This application claims priority to Japanese Patent Application No. 2009-000034 filed on Jan. 5, 2009, Japanese Patent Application No. 2009-000036 filed on Jan. 5, 2009 and Japanese Application No. 2009-126264 filed on May 26, 2009. The entire disclosures of Japanese Patent Application Nos. 2009-000034, 2009-000036 and 2009-126264 are hereby incorporated herein by reference.
1. Field of the Invention
The present invention relates to a apparatus for folding cardboard boxes used to assemble a corrugated cardboard box into an assembled box shape.
2. Description of the Background Art
Conventionally, a corrugated cardboard box is used to pack and transport articles. A corrugated cardboard box is effective in absorbing the impact on and preventing the contamination of the packed articles, and therefore is used in many distribution channels.
In addition, in recent years, reuse activities are flourishing for efficient use of Earth's resources. Also in the case of the corrugated cardboard box, in order to allow the corrugated cardboard box to be reused: the corrugated cardboard box is transported with the four flaps at end portions thereof folded in an interleaved manner; the articles are removed; the corrugated cardboard box is used again to pack different articles; and the corrugated cardboard box is transported again with the four flaps at the end portions folded in an interleaved manner. U.S. Pat. No. 5,352,178 (hereinafter referred to as Patent Document 1) discloses a corrugated cardboard box folding apparatus.
In the corrugated cardboard box folding apparatus disclosed in Patent Document 1, a conveying device conveys a corrugated cardboard box to a predetermined position, and folding arms are simultaneously driven. The folding arms each push the corner of one end of the corresponding one of a first minor flap, a second minor flap, a first major flap, and a second major flap, the flaps forming the bottom portion of the corrugated cardboard box. Then a plurality of vacuum suction devices suction the corners of the other ends of the first and second minor flaps and the first and second major flaps to thereby form an interleaved shape in the corrugated cardboard box.
Further, for example, Japanese Laid-Open Patent Publication No. 11-278411 (hereinafter referred to as Patent Document 2) discloses a carton side-flap folding method and a carton side-flap folding apparatus that can fold, in a conveying direction, a side flap of a carton that is opened out of a predetermined range.
In the carton side-flap folding apparatus disclosed in Patent Document 2, on a conveyor installed approximately horizontally, supports are provided at predetermined intervals so as to support a carton that has, on at least the top side thereof, an opening portion with flaps and that has been assembled so that the opening portion is open, the supports supporting the carton so that the opening portion faces one side. In the course of the conveying, orientation correcting means are formed in the periphery of the rear side of the opening portion in the conveying direction so as not to interfere with the carton being conveyed by the conveyor, and change, in an upright direction, the orientation of a side flap, among the flaps, that is opened (turned down) outward from the opening portion. On the side of the conveyor, a tucker is provided that rotates in the conveying direction so as to turn down, inward to the opening portion, the side flap whose orientation has been changed in the upright direction by the orientation correcting means.
The corrugated cardboard box folding apparatus disclosed in Patent Document 1, however, holds the flaps of the corrugated cardboard box with the vacuum suction device, and therefore is not suitable for forming an interleaved shape when the corrugated cardboard box is reused.
In general, when a corrugated cardboard box is reused, the corrugated cardboard box has once been used and transported, and therefore the surface of the corrugated cardboard box is soiled. Thus the suction of the vacuum suction device on the surface of the corrugated cardboard box increases the strain on the vacuum suction device and also increases the running cost.
In addition, when a corrugated cardboard box or the like is reused, after different articles are placed into the corrugated cardboard box with the top open, a top erection device is required that erects the top of the corrugated cardboard box for a process prior to the process of folding the top in an interleaved manner and sealing it. If this operation of erecting the top of the corrugated cardboard box is performed by manual labor, the corrugated cardboard box cannot be stably supplied to an automated article placing apparatus.
An object of the present invention is to provide a apparatus for folding cardboard boxes capable of assembling a reusable corrugated cardboard box by means of a simple structure and capable of assembling the corrugated cardboard box at low cost.
