JP4838510B2 - Casing method and casing device - Google Patents

Description

  The present invention is a wrap-around packaging box including a top plate, a bottom plate, and a belt-shaped body portion formed with a side plate connecting these, and an inner flap and an outer flap, and from the upper surface. The present invention relates to a casing method and a casing device for assembling a packaging box having a 4N square shape (N represents an integer of 1 or more, preferably 2 or more) and storing a container in the packaging box.

  An example of packaging of a container using a so-called wrap-around packaging box is performed as follows. That is, by folding the pair of side plates upright, folding the inner flap on one side first, then inserting the container, and then folding the inner flap on the other side and then closing the top plate and the outer flap The packaging box containing the container is completed.

  In addition, after storing the container so as to wrap the container with a top plate, a bottom plate, and a band-shaped barrel unit formed by having side plates connecting them, both end portions of the barrel unit that are left open are respectively There is also a method of completing a packaging box containing containers by sequentially closing with a pair of inner and outer flaps, and there are many variations of the assembly procedure. Incidentally, the former method is a method close to the present invention.

  The packaging box formed in this way is generally a rectangular parallelepiped wraparound carton when viewed from above. However, when the contents packed inside the box are made into a cylindrical container such as canned beer, the space at the corner (corner) becomes a so-called dead space, which is considered unnecessary, and further improves handling. In order to achieve this, there is also an upper surface octagonal wraparound carton in which the four corners of the carton are eliminated.

  However, since such a top octagonal wrap-around carton has a very unique box shape, it can be said that it is very difficult to automatically pack the developed flat cardboard while automatically assembling it.

  In particular, since the box to be assembled has a special shape with a corner cut off (the portion forming an octagon), it is difficult to stably maintain the shape of the corner portion. Thus, the following inconvenience may occur in the casing process.

  First, the shape of the corner portion collapses when the container is fed from one end of the transport line. That is, the container to be inserted is inserted when the container is inserted from the opening on the opposite side which is not yet closed after folding the pair of side plates of the carton so as to stand and closing the inner flap on one side first to form the corner portion. The position of the bottom plate of the carton may be displaced in the insertion direction due to friction between the bottom plate and the side plate of the carton, and the shape of the corner portion that has been held and formed may be destroyed.

  Second, the container is completely fed, the inner flap located on the feed side is closed, and the shape of the corner portion collapses when it is moved and conveyed to the next gluing step, for example. That is, the inner flap positioned on the feed side is conveyed while being molded or pressed by the guide in a closed state, but the form fixing method by the guide is not absolute, and the inner flap is about to open during conveyance. The shape of the corner portion may collapse due to the restoring force or the like. However, in the modified octagonal carton, it can be said that the first problem is more serious than the second problem.

JP 2001-48123 A JP 2001-48117 A

  The present invention has been devised based on such an actual situation, and the object of the present invention is to solve the above-described problems, and in particular, an upper surface 4N square shape having a special shape such as a corner cut off ( In this case, the object is to provide a casing method and a casing device in which a container can be reliably stored in a packaging box (N represents an integer of 2 or more) and can be reliably packed.

  In order to solve the above-mentioned problems, the present invention provides a wrap-around type comprising a top plate, a bottom plate, a belt-like body formed with a side plate connecting them, and an inner flap and an outer flap. A casing method for assembling a packaging box and storing a container, wherein the packaging box to be assembled is a packaging box having an upper surface 4N square (N represents an integer of 1 or more), and the casing method Sets the unfolded packaging box carton in the conveyance path of the conveyance line and the inner flap located on one end side along the conveyance direction of the conveyance path on the inside so as to form the packaging box. The first inner flap folding step to be folded and the outer flap on the bottom plate located on the one end side are transported while regulating the position, while maintaining the box form, The box shape holding / feeding process for feeding the container from the end side of the container and storing it inside the box, and the inner flap located on the other end side of the transport line are folded inward to form a packaging box. 2 and an outer flap folding step of bending the outer flaps positioned at both ends of the transport line so as to cover the inner flaps.

  Moreover, as a preferable aspect of the present invention, the packaging box to be assembled is a packaging box in which a bent connecting side piece is interposed at a location where the inner flap and the body portion are connected.

  Moreover, as a preferable aspect of the present invention, in the box shape holding / feeding step, the outer flap located on one end side of the conveying line and protruding from the conveying path is held and conveyed while being held. Thus, the container is fed from the other end side of the conveying line and stored in the box while maintaining the chamfered shape by the bent connecting side piece while preventing the displacement of the bottom plate. The

  Further, as a preferred aspect of the present invention, in the box shape holding / feeding step, the outermost end surface of the outer flap on the bottom plate side that is located on one end side of the transport line and protrudes from the transport path and its periphery The position is regulated while the upper and lower surfaces are in contact with the guide.

