This invention relates to a pressed crease-forming member for forming a crease in a corrugated cardboard sheet or non-corrugated cardboard sheet so that the sheet can be bent along the crease, a template to which is mounted the pressed crease-forming member, and a creasing device.
Corrugated cardboard sheets, which are each made up of a corrugated medium and liners glued to both sides of the corrugated medium, are available in various types and in different characteristics, according to the height and shape of corrugation of the corrugated medium, the thickness and quality of the corrugated medium, the thickness and quality of the liners, etc.
Such a corrugated cardboard sheet can be formed, by die-cutting, into e.g., a blank A1 shown in
The above-mentioned creases L1 extend substantially parallel to the flutes C of the corrugated medium S2 of the corrugated cardboard sheet A, while the creases L2 extend perpendicular to the flutes C of the corrugated medium S2.
According to the characteristics of the corrugated cardboard sheet A, an optimum one is selected from among a plurality of strip-shaped base plates 51 having height dimensions, which are distances between the respective opposed pairs of ends, of about 20-plus millimeters, and having different wall thicknesses, which are distances between the respective two side surfaces, within the range of 0.5 mm to 7.0 mm.
The pressed crease-forming member 50 shown in
Especially in forming the creases L1, which extend in parallel to the flutes C of the corrugated medium S2, since different portions of the corrugated medium S2 are crushed by the crease-forming portion 52, and a crease L1 formed at a certain portion of the corrugated medium S2 may be less sharper and clearer than a crease L1 formed at a different portion of the corrugated medium S2. This makes it all the more difficult to bend the corrugated cardboard sheet A with high accuracy.
Since the surface of the crease-forming portion 52 is smooth with no protrusions and recesses over the entire length thereof, especially when forming a crease L1, i.e., a crease extending in parallel to the flutes C, according to the portion of the corrugated medium 82 crushed by the crease-forming portion 52 to form the crease L1, the surface of the corrugated cardboard sheet A may slip on the surface of the crease-forming portion 52 as the surface of the crease-forming portion 52 is pressed deeper into the corrugated cardboard sheet A, which could cause the sheet A to be moved in the direction perpendicular to the crease L1, thus making it difficult to form the crease L1 at the intended position with high accuracy, or causing the crease L1 to meander.
The blank A1 shown in
At that time, if the blank A1 is bent along the above two creases L1 with insufficient accuracy, the panels P1 and the panels P4, which are on the opposite sides of the blank A1, may be inclined relative to each other, or a flat box may not be formed with high accuracy due to inaccurate dimensions of the blank A1 between the above two creases L1. When such a flat box is erected into a rectangular tube, its side walls and/or end walls will be inclined such that the box is distorted with inaccurate inner dimensions.
In order to avoid these problems, the below-identified Patent document 1 proposes to form a V-shaped groove in the crease-forming portion of the pressed crease-forming member at its widthwise center to extend in parallel to one of the opposite long sides of the crease-forming portion, thereby defining a pair of protrusions on the respective sides of the groove. The below-identified Patent document 2 proposes to use two pressed crease-forming members spaced apart from each other so that the two pressed crease-forming members form two protrusions, and pressing the two pressed crease-forming members into a corrugated cardboard sheet.
In either of Patent documents 1 and 2, the pressed crease-forming member or members are mounted to a template, and a face plate formed with a pair of groove-shaped recesses is mounted on a flat lower board opposed to the template. In order to form a crease in the corrugated cardboard sheet by pushing corrugated cardboard sheet into the groove-shaped recesses with the pair of protrusions of the crease-forming portion or portions, the face plate has to be mounted on the lower board with high accuracy corresponding to the mounting position of the pressed crease-forming member or members on the template. It is therefore extremely troublesome and costly to set these members in position, and also, there is a problem in that the face plate tends to shift as creases are formed repeatedly.
Also, since there are only two protrusions for pressing the corrugated cardboard sheet, especially if a wide crease is formed, a large gap forms between the two protrusions. Since the sheet is not pressed at its portion corresponding to this large gap, the crease formed tends to be less clear if there were not for the groove-shaped recesses in the face plate. Thus in this arrangement, the groove-shaped recesses formed in the face plate are essential elements.
Since recesses and protrusions are formed, respectively, on one and the other surfaces of the corrugated cardboard sheet, the sheet is subjected to a large stress, which could cause the surface of the sheet to be torn, lower the strength of the sheet, or ruin its outer appearance, thereby lowering the commercial value of the sheet.
