JP5299670B2 - Cup - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cup, preventing the respective outer walls from coming into contact with each other when two or more cups are piled on one the other to thereby prevent the outer walls from being damaged or broken. <P>SOLUTION: This cup 10 includes a disc-like bottom 11, an outer wall 12 raised from the outer peripheral edge 11a of the bottom 11, and an engaging projection 13 raised from the inner peripheral edge 11b of the bottom 11. The outer wall 12 is formed cylindrical like a truncated cone, which is gradually increased in diameter as it goes toward the upper position, and the engaging projection 13 is formed cylindrical like a truncated cone, which is gradually decreased in diameter as it goes toward the upper position. The thickness t3 of the engaging projection 13 is set smaller than that t1 of the bottom 11, and larger than that t2 of the outer wall 12. The angle &beta; of inclination of the engaging projection 13 is set larger than that &alpha; of the outer wall 12. Therefore, when two cups 10, 10 are piled on one on the other with the respective engaging projections 13, 13 engaged with each other, a gap G is formed between the respective outer walls 12, 12 so that the cups do not come into contact with each other. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a cup that includes an outer wall having an opening area that is larger in a portion located at an upper portion and that can be stacked vertically.

  2. Description of the Related Art A cup used for drinking water, a soft drink, or alcohol is known with a slanted outer wall.

  For example, the cup described in Patent Document 1 is formed such that the outer wall rises from the outer peripheral surface of the circular bottom portion, and the opening area of the outer wall increases toward the top. That is, the outer wall is formed in the shape of a truncated cone having a larger diameter on the upper end side than on the lower end side.

Unlike a cup with a cylindrical outer wall, a cup with such a shape can save a storage space because a plurality of cups can be stacked one above the other, and when collecting used cups In addition, there are advantages such as being able to collect many cups at a time by stacking.
JP 2000-51044 A

  However, when the cups as described above are overlapped, the outer surface of the outer wall of the upper cup comes into contact with the inner surface of the outer wall of the lower cup. When a lateral force is applied to one outer wall (or radial direction when the outer surface is frustoconical), the force is directly transmitted to the other cup in contact with the outer wall, causing the outer wall to crack. There was a problem that it was easy.

  Therefore, the present invention prevents the outer wall from being damaged or cracked by preventing the outer wall of the lower cup from coming into contact with the outer wall of the upper cup when stacked. Is intended to provide.

  The invention according to claim 1 is a truncated cone shape or a truncated pyramid shape in which the peripheral area is formed in a circular shape or a regular polygon, and the opening area increases upward from the peripheral edge portion. The present invention relates to a cup provided with a cylindrical outer wall.

Cup according to the present invention, the bottom center located above the part as narrowing conical, frustoconical, a pyramid, or a truncated pyramidal tubular engaging projections, two of said cup When it is stacked up and down, it has engagement protrusions that can be engaged and disengaged with each other in the vertical direction,

  In the state where the two cups are stacked one above the other and the two engaging protrusions are engaged, and the upper cup is positioned vertically and laterally with respect to the lower cup, The inner wall of the outer wall of the lower cup from the center axis of the engaging projection at an arbitrary height position in the region where the outer wall of the cup and the outer wall of the upper cup overlap on the outer side and the inner side. The engagement protrusion and the outer wall are formed so that the distance to the surface is larger than the distance to the outer surface of the outer wall of the upper cup.

  The invention according to claim 2 is the cup according to claim 1, characterized in that the outer wall has a linear cross-sectional shape when cut along a virtual plane including the central axis.

  The invention according to claim 3 is characterized in that, in the cup according to claim 1, the outer wall has a curved cross-sectional shape when cut along a virtual plane including the central axis.

  According to a fourth aspect of the present invention, in the cup according to the third aspect, the outer wall is characterized in that the cross-sectional shape is formed to be concave outward with respect to the central axis.

  The invention according to claim 5 is characterized in that, in the cup according to any one of claims 1 to 4, the thickness of the engaging projection is set to be thicker than the thickness of the outer wall. .

  According to the first aspect of the invention, by engaging the engaging projections of the two cups up and down, the other cup can be superposed vertically with the other cup positioned. Since the outer walls of the two cups do not contact each other, it is possible to prevent scratches and cracks resulting from the contact.