  Further, as a preferred aspect of the present invention, in the setting step of setting in the conveyance path of the conveyance line, the pair of side plates are erected and the bottom plate side that protrudes from the conveyance path so as not to disturb the folding of the inner flap The outer flap is configured to be bent downward from the conveyance path surface.

  Further, as a preferred aspect of the present invention, following the second inner flap folding step, an outer flap on the bottom plate side that is located on the other end side of the conveyance line and on the bottom plate side and protrudes from the conveyance path is provided. By folding at a steep angle above the conveying path surface, the inner flap position is fixed at the folded line portion of the folded outer flap, and the chamfered shape is maintained while maintaining the chamfered shape by the bent connecting side piece. A final box form holding step is further added and configured.

  Moreover, as a preferable aspect of the present invention, the steep angle bent upward from the conveyance path surface is set to 10 to 70 degrees from the position of the bottom plate corresponding to the conveyance path surface.

  In addition, the present invention assembles a wraparound packaging box including an upper surface plate, a bottom surface plate, and a belt-shaped body portion formed with a side surface plate connecting these, and an inner flap and an outer flap. A casing method for storing a container, wherein a packaging box to be assembled by the casing method is a packaging box having a top surface 4N square (N represents an integer of 1 or more), and the casing method is in an unfolded state. A setting step for setting the packaging box carton in the conveying path of the conveying line, and a first inner portion in which an inner flap located on one end side along the conveying direction of the conveying path is folded inward to form a packaging box. Flap folding step and the outer flap on the bottom plate side that is located on the other end side of the transfer line and on the bottom plate side and protrudes from the transfer path is 80 degrees or more below the transfer path surface Box shape holding / feeding process for feeding the container from the other end side of the transfer line and keeping it inside the box while keeping the box shape by bending at a steep angle, and positioned on the other end side of the transfer line A second inner flap folding step for folding the inner flap inward so as to form a packaging box, and an outer flap folding step for folding the outer flaps positioned at both ends of the transport line so as to cover the inner flap. Configured to have.

  In addition, the present invention assembles a wraparound packaging box including an upper surface plate, a bottom surface plate, and a belt-shaped body portion formed with a side surface plate connecting these, and an inner flap and an outer flap. A casing device for storing a container, wherein a packaging box to be assembled by the casing device is a top 4N square (N represents an integer of 1 or more), and the casing device is transported. When feeding the container to be stored in the box from the other end side along the line conveying direction toward the one end side, the bottom plate moves along with the movement of the container, and the position shift occurs. In order to prevent the shape from collapsing, it is located on one end side along the transport direction of the transport line and is in contact with the outermost end surface of the outer flap on the bottom plate side protruding from the transport path. Place Configured to be provided with an outer flap transfer position fixing guide which can be conveyed with regulations.

  Moreover, as a preferable aspect of the casing device of the present invention, the packaging box to be assembled is configured as a packaging box in which a bent connection side piece is interposed at a location where the inner flap and the body portion are connected.

  Moreover, as a preferable aspect of the casing device of the present invention, the guide for fixing the outer flap transport position is disposed along the transport line, a contact guide portion that contacts the outermost end surface of the outer flap, A lower surface guide portion and an upper surface guide portion are arranged so as to sandwich the upper and lower surfaces in the vicinity of the end surface.

  As a preferred aspect of the casing device of the present invention, the upper surface guide portion or the lower surface guide portion is connected to the contact guide portion via a rotatable connecting member, Rotation is possible so that the opening can be opened upward or downward.

  Moreover, as a preferable aspect of the casing device of the present invention, the outer flap conveyance position fixing guide is configured to include a mechanism that can change the fixing position during conveyance according to the size of the outer flap.

  In addition, the present invention assembles a wraparound packaging box including an upper surface plate, a bottom surface plate, and a belt-shaped body portion formed with a side surface plate connecting these, and an inner flap and an outer flap. A casing device for storing a container, wherein a packaging box to be assembled by the casing device is a top 4N square (N represents an integer of 1 or more), and the casing device is transported. When feeding the container to be stored in the box from the other end side along the line conveying direction toward the one end side, the bottom plate moves along with the movement of the container, and the position shift occurs. In order to prevent the shape from being deformed, the outer flap is positioned on the other end side in the transport direction of the transport line and is in contact with the outer flap on the bottom plate side protruding from the transport path. Configured to be provided with an outer flap folded transport position fixing guide which can carry a depressed while bent at a steep angle of 80 degrees or more below the transport road.

