JPWO2017109846A1 - Reel holding device - Google Patents

Abstract

  The present invention is a reel holding device (1) for holding a tape reel (71) around which a carrier tape (72) is wound in a rotatable and replaceable manner, and corresponding to a plurality of feeders (8). A parent bucket (2) capable of holding a child, a child bucket (3) held detachably with respect to the parent bucket, and a plurality of tape reels formed side by side in the width direction and held near the feeder of the child bucket A front reel holder portion (4), a rear reel holder portion formed on the side away from the feeder of the child bucket and holding a plurality of tape reels arranged in the width direction, and (5). According to this, since a member such as a side plate or a partition plate is unnecessary between the tape reels arranged in the width direction of the front reel holder portion and the rear reel holder portion, the reel holding device is limited. Can hold a large number of tape reels in the width dimension.

Description

  The present invention relates to a reel holding device that is used in combination with a feeder equipped in an electronic component mounting machine and rotatably holds a tape reel on which a carrier tape is wound.

  As equipment for producing a substrate on which a large number of components are mounted, there are a solder printer, an electronic component mounting machine, a reflow machine, a board inspection machine, and the like. It has become common to configure a substrate production line by connecting these facilities. Among these, the electronic component mounting machine includes a substrate transfer device, a component supply device, a component transfer device, and a control device. As a typical example of the component supply apparatus, there is a feeder that feeds out carrier tapes each storing components in a plurality of component storage units. In combination with this feeder, a reel holding device that holds a tape reel on which a carrier tape is wound in a rotatable and replaceable manner is used. One technical example regarding this type of reel holding device is disclosed in Patent Document 1.

  Patent document 1 is disclosing the reel holder mounted in the component supply part of an electronic component mounting machine. This reel holder has first and second reel holder portions for holding a reel on which a carrier tape is wound and stored, and the two reel holder portions are arranged in series in the tape feeding direction. According to this, a plurality of reels can be held, and in particular, a preceding reel and a succeeding reel can be held with good workability in a splicing-less feeder (auto loading feeder).

Japanese Patent Laying-Open No. 2015-53309

  By the way, in the technical example of patent document 1, in order to abbreviate | omit splicing work, two tape reels are used for one feeder (auto loading feeder). When arranging such new type feeders in the width direction, it is necessary to hold a larger number of tape reels than in the past. However, in the technical example of Patent Document 1, two side plate portions are used to form the front and rear two reel holder portions, and the dimension in the width direction of the component holder is large. For this reason, the case where the arrangement pitch of a component holder becomes larger than the arrangement pitch of the feeder arranged in a row arises. As a result, the number of tape reels held by the component holder is insufficient with respect to the new feeders arranged in a row.

  Also, the feeders are often compatible so that they are arranged regardless of the type or structure. However, in the technical example of Patent Document 1, a case where a plurality of types of feeders are used together is not considered.

  The present invention has been made in view of the above-mentioned problems of the background art, and by reducing the arrangement pitch in the width direction of the tape reels held at two front and rear positions, a large number of tape reels having a limited width dimension can be obtained. It is an object to be solved to provide a reel holding device that can hold the reel.

  The reel holding device of the present invention that solves the above-mentioned problems is used in an electronic component mounting machine in combination with a feeder that feeds out carrier tapes each storing a component in a plurality of component storage units and can collect the component at a supply position. A reel holding device that rotatably and replaceably holds a tape reel on which the carrier tape is wound, wherein the tape corresponds to a plurality of the feeders arranged in the width direction of the electronic component mounting machine. A parent bucket that can hold a reel, a child bucket that is detachably held with respect to the parent bucket, and a side closer to the feeder of the child bucket, and a plurality of the tape reels are held side by side in the width direction. A plurality of tape reels arranged in the width direction and formed on a side of the child bucket away from the feeder. A side reel holder after holding, with a.

  In the reel holding device of the present invention, the front reel holder portion and the rear reel holder portion formed in the child bucket respectively hold a plurality of tape reels in the width direction. Further, since members such as side plates and partition plates are unnecessary between the tape reels arranged in the width direction, the arrangement pitch in the width direction of the tape reels can be reduced. Therefore, the reel holding device of the present invention can hold a large number of tape reels with a limited width dimension.

It is a top view which shows typically the whole structure of the electronic component mounting machine using the reel holding device of embodiment. It is a perspective view which shows the detailed structural example of a device pallet and a parent bucket. It is a perspective view of a child bucket. It is a perspective view in the state where a child bucket held a tape reel. It is a partial expansion perspective view explaining the support structure of the 1st levitation prevention mechanism. It is a partial expansion perspective view explaining the support structure of the 2nd levitation prevention mechanism. It is a side view of the reel holding device of embodiment which attached the child bucket to the parent bucket. It is a perspective view of the front child partition plate used for a front reel holder part. It is a perspective view of the rear child partition plate used for a rear reel holder part. It is a side view of the component holding device of the 1st reference form. It is a side view of the child bucket which comprises the component holding device of the 2nd reference form.