Another object of the present invention is to provide a apparatus for folding cardboard boxes capable of erecting the top of a corrugated cardboard box from an open state with certainty while reducing space, and also capable of assembling a reusable corrugated cardboard box by means of a simple structure and capable of assembling the corrugated cardboard box at low cost.
(1) An apparatus for folding cardboard boxes according to an aspect is a apparatus for folding cardboard boxes for folding four top portion flaps of a corrugated cardboard box on top of one another in an overlapping manner to form an interleaved top, the apparatus for folding cardboard boxes including: a locking member that locks one end of each of the four top portion flaps of the corrugated cardboard box with an elastic member; and an overlapping folding member that pushes down the other end of each of the four top portion flaps of the corrugated cardboard box. When the overlapping folding member has started to push down the other end of each of the four top portion flaps of the corrugated cardboard box, the one end of each of the four top portion flaps of the corrugated cardboard box is held due to an elastic force of the elastic member of the locking member; and when the overlapping folding member has continued to push down the other end of each of the four top portion flaps of the corrugated cardboard box and a force of the pushing down has exceeded the elastic force of the elastic member of the locking member, the one end of each of the four top portion flaps of the corrugated cardboard box is released.
In the apparatus for folding cardboard boxes, one end of each of the four top portion flaps of the corrugated cardboard box is locked by the locking member having the elastic member, and the other end of each of the four top portion flaps of the corrugated cardboard box is pushed down by the overlapping folding member.
In this case, when the overlapping folding member has started to push down the other end of each of the four top portion flaps of the corrugated cardboard box, the one end of each of the four top portion flaps of the corrugated cardboard box is held due to the elastic force of the elastic member of the locking member, and when the overlapping folding member has continued to push down the other end of each of the four top portion flaps of the corrugated cardboard box and the force of the pushing down has exceeded the elastic force of the elastic member of the locking member, the one end of each of the four top portion flaps is released.
As a result, it is possible to fold the four top portion flaps of the corrugated cardboard box on top of one another in an overlapping manner to form an interleaved top, without using a vacuum suction device. In addition, even when the surface of the reused corrugated cardboard box is soiled, it is possible to hold one end of each of the four top portion flaps of the corrugated cardboard box with ease and certainty, and to assemble the corrugated cardboard box at low cost.
(2) The overlapping folding member preferably includes a curved member.
In this case, with the provision of a driving shaft at one end of the curved member, it is possible to push the other end of each top portion flap of the corrugated cardboard box. In addition, when each top portion flap is overlapped by an adjacent one of the top portion flaps, the curved member rotates and therefore can push each top portion flap downward from vertically above the adjacent one of the top portion flaps. As a result, it is possible to prevent the interleaved top from rising.
(3) The overlapping folding member preferably includes a projecting arm member.
In this case, the tip of the projecting arm member is caused to project, and therefore can push the other end of each top portion flap of the corrugated cardboard box. In addition, since the volume of the projecting arm member is small, even when each top portion flap is overlapped by an adjacent one of the top portion flaps, i.e., even when an interleaved top has been formed, it is possible to pull out the projecting arm member therefrom with ease.
(4) The locking member preferably includes a leaf spring.
In this case, since the locking member includes the leaf spring, it is possible to reduce the running cost as compared to the case where a vacuum suction device is used. In addition, even when the surface of the reused corrugated cardboard box is soiled, it is possible to hold one end of each of the four top portion flaps of the corrugated cardboard box with certainty.
(5) The locking member preferably includes: a holding member that holds the one end of each top portion flap of the corrugated cardboard box; and an elastic body that imparts an elastic force to the holding member.
In this case, since the locking member includes the holding member and the elastic member, when the force of the pushing down has exceeded the elastic force of the elastic member, one end of each of the four top portion flaps of the corrugated cardboard box is released by the holding member. As a result, it is possible to reduce the running cost as compared to the case where a vacuum suction device is used. In addition, even when the surface of the reused corrugated cardboard box is soiled, it is possible to hold one end of each of the four top portion flaps of the corrugated cardboard box with certainty.
