The present invention relates to a wrapping apparatus that wraps work pieces such as various products, and in particular, to a wrapping apparatus that wraps a wrapping sheet such that it contacts closely to a work piece.
Generally, among wrapping apparatuses that are used to automatically wrap a wrapping sheet such as a film around a work piece, a wrapping apparatus is known in which the film used for wrapping is positioned in a direction orthogonal to the transporting direction of the work piece, and by transporting the work piece such that it presses against the film, the work becomes covered by the film. The apparatuses described in Patent Documents 1 and 2 below are examples of this type of wrapping apparatus.
In the wrapping apparatus described in Patent Document 1, in order to feed a wrapped work piece to the interior of a pocket of a pocket conveyor, a nozzle having an aperture whose dimensions match the thickness of the work piece is placed so as to face the opening of the pocket, and the film is positioned in a direction that is orthogonal to the transporting direction of the work piece to the rear in the transporting direction of the work piece. By then pressing the work piece against the film and making them pass through the nozzle, the film becomes wrapped around so as to cover the work piece and the work piece is then placed inside a pocket.
In the wrapping apparatus described in Patent Document 2, a pair of floating rollers that are spaced the same distance apart as the pocket boxes are placed in the vicinity of openings in pocket boxes that are used to house work pieces that have been wrapped, and a film is positioned in a vertical direction in the same manner as in Patent Document 1 to the rear in the transporting direction of the work piece. By transporting the work piece in a horizontal direction so that it presses against the film and so that the two are made to pass between the floating rollers, the work piece is packaged in a wrapped state and is placed inside a pocket box.
However, in the wrapping apparatuses described in Patent Documents 1 and 2, the work piece passes through the inside of the nozzle and the pair of floating rollers while the film is being wrapped, and because the space between the nozzle and the floating rollers is a fixed size that is equal to the thickness of the work piece, if there are any irregularities in the size of the work piece, then gaps may remain between the work piece and the film causing defects such as residual air and wrinkling to be generated. Moreover, if there are any bumps and indentations in the surface of the work piece, then because gaps remain between the film and the work piece, in the same way, these cause residual air and wrinkling. Because of this, these wrapping apparatuses have the drawback that they do not make it possible to achieve tight wrapping of a work piece without any wrinkling being generated and without any residual air being left behind.
The present invention was conceived in view of the above described circumstances, and it is an object thereof to provide a wrapping apparatus that makes it possible to perform wrapping in which there is no wrinkling and in which no air remains between the work piece and wrapping sheet even if there are irregularities in the dimensions of the work piece or if there is unevenness in the surface of the work piece.
The apparatus of the present invention is a work piece wrapping apparatus for wrapping a work piece being transported along a transporting path in a wrapping sheet, and includes: a wrapping sheet supply device that supplies the wrapping sheet onto the transporting path; a delivery guide device that causes the wrapping sheet to be wrapped by pushing the wrapping sheet on the transporting path so as to cause the work piece to pass through a transit aperture that is provided between a pair of delivery guides; and a spreading guide provided in the transit aperture of the delivery guide device, and gradually spreads the wrapping sheet out from a center area in the transverse direction of the wrapping sheet towards both edges thereof with the work piece advances through the transit aperture.
According to the present invention, when a wrapping sheet is pressed by a work piece being transported along a transporting path so that the wrapping sheet is made to pass through a transit aperture between delivery guide portions, by using a spreading guide to gradually spread out the wrapping sheet from a center area in the transverse direction of the surface of the work piece in the direction of the two edges thereof, the work piece can be wrapped with any wrinkling and the like in the center of the wrapping sheet pushed outwards to the outer sides.
Note that it is preferable for the spreading guide to be formed such that the center area in the transverse direction thereof protrudes beyond the two end sides thereof. It is also possible for the spreading guide to be formed substantially in a dovetail shape that protrudes in the transporting direction of the work piece. It is also not essential for the center area to be in the center in the transverse direction and it may also be offset to one side in the transverse direction.
Moreover, it is preferable for an elastic component to be provided in the delivery guide portion that adjusts the distance between the two delivery guide portions when it is pressed by the work piece during the transit of the work piece.
Smoothing pads that cause the wrapping sheet to contact tightly to a surface of the work piece are provided in the transit aperture of the delivery guide device. These smoothing pads are formed by a plurality of bristles and a space between a pair of the smoothing pads that face each other across the transit aperture is set so as to be less than the thickness of the work piece.
