected to the other end of the clamp turn shaft 334, and a tension coil spring 344 is bridged between the foremost end of the clamp lever 342 and the foremcs-. end of a bracket 674 disposed on the slider 324. With this construction, a gap is formed between the clamp block 338 and the receiving plate portion 672 by the resilient force of the tension coil spring 344 as represented by solid lines in Fig. 29 so that the tapeshaped package 1-12 passes th-rough the gap formed between the clamo bIock 338 and the receiving. plate portion 672.

To properly maintain the gap between the clamp block 338 and the receiving plate portion 674 in such a manner as to allow it to assume an adequate magnitude, a lever stopper 676 is threadably attached to the bracket 674. In addition, to assure that a magnitude of the gap between the clamp block 338 and the receiving plate portion 672 is reduced 83 as represented by phantom lines in Fig. 29 by turning the clamp lever 342 in the anticlockwise direction against the resilient force of the tension coil spring 344with an operator's hand to assume 5 the state as represented by phantom lines in Fig. 32, an air cylinder 350 is firmly fitted to the bracket 674 to hold the fore end part of the tapeshaped package 112 between the clamp block 338 and the receiving plate portion 6- 21 in the clamped state.

Additionally, cc detect whecher or not the tapeshaped package 112 is caused to pass through the gap between the clamp block 338 and the receiving plate portion 672, a tape confirming sensor 666 is disposed directly above the receiving plate portion 672. When the tape confirming sensor 666 detects the fore end part of the tape-shaped package 112, the air cylinder 350 is actuated, causing the fore end part of the cape-s'l-laced pazkage 112 to be firmly held between the clamp 'Clock 338 and the receiving plate portion 672 in the Clamped state.

On the other hand, the zape-shaped package guide arm 330 having a tapeshaped package guide groove 332 formed thereon to slidably hold the tapeshaped package 112 on the upper surface thereof is firmly fitted onto an arm turn shaft 680 which rotatably extends through the slider 324 in the horizontal direction at a right angle relative to the direction 84 of conveyance of the tape-shaped package 112. To retain the tape-shaped package 112 slidably moving along the tape-shaped package guide groove 332 so as not to allow thh tape-shaped package 112 to be floated up from the tape-shaped package guide groove 332, the base end part of a leaf spring 358 is secured to the base end part of the tape- shaped package guide arm 330 by tightening screws. In addition, a turn lever 682 iS firmly fitted onto the arm turn shaft 680, and a zensicn coil spring 686 is spanned between the foremosz end of the turn lever 682 and a bracket 684 disposed on the slider 324. With this construction, the tape-shaped package guide arm 330 is horizontally oriented toward the reel driving shaft 114 by::he resilient force of the tension coil spring 686 as represented by solid lines in Fig. 28, whereby the foremost end of the tape-shaped package 112 can correctly be conducted to one of tape insert slots 1-20 formed through a hub core 118 of the reel 116.

To detect one of the tape insert slots 120 formed through the hub core 118 of the reel 116, an insert slot detecting sensor 452 is disposed on the lower surface of the tape-shaped package guide arm 330 at the foremost end of the latter. To this end, first, while the tape- shaped package guide arm 330 is held at the package delivering position, the foremost end of the tape-shaped package guide arm 330 is located near to the hub core 118 of the reel 116 while facing to the same. Subsequently, the reel 116 is rotationally driven together with the reel driving shaft 114 at a low rotational speed. When the insert slot detecting sensor 452 detects one of the tape insert slots 120 formed through the hub core 118 of the reel 116 while the foregoing rotating state is maintained, a detection signal is outputted from the insert slot detecting sensor 452 to a controlling unit (not shown) for a reel driving stepping motor 430 to be described later. In response to the detection signal outputted from the insert slot detecting sensor 452, the controlling unit controls the rotation of the reel driving shaft 114 in such a manner that after the reel driving shaft 114 is rotated by a predetermined angle, the rotation of the reel driving shaft 114 is interrupted, causing the tame-shaped package guide groove 322 of the tape- shaped package guide arm 330 to be linearly aligned with one of the tape insert slots 120 formed through the hub core 118 of the reel 116.