With the pressed crease-forming member disclosed in Patent document 1, since the groove formed in the widthwise center of the crease-forming portion is a V-shaped groove, the pair of protrusions formed on both sides of the groove have wedge shapes with pointed tips. The corrugated cardboard sheet thus tends to be damaged by the protrusions because high surface pressure is applied to the sheet when the sheet is pressed by the pointed tips of the protrusions.
On the other hand, since the pressed crease-forming member disclosed in Patent document 2 includes two pressed crease-forming members mounted separately to the template to define the protrusions, a difference in height between the protrusions tends to be created. Such a difference in height will cause two creases formed by the two protrusions in a corrugated cardboard sheet to have different depths from each other. This in turn results in the corrugated cardboard sheet being bent along the deeper one of the two creases, thus making it difficult to bend the corrugated cardboard sheet with high accuracy.
Further, the pressed crease-forming member of Patent document 2 could also damage a corrugated cardboard sheet because the pair of protrusions forcibly and strongly push the sheet into the groove-shaped grooves of the face plate, which face the respective protrusions. Moreover, the heights of the protrusions may change after many creases are formed. This makes it difficult to form two creases having the same depth in a corrugated cardboard sheet with the two protrusions. Also, since the pressed crease-forming member is constructed from three separate components, it is difficult to form narrow creases.
In either of Patent documents 1 and 2, since no protrusion is provided at the center of the crease-forming portion or each crease-forming portion, the crease or creases formed by such crease-forming portion or portions have no clear centerline, so that the corrugated cardboard sheet cannot be bent along the centerline of the crease or each crease with high accuracy.
An object of the present invention is to make it possible to form a crease in a corrugated cardboard sheet along which the sheet can be bent with high accuracy, without damaging the sheet.
In order to achieve this object, the present invention provides a pressed crease-forming member comprising a strip-shaped base plate made from metal and having a wall thickness of 7.0 mm or less, the strip-shaped base plate including a crease-forming portion at one end of the strip-shaped base plate, the crease-forming portion being capable of forming a crease in a sheet along which the sheet can be bent, by pressing the crease-forming portion into the sheet,
wherein the crease-forming portion has a surface on which are formed three or a larger-than-three odd number of ribs extending in a longitudinal direction of the crease-forming portion, the ribs comprising a center rib located at a widthwise center of the crease-forming portion, and the remaining even number of ribs, each half of the remaining even number of ribs being arranged on each side of the center rib, the ribs have tops, of which at least the top of the center rib is chamfered, each of the ribs is formed into a protruding shape by two side surfaces extending toward the top, grooves are formed between the adjacent ribs, the side surfaces of the respective ribs extend from the respective tops of the ribs and are connected to opposed pairs of side surfaces of the grooves, the tops of the ribs are arranged such that with the crease-forming portion facing downward, the top of the center rib is located at the lowest level of all the tops of the ribs, and the tops of the odd number of ribs are formed, as a whole, into a convex shape, and recesses in the form of the grooves and protrusions in the form of the ribs other than the center rib are continuously formed on both sides of a protrusion in the form of the center rib.
When the crease-forming portion of this pressed crease-forming member is pressed against a sheet such as a corrugated cardboard sheet, the top of the center rib first abuts and is pressed into the sheet, so that the sheet is crushed, and the surface of the sheet moves along both side surfaces of the center rib and into the grooves of the crease-forming portion on both sides of the center rib. Then, the tops of the ribs on both sides of the center rib abut and are pressed into the sheet in a sequential order, so that the surface of the sheet is smoothly brought, one after another, into abutment with both side surfaces of the respective ribs on both sides of the center rib. As a result, a corrugated crease is formed in the sheet by the crease-forming portion.
While the crease is being formed by the crease-forming portion, the sheet will never shift on the surface of the crease-forming portion toward either side of the center rib, so that a straight groove is formed in the sheet by the center rib at the accurate position.
Since the surface of the crease-forming portion includes protrusions in the form of the ribs, and recesses in the form of the grooves which are arranged alternately and continuously with the ribs, thus forming a corrugated shape, the crease-forming portion is brought into contact with the surface of the sheet over a large surface area. This prevents the surface of the sheet from shifting relative to the surface of the crease-forming portion.
Since the sheet is brought into abutment with the protrusions and recesses on the surface of the crease-forming portion in a smooth sequential order, the sheet will never be torn when forming a crease in the sheet.
Straight grooves are formed in the sheet at its portions corresponding to the respective ribs of the crease-forming portion, and clear and sharp ribs are formed on the sheet at its portion corresponding to the respective grooves of the crease-forming portion so as to alternate with the straight grooves. The straight grooves and the ribs thus form a straight crease.