(1. Overall configuration of electronic component mounting machine 9)
A reel holding device 1 according to an embodiment of the present invention will be described with reference to FIGS. First, the overall configuration of the electronic component mounting machine 9 using the reel holding device 1 will be described. FIG. 1 is a plan view schematically showing an overall configuration of an electronic component mounting machine 9 using the reel holding device 1 of the embodiment. The direction from the left side to the right side in FIG. 1 is the X-axis direction for loading and unloading the substrate K, and the direction from the rear side on the lower side to the front side on the upper side is the Y-axis direction. The electronic component mounting machine 9 is configured by assembling a substrate transport device 92, a component supply device 93, a component transfer device 94, a component camera 95, a control device 96, and the like on a machine base 91. The substrate transfer device 92, the component supply device 93, the component transfer device 94, and the component camera 95 are controlled by the control device 96, and each performs a predetermined operation.

  The substrate transfer device 92 includes a substrate transfer unit 925, a backup unit 926, and the like. The substrate transport unit 925 includes a pair of guide rails 921 and 922, a pair of conveyor belts, and the like, and carries the substrate K to and from the mounting position. The backup unit 926 is disposed below the mounting execution position, and pushes up the substrate K for positioning.

  The component supply device 93 is configured based on the device pallet 98 and the bucket member. The device pallet 98 is a substantially rectangular member, and a plurality of feeders 8 are arranged on the upper surface. The device pallet 98 is detachably mounted behind the machine base 91. A bucket member is disposed on the rear side of the device pallet 98. The bucket member is a member corresponding to the parent bucket 2 of the present invention. Detailed configurations of the device pallet 98 and the parent bucket 2 will be described later.

  The component transfer device 94 sucks and collects components from the plurality of feeders 8 and transports and mounts them to the positioned substrate K. The component transfer device 94 is an XY robot type device that can move horizontally in the X-axis direction and the Y-axis direction. The component transfer device 94 includes a pair of Y-axis rails 941 and 942 and a Y-axis slider 943 constituting a head driving mechanism, a mounting head 944 driven in the X-axis direction and the Y-axis direction, a nozzle tool 945, a suction nozzle 946, And a substrate camera 947 and the like. The nozzle tool 945 holds the suction nozzle 946 on the lower side while being exchangeably held by the mounting head 944. The suction nozzle 946 sucks components and attaches them to the substrate K. The substrate camera 947 is provided on the mounting head 944 and images a position reference mark attached to the substrate K to detect an accurate position of the substrate K.

  The component camera 95 is provided upward on the upper surface of the machine base 91 between the substrate transfer device 92 and the component supply device 93. The component camera 95 images the state of the component sucked by the suction nozzle 946 while the mounting head 944 moves from the feeder 8 onto the substrate K. The control device 96 is assembled to the machine base 91, and the arrangement position thereof is not particularly limited. The control device 96 controls the component mounting operation according to a previously stored mounting sequence.

  Next, detailed configurations of the device pallet 98 and the parent bucket 2 will be described. FIG. 2 is a perspective view illustrating a detailed configuration example of the device pallet 98 and the parent bucket 2. The device pallet 98 is formed such that an upright portion 983 is erected at the front end of a substantially rectangular flat portion 981. On the flat surface portion 981, slots 982 extending in the front-rear direction (Y-axis direction) are engraved along the width direction (X-axis direction). Positioning holes and connectors are respectively provided at positions corresponding to the slots 982 of the upright portion 983.

  Each of the feeders 8 is inserted from the rear side of the slot 982 of the device pallet 98 to the front, and is mounted side by side in the width direction (X-axis direction). FIG. 2 illustrates a state in which one conventional feeder 8 is mounted. Actually, a maximum of 20 feeders 8 are arranged in the device pallet 98. The positioning pin provided on the front surface of the feeder 8 is fitted into the positioning hole of the upright portion 983. Thereby, the attachment position of the feeder 8 with respect to the device pallet 98 is determined. At the same time, the connector provided on the front surface of the feeder 8 is fitted to the connector of the upright portion 983. As a result, the feeder 8 is connected to the control device 96 in communication and supplied with power. The tape discharge duct 985 disposed on the machine base 91 discharges the used carrier tape 72 coming out of the feeder 8 downward.

  The feeder 8 has a tape insertion opening 81 in the vicinity of the intermediate height at the rear. A feed-out rail 82 is disposed from the tape insertion port 81 of the feeder 8 toward the upper part of the front end. A component supply position 83 is set on the upper surface near the front end of the feed rail 82. A sprocket 84 is rotatably supported on the lower side behind the supply position 83 of the feed rail 82. The teeth of the sprocket 84 protrude from the groove formed in the feed rail 82 and fit into the sprocket hole of the carrier tape. The sprocket 84 is intermittently rotated by a motor (not shown), pulls out the carrier tape 72 from the tape reel 71 and feeds it to the component supply position 83 by a predetermined pitch. A tape peeling mechanism (not shown) is provided at a position near the sprocket 84 on the upper surface of the feed rail 82.