Even if there are bumps and indentations in the surface of the work piece that is passing through the transit aperture in the delivery guide portion, because the wrapping sheet is made to tightly contact to the surface of the work piece by the smoothing pads, any gaps between the wrapping sheet and the surface of the work piece are eliminated and any residual air can be reliably expelled. Accordingly, tight wrapping with no wrinkling can be achieved. In particular, because the large number of bristles is able to deform individually, each bristle deforms individually so as to conform to and follow the shape of the bumps and indentations in the surface of the work piece. Accordingly, any residual air can be reliably pushed out.
It is also preferable for a correction guide that elastically sandwiches the work piece to be provided upstream side from the delivery guide device in the transporting direction of the work piece.
By using a correction guide to press and sandwich a work piece between the correction guide and the transporting path, the work piece can be supplied to the delivery guide device with any crookedness and warping and the like in the work piece having been corrected.
Furthermore, it is also possible for a plurality of suction belts that feed it forward between the transporting path and the delivery guide device while suctioning the wrapping sheet to be provided in the wrapping sheet supply device, and for the spacing between the plurality of suction belts to gradually separate on the work piece transporting path side such that tension is placed on the wrapping sheet. Preferably, the suction belts are arranged so as to gradually spread out like a folding fan such that the spaces between the suction belts widen on the distal end side.
As a result of this, the wrapping sheet can be supplied to the transporting path in a tensioned state without any wrinkling. It is also possible for at least three suction belts to be provided, and for a non-suction area to be provided in the suction belt located in the center in the vicinity of the transporting path of the work piece. By making the distal end side of the center suction belt a non-suction portion, when the wrapping sheet is pushed by the work piece and is wrapped the wrapping sheet can be smoothly separated from the suction belt.
It is also possible for there to be provided an air guide that discharges de-electrification air in the transporting direction of the wrapping sheet onto the wrapping sheet being transported by the suction belts.
Static electricity on the surface of the wrapping sheet is removed and neutralized by the de-electrification air, and the portion of the wrapping sheet that protrudes from the suction belt is made taut so that the work piece can be wrapped without any wrinkles.
Preferred embodiments of the present invention will now be described with reference made to the drawings. It should be noted, however, that the present invention is not limited to each of the embodiments described below and it is also possible, for example, to combine together component elements of these embodiments in an appropriate manner.
The wrapping apparatus according to an embodiment of the present invention is described using
In the wrapping apparatus 1 shown in
In
In
In addition, a delivery guide device 13 is provided in a space c between the transporting path 6 and the pockets P, while a film supply device 14 that supplies the film f to a position between the transporting path 6 and the delivery guide 13 is provided between the delivery guide 13 and the beam 11.
Next, the film supply device 14 will be described with reference made to
In
Moreover, elongated hole-shaped through holes 17b that communicate with the suction holes h are provided at a predetermined spacing in the projecting portions 17a of the guide plates 17, while air chambers 18a that communicate with the through holes 17b are provided at a predetermined spacing in the chamber portions 18. Because the air chambers 18a are suctioned by a suction apparatus (not shown), the film f that has been mounted on the respective suction belts 16a, 16b, and 16c that rotate circumferentially along the projecting portions 17a of the guide plate 17 is transported while being suctioned via the respective through holes 17b and the respective suction holes h. In addition, because the space between the respective suction belts 16a, 16b, and 16c increases as they approach the distal end in the transporting direction, the film f can be transported while being held in a tensioned state.
It is possible to transport the film f under suction as a result of the through holes 17b being provided in the projecting portions 17a of the guide plates 17 from the base end side to the distal end side of the two side suction belts 16a and 16c. In contrast, as is shown in
Moreover, an ionizer 19 (i.e., an air guide) is located facing the suction belts 16a, 16b, and 16c, and by blowing out ionic air in order to neutralize static electricity in the feed direction of the film f, any static electricity remaining in the film f is removed (refer to
In
As a result, when the film f is sandwiched between the receiving blade 21 and the rotating blade 23 and the rotating blade 23 is rotating, the two blades 21 and 23 gradually intersect each other from one end side to the other end side thereof and cut the film fo like scissor blades. The film f that has been cut into predetermined lengths by the cutter 20 is transported towards the distal end side by the suction belts 16a, 16b, and 16c. Only the rear end portion thereof is suctioned and held by the suction holes h and h in the side suction belts 16a and 16c and, in this state, the majority portion of the film f protrudes so as to hang downwards inside the space c extending past the transporting path 6 of the cases k and is able to be wrap folded. Because of this, there is provided a sensor 24 (refer to
Moreover, because the speeds of the respective suction belts 16a, 16b, and 16c are controlled such that the film f is transported at a faster speed than the transporting device of the preceding film fo, gaps are generated by the speed difference between the film f that has been cut by the cuter 20 and the film fo that is continuously unwound from the film reel 2, and the cases k are wrapped and inserted into the pockets P of the turrets 7 in the timing of these gaps. The sensor 24 detects the supplying of the film f at predetermined timings, and if the film f cannot be detected at the predetermined timing it is assumed that a film blockage has occurred and the apparatus is brought to an emergency stop.