To assure that the foremost end of the tapeshaped package 112 is properly received in the tape- shaped package guide groove 332 of the tape-shaped package guide arm 330, a tape insert guiding air cylinder 688 is disposed at the tape-shaped package receiving position so as to turnably tilt the tape- 86 shaped package guide arm 330 as represented by phantom lines in Fig. 29. In addition, to assure that the tape-shaped package 112 is properly delivered betwen the upper surface of the clamp block 338 and the receiving plate portion 672 as the fore end part of the tape-shaped package 112 is fed in the forward direction, a tape projecting cylinder 656 is disposed at the position between the clamp block 338 located at the tar-e-s".,aped package receiving position and the kni-fe receive-r 286 of the tape cutting unit 648 so as zc allow the fore end part of the tape-shaped package 112 to be temporarily raised up by a piston rod 658 ofthe tape projecting cylinder 656.

A pair of toothed pulleys 690 and 692 are rotatably disposed at the opposite ends of the slider guide rail 668 as seen in the longitudinal direction of movement c,."" the slider 340 so that an endless toothed belt 694 is br.Ldged between both the toothed pulleys 690 and 692 whille extending around - them. The slider 324 is ccer-;=z--vel, connected to the endless toothed belt 694 via a connecting member 696, and a guide unit driving stepping motor 698 mounted on the upper casing 110 is operatively connected to one of the toothed pulleys 690 and 692 i.e., the toothed pulley 690.

Thus. the slider 324 can be displaced along the slider guide rail 668 in the rightward/ leftward 87 direction as seen in Fig. 32 via the endless toothed belt 694 by rotationally driving the guide unit driving stepping motor 698. To assure that the slider 324 is sopped not only at the tape-shaped package receiving position but also at the tapeshaped package delivering position, a receiving switch 702 and a delivering switch.704 are disposed at predetermined positions as seen in the longitudinal direction of movement of the slider 324 for the purpose of interrupting the rotation of the guiding unit driving stepping motor 698 by detecting a plate-shaped dog 700 projected downward of the slider 324. Specifically, when the dog 700 is detected by the receiving switch 702, the rotation of the guiding unit driving stepping motor 698 is interrupted, whereby the slider 324 is located at the tape-shaped package receiving position in the vicinity of the tape cutt4Lng unit 648. In addition, when the dog 700 is detected by the delivering switch 704, the rotation of the guiding,unit driving stepping motor 698 is interrupted, whereby the foremost end of the tape-shaped package guide arm 330 is received in the hollow space defined by the flange portions 456 of the reel 116 so that it is located at the tape-shaped package delivering position facing to the outer periphery of the hub core 118 of the reel 116.

As the tape-shaped package 116 is increasingly 88 wound around the reel 116, the guiding unit driving motor 698 is gradually displaced from the tapeshaped package delivering position toward the package receividg position in the rearward direction so that the distance between the foremost end of the tape-shaped package guide arm 330 and the outer periphery of the tape-shaped package 112 wound around the reel 116 is kept substantially constant. To prevent any occurrence of a rnalfunc--icn that the foremost end of the tape-shaped package guide arm 330 collides against the flange portions 465 of the reel 116 during the displacement of the tape-shaped package guide arm 330 from the tape-shaped package receiving position to the tape-shaped package delivering position, a flange widening air cylinder 450 including a flange widening member 458 (see Fig. 28) is arranged in the uiDper casing 1.10 a-- the position below the tape-shaped package foremost end guiding unit 130 so as to resiliently enlarge a distance between both the flange portion's 456 of thereel 116.

Specifically, when a rotational phase of the reel 116 fitted onto the reel driving shaft 114 is correctly indexed in order to assign the foremost end of the tape-shaped package 112 to one of the tape insert slots 120 formed through the hub core 114 of the reel 116, the flange widening air cylinder 450 is actuated so as to allow the flange 89 widening member 458 to be projected toward the reel 116 side, causing a distance between both the flange portions 456 to be enlarged by the wedge- shaped foremost end pgrt of the flange widening member 458.