  The feeder arranged on the device pallet 98 is not limited to the conventional feeder 8 described above. For example, a splicing-less feeder (auto loading feeder) disclosed in Patent Document 1 that does not require the splicing operation of the carrier tape 72, or a multi-feeder that supplies two types of parts by alternately moving the two carrier tapes 72 back and forth. (For example, refer to Japanese Patent No. 4856761) can also be arranged. Since the new type splicing-less feeder and multi-feeder (hereinafter abbreviated as “new type feeder”) are used with two carrier tapes 72 inserted, two tape reels 71 are required per unit.

  The parent bucket 2 can hold the tape reel 71 corresponding to the conventional feeders 8 arranged in the width direction of the electronic component mounting machine 9. That is, it is possible to configure the component supply device 93 using the parent bucket 2 to supply one tape reel 71 for each feeder 8 and not using the child bucket 3 described later. The parent bucket 2 may be an existing bucket member provided in an existing electronic component mounting machine 9 or may be a part of a newly manufactured electronic component mounting machine 9. The parent bucket 2 includes two arm members 21, two side plates 22, four parent roller shafts 231 to 234, a plurality of parent support rollers 241 to 244, two parent partition plate holding shafts 251 and 252, and It is composed of a plurality of parent partition plates 26 and the like.

  The two arm members 21 are fixed to the rear portions on both sides in the width direction of the flat portion 981 of the device pallet 98. The arm member 21 is formed so as to extend in the horizontal rear at first, then incline toward the rear downward direction, and finally extend in the horizontal rear. A handle 28 is provided by connecting the rear portions of the two arm members 21. By pulling the handle 28, the entire component supply device 93 can be removed rearward from the electronic component mounting machine 9.

  Side plates 22 are respectively disposed on the upper side of the inclined portion and the rear horizontal portion of the two arm members 21. The two side plates 22 are arranged in parallel at a separation distance wider than the width dimension of the device pallet 98. The side plate 22 is formed with a large front side and a small rear side. Between the two side plates 22, four parent roller shafts 231 to 234 and two parent partition plate holding shafts 251 and 252 are bridged.

  The lower three main roller shafts 231 to 233 are arranged near the front side, near the center, and near the rear side of the lower portion of the side plate 22. The upper single parent roller shaft 234 is disposed near the front side of the upper portion of the side plate 22. Each of the parent roller shafts 231 to 234 rotatably supports a plurality of parent support rollers 241 to 244 (shown in FIG. 5) on the outer periphery. The width dimension of each of the parent support rollers 241 to 244 is slightly larger than the width dimension of the tape reel 71. Instead of the parent roller shafts 231 to 234 and the parent support rollers 241 to 244, it is possible to use a parent support shaft having a smooth outer peripheral surface.

  The tape reel 71 is placed between the parent roller shaft 231 on the front side and the parent roller shaft 232 near the center, or between the parent roller shaft 232 near the center and the parent roller shaft 233 on the rear side. Retained. Accordingly, the two sets of front and rear parent support rollers 241 and 242 or the two front and rear sets of parent support rollers 242 and 243 are paired to rotatably support the lower outer periphery of the tape reel 71. Further, the parent support roller 244 of the upper parent roller shaft 234 guides the carrier tape 72 fed from the tape reel 71 to the tape insertion port 81 of the feeder 8.

  The parent partition plate holding shafts 251 and 252 are disposed near the upper part of the front side of the side plate 22 and near the rear end of the side plate 22. The two front and rear parent partition plate holding shafts 251 and 252 hold the plurality of parent partition plates 26 in a detachable manner. The parent partition plate 26 can be inserted between the tape reels 71 and is held substantially parallel to the side plate 22. In the configuration example of FIG. 2, the main partition plate 26 is inserted every two tape reels 71.

(2. Configuration of the reel holding device 1 of the embodiment)
When new feeders are arranged in the device pallet 98, the number of tape reels 71 held in the parent bucket 2 is insufficient. Therefore, the reel holding device 1 according to the embodiment of the present invention is used. The reel holding device 1 according to the embodiment includes a parent bucket 2, a child bucket 3, a front reel holder portion 4 and a rear reel holder portion 5 formed in the child bucket 3. FIG. 3 is a perspective view of the child bucket 3. FIG. 4 is a perspective view showing a state where the child bucket 3 holds the tape reel 71.