  In addition, the present invention assembles a wraparound packaging box including an upper surface plate, a bottom surface plate, and a belt-shaped body portion formed with a side surface plate connecting these, and an inner flap and an outer flap. A casing device for storing a container, wherein a packaging box to be assembled by the casing device is a top 4N square (N represents an integer of 1 or more), and the casing device is transported. When feeding the container to be stored in the box from the other end side along the line conveying direction toward the one end side, the bottom plate moves along with the movement of the container, and the position shift occurs. In order to prevent the shape from collapsing, it is located on one end side along the transport direction of the transport line and is in contact with the outermost end surface of the outer flap on the bottom plate side protruding from the transport path. Place An outer flap conveyance position fixing guide that can be conveyed while being regulated is provided, and the casing device is positioned on the other end side that is an opening on the feed side and folded inward after the feeding of the container is completed. In order to fix the position of the inner flap, the outer flap on the bottom plate that protrudes from the transport path is bent at a steep angle above the transport path surface on the other end along the transport direction of the transport line. An upper position fixing guide that can be conveyed as it is is provided.

  In addition, the present invention assembles a wraparound packaging box including an upper surface plate, a bottom surface plate, and a belt-shaped body portion formed with a side surface plate connecting these, and an inner flap and an outer flap. A casing device for storing a container, wherein a packaging box to be assembled by the casing device is a top 4N square (N represents an integer of 1 or more), and the casing device is transported. When feeding the container to be stored in the box from the other end side along the line conveying direction toward the one end side, the bottom plate moves along with the movement of the container, and the position shift occurs. In order to prevent the shape from being deformed, the outer flap is positioned on the other end side in the transport direction of the transport line and is in contact with the outer flap on the bottom plate side protruding from the transport path. And a guide for fixing the outer flap bent conveyance position that can be conveyed while being bent at a steep angle of 80 degrees or more below the conveyance road surface. In order to fix the position of the inner flap that is located on the other end side that is the opening on the side and folded inward, it protrudes from the conveyance path to the other end side along the conveyance direction of the conveyance line. An upper position fixing guide that can convey the outer flap on the bottom plate side that is bent at a steep angle above the conveyance path surface is provided.

  According to the present invention, in particular, even a packaging box of a top surface 4N square (in this case, N represents an integer of 2 or more) having a special shape with corners cut off, An extremely excellent effect is achieved that the container can be securely stored therein and can be reliably packed with a low defect rate.

  Before describing specific embodiments of the casing method and the casing device in the present invention, a description will be given of a packaging box to be assembled in the present invention.

[Description of the packaging box to be assembled]
FIG. 1 shows a suitable developed example of a packaging box 1 to be assembled in the present invention (a packaging box carton in an unfolded state).

  As shown in FIG. 1, the form of the packaging box 1 applied to the present invention is a belt-like body formed by connecting a plurality of (four in the present embodiment) plate bodies 11, 21, 15, 25. For example, after storing a container (a group of can products such as canned beer) in this body part so as to wrap it, a belt-like body part is integrally fixed in a tubular shape with an adhesive piece 9 to form a tubular shape. The body portion can be formed.

  Further, four folding connection side pieces 38 (substantially rectangular shape) are folded inward from the crease lines 61, 65, 81, 85 shown in FIG. 1, and four inner flaps are formed from the crease lines 62, 66, 82, 86. 31, 31, 35, 35 are folded inside.

  Usually, the four inner flaps 31, 31, 35, 35 that have been folded are glued at predetermined positions on the outer surfaces, and the four outer flaps are formed from the crease lines 71, 75, 91, 95 toward the glued surfaces. By folding 41, 41, 45, 45, the form of the packaging box can be completed. This state corresponds to a so-called shipping box.

  The form of the packaging box will be described in more detail.

  In the packaging box used in the present invention, a pair of opposing side plates 11 and 15 are formed to be connected to the side constituting the body portion of the top plate 25, and are formed at both end portions on the opening side of the top plate 25. Are formed by connecting outer flaps 45, 45 on the upper surface side.

  Similarly, the pair of side plates 11 and 15 described above are connected to the side of the body of the bottom plate 21, and the bottom side plate 21 has a bottom surface (bottom surface) at both ends on the opening side. Outer flaps 41, 41 on the face plate side) are formed.

  Further, inner side flaps 31, 31 are connected to both end portions on the opening side of the side plate 11 via bent connecting side pieces 38, respectively, and an integrated side portion 30 is constituted by these.

  Similarly, inner flaps 35 and 35 are connected to both end portions on the opening side of the side plate 15 via bent connection side pieces 38, respectively, and an integrated side surface 30 is constituted by these.