Although the sheet is pushed with a strong force by the center rib, since its top is chamfered, the crease-forming portion can form a crease in the sheet without damaging the sheet.
When forming a crease, the odd number of ribs are pushed one after another into the sheet with the center rib first, so that the center rib is pressed harder into the sheet than are the ribs on both sides of the center rib. This makes it possible to form a very deep, clear and sharp straight groove at the widthwise center of the groove bottom of the crease.
By the crease-forming portion, which is, as a whole, formed into a smooth corrugated convex shape by the protrusions and the recesses, a crease which is concave and complementary in shape to the convex shape of the crease-forming portion is formed.
Thus, when the sheet is bent along the crease, the sheet is bent with the clear and sharp straight groove at the widthwise center of the groove bottom of the crease as a starting point, so that the sheet can be bent with high accuracy.
Since the top of the center rib protrudes beyond the tops of the ribs other than the center rib, a sharper straight groove is formed at the widthwise center of the groove bottom of the crease, so that the sheet can be bent accurately with this straight groove as a starting point.
Since the tops of the ribs other than the center rib are in contact, from inside, with a smooth, convex, arc-shaped first imaginary curved line which is symmetric with respect to a centerline and high at a center, the tops of the ribs of the crease-forming portion can be easily formed. Also, it is possible to form a crease which is symmetrical with respect to the centerline and which is concave and complementary in shape to the convex shape of the crease-forming portion, which is smooth as a whole.
Since the two side surfaces of at least the center rib are smooth inclined surfaces inclined in opposite directions to each other and having no corners such that at least the center rib is tapered, the sheet can smoothly move along the inclined surfaces into the grooves on both sides of the center rib, so that a clear, V-shaped, straight groove is formed at the center of the crease. This makes it possible to accurately bend the sheet along the center of the crease.
Since, with the crease-forming portion facing downward, the tops of the ribs on both sides of the center rib are arranged such that the farther away each of the ribs on both sides of the center rib is from the center rib toward each side of the crease-forming portion, the higher the top thereof is, the tops of the ribs on both sides of the center rib are brought into abutment with the sheet in a smooth sequential order such that a portion of the sheet closer to the center of the crease formed is crushed more strongly, so that the sheet is less likely to be torn while a crease is being formed. Also, this makes it possible to bend the sheet accurately along the center of the crease.
In order to achieve the above object, in a crease-forming template comprising a board which comprises plywood, and a pressed crease-forming member mounted to the board, and capable of forming a groove-shaped crease in a sheet along which the sheet can be bent, by pressing the pressed crease-forming member into the sheet, the pressed crease-forming member according to the present invention is used as the above pressed crease-forming member. By using the crease-forming member according to the present invention, a crease can be formed accurately in the sheet.
In order to achieve the above object, in a creasing device comprising a support member, and a template opposed to the support member and including a board comprising plywood and a pressed-crease forming member mounted to the board, the creasing device being configured to form a groove-shaped crease in a sheet along which the sheet can be bent, by moving the template and the support member toward each other with the sheet supported on the support member, thereby pressing the pressed crease-forming member into the sheet, the template according to the present invention is used as the above template.
In order to achieve the above object, in a creasing device comprising an anvil roll, a die roll opposed to the anvil roll, and a template mounted to an outer periphery of the die roll and including a cylindrical board comprising plywood, and a pressed crease-forming member mounted to the board, the creasing device being configured such that the pressed crease-forming member is capable of forming a groove-shaped crease in a sheet along which the sheet can be bent, when the sheet is fed into between the anvil roll and the die roll, the pressed crease-forming member according to the present invention is used as the above pressed crease-forming member.
In order to achieve this object, the present invention also provides a creasing device comprising a support roll and a crease-forming roll which are configured to be rotated in opposite directions to each other, wherein the crease-forming roll includes a crease-forming portion including, on an outer periphery of the crease-forming portion, an annular crease-forming ring, the creasing device being configured such that the crease-forming ring forms a groove-shaped crease in a sheet along which the sheet can be bent, when the sheet is fed into between the support roll and the crease-forming roll, wherein the crease-forming ring has an outer peripheral surface on which are formed three or a larger-than-three odd number of annular ribs extending in a circumferential direction of the crease-forming ring, the annular ribs comprising an annular center rib located at a widthwise center of the crease-forming portion, and the remaining even number of annular ribs, each half of the remaining even number of annular ribs being arranged on each side of the annular center rib, the annular ribs have tops, of which at least the top of the annular center rib is chamfered, each of the annular ribs is formed into a protruding shape by two side surfaces extending toward the top, circumferential grooves are formed between the adjacent annular ribs, the side surfaces of the respective annular ribs extend from the respective tops of the annular ribs and are connected to opposed pairs of side surfaces of the circumferential grooves, each of the circumferential grooves is formed into a recessed shape by each pair of the side surfaces of the circumferential grooves, the tops of the annular ribs are arranged such that the top of the annular center rib is largest in outer diameter of all the tops of the annular ribs, and the tops of the odd number of ribs are formed, as a whole, into a convex shape, and recesses in the form of the circumferential grooves and protrusions in the form of the annular ribs other than the annular center rib are continuously formed on both sides of a protrusion in the form of the annular center rib.