  As shown in FIG. 3, the child bucket 3 includes two side plates 31, five connecting shafts 321 to 325, five roller shafts 326 to 329, 32 A, and two child partition plate holding shafts 331 and 332. , And two sets of anti-floating mechanisms 36, 37, and the like. The side plate 31 is a plate material that is long in the front-rear direction and narrowed at the middle part in the front-rear direction. The two side plates 31 are spaced apart from each other and arranged in parallel.

  An upper mounting groove 311 extending in the front-rear direction is formed in the upper front end of the two side plates 31. A lower mounting groove 312 extending in the front-rear direction is formed at the lower front end of the two side plates 31. Further, a bowl-shaped bottom mounting groove 313 is formed below the middle part of the two side plates 31. The upper mounting groove 311 and the bottom mounting groove 313 are used when the child bucket 3 is mounted on the parent bucket 2. The lower mounting groove 312 is used in combination with the upper mounting groove 311 in another application, for example, when the child bucket 3 is kept in a storage place.

  A front reel holder portion 4 is provided near the front side of the internal space between the two side plates 31, and a rear reel holder portion 5 is provided near the rear side of the internal space. The separation distance between the two side plates 31 is set according to the number of tape reels 71 held. In this embodiment, as shown in FIG. 4, ten tape reels 71 are respectively held in the width direction in the front reel holder portion 4 and the rear reel holder portion 5.

  Between the two side plates 31, five round bar-shaped connecting shafts 321 to 325 are bridged. The first connecting shaft 321 is disposed on the lower side near the groove opening of the upper mounting groove 311. The second connecting shaft 322 is disposed on the lower side near the groove opening of the lower mounting groove 312. The third connecting shaft 323 is disposed near the bottom of the lower mounting groove 312. The fourth connecting shaft 324 and the fifth connecting shaft 325 are respectively disposed before and after the bottom mounting groove 313.

  Further, five roller shafts 326 to 329 and 32A are bridged between the two side plates 31. The first roller shaft 326 and the second roller shaft 327 are arranged side by side on the front side of the front reel holder portion 4. [0] The third roller shaft 328 and the fourth roller shaft 329 are arranged side by side vertically on the front side of the rear reel holder portion 5. The fifth roller shaft 32 </ b> A is disposed on the lower side of the rear side of the rear reel holder portion 5. The first to fifth roller shafts 326 to 329 and 32A are supported so that rollers that are long in the width direction can be rotated on the outer periphery thereof. [0]

  Further, two child partition plate holding shafts 331 and 332 are bridged between the two side plates 31. The first child partition plate holding shaft 331 is disposed in the vicinity of the groove bottom of the upper mounting groove 311. The second child partition plate holding shaft 332 is disposed slightly above and in front of the tenth connecting shaft 32A. Grooves 341 for inserting a front child partition plate 61 (described later) are cut at nine locations in the width direction of the first child partition plate holding shaft 331. Similarly, grooves 342 into which the rear child partition plate 65 described later is inserted are cut at nine positions in the width direction of the second child partition plate holding shaft 332. The distance between adjacent grooves 341 and 342 is approximately the same as the width of the tape reel 71. The two side plates 31 are coupled in parallel by connecting shafts 321 to 325, roller shafts 326 to 329 and 32 </ b> A, and child partition plate holding shafts 331 and 332. Thereby, the mechanical strength of the child bucket 3 is ensured.

  Further, two pairs of front and rear bearing projections 351 and 352 project from the inner sides of the two side plates 31 facing each other. The first bearing convex portion 351 is disposed at the center of the front reel holder portion 4. The second bearing convex portion 352 is disposed at the center of the rear reel holder portion 5. Each of the bearing protrusions 351 and 352 supports the axis of the tape reel 71 at both ends in the width direction.

  The first levitation prevention mechanism 36 is provided upright above the bottom mounting groove 313. The first levitation prevention mechanism 36 includes a levitation prevention roller shaft 361 and a pair of turning members 362. The floating prevention roller shaft 361 extends in the width direction at a position above the front reel holder portion 4. The anti-floating roller shaft 361 is supported by a roller that is long in the width direction so as to be rotatable on the outer periphery. The anti-floating roller shaft 361 prevents the tape reel 71 that is pulled upward by the tension acting on the carrier tape 72 from floating.

  The turning member 362 is a rod-shaped member that is curved toward the front reel holder portion 4. The pair of turning members 362 are connected by two connecting rods 363. The pair of turning members 362 support the end portion of the anti-floating roller shaft 361 at one upper end thereof. The pair of turning members 362 has the other lower end fixed to the support member 364. FIG. 5 is a partially enlarged perspective view for explaining the support structure of the first levitation preventing mechanism 36. The support member 364 is disposed between the two side plates 31.