  In the present invention, the formation of the bent connection side piece 38 forms a form in which the corners of the body part to which the inner flap is connected are cut off (corresponding to the symbol H in FIG. 1). Therefore, the planar shape seen from the upper surface plate 25 in the present embodiment is a modified octagon in which a corner portion of the box is cut off. In the present invention, the deformed octagon as shown in the figure is the most preferred form, but a predetermined number of additional corners are additionally formed in the bent connecting side piece 38, thereby forming a modified dodecagon, deformed hexagon, and deformed octagon. , ……. The present invention can also be applied to a box having a so-called upper quadrangular shape.

  That is, the packaging box according to the present invention is in the form of an upper 4N square (N represents an integer of 1 or more, preferably 2 or more, preferably N = 2). The bent connecting side piece 38 is interposed at a portion where the inner portion is connected to the body portion, and the corner of the body portion where the inner flap is connected is cut off. The 4N square shape (N = 2 or more), which is a preferred mode, is considered to be unnecessary because the space of the corner portion (corner portion) becomes a so-called dead space, and further to improve handling properties, This is to improve the design.

  The packaging box shown in FIG. 1 has, for example, a pair of tear start pieces 12, 13, 16, 17 formed in advance on the side plates 11, 15 of the packaging box when displaying the contents of the container at the store, By pulling from the center of the side plates 11 and 15 toward both ends, the tear strips 4 and 5 connected to the tear start pieces 11, 13, 16 and 17 are removed, and accordingly, the upper and lower sides of the box body are divided. After the upper lid is removed, the remaining lower box remaining in the lower part is used as a paper tray for placing the product as it is. Such a so-called zipper function is generally formed conventionally, but the production of the zipper may be omitted if necessary.

  Next, the casing method of the present invention in which such a packaging box is assembled will be described. In addition, description of the principal part structure of a casing apparatus is also suitably performed in the middle of description of a casing method.

[Description of Casing Method of the Present Invention]
First of all,
(1) A setting process for setting the unpacked packaging box carton in the conveyance path of the conveyance line is performed.

  An unfolded carton (the state shown in FIG. 2A) prepared in the vicinity of the transport line is fed onto the transport path by, for example, a supply device including a suction gripping mechanism.

  At the time of incorporation into the conveying line by this feed, the pair of side plates 11 and 15 are erected as shown in FIG. 2B, and the folding of the inner flap performed in the next process is not hindered. It is desirable that the pair of outer flaps 41 and 41 on the side of the bottom plate 21 protruding from the conveyance path is hidden under the guides 141 and 141 and bent downward from the conveyance path surface. The folding angle is preferably in the range of 70 degrees below the horizontal.

  (2) Next, as shown in FIG. 3 (a), the inner flaps 31 and 35 located on one end side (front side of the drawing) along the transport direction of the transport path of the transport line are formed into a packaging box. Thus, the first inner flap folding process for folding inward is performed.

  That is, the folding connection side piece 38 and the inner flap 35, which are located on one side of the conveyor, for example, which is the transport line (located on the front side of the drawing), and the bending connection side piece 38 and the inner flap 31 are respectively shown in FIG. ), The bent guide portion 200 that is the end portion of the guide 200 and the rotating first cam roller 100 are bent along the crease line. Then, after being bent, the bent form is maintained to some extent by the conveyor guide 200 installed on the downstream side of the first cam roller 100 and is further conveyed downstream in this state. The first cam roller 100 (also referred to as a tucker) is an L-shaped tucker capable of performing the same function, and may be a tucker fixed along the conveyance path.

  (3) Next, as shown in FIG. 3B, the outer flap 41 on the bottom plate side (located on the front side of the drawing) located on one end side is conveyed while being position-regulated, and the box shape is changed. A box shape holding / feeding process for feeding the container from the other end side (the back side of the drawing) of the transfer line and storing it inside the box is performed.

  For example, when feeding a container, which is a can container, into the box, the bottom plate 21 may be displaced due to the frictional force between the bottom surface of the can container and the bottom plate of the packaging box. Therefore, there is a risk that the chamfered shape formed by the bent connecting side piece 38 may be crushed simultaneously with the can feed unless any hand is applied.

  Therefore, in the present invention, the outer flap 41 on the bottom plate side is conveyed while its position is restricted, so that the box shape is maintained. That is, while being located on one end side of the transport line and transporting while holding the outer flap on the bottom plate side that protrudes from the transport path, the bent connection side piece while preventing the displacement of the bottom plate is prevented. In the state where the chamfered shape by 38 is maintained, the container is fed from the other end side (the back side of the drawing) of the transport line.