(6) The apparatus for folding cardboard boxes may further include a corrugated cardboard box top erection device that erects each of the four top portion flaps of the corrugated cardboard box from outside the corrugated cardboard box, the four top portion flaps being provided so as to extend from side walls of the corrugated cardboard box, respectively, and the corrugated cardboard box top erection device may include: an arm member that rotates and moves toward each of the four top portion flap sides from the corresponding one of the side wall sides and along the corresponding one of the side walls; and a rotation device that rotates the arm member.
In this case, since the arm member is rotated by the rotation device and the arm member rotates and moves toward each of the four top portion flap sides from the corresponding one of the side wall sides and along the corresponding one of the side walls, it is possible to erect the four top portion flaps of the corrugated cardboard box from outside and along the side walls, respectively. In addition, since the arm member is rotated and moved by the rotation device, it is possible to reduce space.
(7) The rotation device may be provided in an area on an extension of a diagonal line of the corrugated cardboard box, as viewed from above.
In this case, since the rotation device is provided in an area on an extension of a diagonal line of the corrugated cardboard box, as viewed from above, even when the corrugated cardboard box is conveyed into or out of the apparatus for folding cardboard boxes in any direction of the four side walls of the corrugated cardboard box, the rotation device does not need to be moved, and therefore it is possible to reduce space for and the cost of the apparatus for folding cardboard boxes.
(8) The arm member may be provided in a curved manner so as to be located in an area on an extension of a diagonal line of the corrugated cardboard box, as viewed from above, prior to the rotation, and so as to rotate and move along the corresponding one of the side walls of the corrugated cardboard box during the rotation.
In this case, since the arm member is provided in a curved manner so as to be located in an area on an extension of a diagonal line of the corrugated cardboard box, as viewed from above, prior to the rotation, and so as to rotate and move along the corresponding one of the side walls of the corrugated cardboard box during the rotation, the arm member is not located near the corrugated cardboard box except when the arm member erects the top of the corrugated cardboard box. Thus even when the corrugated cardboard box is conveyed into or out of the apparatus for folding cardboard boxes in any direction of the four side walls of the corrugated cardboard box, the arm member does not need to be moved.
(9) The arm member that has been rotated by the rotation device may be located at a position opposing each of the four top portion flaps, to which a force is applied by the overlapping folding member.
In this case, since the arm member is located at a position opposing the position at which the overlapping folding member folds a part of each of the four top portion flaps, the arm member can prevent the corrugated cardboard box from becoming deformed. This makes it possible to fold the top of the corrugated cardboard box in an interleaved manner with ease.
(10) The apparatus for folding cardboard boxes may further include a corrugated cardboard box top erection device that erects each of the four top portion flaps of the corrugated cardboard box from outside the corrugated cardboard box, the four top portion flaps being provided so as to extend from side walls of the corrugated cardboard box, respectively, and the corrugated cardboard box top erection device may include: a moving member that moves vertically toward each of the four top portion flap sides from the corresponding one of the side wall sides and along the corresponding one of the side walls; and a driving device that moves the moving member vertically.
In this case, since the moving member is rotated by the driving device and the moving member moves toward each of the four top portion flap sides from the corresponding one of the side wall sides and along the corresponding one of the side walls, it is possible to erect the top of the corrugated cardboard box from outside and along the side walls.
According to the present invention, it is possible to assemble a reused corrugated cardboard box by means of a simple structure and at low cost. In addition, it is possible to erect the top of the yet to be assembled corrugated cardboard box from outside and along the side walls.
An embodiment according to the present invention is described below with reference to the drawings. In the present embodiment, the description is given with a apparatus for folding cardboard boxes as an example. Note that the top portion of the corrugated cardboard box is described; however, as well as this, the present invention is also applicable to the top portion and the bottom portion of a box made from another type of paper, and to the bottom portion of the corrugated cardboard box.
First, an apparatus for folding cardboard boxes according to the present invention is described with reference to the drawings.
As shown in
The flap 901 extends outward from the side wall 905 (outward from the region surrounded by the side walls 905 through 908); the flap 902 extends outward from the side wall 906; the flap 903 extends outward from the side wall 907; and the flap 904 extends outward from the side wall 908.