  On the other hand, a rectangular rod-shaped support member 365 is bridged between the two side plates 31. At nine locations in the width direction of the support member 365, grooves into which a front side divider partition plate 61 described later is inserted are cut. The distance between adjacent grooves is approximately the same as the width of the tape reel 71. The support member 365 has a turning restriction portion 366 on the outer side on both sides in the width direction, and has a turning support portion 367 on the inner side. The turning support portion 367 supports the support member 364 in a rotatable manner. The turning restricting portion 366 restricts the rotation of the support member 364 to the rear. The first levitation prevention mechanism 36 can be manually turned. The pivot member 362 pivots in the rearward direction with one end away from the feeder 8 around the support member 364 on the other end side. In FIG. 5, the support member 364 is in contact with the turning restricting portion 366, and the anti-floating roller shaft 361 has moved to the retracted position.

  3 shows a retracted position of the anti-floating roller shaft 361 of the first anti-floating mechanism 36, and FIG. 4 shows an upper position of the anti-floating roller shaft 361. In the state of FIG. 3, the tape reel 71 can be exchanged in the front reel holder portion 4. The tape reel 71 is inserted between the two side plates 31 by the operator. Next, the first levitation prevention mechanism 36 is turned forward by the operator, and the levitation prevention roller shaft 361 moves to the upper position. At this time, the curved revolving member 362 does not contact the tape reel 71. Therefore, the risk of a problem that the turning member 362 enters between the reel flanges of the tape reels 71 at both ends is avoided in advance.

  The second anti-floating mechanism 37 is erected on the rear side of the fifth roller shaft 32A. The second levitation prevention mechanism 37 includes a levitation prevention roller shaft 371 and a pair of turning members 372. The floating prevention roller shaft 371 extends in the width direction at a position above the rear reel holder portion 5. The anti-floating roller shaft 371 is supported by a roller that is long in the width direction so as to be rotatable on the outer periphery. The anti-floating roller shaft 371 prevents the tape reel 71 from being lifted upward by the tension acting on the carrier tape 72.

  The turning member 372 is a bar-shaped member that extends linearly. The pair of turning members 372 support the end portion of the anti-lift roller shaft 371 at one upper end thereof. The pair of turning members 372 has the other lower end fixed to the support member 374. FIG. 6 is a partially enlarged perspective view for explaining the support structure of the second levitation prevention mechanism 37. The support member 374 is disposed between the two side plates 31.

  On the other hand, a rectangular rod-shaped support member 375 is bridged between the two side plates 31. At nine locations in the width direction of the support member 375, grooves into which a rear child partition plate 65 described later is inserted are cut. The distance between adjacent grooves is approximately the same as the width of the tape reel 71. The support member 375 has a turning restriction portion 376 on the outer side on both sides in the width direction, and has a turning support portion 377 on the inner side. The turning support portion 377 supports the support member 374 in a rotatable manner. The turning restricting portion 376 restricts the backward rotation of the support member 374. The second levitation prevention mechanism 37 can be manually turned. The pivot member 372 pivots in the backward direction with one end away from the feeder 8 around the support member 374 on the other end side. In FIG. 6, the support member 374 is in contact with the turning restricting portion 376, and the anti-floating roller shaft 371 is moved to the retracted position.

  3 shows a retracted position of the anti-floating roller shaft 371 of the second anti-floating mechanism 37, and FIG. 4 shows an upper position of the anti-floating roller shaft 371. In the state of FIG. 3, the tape reel 71 can be exchanged in the rear reel holder portion 5. The tape reel 71 is inserted between the two turning members 372 by the operator. Next, the second levitation prevention mechanism 37 is turned forward by the operator, and the levitation prevention roller shaft 371 moves to the upper position. At this time, the linear swivel member 372 moves outside the tape reels 71 at both ends.

  The replacement work of the tape reel 71 can be performed in either the single state of the child bucket 3 or the state in which the child bucket 3 is attached to the parent bucket 2. Furthermore, it is possible to use a simple shaft member in place of the two anti-floating roller shafts 361 and 371. Further, the shapes of the two types of swiveling members 362 and 372 can be changed, and both swiveling members 362 and 372 may have a curved shape, or both swiveling members 362 and 372 may have a linear shape. Good.

(3. Usage and operation of the reel holding device 1 of the embodiment)
Next, a method for using the reel holding device 1 of the embodiment will be described. In the embodiment, two or one child bucket 3 can be attached to the parent bucket 2. When more than 10 new feeders are arranged on the device pallet 98, the two child buckets 3 are mounted over the entire width of the parent bucket 2. In this case, the operator removes all the parent partition plates 26 from the parent partition plate holding shafts 251 and 252 of the parent bucket 2 and mounts two child buckets 3 instead. FIG. 7 is a side view of the reel holding device 1 according to the embodiment in which the child bucket 3 is attached to the parent bucket 2. In FIG. 7, the side plate 22 on the near side of the parent bucket 2 is omitted.