In any of the inventions directed to a pressed crease-forming member, a crease-forming template, and a creasing device, the top of the center rib first abuts and is pressed into the sheet, so that the sheet is crushed, and the surface of the sheet moves along both side surfaces of the center rib and into the grooves of the crease-forming portion on both sides of the center rib. Then, the tops of the ribs on both sides of the center rib abut and are pressed into the sheets in a sequential order, so that the sheet is smoothly brought, one after another, into abutment with both side surfaces of the respective ribs on both sides of the center rib. As a result, a corrugated crease is formed in the sheet by the crease-forming portion.
While the crease is being formed by the crease-forming portion, the sheet will never shift on the surface of the crease-forming portion toward either side of the center rib, so that a straight groove is formed in the sheet by the center rib at the accurate position. This makes it possible to accurately bend the sheet.
Since the surface of the crease-forming portion includes protrusions in the form of the ribs, and recesses in the form of the circumferential grooves which are arranged alternately and continuously with the ribs, thus forming a corrugated shape, the crease-forming portion is brought into contact with the surface of the sheet over a large surface area. This prevents the surface of the sheet from shifting relative to the surface of the crease-forming portion.
Since the center rib is pushed more strongly than are the ribs on both sides of the center rib, thus weakening the sheet, a very deep, clear and sharp straight groove is formed at the widthwise center of the groove bottom of the crease. This makes it possible to accurately bend the sheet along the center of the crease.
Since the sheet is brought into abutment with the protrusions and recesses on the surface of the crease-forming portion in a smooth sequential order, the sheet will never be torn when forming a crease in the sheet.
Since a portion of the sheet closer to the center of the crease formed is crushed more strongly, the sheet is less likely to be torn while a crease is being formed. Also, this makes it possible to bend the sheet accurately along the center of the crease.
Although the sheet is pushed with a strong force by the center rib, since its top is chamfered, the crease-forming portion can form a crease in the sheet without damaging the sheet.
Since the tops of the ribs are arranged such that with the crease-forming portion facing downward, the top of the center rib is located at the lowest level of all the tops of the ribs, and the tops of the odd number of ribs are formed, as a whole, into a convex shape, by the crease-forming portion, which is, as a whole, formed into a smooth corrugated convex shape by the protrusions and the recesses, a crease which is concave and complementary in shape to the convex shape of the crease-forming portion is formed. This makes it possible to accurately bend the sheet along the widthwise center of the crease.
An embodiment of the present invention is described with reference to the drawings.
As shown in
The crease-forming portion 12 has a plurality of protruding ribs 14 extending in the longitudinal direction of the crease-forming portion 12. In the embodiment, five such ribs 14 are provided, with one of the five ribs 14 (which is hereinafter referred to as the “center rib 14”) positioned on the widthwise center of the crease-forming portion 12, and two each of the remaining four ribs 14 positioned on either side of the center rib 14, so that the ribs 14 are arranged symmetrically with respect to the widthwise centerline of the crease-forming portion 12.
Similarly, three or a larger-than-three odd number (other than five) of ribs 14 may be provided, with one of them positioned on the widthwise center of the crease-forming portion 12, and each half of the remaining even number of ribs positioned on either side of the center rib, so that the ribs are arranged symmetrically with respect to the widthwise centerline of the crease-forming portion 12. The number of ribs 14 should be determined taking into consideration the wall thickness of the strip-shaped base plate 11, and the properties and material of the corrugated cardboard sheet A.
Each rib 14 has two straight inclined side surfaces 14b which are inclined in opposite directions to each other and extend to its top 14a so that the rib 14 has a substantially V-shaped cross-section tapered toward the top 14a.
In the embodiment, the top 14a of each rib 14 is chamfered so as to have a circular arc-shaped cross-section, but it may be chamfered so as to have a polygonal cross-section.