Thus, in the corrugated cardboard box 900 shown in
On the other hand, as shown in
In addition, in the corrugated cardboard box 900 shown in
Further, in the corrugated cardboard box 900 shown in
Thus, with a top erection device 200 for the corrugated cardboard box 900 according to the present embodiment, the corrugated cardboard box 900 is conveyed in the state where the top is open as shown in
Then, as shown in
Note that the flaps 901 and 903 are of the same shape, and the flaps 902 and 904 are of the same shape. Here, the flaps 901, 902, 903, and 904 are described.
As shown in
Similarly, as shown in
a) shows the front of the top erection device 200, and
First, as shown in
As shown in
In addition, the locking member 300 includes locking members 301, 302, 303, and 304. Similarly, the interleaving folding mechanism 400 includes flat plates 401, 402, 403, and 404, and drive mechanisms 411, 412, 413, and 414 (see
The top erection device 200, the locking member 300, and the interleaving folding mechanism 400 are installed above the conveying device 600. The conveying device 600 includes a roller conveyor. Note that the conveying device 600 does not necessarily include a roller conveyor, but may also include any other conveying mechanism such as a belt conveyor.
The corrugated cardboard box 900, in the state where the top is open as shown in
Then when the corrugated cardboard box 900 has been conveyed into the apparatus for folding cardboard boxes 100 by the conveying device 600, the top erection device 200 starts to operate. Details of the operation of the top erection device 200 are described below. When the top erection device 200 operates, the flaps 901 through 904 of the corrugated cardboard box 900 are erected, and end portions of the flaps 901 through 904 are locked by the locking members 301, 302, 303, and 304, respectively.
Then the drive mechanisms 411, 412, 413, and 414 of the interleaving folding mechanism 400 rotate in the direction of an arrow R1, and the flat plates 401, 402, 403, and 404 start to rotate so as to be horizontal. As a result, the flaps 901 through 904 start to be folded. In this case, as described below, one end of each of the flaps 901 through 904 is held by the corresponding one of the locking members 301, 302, 303, and 304, and therefore the folding of the one end of each of the flaps 901 through 904 delays. Accordingly, the one end of each of the flaps 901 through 904 is folded on top of the other end of the corresponding one of the flaps 901 through 904 in an overlapping manner. This makes it possible to reach the state where the top of the corrugated cardboard box 900 is closed in an interleaved manner as shown in
Next, as shown in
As shown in
Next,
As shown in
Then, as shown in
Finally, as shown in
As shown in
In addition, the locking member 301 is provided vertically above and near the arm member 211; the locking member 302 is provided vertically above and near the arm member 212; the locking member 303 is provided vertically above and near the arm member 213; and the locking member 304 is provided vertically above and near the arm member 214.
Next, the locking member 300 is described with reference to
As shown in
In addition, as shown in
In this case, the elastic force of the coil spring 320 prevents the holding unit 310 from pivoting. Finally, as shown in
Then when the holding unit 310 has pivoted in the direction of the arrow R22, the area AR13 of the flap 904 is located below the area AR11 of the flap 901. Since the locking member 300 is provided not only for the flap 901 but also for the flaps 902, 903, and 904, individually, the area AR13 of the adjacent flap is located below the area AR11 of each flap.
Next,
First, as shown in
Then, as shown in
These features make it possible to assemble the corrugated cardboard box 900, folding the flaps 901, 902, 903, and 904 into the interleaved top with certainty.
Next,
As shown in
In this case, the corrugated cardboard box 900 becomes deformed as shown in a dashed line M900. That is, the forces of folding the flaps 901 through 904 deviate in the direction of the dashed line M900, and therefore some of the forces V401, V402, V403, and V404 is wasted.
On the other hand, as shown in
In this case, the force V401 applied to the flap 901 of the corrugated cardboard box 900 is supported by the force V203; the force V402 applied to the flap 902 of the corrugated cardboard box 900 is supported by the force V204; the force V403 applied to the flap 903 of the corrugated cardboard box 900 is supported by the force V201; and the force V404 applied to the flap 904 of the corrugated cardboard box 900 is supported by the force V202.