  The operation of attaching the child bucket 3 will be described in detail. First, the operator advances the child bucket 3 from the rear toward the parent bucket 2. As a result, the parent partition plate holding shaft 251 on the front side of the parent bucket 2 starts to engage with the upper mounting groove 311 of the child bucket 3. Next, the operator presses the child bucket 3 downward while further moving it forward. As a result, the parent partition plate holding shaft 252 on the rear side of the parent bucket 2 is inserted to the back of the saddle-shaped bottom portion mounting groove 313 of the child bucket 3 and the mounting ends. The operator repeats the mounting operation described above for the two child buckets 3.

  Further, when the number of new feeders on the device pallet 98 is 10 or less, one child bucket 3 can cope with it. In this case, the operator decides to arrange the new feeders in one place and removes the four main partition plates 26 corresponding to the arrangement positions. Thereafter, the operator may perform the mounting operation described above once. The parent bucket 2 can hold one tape reel 71 corresponding to the conventional feeder 8 in a range where the parent partition plate 26 is not removed. That is, the parent bucket 2 can hold one child bucket 3 and ten or less tape reels 71 side by side in the width direction.

  As shown in FIG. 7, the plurality of tape reels 71 held by the front reel holder portion 4 are rotatably supported at the lower outer periphery by the parent support rollers 242 and 243 originally provided in the parent bucket 2. The On the other hand, the plurality of tape reels 71 held by the rear reel holder unit 5 are rotatably supported by the fourth roller shaft 329 and the fifth roller shaft 32A at the lower outer periphery. Instead of the fourth roller shaft 329 and the fifth roller connecting shaft 32A, it is possible to use a support shaft having a smooth outer peripheral surface.

  When the front reel holder part 4 and the rear reel holder part 5 of the child bucket 3 are fully equipped with ten tape reels 71 and parts are supplied, a slight gap is left between the tape reels 71. For this reason, a large friction is not generated between the tape reels 71 and the rotation is not hindered, and the tape reel 71 is not inclined. Thereby, a stable component supply operation is ensured. Further, even when parts are supplied from less than ten tape reels 71, a stable part supply operation can be ensured by inserting empty tape reels 71 to be fully equipped.

  In some cases, the front reel holder portion 4 and the rear reel holder portion 5 are equipped with less than ten tape reels 71 and the empty tape reel 71 is not used. In this case, a play dimension is generated in the width direction, and there is a concern that the tape reel 71 may move or tilt in the width direction. Therefore, it is preferable to use the child partition plates 61 and 65. FIG. 8 is a perspective view of the front child partition plate 61 used for the front reel holder portion 4, and FIG. 9 is a perspective view of the rear child partition plate 65 used for the rear reel holder portion 5.

  As shown in FIG. 8, the front child partition plate 61 is formed of a thin plate material having a narrow width. The shape of the upper edge of the front child partition plate 61 is the same as that of the upper edge of the side plate 31. A mounting groove 62 extending in the front-rear direction is formed on the front side of the front child partition plate 61. An attachment notch 63 is formed in the lower rear portion of the front child partition plate 61. The attachment groove 62 is inserted into the groove 341 of the first child partition plate holding shaft 331, and movement in the forward direction, the width direction, and the vertical direction is restricted. On the other hand, the attachment notch 63 is inserted into the groove of the support member 365, and the rearward and downward movement is restricted (see FIG. 5). Thus, the front child partition plate 61 is detachable at a desired inter-reel position between the plurality of tape reels 71 arranged in the width direction.

  As shown in FIG. 9, the rear child partition plate 65 is also formed of a thin thin plate material. A mounting groove 66 that opens downward is formed below the front edge of the lower edge of the rear child partition plate 65. An attachment notch 67 is formed in the lower rear portion of the rear child partition plate 65. The attachment groove 66 is inserted into the groove 342 of the second child partition plate holding shaft 332, and movement in the front-rear direction, the width direction, and the downward direction is restricted. On the other hand, the attachment notch 67 is inserted into the groove of the support member 375, and the rearward and downward movement is restricted (see FIG. 6). As a result, the rear child partition plate 65 is detachable at a desired inter-reel position between the plurality of tape reels 71 arranged in the width direction.

  The front child partition plate 61 and the rear child partition plate 65 are detachable at a desired inter-reel position between the plurality of tape reels 71 arranged in the width direction. The front child divider plate 61 and the rear child divider plate 65 are used, for example, every third or fourth tape reel 71. According to this, even when the front reel holder portion 4 and the rear reel holder portion 5 are equipped with less than ten tape reels 71, problems due to movement or inclination of the tape reel 71 in the width direction can be prevented in advance.

  Next, the operation of the reel holding device 1 of the embodiment will be described in comparison with the first and second reference embodiments. FIG. 10 is a side view of the component holding device 1X of the first reference embodiment. In the first reference embodiment, the parent partition plate 26 used for the parent bucket 2 is replaced with a large parent partition plate 26X extended rearward. Near the rear portion of the large parent partition plate 26X, a center pin 261 that supports the axis of the second tape reel 71X is erected in the width direction.