  According to the second aspect of the present invention, since the outer wall has a straight cross-sectional shape when cut along a virtual plane including the central axis, the shape of the entire cup can be simplified.

  According to invention of Claim 3, since the cross-sectional shape when an outer wall cut | disconnects in the virtual plane containing a center axis | shaft is curvilinear, it can make the shape of the whole cup rich in change.

  According to the invention of claim 4, since the outer wall is formed to be concave outward with respect to the central axis, the outer wall is formed between the thumb and other fingers when the outer surface of the outer wall is grasped by a hand. The glass can be sandwiched naturally, and it is difficult for the cup to slip off the hand.

  According to the invention of claim 5, when the two cups are stacked one on top of the other, the thickness of the engaging projections that are engaged (contacted) with each other is greater than the thickness of the outer wall that does not contact each other. Since it is formed, the engagement protrusion is difficult to break.

Hereinafter, the best embodiment of the cup according to the present invention will be described in detail with reference to the drawings. In addition, in each drawing, the member etc. which attached | subjected the same code | symbol are the same structures, The duplication description about these shall be abbreviate | omitted suitably. Moreover, in each drawing, members and the like that are not necessary for the description are omitted as appropriate.
<Embodiment 1>

  With reference to FIG. 1, the cup 10 of Embodiment 1 is demonstrated. Here, Fig.1 (a) is the top view which looked at the state which accumulated two cups 10 and 10 up and down from the upper direction, (b) is a longitudinal cross-sectional view which cuts (a) by the AA line, c) is a bottom view of the state in which the two cups 10 and 10 are stacked one above the other when viewed from below.

  As shown in these drawings, the cup 10 includes a bottom portion 11, an outer wall 12, and an engaging protrusion 13. The cup 10 of the present embodiment is a so-called rotating body formed by rotating a member having a cross-sectional shape shown in (b) with respect to a central axis C oriented in the vertical direction (vertical direction). Therefore, the center axis C is the center of the bottom portion 11, the outer wall 12, the engagement protrusion 13, and the center of the entire cup 10.

  The bottom 11 has an outer peripheral edge 11a formed in a circular shape, and the inner peripheral edge 11b formed in a small-diameter circular shape having a smaller diameter than the outer peripheral edge 11a. That is, the bottom part 11 is formed in the annular disc which crushed the donut in the axial direction.

  The outer wall 12 is formed so as to extend upward from the outer peripheral edge portion 11 a of the bottom portion 11. The outer wall 12 is formed in the shape of a truncated cone having a larger opening area at the upper part. That is, the outer surface 12a and the inner surface 12b of the outer wall 12 are formed so that the diameter centered on the central axis C becomes larger as the portion is located above. In the present embodiment, the outer wall 12 has a linear cross-sectional shape when cut along a virtual plane (not shown) including the central axis C. That is, the outer wall 12 has a constant increase rate of the diameters of the outer surface 12a and the inner surface 12b when going from the lower side to the upper side along the central axis C. In the outer wall 12, the diameters of the outer surface 12 a and the inner surface 12 b are maximum at the opening 12 c formed at the upper end.

  The engagement protrusion 13 is formed in a cylindrical shape of a truncated cone that becomes narrower as the portion located above. That is, the engaging protrusion 13 is formed so as to rise upward from the inner peripheral edge 11b of the bottom portion 11, and the diameters of the outer side surface 13a and the inner side surface 13b with respect to the central axis C are positioned on the upper end side. It is formed so that the part to be made becomes smaller. In the present embodiment, the upper end of the engagement protrusion 13 is a substantially disk-shaped top portion 13c. In the present embodiment, the engagement protrusion 13 has a linear cross-sectional shape when cut along a virtual plane (not shown) including the central axis C. That is, the engagement protrusion 13 has a constant reduction rate of the diameter of the outer side surface 13a and the inner side surface 13b when it goes from the lower side to the upper side along the central axis C. The engagement protrusion 13 has the smallest diameter of the outer surface 13a and the inner surface 13b in the vicinity of the top portion 13c at the upper end.