Accordingly, in this case, the corrugated cardboard box 900 does not become deformed. That is, the forces of folding the flaps 901 through 904 do not deviate in the direction of the dashed line M900, and therefore it is possible to close the top of the corrugated cardboard box 900 in an interleaved manner with the forces V401, V402, V403, and V404 that are minimized.
Next, a description is given of an example where curved plates 401a, 402a, 403a, and 404a are used instead of the flat plates 401, 402, 403, and 404, respectively, of the interleaving folding mechanism 400.
First, as shown in
Then, as shown in
Then, as shown in
This makes it possible to assemble the corrugated cardboard box 900, folding the flaps 901, 902, 903, and 904 into the interleaved top with certainty.
Next, a description is given of another example of the apparatus for folding cardboard boxes 100. A apparatus for folding cardboard boxes 100a includes a leaf spring unit 300a instead of the locking member 300, and also includes a projecting arm member 450 and a projecting arm driving device 460 instead of the drive mechanisms 411, 412, 413, and 414 and the flat plates 401, 402, 403, and 404 of the interleaving folding mechanism 400.
The leaf spring unit 300a is described with reference to
As shown in
In addition, as shown in
In this case, the tip of the leaf spring 340 is pushed, and therefore the entire leaf spring 340 starts to bend in the direction of an arrow R3. Finally, as shown in
Then when the end portion of the area AR11 of the flap 901 has been released by the tip portion of the leaf spring 340, the area AR13 of the flap 904 is located below the area AR11 of the flap 901. Since the leaf spring unit 300a is provided not only for the flap 901 but also for the flaps 902, 903, and 904, individually, the area AR13 of the adjacent flap is located below the area AR11 of each flap.
Next,
First, as shown in
Then, as shown in
Next,
As shown in
As shown in
The inward fold prevention rod 740 is fixed to the holding unit 730. The stationary unit 710 and the holding unit 730 are provided so as to be movable relative to each other by the sliding unit 720. That is, the holding unit 730 is provided so as to be movable by the sliding unit 720 in the direction of an arrow R1 (the vertical direction).
The sliding unit 720 moves the holding unit 730 and the inward fold prevention rod 740 vertically downward when the corrugated cardboard box 900 is conveyed, and moves the holding unit 730 and the inward fold prevention rod 740 vertically upward when the corrugated cardboard box 900 is assembled.
This makes it possible that, as shown in
In addition, the holding unit 730 and the inward fold prevention rod 740 can be moved in the direction of the arrow R1 (the vertically upward direction), and therefore the movement of the flap 902 may not be interrupted when the corrugated cardboard box 900 is assembled.
As described above, in the apparatus for folding cardboard boxes 100 according to the present embodiment, when the interleaving folding mechanism 400 has started to push down the area AR13 of each of the flaps 901, 902, 903, and 904 of the corrugated cardboard box 900, the area AR11 of each of the four top portion flaps of the corrugated cardboard box 900 is held due to the elastic force of the coil spring 320 of the locking member 300. In addition, when the interleaving folding mechanism 400 has continued to push down the area AR13 of each of the flaps 901, 902, 903, and 904 of the corrugated cardboard box 900 and a force of the pushing down has exceeded the elastic force of the coil spring 320 of the locking member 300, the area AR11 of each of the four top portion flaps of the corrugated cardboard box 900 is released by the locking member 300. As a result, it is possible to fold the four top portion flaps of the corrugated cardboard box 900 on top of one another in an overlapping manner to form an interleaved top, without using a vacuum suction device. As a result, even when the surface of the reused corrugated cardboard box 900 is soiled, it is possible to hold one end of each of the flaps 901, 902, 903, and 904 of the corrugated cardboard box 900 with certainty.