Also, at least the top 14a of the center rib 14, and not all of the tops 14a, may be chamfered.
The center rib 14 and the ribs 14 on both sides of the center rib 14 are all narrow in width and substantially equal in width to each other. The widths of the tops 14a are determined according to the wall thickness W1 of the strip-shaped base plate 11 and the number of ribs 14, and are about one-third of the wall thickness W1 (which is 0.5 mm-7.0 mm).
Both inclined surfaces (side surfaces) of each rib 14 would be easily formable if they are smooth straight surfaces having no corners, but they may be smoothly curved or corrugated inclined surfaces having no corners so that the rib 14 is tapered toward the top 14a.
When both side surfaces 14b of each rib 14, which extend to the top 14a, are inclined surfaces inclined in opposite directions to each other to form an acute angle therebetween, a sharper crease L can be formed in the corrugated cardboard sheet A, but they may be arranged to form an obtuse angle therebetween. By arranging the side surfaces 14b to form an obtuse angle therebetween, the rib 14 is less likely to damage the corrugated cardboard sheet A.
When the side surfaces 14b of each rib 14 are inclined surfaces, the corrugated cardboard sheet A can be more easily formed along the inclined surfaces, but they may be vertically extending surfaces. By arranging the side surfaces 14b to extend vertically, a shaper crease L can be formed in the corrugated cardboard sheet A.
The inclined side surfaces 14b of each adjacent pair of the ribs 14 that are opposed to each other extend away from the respective tops 14a, and are continuously connected to inclined surfaces 14b inclined in opposite directions to each other. The latter two inclined side surfaces 14b, which extend smoothly in a straight line and have no corners, form a V-shaped concave groove 15 which is tapered toward its bottom and continuous with the ribs 14 on both sides of the groove 15.
The bottoms of the concave grooves 15 are chamfered so as to have a rounded cross-section, but may be chamfered so as to have a polygonal cross-section.
If the grooves 15 are deep, the corrugated cardboard sheet A may not reach the bottoms of the grooves 15. In such a case, the bottoms of the grooves 15 may not be chamfered.
Both inclined surfaces of each groove 15 would be easily formable if they are smooth straight surfaces having no corners, but they may be smoothly curved or corrugated inclined surfaces having no corners so that the groove 15 is tapered toward the bottom.
As described above, since the side surfaces 14b of the ribs 14 are smoothly connected to the respective side surfaces 14b of the grooves 15 with no corners therebetween so that the side surfaces 14b continuously extend from the tops 14a of the ribs 14 to the bottoms of the grooves 15, the crease-forming portion 12 has a smooth continuous surface comprising the protrusions in the form of the ribs 14, and the recesses in the form of the grooves 15 which alternate with the protrusions, with the center rib 14 protruding beyond the other ribs 14.
The crease-forming portion 12 of the strip-shaped base plate 11 is shaped such that with the strip-shaped base plate 11 in the crease-forming position, in which the crease-forming portion 12 faces downward, the top 14a of the center rib 14, which is positioned on the widthwise center of the crease-forming portion 12, is located at the lowest level, with the tops 14a of the ribs 14 on both sides of the center rib 14 located such that the farther apart these tops 14a are from the top 14a of the center rib 14, the higher they are located, whereby the tops 14a of all of the ribs 14, which are spaced apart from each other in the width direction, are formed into a downwardly convex shape as a whole, with the center rib 14, which protrudes beyond the other ribs 14, located at the center.
When the center rib 14 protrudes downward beyond the other ribs 14, instead of arranging the tops 14a of the ribs 14 on both sides of the center rib 14 such that the farther away these tops 14a are from the top 14a of the center rib 14, the higher they are located, some of these tops 14a may be of the same height such that the tops 14a are formed into a downwardly convex shape as a whole.
In order to arrange the tops 14a of the odd number of ribs 14 so as to be formed into a convex shape as a whole, in
With this arrangement, since the ribs 14 are radially arranged about the point O, the crease-forming portion 12 can be manufactured easily.
The circumcircle C1, whose center is at point O, has a radius r1 which is equal to or larger than half the wall thickness W1 of the strip-shaped base plate 11 (r1≧W1/2).
Also in
As described above, since ribs 14 each having a top 14a which is rounded by chamfering, and inclined side surfaces 14b which are inclined in opposite directions to each other are arranged alternately and continuously with V-shaped grooves 15 each having a groove bottom 15a which is rounded by chamfering, and inclined side surfaces, the ribs 14 and the grooves 15 form a smooth and orderly corrugated shape having no corners, with the ribs 14 and the grooves 15 in contact with the circumcircle C1 and the inscribed circle C2, respectively, thus forming, as a whole, a smooth convex shape symmetrical with respect to the centerline I, on the surface of the crease-forming portion 12.