  The height h of the engagement protrusion 13 described above is almost half of the height H of the outer wall 12. When the engagement protrusion 13 including the height is formed large, the volume of the entire cup 10 that can store the liquid is reduced. As will be described later, the engagement protrusions 13 and 13 of the two cups 10 and 10 are engaged. By doing so, when the two cups 10 and 10 are superposed one on the other, the contact area of the both engaging projections 13 and 13 is widened, so that both the cups 10 and 10 can be stably superposed.

In the present embodiment, when the thickness of the bottom 11 is t1, the thickness of the outer wall 12 is t2, and the thickness of the engagement protrusion 13 is t3, the bottom 11, the outer wall 12, and the engagement protrusion 13 are During the wall thickness t1, t2, t3,
t2 <t3 <t1
Is formed to hold.

  That is, the thickness t1 of the bottom 11 serving as a support portion of the entire cup 10 is the largest, and then the thickness t3 of the engaging projections 13 that are engaged with each other when stacked is thick, and the thickness t2 of the outer wall 12 is It is formed to be the thinnest.

Here, as shown in FIG. 1B, when the inclination angle of the outer wall 12 with respect to the bottom portion 11 (relative to the horizontal plane) is α, and the inclination angle of the engagement protrusion with respect to the bottom portion 11 is β, Between the inclination angles α and β,
α <β
The outer wall 12 and the engaging projection 13 are formed so that

  Here, as for the material of the cup 10, plastic or glass can be preferably used, but is not limited thereto, and metal or wood can also be used. Moreover, about a color, arbitrary colors can be used, Furthermore, it may be transparent and semi-transparent. In particular, in the case of being transparent or translucent, the engagement protrusion 13 can be seen through the liquid put in the cup 10, so that it is interesting in terms of modeling. In addition, about a material and a color, it is possible to use arbitrary things similarly in other embodiment.

  In the present embodiment, as described above, the wall thickness t2 of the outer wall 12 is set to be thinner than the wall thickness t3 of the engagement protrusion 13, and the inclination angle α of the outer wall 12 is set to the inclination angle of the engagement protrusion 13. By setting it smaller than β, as shown in FIG. 2 (b), when the two cups 10, 10 overlap each other and the respective engagement projections 13, 13 are engaged, the lower side The upper cup 10 is positioned in the vertical direction and the horizontal direction (horizontal direction) relative to the cup 10. At this time, the outer wall 12 of the lower cup 10 is separated from the central axis C at an arbitrary height position in a region where the outer wall 12 of the lower cup 10 and the outer wall 12 of the upper cup 10 overlap on the outside and the inside. The distance R to the inner surface 12b is larger than the distance r to the outer surface 12a of the outer wall 12 of the upper cup 10. As a result, a gap G is formed between the outer wall 12 of the lower cup 10 and the outer wall 12 of the upper cup 10.

  The reason why the gap G is formed will be described. In the cup 10, when the wall thickness t2 of the outer wall 12 and the wall thickness t3 of the engagement protrusion 13 are the same, and the inclination angle α of the outer wall 12 and the inclination angle β of the engagement protrusion 13 are the same, When the mating protrusions 13 and 13 are engaged, the outer walls 12 and 12 of the respective cups 10 and 10 come into contact with each other. Assuming that this is the outer wall contact state, it can be seen that a gap G is formed between the two outer walls 12 and 12 when considering the case where the thickness t2 of the outer walls 12 and 12 is reduced from the outer wall contact state. That is, when the inclination angles α and β are the same, the gap G is formed when the thickness t2 of the outer wall 12 is smaller than the thickness t3 of the engagement protrusion 13.

  On the other hand, when the inclination angle α of the outer walls 12 and 12 is decreased from the same outer wall contact state as described above, it can be seen that a gap G is also formed between the two outer walls 12 and 12 in this case. That is, when the wall thickness t2 of the outer wall 12 and the wall thickness t3 of the engagement protrusion 13 are the same, the gap G is formed when the inclination angle α of the outer wall 12 is smaller than the inclination angle β of the engagement protrusion 13. The

  Therefore, as in the present embodiment, the wall thickness t2 of the outer wall 12 is set to be thinner than the wall thickness t3 of the engaging protrusion 13, and the inclination angle α of the outer wall 12 is set to be smaller than the inclination angle β of the engaging protrusion 13. When set to a small value, a gap G is formed between the two outer walls 12 and 12.