  That is, when a box in the middle of assembly is transported to the position of a transport line where cans are supplied, a group of can beer products are supplied (CAN FEED in the figure) as shown in FIG. A predetermined amount of canned beer product is inserted and placed on top. At this time, by holding the outer flap on the bottom plate side, the displacement of the bottom plate 21 is prevented, and the chamfered shape by the bent connecting side piece 38 is not crushed and the shape is maintained.

  The method of holding the outer flap is not particularly limited, but the position is restricted while the outermost end surface 41a of the outer flap 41 on the bottom plate side protruding from the conveyance path and the upper and lower surfaces around the outer flap 41 are in contact with the guide. It is preferable to provide an outer flap conveyance position fixing guide 400 for holding. This is because the effects of the present invention can be obtained with a simple method.

  FIG. 5 shows a specific structure of the outer flap conveyance position fixing guide 400 that exhibits such an effect. FIG. 5 is a very simple schematic cross-sectional view cut and drawn in a cross section perpendicular to the traveling direction of the transport line. The depth direction of the paper surface corresponds to the conveyance line direction. As shown in FIG. 5, the outer flap transport position fixing guide 400 feeds the container to be stored in the box from the other end side along the transport direction of the transport line toward the one end side. In order to prevent the chamfered shape by the bent connecting side piece from collapsing due to the movement of the bottom plate along with the movement of the container, the one end side along the conveying direction of the conveying line ( It is located on the right side of the drawing. And it can convey, carrying out position regulation, contacting the outermost end surface 41a of the outer flap 41 which protrudes from the conveyance path.

  That is, the preferred outer flap transport position fixing guide 400 shown in FIG. 5 is arranged along the transport line, and includes a contact guide portion 401 that contacts the outermost end surface 41a of the outer flap 41, and an outer flap. A lower surface guide portion 402 and an upper surface guide portion 403 are arranged so as to sandwich the upper and lower surfaces near the outermost end surface.

  The upper surface guide portion 403 is connected to the contact guide portion 401 via a rotatable connecting member (for example, a hinge), and the upper surface guide portion 403 is moved upward with respect to the contact guide portion 401. It is desirable to make it possible to rotate and open the frontage. By doing so, for example, the position setting of the contact guide portion 401 that contacts the end portion of the outer flap can be facilitated. Furthermore, there is a merit that, for example, when a trouble such as biting of the outer flap into the guide occurs, the repair work can be easily performed. Further, a mechanism similar to the above may be provided for the lower surface guide portion 402 so that the same effect can be obtained.

  Furthermore, it is desirable that the outer flap conveyance position fixing guide 400 includes a mechanism that can change the fixing position during conveyance according to the size of the outer flap. This is because the size of several kinds of packaging boxes can be accommodated.

  Note that the guide 141 may be omitted at a position where the outer flap conveyance position fixing guide 400 exists.

  The above-described box form holding / feeding process exhibits an extremely excellent effect that the form can be reliably held and the can product is reliably transferred without falling into the box at the time of feeding. However, it is necessary to change the mold by changing the size of the packaging box, and the fact that the desired guide is protruding on the operation surface cannot be denied. Accordingly, FIG. 7 shows a proposal of the second embodiment, which is another box form holding / feeding process.

That is, as shown in FIG. 7, the outer flap 41 on the bottom plate side that is located on the other end side (CAN FEED side) and on the bottom plate side of the conveyance line and protrudes from the conveyance path is lower than the conveyance path surface. There is a box shape holding / feeding process in which the container is fed from the other end side of the transfer line (CAN FEED) and placed inside the box while keeping the box shape by bending it at a steep angle θ of 80 degrees or more to the side. To be implemented.
When the bending angle is less than 80 degrees, the packaging box is displaced due to the resistance when the can is loaded, resulting in inconvenience that it becomes difficult to maintain the box shape.

  And so that this operation can be performed, that is, the outer flap is pushed down while being in contact with the outer flap on the bottom plate side protruding from the conveyance path, and is bent at an acute angle θ of 80 degrees or more below the conveyance path surface. A guide 380 for folding and transporting the outer flap bent is formed along the transport path so that it can be transported as it is. In FIG. 7, the mechanism depicted in a two-dot chain line circle A is that of the first embodiment described above (corresponding to FIG. 5), and includes an outer flap folding conveyance position fixing guide 380 to the last. This is described as a reference for convenience of comparison with the second embodiment.

  (4) Next, as shown in FIG. 4A, a second inner flap that is folded inward so as to form an inner flap that is located on the other end side (the back side in the drawing) of the transport line. A folding process is performed.

  That is, the folding connection side piece 38 and the inner flap 35 positioned on the opposite side (canned beer product insertion side) of the conveyor, and the bending connection side piece 38 and the inner flap 31 (not yet folded) are respectively shown in FIG. As shown in FIG. 4A, the guide 220 is bent along the crease line by the curved introduction portion which is the end portion of the guide 220 and the rotating second cam roller 120.