Subsequently, when the guide unit driving stepping motor 698 is rotationally driven while the foregoing state is maintained, the fore end part of the tapeshaped package guide arm 330 is brought in the hollow space of the reel 111-06, and thereafter, the flange widening member 45-8 -c -retracted away from the reel 116 by actuating the flange widening air cylinder 450 again. While this state is maintained, a next rotational phase of the reel 115 can be indexed.

Fig. 35 shows by way of sectional view the structure of a reel attaching/detaching unit 140 for the tape winding apparatus C=structed in accordance with this embodiment of the present invention. Specifically, a subframe 390 having a heavy thickness is immovably arranged inside of the upper. casing 110 while extending in parallel with the upper casing 110. The right-hand end of a cylindrical driving shaft holder 394 is firmly fastened to the upper casing 110 while the cylindrical driving shaft holder 394 is located between the upper casing 110 and the subframe 390, and the reel driving shaft 114 is rotatably suppor-ted by a pair of bearings 398 while extending through the driving shaft holder 394. A reel driving stepping motor 430 is operatively connected to the left-hand end of the reel driving shaft 114 via a joint 706'. As the reel driving motor 430 is rotationally driven, the reel 116 fitted onto the reel driving shaft 114 is rotated. In addition, a disc 708 having a number of radially extending cutouts formed along the outer periphery thereof is firmly fitted onto the left-hand end part of the reel driving shaft J1.14, and a reel rotational position indexing sensor 710 is fastened to the subframe 390 via a bracket 712 in order to index the rotational phase of the reel -1116 relative to the reel driving shaft 114 to a predetermined position by detecting a quantity of rotation of the disc 708.

In response to a detection signal outputted from the encoder 188, the insert slot detecting sensor 452, the receiving switch 702, the delivering switch 704, the reel rotational position indexing sensor 710 or a cutout detecting sensor 714 to,be described later, the controlling unit (not shown) can arbitrarily change the present rotational speed of the reel driving shaft 114 to another one in conformity with a command issued therefrom.

Basically, the controlling unit controls the rotation of the reel driving shaft 114 in such a manner that the reel driving shaft 114 is rotated at a low rotational speed at the time of winding of the 91 tape-shaped package 112 around the reel 116 as well as directly before completion of the winding operation, it is rotated at a high rotational speed for a period of time other than the aforementioned one, and the rotation of the reel driving shaft 114 is interrupted when the reel 116 is exchanged with another one.

An engagement pawl 414 adapted to be engaged with one of engagement grooves 412 formed along the reel hole 4'08 at the central part of the reel 116 is turnably disposed at the right-hand end part of the reel driving shaft 114 to turn about a pin 716 in the radial direction (i.e., in the upward/downward direction as seen in Fig. 35), and the fore end part of the engagement pawl 414 is normally biased in the radial direction (i. e., in the upward direction as seen in Fig. 35) by the resilient force of a compression coil spring 415 received in the righthand end of the reel driving shaft 114. However, a largest quantity of turning movement ofthe engagement pawl 414 in the upward direction is restrictively limited by a stopper 718. With this construction, when the engagement pawl 414 is not correctly aligned with the engagement groove 412, the fore end part of the engagement pawl 414 is forcibly retracted inside of the outer peripheral surface of the reel driving shaft 114 but when the engagement pawl 414 is correctly aligned with the 92 engagement groove 412, the fore end part of the engagement pawl is turnably projected outside of the outer peripheral surface of the reel driving shaft 114 to come in e;ngagement with the engagement groove 412, whereby the reel 116 is followably rotated by the reel driving shaft 114.

To detach the reel 116 having a tape-shaped package 112 wound therearound away from the reel driving shaft 114, an annuIar thrusting plate 432 is disposed in.' the concentrical relationship relative to the reel driving shaft 114 in such a manner as to surround the latter therewith, and a plurality of guide rods 436 are firmly secured to the rear surface of the reel thrusting plate 432 while slidably extending through a plurality of guide bushes 434 fitted to the upper casing 110. The left hand ends of the guide rods 436 are fixed to an annular connecting plate 438 disposed in such a manner as to surround the driving shaft holder 394 with the annular connecting plate 438, and a piston rod 444 of a reel discharging air cylinder 442 fastened to the subframe 390 via a bracket 440 is operatively connected to the annular connecting plate 438.