  In the first reference embodiment, a large master partition plate 26X is required for each new feeder, and the tape reel 71X must be attached to and detached from the center pin 261 in the width direction. Therefore, the arrangement pitch in the width direction of the tape reels 71 and 71X cannot be reduced, and the number of tape reels 71 and 71X that can be held is limited. For example, when 20 new feeders are arranged in the device pallet 98, 40 tape reels 71 and 71X cannot be held. Furthermore, the number of large parent partition plates 26X becomes too large and handling is complicated.

  FIG. 11 is a side view of the child bucket 3Y constituting the component holding device of the second reference form. In the second reference embodiment, the front child partition plate 61 and the rear child partition plate 65 are inserted between all the reels of the tape reel 71 arranged in the front reel holder portion 4Y and the rear reel holder portion 5Y. In the second reference embodiment, the width direction dimension W of the child bucket 3Y is larger than that of the child bucket 3 of the embodiment. Accordingly, it becomes difficult to mount the two child buckets 3Y side by side in the width direction of the parent bucket 2.

  In contrast to the first and second reference embodiments, according to the reel holding device 1 of the embodiment, the arrangement pitch in the width direction of the tape reel 71 can be reduced. As a result, two child buckets 3 can be mounted side by side in the width direction of the parent bucket 2. Therefore, even when 20 new feeders are fully equipped in the device pallet 98, 40 tape reels 71 (twice the number of new feeders) can be held by the two child buckets 3.

(4. Aspects and effects of reel holding device 1 of embodiment)
The reel holding device 1 according to the embodiment is used in an electronic component mounting machine 9 in combination with a feeder 8 that feeds out carrier tapes 72 each storing components in a plurality of component storage units and can collect components at a supply position. A reel holding device 1 that holds a tape reel 71 around which a tape 72 is wound in a rotatable and replaceable manner, and corresponds to the plurality of feeders 8 arranged in the width direction of the electronic component mounting machine 9. 71, a parent bucket 2 that can hold 71, a child bucket 3 that is detachably held with respect to the parent bucket 2, and a side closer to the feeder 8 of the child bucket 3, and a plurality of tape reels 71 are arranged in the width direction. A front reel holder 4 to be held and a rear reel formed on the side of the child bucket 3 away from the feeder 8 and holding a plurality of tape reels 71 arranged in the width direction. A holder 5 parts, with a.

  According to this, since a member such as a side plate or a partition plate is unnecessary between the tape reels 71 arranged in the width direction of the front reel holder portion 4 and the rear reel holder portion 5, the width of the tape reel 71 is reduced. The arrangement pitch in the direction can be reduced. Therefore, the reel holding device 1 of the embodiment can hold a large number of tape reels 71 with a limited width dimension. As a result, even when a plurality of new feeders are arranged in the device pallet 98, the slave bucket 3 can hold the tape reels 71 twice as many as the number of new feeders.

  Moreover, since the reel holding device 1 of the embodiment can divert the existing bucket member to the parent bucket 2, it can be easily applied to the existing electronic component mounting machine 9. In addition, the reel holding device 1 according to the embodiment is resource-saving and low-cost because the number of members to be added is small when applied to existing equipment.

  Further, at least one of the front reel holder portion 4 and the rear reel holder portion 5 extends in the width direction at a position above the plurality of held tape reels 71 to prevent the tape reel 71 from floating. , 371, and swivel members 362, 372 that support the anti-lift roller shafts 361, 371 at one end and are rotatably supported on the child bucket 3 at the other end. By turning in the direction in which one end is separated from the feeder 8 with the end as a center, the anti-lift roller shafts 361 and 371 are moved from the upper position to the retracted position, and the tape reel 71 can be replaced.

  According to this, since the tape reel 71 is prevented from floating, the reliability of the component supply operation is high. In addition, since the tape reel 71 can be replaced by a simple turning operation, workability is good.

  Further, the parent bucket 2 can hold the child bucket 3 and the tape reel 71 side by side in the width direction, and extends in the width direction and rotatably supports the lower outer periphery of the tape reel 71. The plurality of tape reels 71 having 242 and 243 or a parent support shaft and held by the front reel holder portion 4 are rotatably supported at the lower outer periphery by the parent support rollers 241 242 243 or the parent support shaft. .

  According to this, the tape reel 71 directly held in the parent bucket 2 and the two front and rear tape reels 71 held in the child bucket 3 attached to the parent bucket 2 can be used in combination. Therefore, when a plurality of types of feeders are used in combination, for example, when the conventional feeder 8 and the new feeder are used together, it can be flexibly handled. Further, the tape reel 71 of the front reel holder portion 4 of the child bucket 3 can be supported using the parent support rollers 241, 242, and 243 originally provided in the parent bucket 2. Therefore, the child roller 3 has a reduced number of constituent members, is lightweight, and is low in cost.