  Then, after being bent, the bent form is maintained by the conveyor guide 220 installed on the downstream side of the second cam roller 120, and is conveyed further downstream in this state.

  (5) It is desirable to provide a final box shape holding step for carrying the sheet while maintaining the chamfered shape by the bent connecting side pieces 38, 38 continuously to the second inner flap folding step. For example, this is for preventing the packaging box from being deformed during the transportation up to the gluing step which is the next step.

  FIG. 6 shows a schematic drawing of the final box shape holding process which is desired to be added as a preferred embodiment. FIG. 6 is a drawing in which the rear side of FIG. 4A is replaced with the front side of the drawing and the direction is changed. As shown in this drawing, the final box shape holding step is performed on the other end side ( This time, the outer flap 41 located on the bottom plate side and on the bottom plate side is lifted by the upper position fixing guide 500 (the guide is put down and lifted to support the outer flap 41). Then, the position of the inner flap 41 is fixed at the fold line 71 portion of the folded outer flap 41 by bending it at a steep angle above the conveying path surface (pressing from below), and chamfering by the bent connecting side piece 38 It is a step of acting so as to carry the sheet while maintaining its shape.

  The steep angle formed by bending upward from the conveyance path surface by this step is set to 10 to 70 degrees, preferably 20 to 60 degrees from the position of the bottom plate corresponding to the conveyance path surface.

  When this set angle is less than 10 degrees, it becomes difficult to maintain the chamfered shape by the bent connecting side piece 38 by fixing the lower position of the inner flaps 31 and 35 at the folding line 71 portion of the folded outer flap 41. A trend will occur. On the other hand, if the set angle exceeds 70 degrees, the outer flap covers the inner flap more than necessary, resulting in a disadvantage that it is impossible to secure a glued area to the inner flap.

  A specific upper position fixing guide 500 that exhibits such an effect will be further described. As shown in FIG. 6, the upper position fixing guide 500 provided in the casing device of the present invention is slightly below the guide 220, and moves the outer flap 41 on the bottom plate side protruding from the conveyance path to the conveyance path surface. It is arranged along the conveyance path so that it can be conveyed while being bent at a steep angle to the upper side. It is desirable that the introduction portion, which is the end portion of the upper position fixing guide 500, has a curved shape so that the outer flap can be smoothly bent upward from the conveyance path surface.

  In the final box form holding step, which is desired to be added as a preferred mode as described above, on the so-called filling side of the can, the outer flap on the bottom plate side is folded at a steep angle above the conveying path surface after filling the can. This includes the operation of maintaining the form until the start of bonding. In addition to this operation, the outer flap on the bottom plate side opposite to the filling side of the can is also bent at a steep angle above the conveyance path surface (holding of the above outer flap). The operation of maintaining the form until the start of the adhesion of the flap may be added. In this case, it becomes a preferable aspect for further stabilizing the box molding.

  By the way, as described above, the rear side of the inner flap is bent by the second cam roller 120 (hereinafter also referred to as a tucker), and the outer flap on the bottom plate side is conveyed in order to maintain the bent state. An operation is carried out such that it is bent at a steep angle above the road surface. A guide for performing this operation is the upper position fixing and fixing guide 500 (see FIG. 6). The box forming state is more stable when the folding operation of the rear side of the inner flap by the tacker and the lifting operation of the outer flap on the bottom plate side are performed in a short time as long as the order is not reversed. . Therefore, at the moment when the rear side of the inner flap is folded by the tacker, a mechanism that moves the upper position fixing and fixing guide 500 as a lifting guide from the downstream side to the upstream side, that is, the upper position fixing. It is preferable to provide a swing mechanism that swings the fixed guide 500 in synchronization with the tacker operation.

  (6) Next, an outer flap folding step is performed in which outer flaps positioned at both ends of the transport line are folded so as to cover the inner flaps. That is, as shown in FIG. 4B, the outer flaps 41 and 45 are bent while being folded so that the upper surface plate 25 is covered. At this time, usually, an adhesive is applied to the inner flap and the adhesive margin piece 9, the upper surface plate 25 and the adhesive margin piece 9 are adhered, and the outer flaps 41 and 45 and the inner flaps 31 and 35. The assembly of the packaging box is completed. In the present invention, the inner flap refers to a flap located on the inner side in the shipping box state, and the outer flap refers to a flap located on the outer side in the shipping box state.