Next, the delivery guide device 13 will be described based on
The other delivery guide portion (for example, the upper delivery guide portion 25b) has two ends that are fixed by a substantially U-shaped receiving component 26b, and both ends of this receiving component 26b are held such that they can be moved in a vertical direction by upper holders 31 and 31. Each upper holder 31 is fixed to a shaft 32 and bottom ends of these shafts 32 pass through the holder portions 33A and are mounted on shaft portions 28 that are rotatably supported. Pins 32a that are provided in each shaft 32 are inserted into elongated holes 33a in the lower holder 33 and each shaft 32 and upper delivery guide portion 25b are held such that they can move vertically within the range of the elongated holes 33a. Adjustment grippers 34 that screw onto the respective shaft portions 28 are provided between the lower holders 33 and the holder portions 33A. The shaft portions 28 are attached to the holder portions 33A by nuts.
Because of this, when making an adjustment using the adjustment grippers 34, the shaft portions 28 can be moved up or down by rotating each adjustment gripper 34 when the nuts have been loosened. This enables the other delivery guide portions 25b to be moved up or down via the shafts 32 so that the gap between the delivery guide portions 25b and the delivery guide portions 25a can be adjusted.
In addition, as is shown in
Moreover, smoothing pads 36a and 36b that are formed from artificial fabric are contacted to the opposing surfaces of the upper and lower delivery guide portions 25a and 25b. The respective smoothing pads 36a and 36b are placed further on the pocket P side than the V-shaped guide portions 35a and 35b, and a large number of bristles stand upright to approximately the same length. The space between the two smoothing pads 36a and 36b is set to be slightly smaller than the thickness of the cases k (refer to
Substantially L-shaped supporting plates 38 and 38 that extend over the upper receiving component 26b are provided on the upper holders 31, and elastic components 39 such as coil springs or the like are provided respectively between each supporting plate 38 and the receiving component 26b. If the thickness of the cases is too large due to dimensional discrepancies when the cases k are made to pass between the smoothing pads 36a and 36b, then the upper delivery guide portion 25b compresses the elastic components 39 and is made to move away. As a result, even if the thickness of the cases k is larger than the transit aperture e, the cases k can still be transited.
In
The delivery guide device 13 is in a position away from the film f until the film f arrives at the position where it presses against the cases k. When the cases are being pressed, the delivery guide device 13 is moved to a position adjacent to the film f so that the film f that has been wrapped around a case k doesn't become inflated or flap about.
As a result, when the cases k press against the film f that is hanging down at the suction belts 16a, 16b, and 16c and are wrapped, the delivery guide device 13 approaches the film f and the cases k are easily inserted into the transit aperture e between the delivery guide portions 25a and 25b, and the delivery guide device 13 then swings to the turret 7 side so that it is easy for the cases k to be delivered to the pockets P.
Moreover, in
The wrapping apparatus 1 according to the present embodiment has the above described structure. Next, a wrapping method using this wrapping apparatus will be described. In
Meanwhile, the continuous belt-shaped film fo that is unwound from the film reel 2 passes through the fishtail adjuster and is fed onto the suction belts 16a, 16b, and 16c. A tear tape 4 that is unwound from a reel is then contacted to one surface of the film fo so that the two can be transported as a single body on the suction belts 16a, 16b, and 16c. The film fo that is suctioned through the respective suction holes h in the suction belts 16a, 16b, and 16c is then fed forward in the direction of the transporting path 6 (i.e., downwards in the drawing) of the cases k as a result of the suction belts 16a, 16b, and 16c being driven.
Next, in
The film f that has been cut into predetermined lengths is further transported in the direction of the distal end (i.e., downwards) by the suction belts 16a, 16b, and 16c, however, because the suction belts 16a and 16c on the two sides open up at the distal end sides thereof to form a dovetail pattern relative to the central suction belt 16b, as the film f moves in the direction of the distal end, it is pulled towards both sides in the transverse direction and is held in a tensioned state having no wrinkling or looseness or the like. The distal end of the film f then further protrudes from the suction belts 16a, 16b, and 16c and hangs downwards to where it is detected by the sensor 24 (refer to
In this state, the swinging mechanism 40 shown in
The film f is gradually spread out in the direction of the two edges from the center portion in the transverse direction of the top and bottom surfaces of the case k by the V-shaped guide portions 35a and 35b. As a result, the film f covers the case k with any wrinkles and the like being spread out from the center towards the outer sides. When the case k is then inserted into the transit aperture e, it moves forward between the smoothing pads 36a and 36b and the bristles of the respective smoothing pads 36a and 36b individually press the film f against the top and bottom surfaces of the case k. As a result, the film f is tightly contacted so as to conform to the bumps and indentations in the top and bottom surfaces of the cases k. Accordingly, the film f can be pushed towards the outside without any wrinkling remaining, and without any air being left between the film f and the top and bottom surfaces.