When the gap G is formed, the outer walls 12 and 12 of the two cups 10 and 10 do not come into contact with each other, so that they are not rubbed and damaged or broken. The same applies when three or more cups 10, 10,.
<Embodiment 2>

  With reference to FIG. 2, the cup 20 of Embodiment 2 is demonstrated. Here, FIG. 2A is a top view of the state in which the two cups 20 and 20 are stacked one above the other as viewed from above, and FIG. 2B is a longitudinal sectional view taken along line AA in FIG. c) is a bottom view of the state in which two cups 20 and 20 are stacked one above the other when viewed from below.

  As shown in these drawings, the cup 20 includes a bottom portion 21, an outer wall 22, and an engaging protrusion 23. The cup 20 of the present embodiment is a so-called rotating body formed by rotating a member having a cross-sectional shape shown in (b) with reference to a central axis C oriented in the vertical direction (vertical direction). Therefore, the central axis C is the center of the bottom portion 21, the outer wall 22, the engagement protrusion 23, and the center of the entire cup 20.

  The bottom portion 21 has an outer peripheral edge portion 21a formed in a circular shape, and the inner peripheral edge portion 21b is formed in a small circular shape having a smaller diameter than the outer peripheral edge portion 21a. That is, the bottom part 21 is formed in the annular disc which crushed the donut in the axial direction.

  The outer wall 22 is formed so as to extend upward from the outer peripheral edge portion 21 a of the bottom portion 21. The outer wall 22 is formed in the shape of a truncated cone having a larger opening area at the upper part. In other words, the outer surface 22a and the inner surface 22b of the outer wall 22 are formed so that the diameter centered on the central axis C increases as the portion is located above. In the present embodiment, the outer wall 12 has a shape in which the cross-sectional shape when it is cut along a virtual plane (not shown) including the central axis C is a combination of a linear shape and a curved shape. That is, the outer wall 12 is formed in a straight line from the lower end to slightly below the upper end opening 22c, and in the vicinity of the opening, the outer wall 12 is formed in a concave curved shape toward the outside with respect to the central axis C. Yes.

  The engaging protrusion 23 is formed in a substantially conical cylindrical shape that becomes thinner toward the upper portion. That is, the engaging protrusion 23 is formed so as to rise upward from the inner peripheral edge 21b of the bottom portion 21, and the diameters of the outer surface 23a and the inner surface 23b with respect to the central axis C are positioned on the upper end side. It is formed so that the part to be made becomes smaller. In the present embodiment, the engagement protrusion 23 has a linear cross-sectional shape when cut along a virtual plane (not shown) including the central axis C.

  The height h of the engagement protrusion 23 described above is approximately 1/3 of the height H of the outer wall 22. When the engagement protrusion 13 including the height is formed large, the volume of the entire cup 20 that can store the liquid is reduced. As will be described later, the engagement protrusions 23 and 23 of the two cups 20 and 20 are engaged. By doing so, when the two cups 20 and 20 are superposed on each other, the contact area of both the engaging projections 13 and 13 is widened, so that both the cups 20 and 20 can be stably superposed.

  Also in the present embodiment, for the same reason as in the first embodiment, a gap G is formed between the outer walls 20 and 20 of the two cups 20 and 20 stacked one above the other.

  Thereby, since the outer walls 22 and 22 of the two cups 20 and 20 do not contact, they are not rubbed and damaged or cracked. The same applies when three or more cups 20, 20,.

According to the present embodiment, since the vicinity of the opening 22c of the outer wall 22 is curved in a concave shape, when drinking the liquid put in the cup 20, when the mouth is applied to the upper end of the outer wall 22, Since the lower lip hits naturally following the concavely curved portion, there is an effect that it is easy to drink when drinking liquid.
<Embodiment 3>

  With reference to FIG. 3, the cup 30 of Embodiment 3 is demonstrated. Here, FIG. 3A is a top view of the state in which the two cups 30 and 30 are stacked one above the other as viewed from above, and FIG. 3B is a longitudinal sectional view taken along line AA in FIG. c) is a bottom view of the state in which two cups 30 and 30 are stacked one above the other when viewed from below.