With this construction, when the reel discharging air cylinder 442 is actuated so as to allow the piston rod 444 to be expanded, the reel thrusting plate 432 located at the retracted 93 position as shown in Fig. 35 is displaced in the forward direction to reach a position represented by phantom lines in the drawing, whereby the reel 116 fitted onto the reel driving shaft 114 is thrusted to a reel receiving/delivering shaft 416 as the above-mentioned first embodiment which is located opposite to the reel driving shaft 114.

In this embodiment, as shown in Fig. 35 and Fig. 36 which shows by way of front view the appearance of the reel,"116, because of a necessity for adhering a label 650 to a label adhering portion 720 formed on one of the flange portions 456 of the reel 116 with the aid of a label adhering unit to be described later, a cutout portion detecting sensor 714 is secured to the upper casing 110 for the purpose of detecting a cutout portion 722 formed on the outer periphery of one of the flange portions 456 of the reel 116. When the cutout portion detecting sensor 714 detects the cutout portion 722 formed on the flange porz.4.on 456 of the. reel 116, x detecting signal is inputted into the controlling unit (not shown) for the reel driving stepping motor 430. In response to the detecting signal outputted from the cutout portion detecting sensor 714, the controlling unit serves to rotate the reel driving shaft 114 by a predetermined angle, and thereafter, interrupt the rotation of the reel driving shaft 114. Thus. when the reel 116 is conveyed to the 94 label adhering unit with the aid of the reel receiving/delivering unit 144 while the foregoing state is maintained, a desired label adhering position on the 'flange portion 456 of the reel 116 can exactly be indexed for a label 650 to adhere thereto.

It should be noted that the structure of the reel attaching/detaching unit 140 should not be limited only to the aforementioned one constructed in accordance with this embodiment buy any other type of hitherto known structure may be employed for the reel attaching/detaching unit 140.

As shown in Fig. 28, an end seal feeding reel 464 is rotatably and detachably disposed at the upper end of the upper casing 1.10 for an end seal feeding unit 138 which serves zG adhesively connect an end seal 124 to the terminal end of a leader portion 122, and a release liner 466 having a plurality of ribbon- shaped end seals 124 adhesively attached thereto in the ecr-,ally spaced relationshipis wound around the end seal feeding reel 464. A release liner winding shaft 472 is rotatably fitted to the upper casing 110 at the position leftward of the end seal feeding reel 464 so that the used release liner 466 is wound around the release liner winding shaft 472.

To peel an end seal 124 away from the release liner 466 at the foremost end of the end seal 124, a wedge-shaped peeling plate 478 is firmly secured to the upper casing 110 at the Position located above the tape-shaped package guide arm 330 disposed at the tape- shaped package receiving position of the tape-shaped package foremost end guiding unit 130. and a pair of retaining rollers 480 and 482 are rotatably disposed on the upper casing 110 in such a manner that the first retaining roller 480 is located above the wedge-shaped peeling plate 478 and the second retaining roller 482 is located below the same. With such construction, as the release liner 466 is unwound from the end seal feeding reel 464, it is delivered to the release liner winding shaft 472 via the first retaining roller 480, the wedge- shaped peeling plate 478 and the second retaining roller 482. At this time, since the direction of conveyance of the release liner 466 is sharply changed at the foremost end of the wedge-shaped peeling plate 478, each end seal 124 is reliably peeled away from the release liner 466, causing it to be projected forward of the foremost end of the wedge-shaped peeling plate 478.