(7) By the way, in the caser apparatus for assembling a general wrap-around packaging box, the box 1 (the packaging box 1 in which the contents are stored, hereinafter also referred to as a case) to be conveyed is shown in FIG. As shown, the lower side of the box 1 is pushed by the so-called case transport lug 300 and is transported in the apparatus transport path. Since the case conveying lug 300 is arranged at the lower part so as to push the lower side of the box 1 as described above, the upper surface of the box is moved in the direction of travel by the resistance during pressing during the pressure gluing operation. There is a risk of tilting to the opposite side. In order to prevent this, as shown in FIGS. 8A and 8B, an upper transport lug 310 is further provided above the case transport lug 300, and the upper transport lug 310 supports the upper surface of the case. It is desirable to do.

  Further, in the box body 1 having the chamfered shape portion by the bent connecting side piece 38 according to the embodiment of the present invention, a pair of corrections for holding down the chamfered shape portion (bending connected side piece 38 portion) during conveyance. It is preferable to install the plate 315 in the upper conveyance lug 310, respectively. By installing the correction plate 315, it is possible to suppress the opening of the corner cut portion on the opposite side to the traveling direction of the box (case), that is, the chamfered shape portion (the bent connecting side piece 38 portion), and the moldability of the box body. Can be further stabilized. In FIG. 8, reference numeral 320 denotes a pressure roller.

Such a correction plate 315 can be installed and applied as appropriate in other processes. For example, in the box-type holding / feeding process as shown in FIG. 3, as an application of the mode shown in FIG. 8A, only the anti-filling side of the upper conveying lug 310 (the bent connecting side piece 38 on the near side in FIG. 3). The correction plate 315 can be provided on the portion only).
In this case, the chamfered shape portion (folded connecting side piece 38 portion) can be prevented from opening in the box shape holding / feeding step as shown in FIG. 3, and the moldability of the box can be further stabilized. Further, when supplying a group of canned beer products (CAN FEED in FIG. 3), the displacement of the bottom plate 21 is also prevented, which contributes to the maintenance of the chamfered shape.

  In addition, after applying a paste such as hot melt, immediately before the box (case) is conveyed to a pressurizing mechanism for pressurizing the glued portion, a corner cut portion (bending and connecting side piece 38 is formed by a pressing stroke generated by a cylinder or the like. It is also a preferable aspect that two or four correction mechanisms for holding the portion) are installed. Thereby, the moldability of a corner cut part is stabilized more.

  Further, in a caser apparatus for assembling a general wraparound packaging box, the side flap portion including the so-called inner flap and outer flap is crimped by a continuous roller or a pressure plate. However, as shown in FIG. It is also a preferred embodiment that the pressure is carried out in a belt manner. That is, as shown in FIG. 9, by attaching an angle correction block 355 along the angle of the corner cut portion (folded connecting side piece 38 portion) to the belt 350 and rotating the belt in synchronization with the movement of the caser. Realization of stable molding is achieved.

  The present invention is a wrap-around packaging box including a top plate, a bottom plate, and a belt-shaped body portion formed with a side plate connecting these, and an inner flap and an outer flap, and from the upper surface. While assembling a packaging box having a 4N square shape (N represents an integer of 1 or more, preferably 2 or more) as seen, it is used for the technique of a casing for accommodating a can container, for example. Can do.

An example of the expanded view of the packaging box which is a use object of this invention is shown. (A), (b) is the schematic perspective view of the packaging box which showed typically an example of the condition of a casing, respectively. (A), (b) is the schematic perspective view of the packaging box which showed typically an example of the condition of a casing, respectively. (A), (b) is the schematic perspective view of the packaging box which showed typically an example of the condition of a casing, respectively. It is drawing for demonstrating the suitable structure form of the guide for outer flap conveyance position fixation. It is a schematic drawing of the last box form maintenance process which addition is desired as a desirable mode. It is drawing which showed typically the composition of the 2nd embodiment which is another box form maintenance and feed process. FIG. 8A is a schematic perspective view for explaining a preferable transport state of a box to be transported in a caser apparatus for assembling a wraparound packaging box, and FIG. 8B is a diagram illustrating FIG. FIG. In the caser apparatus which assembles a wraparound packaging box, it is a top view which shows the suitable example in the case of making the press of the side flap part containing what is called an inner flap and an outer flap by a belt system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Packaging box 11, 15 ... Side plate 21 ... Bottom plate 25 ... Top plate 31, 35 ... Inner flap 38 ... Bending articulation side piece 41, 45 ... Outer flap 141, 141 ... Guide 200 ... Guide 100 ... First cam roller DESCRIPTION OF SYMBOLS 300 ... Case conveyance lug 305 ... Case conveyance lug correction plate 310 ... Upper conveyance lug 315 ... Upper conveyance correction plate 320 ... Pressure roller 350 ... Belt 355 ... Angle correction block 380 ... Outer flap bending conveyance position fixing guide 400 ... Outer flap conveyance position fixing guide 401 ... Abutting guide portion 402 ... Lower surface guide portion 403 ... Upper surface guide portion 500 ... Upper position fixing guide