  Further, the parent bucket 3 includes a parent partition plate 26 that can be inserted into a desired inter-reel position between the plurality of tape reels 71, and a parent partition plate that extends in the width direction and detachably holds the parent partition plate 26. The child bucket 3 is attached to the main partition plate holding shafts 251 and 252. According to this, the child bucket 3 can be mounted using the parent partition plate holding shafts 251 and 252 originally provided in the parent bucket 2. Therefore, when applied to the existing electronic component mounting machine 9, the existing bucket member can be diverted to the parent bucket 2 without major modification.

  Further, the front reel holder portion 4 and the rear reel holder portion 5 are provided with a front child partition plate 61 and a rear child partition plate 65 that are detachable at a desired inter-reel position between the plurality of tape reels 71 arranged in the width direction. Have. According to this, when the tape reel 71 is not fully equipped in the front reel holder portion 4 or the rear reel holder portion 5, problems due to movement or inclination of the tape reel 71 in the width direction can be prevented.

(5. Application and modification of embodiment)
In the embodiment, the description has been given of the configuration in which there are 20 feeders 8 arranged in the device pallet 98 and the child pallet 3 holds the ten front and rear tape reels 71. However, the present invention is not limited to this. That is, the number of feeders 8 arranged and the number of holding reels of the child pallet 3 can be freely changed. Further, as a member for rotatably supporting the plurality of tape reels 71 held by the front reel holder portion 4, instead of the parent support rollers 242, 243 of the parent bucket 2, a roller shaft or a connecting shaft of the child bucket 3 is used. Also good. Various other applications and modifications are possible for the present invention.

1: Reel holding device 2: Parent bucket 21: Arm member 22: Side plates 231 to 234: Parent roller shafts 241 to 244: Parent support rollers 251 and 252: Parent partition plate holding shaft 26: Parent partition plate 3: Sub bucket 31: Side plates 321 to 329, 32A, 32B: connecting shaft 331, 332: child partition plate holding shaft 36: floating prevention mechanism 361: floating prevention roller shaft 362: swiveling member 37: floating prevention mechanism 371: floating prevention roller shaft 372: swiveling member 4: Front reel holder portion 5: Rear reel holder portion 61: Front child partition plate 65: Rear child partition plate 71, 71X: Tape reel 72: Carrier tape 8: Feeder 9: Electronic component mounting machine 93: Component supply device 98: Device palette 1X: Part holding device of the first reference form 26X: Large parent partition plate 3Y: Second reference form Bucket

Claims (5)

Used in an electronic component mounting machine in combination with a feeder that allows the component tapes to be taken out at a supply position by feeding out carrier tapes containing components in a plurality of component storage units, and rotates the tape reel on which the carrier tape is wound A reel holding device for holding the device in a replaceable manner,
A parent bucket capable of holding the tape reel corresponding to the plurality of feeders arranged in the width direction of the electronic component mounting machine;
A child bucket that is detachably held with respect to the parent bucket;
A front reel holder portion that is formed on a side of the child bucket close to the feeder and holds a plurality of the tape reels arranged in the width direction;
A rear reel holder portion that is formed on the side of the child bucket away from the feeder, and holds a plurality of the tape reels arranged in the width direction;
A reel holding device. At least one of the front reel holder part and the rear reel holder part is:
A floating prevention roller or a floating prevention shaft that extends in the width direction at a position above the plurality of held tape reels to prevent the tape reel from floating; and
A swivel member that supports the levitation prevention roller or the levitation prevention shaft at one end and is rotatably supported by the child bucket at the other end;
The swivel member moves the lift prevention roller or the lift prevention shaft from the upper position to the retracted position by turning the one end in a direction away from the feeder with the other end as a center, and the tape The reel holding device according to claim 1, wherein the reel can be exchanged. The parent bucket can hold the child bucket and the tape reel side by side in the width direction, and extends in the width direction and rotatably supports a lower outer periphery of the tape reel. Having a support shaft,
3. The reel holding device according to claim 1, wherein a plurality of the tape reels held by the front reel holder are rotatably supported at a lower outer periphery by the parent support roller or a parent support shaft. The parent bucket includes a parent partition plate that can be inserted into a desired inter-reel position between the plurality of tape reels, and a parent partition plate holding shaft that extends in the width direction and detachably holds the parent partition plate. And
The reel holding device according to claim 3, wherein the child bucket is attached to the parent partition plate holding shaft.   The at least one of the said front reel holder part and the said rear reel holder part has the subpartition board which can be attached or detached in the position between the reels desired among the several said tape reels located in a line in the width direction. The reel holding device as described in any one of Claims.

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