A tape retaining roller 724 for depressively retaining the release liner 466 and an end seal detecting sensor 492 located downstream of the tape retaining roller 724 for detecting whether an end seal 124 is adhesively attached to the release liner 466 or not are arranged between the end seal feeding 96 reel 464 and the first retaining roller 480, and the tape retaining roller 724 is rotatably supported on the upper casing 110. In addition, a pair of pinch rollers 498 and 500 are arranged between the second retaining roller 482 and the release liner winding shaft 472 for holding the release liner 466 in the clamped state therebetween. One of the pair of pinch rollers 498 and 500, i.e., the driving pinch roller 498 is operatively connected to a release liner driving motor 516 adapted to be intermittently rotationally driven, and zhe idling pinch roller 500 is rotatably supported at zhe L'oremost end of a turn lever 510 adapted to turn about a pivotal shaft 508 firmly fitted to the upper casing 110. To normally bias the idling pinch roller 500 toward the driving pinch roller 498, spring means (not shown) is disposed on the pivotal shaft 508 for the purpose of applying a certain intensity of resilient force to the turn lever 510.

The release liner driving motor 516 is intermittently rotationally driven every time a leader portion 122 is formed by actuating the tape shaped package cutter 652 of the tape cutzing unit 648. Specifically, the release liner driving motor 516 starts to be rotated at a low rotational speed in synchronization with the rotation of the reel driving stepping motor 430 immediately after the cover tape 154 is cut by the tape-shaped package 97 cutter 652, causing the release liner 466 to be conveyed at the speed corresponding to the speed of conveyance of the leader portion 122. When the foremost end of'the end seal 124 is adhesively connected to the rearmost end of the leader portion by the adhering power of the end seal 124, and subsequently, the used release liner 466 is wound around a release liner winding reel 474 by a predetermined length, the rotation of the release 1 C liner driving motor 516 is interrupted.

As shown in Fig. 28, 'Fig. 37 and Fig. 38 that is a sectional view taken along line 38 - 38 in Fig.

37, a bearing bush 536 for rotatably supporting a tape retaining shaft 534 is fastened to the upper casing 110 at the position above the reel driving shaft 114 by tightening screws, and a tape retaining roller 540 adapted to be brought in.--he hollow space between both the flanges 456 of the reel 16 is rotatably held at the foremost end of a turn lever 538 fitted onto the tape retaining shaft 534 which extends through the upper casing 110 and the bearing bush 536. The tape retainer roller 540 is caused to turn about the tape retaining shaft 534 in the clockwise direction as seen in Fig. 37 by its own dead weight, and as the tape-shaped package 112 is wound around the reel 116, the tape retaining roller 540 serves to thrust the tape-shaped package 112 toward the outer periphery of the hub core 118 in 98 order to prevent each end seal 124 from incorrectly adhering to the tape-shaped package 112. A plurality of suction holes 726 are formed on the surface of the turn lever 538 facing to the reel 116, i.e., the lower surface of the turn lever 538 for bringing the leader portion 122 and the end seal 124 in close contact with the suction holes 726 by the air suction force so as to prevent them from being vibratively displaced toward and away from the tape-shaped package 112 wound around the reel 116, and a suction pump (not shown) is communicated with the respective suction holes 7206 via a communication path 728. With this construction, when the suction pump is driven, the leader portion 122 and the end seal 124 are wound around the reel 116 by allowing them to slidably move along the lower surface of the turn lever 538 while they are brought in close contact with the lower surface of the turn lever 538.

A retaining roller escape cylinder 544 is fastened to the inner wall surface of the upper easing 110 by tightening screws while facing to an escape lever 542 firmly fitted onto the inner end of the tape retaining shaft 534. As a piston rod 546 of the retaining roller escape cylinder 544 is expanded, the foremost end of the piston rod 546 collides against the escape lever 542. As a result, the turn lever 538 is turnably displaced away from 99 the reel 116 together with the tape retaining roller 540 via the escape lever 542 in the anticlockwise direction as seen in Fig. 28 with the tape retaining shaft 534 as a denter. Now, the reel 116 is ready to be attached to and detached from the reel driving shaft 114.

It should be noted that the structure of the end seal feeding unit 138 should not be limited only to that described above in connection with this embodiment but any other type of hitherto known structure may be employed -.Ocr the end seal feeding unit 138.