In conjunction with this insertion of the case k, the delivery guide device 13 is rotated by the swinging mechanism 40 around the power shaft 44 at a slower speed than the movement of the case k, and is moved (in the B direction in
In this state, the top and bottom flaps on the rear side of the film f that has been folded around the case k protrude externally from the opening in the pocket P. Next, by moving the wrapping tucker 46 upwards, the bottom flap is folded against the rear end surface of the case k. If the turret 7 is then rotated clockwise (as seen in
Note that even if the dimensions of the cases k are inconsistent, because it is possible when the cases k are being fed out from the transporting path 6 to position the cases k at the one side surface guide 6a using the single side accumulating guide 15, during wrapping, the cases k can be wrapped cleanly without becoming tilted.
Moreover, even if the thickness of the cases k is smaller than the standard thickness due to dimensional inconsistencies, when the cases k pass through the smoothing pads 36a and 36b the film f is pressed against the top and bottom surfaces of the case k so that residual air is expelled and tightly contacted wrapping is achieved. Alternatively, even if the thickness of the cases k is larger than the standard thickness, during insertion the cases k push the V-shaped guide portion 35b upwards against the urging force of the elastic component 39 so that the delivery guide portion 25b is able to withdraw in an upward direction. As a result, while the gaps between the V-shaped guides 35a and 35b and the smoothing pads 36a and 36b are being adjusted, the film f can be tightly contacted to the top and bottom surfaces of the cases by the smoothing pads 36a and 36b. Because of this, even if there are dimensional inconsistencies or top and bottom surface irregularities in the cases k, any defects in the wrapping can be absorbed.
According to the above described embodiment, when a case k is being wrapped, the film f can be supplied to the case k without any wrinkling and in a tensioned state. While the film f is being pushed outwards from the center area to both outer sides by the V-shaped guide portions 35a and 35b, wrapping can be achieved without any wrinkling occurring in the center portion of the film f. Furthermore, any residual air remaining between the case k and the film f is pushed out by the smoothing pads 36a and 36b, so that the film f is tightly contacted to the case k while conforming to the surface configuration thereof without any wrinkling occurring. As a result, wrapping with an attractive appearance can be achieved. Because of this, a shrinking machine that heat shrinks the film f after the wrapping process in order to remove wrinkles is rendered unnecessary, and a reduction in the overall floor space occupied by the wrapping apparatus 1 can be achieved, thereby reducing costs. Moreover, it is possible to correct any crookedness in the cases k using the correction guide 12 prior to perform wrapping, and it is also possible to absorb any dimensional inconsistencies that might exist in the cases k using the elastic component 39 and the smoothing pads 36a and 36b. As a result, the product yield after the packing is improved.
Note that the number of suction belts is not limited to three and, provided that they are able to hold the film f in a tensioned state without any wrinkling, a structure having one, two, or four or more suction belts may also be employed.
It is also possible to employ a structure in which the correction guide 12 is provided on the transporting path 6 side and cases are pushed upwards and held between the correction guide 12 and another sandwiching component. It is also possible to employ a structure in which the correction guide 12 and the transporting path 6 facing it are arranged so as to be inclined relative to each other such that the transporting path 6 gradually approaches the correction guide 12 as they move forward. Moreover, if work pieces such as the cases k and the like are formed from a material and in a shape that makes it difficult for them to become crooked, then it is not necessary to provide the correction guide 12.
It is also possible to employ a structure in which the non-suction area 16E is constructed without the air chamber 18a being provided in the chamber portion 18. Moreover, various types of films and paper can be used for the film f such as non-stretch plastic films and work hardened films such as OPP and CPP, and these films and papers constitute a wrapping sheet. Furthermore, the work pieces that are wrapped and packaged in the present invention are not limited to the cases k for DVDs and the present invention may also be applied to other cases and types of products.
According to the wrapping apparatus of the present invention, when a wrapping sheet is pressed by a work piece that is being transported along a transporting path and is made to transit through a transit aperture formed between delivery guide portions, if the wrapping sheet is gradually spread out by a spreading out guide from a central area in the transverse direction of the surface of the work piece in the direction of both edges, then any wrinkling and the like in the center of the wrapping sheet can be pushed out towards the outside and the wrapping sheet can be wrapped around the work piece.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2004/003314 | 3/12/2004 | WO | 00 | 9/7/2006 |