Since the tops 14a of the ribs 14 and the groove bottoms 15a of the grooves 15 are in contact with the circumcircle C1 and the inscribed circle C2, respectively, the tops 14a and the groove bottoms 15a can be easily formed on the crease-forming portion 12 such that the crease-forming portion 12 is formed, as a whole, into a smooth convex shape which is symmetrical with respect to the centerline.
Since the pressed crease-forming member 10 comprises a single integral strip-shaped base plate 11 made from a metal, it has the following advantages:
With this creasing device, when, as shown in
At that time, the plurality of ribs 14 on the crease-forming portion 12 press the corrugated cardboard sheet A in a sequential order with the center rib 14 provided at the widthwise center of the crease-forming portion 12 first and toward the respective ribs 14 on both sides thereof. When the corrugated cardboard sheet A is pressed, the corrugated cardboard sheet A moves away from the ribs 14 such that the corrugated cardboard sheet A bulges into the V-shaped grooves 15, which are adjacent to the ribs 14. The corrugated cardboard sheet A is thus formed by the crease-forming portion 12.
Thus, since, as shown in
In the embodiment, the two side surfaces of each of the odd number of ribs 14 are inclined in opposite directions to each other, but the side surfaces of at least only the center rib 14, of the odd number of ribs 14, may be inclined in opposite directions to each other so as to have no corners so that at least only the center rib 14 is tapered toward its top. In this case too, the corrugated cardboard sheet A smoothly and effortlessly moves into the grooves 15 along the inclined surfaces, and as a result, a V-shaped, straight groove 16 is formed clearly and sharply at the widthwise center of the crease L, which makes it possible to accurately bend the corrugated cardboard sheet A along the center of the crease L.
Since the ribs 14 and the grooves 15 are radially arranged about the point O, when the crease-forming portion 12 is pressed into the corrugated cardboard sheet A, the surface of the corrugated cardboard sheet A is easily moved along the corrugated shape on the surface of the crease-forming portion 12, so that the crease L can be smoothly formed. Since the ribs 14 are narrow in width, the grooves 16 formed by the ribs 14 are also narrow in width and thus sharp and clear.
The corrugated cardboard sheet A is not pushed so hard by the grooves 15 of the crease-forming portion 12, and especially if the grooves 15 are deep, the portions of the corrugated cardboard sheet A that have entered the grooves 15 will not reach the bottoms of the grooves 15. Thus, even if, as shown in
Since the entire crease-forming portion 12 is pressed into the corrugated cardboard sheet A, a groove-shaped crease L corresponding to the wall thickness W1 of the strip-shaped base plate 11 is formed in the corrugated cardboard sheet A, and the crease L has a groove bottom having a stripe pattern comprising a plurality of grooves 16 and ribs 17 alternating with the grooves 16.
Since the odd number of ribs 14 forming, as a whole, the convex surface of the crease-forming portion 12 press the corrugated cardboard sheet A in a sequential order with the center rib 14 provided at the widthwise center of the crease-forming portion 12 first and toward the respective ribs 14 on both sides thereof, the center rib 14 presses the corrugated cardboard sheet A harder than the other ribs 14.
Thus, the closer each groove 16 is to the center of the crease L and thus the farther apart from the respective side of the crease L, the thinner and thus the weaker in strength the corrugated cardboard sheet A is at its portion where this groove 16 is formed. This means that the groove 16 at the widthwise center of the groove bottom of the crease L is the clearest and sharpest of all the grooves 16. Further, since the groove bottom of the crease L forms an orderly corrugated shape symmetrical with respect to the centerline, when bending the corrugated cardboard sheet A along the crease L, the corrugated cardboard sheet A begins to bend along the groove 16 at the widthwise center of the groove bottom of the crease L, so that the corrugated cardboard sheet A can be bent with high accuracy.
Since the closer to the widthwise center of the crease L, the more strongly the corrugated cardboard sheet A is crushed, and also, since the groove bottoms of the grooves 16 of the crease L form a smooth corrugated shape with no corners, even if the corrugated cardboard sheet A is bent by 180 degrees along the crease L, inner surfaces of both sides of the crease L will not strongly abut each other in such a manner as to interfere with bending of the sheet A, or cause breakage of groove bottoms.
Since the grooves 16 and the ribs 17 are formed so as to be radially arranged, corresponding to the radially arranged ribs 14 and grooves 15, respectively, the corrugated cardboard sheet A is more likely to be bent along the widthwise center of the groove bottom of the crease L.