  As shown in these drawings, the cup 30 includes a bottom portion 31, an outer wall 32, and an engagement protrusion 33. The cup 30 of the present embodiment is a so-called rotating body formed by rotating a member having a cross-sectional shape shown in (b) with respect to a central axis C oriented in the vertical direction (vertical direction). Therefore, the central axis C is the center of the bottom 31, the outer wall 32, the engagement protrusion 33, and the center of the entire cup 30.

  The bottom 31 has an outer peripheral edge 31a formed in a circular shape, and the inner peripheral edge 31b formed in a small-diameter circular shape having a smaller diameter than the outer peripheral edge 31a. That is, the bottom 31 is formed in an annular disk that is formed by squeezing a donut in the axial direction.

  The outer wall 32 is formed so as to extend upward from the outer peripheral edge portion 31 a of the bottom portion 31. The outer wall 22 is formed in a substantially truncated-conical cylindrical shape whose opening area increases toward the upper portion. In other words, the outer surface 32a and the inner surface 32b of the outer wall 32 are formed so that the diameter centered on the central axis C becomes larger as the portion is located above. Further, in the present embodiment, the outer wall 32 has a shape in which a cross-sectional shape when cut along a virtual plane (not shown) including the central axis C is a combination of two curves. That is, the outer wall 32 is formed so that the lower end side becomes a convex curve outward with respect to the central axis C, and the upper end side is formed with a concave curve outward with respect to the central axis C. ing. For this reason, when the cup 30 is held by hand, the concave portion on the upper end side can be sandwiched between the thumb and forefinger and the remaining fingers can be naturally applied to the outer surface 32a of the outer wall. ing.

  The engagement protrusion 33 is formed in a substantially truncated cone shape that becomes thinner as the portion located above. That is, the engagement protrusion 33 is formed so as to rise upward from the inner peripheral edge 31b of the bottom 31 and the diameter of the outer surface 33a with respect to the central axis C is smaller as the portion is located on the upper end side. It is formed to become. In the present embodiment, an engagement recess 33 b having the same shape as the distal end side of the engagement protrusion 33 is formed on the back surface side of the lower end of the engagement protrusion 33. The engaging recess 33b is engaged with the tip end side of the engaging protrusion 33 of the lower cup 30 when the two cups 30, 30 are stacked one above the other.

  The height h of the engagement protrusion 33 described above is approximately 1/3 of the height H of the outer wall 32.

  In the present embodiment, the shape, thickness, and inclination angle of the outer wall 32, and the shape and inclination angle of the engagement 33 are such that the two cups 30 and 30 are overlapped and the respective engagement protrusions 33 are engaged. In this case, the outer walls 32, 32 of the two cups 30, 30 are not in contact with each other, and a gap G is formed between them.

  Thereby, since the outer walls 32 and 32 of the two cups 30 and 30 do not contact, they are not rubbed and damaged or cracked. The same applies when three or more cups 30, 30.

According to the present embodiment, since the vicinity of the opening 32c of the outer wall 32 is curved in a concave shape, when drinking the liquid put in the cup 30, when the mouth hits the upper end of the outer wall 22, Since the lower lip hits naturally following the concavely curved portion, there is an effect that it is easy to drink when drinking liquid. In addition, as described above, there is an effect that it is very easy to hold.
<Embodiment 4>

  With reference to FIG. 4, the cup 40 of Embodiment 4 is demonstrated. Here, FIG. 4A is a top view of the cup 40, FIG. 4B is a front view, FIG. 4C is a bottom view, and FIG. 4D is a longitudinal sectional view taken along line AA in FIG. (D) is the longitudinal cross-sectional view which cut | disconnects the state which accumulated the two cups 40 and 40 up and down by the AA line shown to (a).

  As shown in these drawings, the cup 40 includes a bottom 41, an outer wall 42, and an engagement protrusion 43. The cup 40 according to the present embodiment is a so-called rotating body formed by rotating a member having a cross-sectional shape shown in (d) with reference to a central axis C oriented in the vertical direction (vertical direction). Therefore, the central axis C is the center of the bottom 41, the outer wall 42, the engaging projection 43, and the center of the entire cup 40.

  The bottom 41 has an outer peripheral edge 41a formed in a circular shape, and the inner peripheral edge 41b is formed in a small circular shape having a smaller diameter than the outer peripheral edge 41a. That is, the bottom 41 is formed in an annular disk that is formed by squeezing a donut in the axial direction.