In addition, with the provision of the drive mechanisms 411, 412, 413, and 414 each at one end of the corresponding one of the curved plates 401a, 402a, 403a, and 404a, it is possible to push the area AR13 of each top portion flap of the corrugated cardboard box 900. When the curved plates 401a, 402a, 403a, and 404a have started to push down the areas AR13 of the flaps 901, 902, 903, and 904 of the corrugated cardboard box 900, respectively, the area AR11 of each of the four top portion flaps of the corrugated cardboard box 900 is held due to the elastic force of the coil spring 320 of the locking member 300. In addition, when the area AR13 of each top portion flap is overlapped by the area AR11 of an adjacent one of the top portion flaps, the curved plates 401a, 402a, 403a, and 404a rotate and therefore can push the top portion downward from vertically above the area AR11 of the adjacent one of the top portion flaps. As a result, it is possible to prevent the interleaved top from rising.
The tip of the projecting arm member 450 is caused to project by the projecting arm driving device 460, and therefore it is possible to push the area AR13 of each top portion flap of the corrugated cardboard box 900. In addition, since the volume of the projecting arm member 450 is small, even when the area AR11 of each top portion flap is overlapped by the area AR13 of an adjacent one of the top portion flaps, i.e., even when an interleaved top has been formed, it is possible to pull out the projecting arm member 450 therefrom with ease.
With the top erection device 200, it is possible to erect the top (the flaps 901, 902, 903, and 904) of the corrugated cardboard box 900 from outside and along the side walls 905, 906, 907, and 908 with certainty.
In the present invention: the corrugated cardboard box 900 corresponds to a corrugated cardboard box; the flaps 901, 902, 903, and 904 correspond to four top portion flaps; the apparatus for folding cardboard boxes 100 corresponds to a apparatus for folding cardboard boxes; the area AR11 corresponds to one end of each of the four top portion flaps of the corrugated cardboard box; the area AR13 corresponds to the other end of each of the four top portion flaps of the corrugated cardboard box; the locking member 300 corresponds to a locking member; the coil spring 320 corresponds to an elastic member; the interleaving folding mechanism 400, the flat plates 401, 402, 403, and 404, the curved plates 401a, 402a, 403a, and 404a, the drive mechanisms 411, 412, 413, and 414, the projecting arm member 450, and the projecting arm driving device 460 correspond to an overlapping folding member; the curved plates 401a, 402a, 403a, and 404a, and the drive mechanisms 411, 412, 413, and 414 correspond to a curved member; the projecting arm member 450 and the projecting arm driving device 460 correspond to a projecting arm member; the leaf spring unit 300a corresponds to a leaf spring; the holding unit 310 corresponds to a holding member; the side walls 905, 906, 907, and 908 correspond to side walls; the outside of the region surrounded by the side walls 905, 906, 907, and 908 corresponds to the outside of the box; the top erection device 200 corresponds to a corrugated cardboard box top erection device; the arm members 211, 212, 213, and 214 correspond to an arm member; the motors 201, 202, 203, and 204 correspond to a rotation device; the areas AR1, AR2, AR3, and AR4 correspond to areas on extensions of diagonal lines of the box; the state of
Note that in the above embodiment, descriptions are given of the combination of the folding mechanism 400 and the locking member 300, and the combination of the projecting arm member 450, the projecting arm driving device 460, and the leaf spring unit 300a; however, as well as this, the present invention is applicable to the combination of the folding mechanism 400 and the leaf spring unit 300a, and the combination of the projecting arm member 450, the projecting arm driving device 460, and the locking member 300.
Note that in the present embodiment, a description is given of the state where the top is closed in an interleaved manner; however, as well as this, as shown in
Note that if space for the structure of the top erection device 200 can be increased, a structure may be employed in which plate members are used instead of the arm members 211, 212, 213, and 214 so that the plate members are caused to project vertically upward from between the rollers of the roller conveyor of the conveying mechanism 600.
While a preferred embodiment of the present invention has been described above, the present invention is not limited thereto. It should be understood that other various embodiments may be devised without departing from the spirit and the scope of the present invention. Further, actions and effects obtained from the features of the preferred embodiment of the present invention are illustrative and not restrictive.
Number | Date | Country | Kind |
---|---|---|---|
2009-000034 | Jan 2009 | JP | national |
2009-000036 | Jan 2009 | JP | national |
2009-126264 | May 2009 | JP | national |