The sectional structure of the reel receiving/delivering unit 144 for feeding an empty reel 116 to the reel driving shaft 114 and receiving the reel 116 having a tape-shaped package 112 wound therearound from the reel driving shaft 114 is entirely same to that as described above with respect to the preceding embodiment with reference to Fig. 23.

The label adhering unit as mentioned above is mounted on the upper end of the stocker housing 578. A label feeding reel 732 and a release liner winding reel 734 are rotatably fitted to the front surface of a casing 730 for the label adhering unit located substantially above the recovered reel storage station 576. A release liner 736 having a plurality of substantially rectangular labels 650 adhesively attached thereto in the equally spaced relationship as seen in the longitudinal direction of the release liner 736 is wound around the label feeding reel 732. In additiofi, a ribbon feeding reel 740 having an ink ribbon 738 wound therearound and a ribbon winding reel 742 for winding a used ink ribbon 738 therearound are rotatably arranged directly below the label feeding reel 732, and moreover, a printing head 744 for printing informations such as bar codes or the like:on each label 650 is disposed below the ribbon feeding reel 740 and the ribbon winding reel 742.

A wedge-shaped peeling plate 746 for peeling each label 650 away from the release liner 736 is disposed directly below the printing head 744 with a substantially horizontal attitude, and as the release liner 736 is unwound from the label feeding reel 732, it is delivered to the release liner winding reel 734 via the printing head 744 and the peeling plate 746. Since the direction of conveyance of the release liner 736 is sharply changed at the peeling pate 746, each label 650 is reliably peeled away from the release liner 736, and thereafter, it is projected from the foremost end of the peeling plate 746 in the forward direction. During the conveyance of the release liner 736 in that way, necessary informations are printed on each label 650 by activating the printing head 744.

101 A printing operation driving motor (not shown) adapted to be intermittently driven is disposed In the casing 730 for the label adhering unit, and the release liner winding reel 734 and the ribbon winding reel 742 are operatively connected to the printing operation driving motor. The printing operation driving motor is intermittently driven every time the reel 116 having a tapeshaped package 112 wound therearound is delivered to the recovered reel storage station 576, whereby the label 650 having predetermined necessary informations printed thereon is projected f rom the fforemost end of the peeling plate 746 in the forward direction. A label adhering air cylinder 748 is disposed on the casing 730 of the label adhering unit in such a manner that it is located opposite to the label adhering portion 720 on the reel 116 on the recovered reel conveyance zable 624 arranged at the recovered reel storage s-l-a:-4on 576, and a label suction pad 752 for holding the label 650 projected from the foremost end of the peeling plate 746 by the air suction force is attached to the foremost end of a piston rod 750 of the label adhering air cylinder 748. The piston rod 750 of the label adhering air cylinder 748 is reciprocably displaced between the peeling plate 746 and the label adhering portion 720 on the reel 116 placed on the recovered reel conveying table 624 of the recovered reel 102 storage station 576 in the upward/ downward direction so that each label 650 having predetermined desired informations printed thereon is caused to adhere to the label adhering portion 720 on the reel 116.

* While the tape-shaped package 112 is wound around the reel 116 by actuating the tape winding unit, the label suction pad 752 is held in the standby position sideward of the peeling plate 746.

Before the reel 116 on the recovered reel conveying table 624 is conveyed to the recovered reel storage station 576 by actuating the rodless cylinder 628, the printing operation driving motor is intermittently driven, and after necessary bar code informations are printed on a predetermined location on one of the labels 650 adhesively attached to the release liner 736 in the equally spaced relationship by activating the printing head 744, the printing operation driving motor is intermittently driven so as to allow the label 650 having bar code informations printed thereon to be peeled away from the peeling plate 746.