Claims (10)

Casing method for assembling a wrap-around packaging box having a top plate, a bottom plate, and a belt-shaped body portion having side plates connecting them, and an inner flap and an outer flap, and storing a container Because
The packaging box to be assembled by the casing method is a packaging box having an upper surface 4N square (N represents an integer of 1 or more),
The casing method is:
A setting process for setting the unpacked packaging carton in the transport path of the transport line;
A first inner flap folding step of folding the inner flap located on one end side along the conveying direction of the conveying path inward so as to form a packaging box;
The outer flap on the bottom plate located on the one end side is transported while regulating the position, and the container is fed from the other end side of the transport line and kept inside the box while maintaining the box shape. Box shape maintenance / feed process,
A second inner flap folding step of folding the inner flap located on the other end side of the transport line inward so as to form a packaging box;
An outer flap folding step of bending the outer flaps located at both ends of the transport line so as to cover the inner flaps;
I have a,
In the box shape holding / feeding process, the direction of the conveyance line and the direction of feeding the container are orthogonal to each other, located on one end side of the conveyance line and outside the bottom plate protruding from the conveyance path. By holding the outermost end surface of the flap and its upper and lower surfaces in contact with the guide while regulating the position, the container can be removed from the other end side of the transport line while preventing the displacement of the bottom plate. A casing method characterized by being configured to be fed into a box .   The casing method according to claim 1, wherein the packaging box to be assembled is a packaging box in which a bent connection side piece is interposed at a location where the inner flap and the body portion are connected. In the setting process of setting in the conveyance path of the conveyance line, a pair of side plates are erected and the outer flap on the bottom plate side protruding from the conveyance path so as not to disturb the folding of the inner flap is more than the conveyance path surface. The casing method according to claim 1 or 2 , wherein the casing method is bent downward. Following the second inner flap folding step,
By folding the outer flap on the bottom plate side, which is located on the other end side of the conveyance line and on the bottom plate side, and protrudes from the conveyance path at a steep angle above the conveyance path surface, the folded outer flap fixing the inner flap position fold line portion, claim 2 or claim 3 Last week form holding step for conveying while still maintaining the chamfered shape by connecting side pieces bent is formed by further adding Casing method. The casing method according to claim 4 , wherein the steep angle bent upward from the conveyance path surface is a set angle of 10 to 70 degrees from the position of the bottom plate corresponding to the conveyance path surface. A top plate, a bottom plate, and a belt-like body formed with a side plate connecting them, and a wrap-around packaging box having an inner flap and an outer flap, and for storing a container A casing device,
The packaging box to be assembled by the casing device is a packaging box having an upper surface 4N square (N represents an integer of 1 or more),
In the casing device, the direction of the conveying line and the direction of feeding the container are orthogonal , and the casing device should be accommodated in the box from the other end side to the one end side along the conveying direction of the conveying line. When feeding the container, it is located on one end side along the transport direction of the transport line so that the bottom plate moves with the movement of the container and the position shifts and the shape does not collapse. And an outer flap conveyance position fixing guide capable of regulating the position while contacting the outermost end surface of the outer flap on the bottom plate side protruding from the conveyance path ,
The outer flap conveyance position fixing guide includes a contact guide portion that contacts the outermost end surface of the outer flap, and a lower surface guide that is connected to the contact guide and sandwiches the upper and lower surfaces near the end surface of the outer flap. A casing device comprising a U-shaped cross section having a portion and an upper surface guide portion . The casing device according to claim 6 , wherein the packaging box to be assembled is a packaging box in which a bent connection side piece is interposed at a location where the inner flap and the body portion are connected. The upper surface guide portion or the lower surface guide portion is connected to the contact guide portion via a rotatable connecting member, and can open an opening upward or downward with respect to the contact guide portion. The casing device according to claim 6 or 7 , wherein such rotation is possible. The casing device according to any one of claims 6 to 8 , wherein the outer flap transport position fixing guide includes a mechanism capable of changing a fixing position during transport according to the size of the outer flap. Furthermore, the casing device is positioned in the conveyance direction of the conveyance line in order to fix the position of the inner flap which is located on the other end side which is the opening on the feed side and is folded inward after the feeding of the container is completed. the other end side along, claims 6 to become comprises an upper position fixing guide capable of carrying the outer flap of the bottom plate side that protrudes from the conveying path while bending at an acute angle above the transport road The casing device according to any one of 9 .

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