Since the plurality of ribs 14, which are to be pressed into the corrugated cardboard sheet A, have their tops 14a rounded by chamfering, they will not damage the corrugated cardboard sheet A even when they are pressed hard into the corrugated cardboard sheet A.
Since the crease L is formed in the corrugated cardboard sheet A by the crease-forming portion 12, of which the surface is, as a whole, formed into a smooth convex shape symmetrical with respect to the centerline, and of which the ribs 14 and the groove 15 are arranged alternately with each other such that they form a smooth and orderly corrugation, the groove bottom of the crease L is formed into a clear, smooth, orderly corrugation having no corners by the grooves 16 and the ribs 17, corresponding to the shape of the surface of the crease-forming portion 12, with the groove 16 at the widthwise center forming the clearest and sharpest recess, whereby the groove bottom of the crease L is formed, as a whole, into a concave shape complementary in shape to the downwardly-facing smooth crease-forming portion 12. Thus, the corrugated cardboard sheet A will not be damaged or broken, and can be bent accurately and easily with the apex of the groove 16 at the widthwise center of the groove bottom as a starting point. Since the groove bottom has no corners, the corrugated cardboard sheet A will never be bent at a portion other than the widthwise center of the crease L.
Since the surface of the support plate 1 is flat, no excessive force will act on the corrugated cardboard sheet A even if the pressed crease-forming member 10 is pressed hard into the sheet A, so that the sheet A will never be broken.
Since an odd number of the ribs 14 are provided, this pressed crease-forming member 10 can be especially advantageously used to form creases L in corrugated cardboard sheets A and cardboard, which have large wall thicknesses, by pressing it into them.
If the heights H, shown in
Thus, while also depending on the characteristics of the corrugated cardboard sheet A and the wall thickness W1 of the strip-shaped base plate 11, the heights H of the ribs 14 are most preferably about 0.1 mm, and should be within the range of 0.05 mm-1.0 mm.
The number of the ribs 14 is preferably an odd number within the range of three to 21, though dependent on the characteristics of the corrugated cardboard sheet A and the wall thickness W1 of the strip-shaped base plate 11. For example, if the wall thickness W1 is 3.0 mm, the number of the ribs 14 is preferably seven or around seven.
There are various corrugated cardboard sheets A which are different in characteristics, and if the wall thickness W1 of the strip-shaped base plate 11 is larger than the thickness T of the corrugated cardboard sheet A, the crease L formed will have a width larger than necessary to such an extent that it is difficult to clearly specify the bending position, i.e., to bend the sheet A with high accuracy. This will make it difficult to prepare boxes whose inner dimensions are constant by bending such corrugated cardboard sheets A. Thus, the strip-shaped base plate 11 preferably satisfies the relation W1<T.
In
Further alternatively, as shown in
If the protruding amount of the center rib 14 beyond the ribs 14 on both sides of the center rib 14 (namely, H1-H2) is too small, the groove 16 formed by the center rib 14 is too shallow and less clear, while if too large, the center rib 14 could tear the corrugated cardboard sheet A at its portion where there is the groove 16. Thus, this protruding amount H1-H2 is preferably set to a value within 0.05 mm-0.3 mm dependent on the characteristics and thickness of the corrugated cardboard sheet A.
As shown in
Thus, when the corrugated cardboard sheet A is bent along the crease L, the corrugated cardboard sheet A is bent with the groove 16 at the center of the groove bottom of the crease L as a starting point. This makes it possible to bend the sheet A with high accuracy.
In
The groove bottoms 15a of the grooves 15 may also be in contact, from outside, with an arc-shaped (but not circular arc-shaped) imaginary line as mentioned above, such as an oval or a parabolic line.
The crease-forming portion 12 may be formed such that its surface is formed, as a whole, into a smooth, convex, orderly corrugation by arranging the ribs 14 and the grooves 15 so as to be in contact with the above-described respective arc-shaped (but not circular arc-shaped) imaginary curved lines, and symmetrical with respect to the centerline.
In this case too, only the center rib 14 may protrude outwardly beyond the arcuate imaginary curved line as the reference line relative to the height positions of the tops 14a of the ribs 14, and thus beyond the other ribs 14 such that the corrugated cardboard sheet A is crushed more strongly by the center rib 14, which is higher than the other ribs 14, and becomes thinner, so that a crease L is formed including a deep and clear groove 16 at the center of the groove bottom of the crease L.