The label 650 peeled away from the release liner 736 is sucked to the label suction pad 752 held in the standby position. When the reel 116 is conveyed to the recovered reel storage station 576, the piston rod 750 of the label adhering air cylinder 748 is expanded from the standby position in the 103 downward direction, causing the label 650 to be thrusted against the label adhering portion 720 formed on one of the flange portions 456 of the reel 116 placed on the recovered reel conveyance table 624. Subsequently, when a suction operation performed by the label suction pad 752 is stopped and the piston rod 750 of the label adhering a' i r cylinder 748 is then restored to the original standby position, the adhesion of each label 650 to the label adhering portion 720 on the reel 116 is completed.

Thereafter, the reel retainer 640 is projected between the standby position of the reel receiving/delivering unit 144 and the recovered reel storage station 576, and subsequently, the recovered reel conveyance table 624 is returned to the reel receiving/delivering unit 144.

While the present invention has been described above with respect to two preferred embodiments thereof, it should of course be understood that the present invention should not be limited only to thete embodiments but various change or modification may be made without any departure away from the scope of the present invention as defined by the appended claims.

104

Claims (3)

1. Apparatus for winding for a predetermined length of tapeshaped package strip onto a reel, the tape-shaped package strip being of the type comprising a carrier strip provided along its length with a plurality of pockets longitudinally spaced one from the other and each shaped to house a workpiece, a succession of which workpleces are to be supplied to a work-station by the process of longitudinally advancing the package strip to the work-station, and a cover tape sealed to the upper surface of the carrier strip to enclose and seal those workpleces within their individual pockets in the carder strip, said predetermined length of tape- shaped package strip further compris' g at its tail end a leader strip which is to be wrapped around and sealed to the outermost coil of the package strip when wound onto said reel thereby to secure the wound strip in place on the reel; said apparatus comprising:

a stub shaft for receiving the reel onto which the package strip is to be wound; - means for driving the stub shaft to wmd the package strip onto the reel; a pair of pmich rolls for receiving the package strip from a packaging station in which the workpleces are charged to the pockets in the carrier strip and sealed therein by the attachment of the cover tape to the carrier strip, and for feeding the package strip along a feed path to a reel mounted on the stub shaft; means for attaching an adhesive seal to the terminal end of the leader strip as it approaches the reel; and means for guiding the said terminal end of the leader strip into the reel and sealingly engaging the terminal end to the underlying coil of the wound strip; said guiding and engaging means comprising an arm mounted for rotation about an axis parallel to and spaced from the axis of the stub shaft; a roller rotatably mounted on the distal end of the said arm and, in use,, rotatably engaging the outermost cod of the packaging strip and applying an inwardly directed radial pressure thereto as it is wound onto the reel and finally to the leader strip as it is wound about the coiled length of packaging strip, thereby to press the terminal end of the leader strip, which carries the said adhesive seal, firmly against the outermost coil of the strip, thereby to sealingly engage the terminal end of the leader strip by means of said adhesive seal to the underlying outermost coil of packaging strip, or to itself, depending on the length of the leader strip in relation to the diameter of the coil. of packaging strip when wound onto the said reel; suction means positioned on said arm and operative, when suction is applied thereto, to suck the leader strip, as it is wound onto the reel, towards the said am thereby to maintain the alignment of the leader strip and its terminal end with the reel as it is wound thereon; and 106 means for rotating said arm about said axis at the end of the winding operation, thereby to disengage the roller from the wound strip and permit the removal of the loaded reel from its mounting on the stub shaft.

2. Apparatus according to claim 1, wherein the rotation axis of said arm is positioned above and parallel to the axis of the stub shaft and where m the said arm is rotatable M" one direction about said axis under its own weightso that in use the roller rests under the force of gravity on the package strip and the leader strip as they are wound onto the reel mounted on the stub shaft, the means for rotatmig said arm about said axis at the end of the winding operation being operable to rotate said arm m the opposite direction against the force of gravity thereby to disengage the roller from the strip and from said reel at the end of the winding operation.

3. Apparatus according to claim 2, wherein the suction means comprise a series of suction ports spaced one from the other along the underside of the said arm and communicating with a common suction passageway extending along the length of the arm and by means of which a suction may be applied to said ports to draw the leader strip towards the underside of the aim and to hold it there as the leader strip is wound onto the reel.