While in
Each of the ribs 14 on both sides of the center rib 14 may also extend linearly while being interrupted by cutouts or grooves.
In the above embodiments, the ribs 14 and the grooves 15 of the strip-shaped base plate 11 are radially arranged about the point on the centerline 1, but instead, the crease-forming portion 12 may be formed by arranging the ribs 14 and the grooves 15 such that their respective centerlines extend vertically, i.e., parallel to the centerline 1 and thus both side surfaces of the strip-shaped base plate 11 and so as to be alternately with each other.
In this arrangement, too, as with the above embodiment, the ribs 14 and the grooves 15 may be alternately arranged such that the tops 14a of the ribs 14 and the groove bottoms 15a of the grooves 15 respectively contact convex, smooth arc-shaped imaginary lines which are symmetrical with respect to the widthwise center of the crease-forming portion 12 and high at the center, such as true circular lines, oval lines or parabolic lines, such that the surface of the crease-forming portions 12 are formed, as a whole, into a smooth, convex, orderly corrugation symmetrical with respect to the centerline so that a crease is formed which has a concave groove bottom formed into, as a whole, a smooth concave corrugation having no corners, complementary in shape to the crease-forming portion 12, and symmetrical with respect to the centerline.
In this case, too, the only the center rib 14 may protrude outwardly beyond the arc-shaped reference line relative to the height positions of the tops 14a of the ribs 14 so that a crease L is formed having a deep and clear groove 16 at the center of the groove bottom of the crease L.
In
As shown in
The pressed crease-forming members 30 are capable of forming creases L similar to the crease L shown in
As the crease-forming portions 32, ones similar to the crease-forming portion 12 shown in any of
The crease-forming roll 43 has, on its outer peripheral surface, an annular crease-forming ring 45 comprising a strip-shaped base plate 49 having, at the outer peripheral portion thereof, a crease-forming portion 46 including an odd number of annular ribs 47 arranged so as to be symmetrical with respect to the centerline with one of the annular ribs 47 located at the widthwise center of the crease-forming portion 46.
The odd number of annular ribs 47 have the same sectional shapes as those of the ribs 14 shown in
When the center rib 14 protrudes beyond the other ribs 14, instead of arranging the tops 14a of the ribs 14 on both sides of the center rib 14 such that the farther away these tops 14a are from the top 14a of the center rib 14, and thus the closer to the respective sides of the crease-forming portion 46, the smaller their outer diameters are, some of these tops 14a may be of the same outer diameter. As the crease-forming portion, one similar to the crease-forming portion 12 shown in any of
With this crease-forming device, when the corrugated cardboard sheet A is fed into between the crease-forming roll 43 and the support roll 44 by the pair of feed rollers 40 with the rolls 43 and 44 rotating in the directions shown by the arrows in
In either of the embodiment of
(1) The tops of all of the ribs are in contact, from inside, with a convex, smooth, arc-shaped imaginary curved line which is symmetrical with respect to the centerline and high at the center, as a reference line relative to the tops of the ribs, while the groove bottoms of the grooves of the crease-forming portion are in contact, from outside, with a convex, smooth, arc-shaped imaginary curved line which is symmetrical with respect to the centerline and high at the center.
(2) Only the tops of the center rib protrude beyond the tops of the other ribs.
(3) The tops of all of the ribs other than the center rib are in contact, from inside, with a convex, smooth, arc-shaped imaginary curved line which is symmetrical with respect to the centerline and high at the center, as a reference line relative to the height positions of the respective tops.
(4) All of the ribs are radially arranged about a point on the widthwise centerline which extends along the widthwise center of the strip-shaped base plate in parallel to both side surfaces of the strip-shaped base plate.
(5) All of the ribs are arranged such that their center lines extend vertically in parallel to the side surfaces of the strip-shaped base plate.
(6) Each of the ribs and the grooves has smooth, corner-less inclined side surfaces which are inclined in opposite directions to each other such that the ribs and the grooves are tapered, or as an alternative, the side surfaces extend vertically.
(7) The annular ribs on both sides of the annular center rib are arranged such that the farther away their tops are from the center rib and thus the closer to the respective sides of the crease-forming portion, the smaller their diameters are.
In the embodiments, creases are formed in corrugated cardboard sheets A, but the creasing devices of the present invention may be used to form creases not only in corrugated cardboard sheets A but in other sheet members such as non-corrugated cardboard sheets.
Number | Date | Country | Kind |
---|---|---|---|
2014-166011 | Aug 2014 | JP | national |
PCT/JP2015/060737 | Apr 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2015/064901 | 5/25/2015 | WO | 00 |