  The outer wall 42 is formed so as to extend upward from the outer peripheral edge portion 41 a of the bottom portion 41. The outer wall 22 is formed in the shape of a truncated cone having a larger opening area at the upper part. That is, the outer surface 42a and the inner surface 42b of the outer wall 42 are formed so that the diameter centered on the central axis C increases as the portion is located at the upper side. In the present embodiment, the outer wall 42 has a cross-sectional shape obtained by combining two curves when cut along a virtual plane (not shown) including the central axis C. That is, the outer wall 42 has the same shape as that of the above-described third embodiment, and is formed such that the lower end side has a curved shape convex toward the outside with respect to the central axis C, and the upper end side has the central axis C. It forms so that it may become a concave curve shape toward the outer side on the reference | standard. For this reason, when holding the cup 40 by hand, the concave portion on the upper end side can be sandwiched between the thumb and forefinger and the remaining fingers can be naturally applied to the outer surface 42a of the outer wall. ing.

  The engagement protrusion 43 is formed in a substantially conical cylindrical shape that becomes thinner toward the upper portion. That is, the engagement protrusion 43 is formed so as to rise upward from the inner peripheral edge 41b of the bottom 41, and the diameters of the outer surface 43a and the inner surface 43b with respect to the central axis C are positioned on the upper end side. It is formed so that the part to be made becomes smaller. In the present embodiment, the engaging protrusion 43 has an inner side surface 43 b formed in a step shape along the central axis C. That is, as the inner side surface 43b moves downward or upward along the central axis C, the diameter decreases after a portion having the same diameter (inner diameter) around the central axis C continues. Then, after the reduced diameter continues for a while, the diameter further decreases. By repeating this several times, it is formed in a step shape. Thus, when the two cups 40 and 40 are vertically stacked, the stepped inner side surface 43b of the upper cup 40 is engaged with the lower cup 40. Since it engages with the outer side surface 43a of the protrusion 43, it becomes a non-slip and the engagement state can be ensured. Further, the entire cup 40 is formed of a transparent or translucent material, and the stepped inner side surface 43b is colored so that the visible stepped shape is excellent in modeling through the liquid placed in the cup 40. It will be a directing.

  The height h of the engagement protrusion 43 described above is approximately ½ of the height H of the outer wall 42. When the engagement protrusion 43 including the height is formed large, the volume of the entire cup 40 that can store the liquid is reduced. As will be described later, the engagement protrusions 43 and 43 of the two cups 40 and 40 are engaged. By doing so, when the two cups 40, 40 are superposed vertically, the contact area of both the engaging projections 43, 43 is widened, so that both the cups 40, 40 can be stably superposed.

In this embodiment, when the thickness of the bottom 41 is t1, the thickness of the outer wall 42 is t2, and the thickness of the engaging projection 43 is t3 (thickness of the thinnest portion), these bottom 41, outer wall 42, The engagement protrusion 43 is between these wall thicknesses t1, t2, and t3.
t2 <t3 <t1
Is formed to hold.
That is, the thickness t1 of the bottom 41 serving as a support portion of the entire cup 40 is the largest, and then the thickness t3 of the engaging projections 43 that are engaged with each other when stacked is thick, and the thickness t2 of the outer wall 42 is It is formed to be the thinnest.

  In the present embodiment, the shape, thickness, inclination angle, and degree of curvature of the outer wall 42 and the shape, thickness, and inclination angle of the engagement protrusion 43 are determined by overlapping the two cups 40, 40. When the mating protrusions 43 and 43 are engaged, the outer walls 42 and 42 of the two cups 40 and 40 are not in contact with each other, and a gap G is formed between them.

  Thereby, since the outer walls 42 and 42 of the two cups 40 and 40 do not contact, they are not rubbed and damaged or cracked. The same applies when three or more cups 40, 40... Are stacked.

Further, according to the present embodiment, the vicinity of the opening 42c of the outer wall 32 is curved in a concave shape, so that when drinking the liquid put in the cup 40, when the mouth hits the upper end of the outer wall 42, Since the lower lip hits naturally following the concavely curved portion, there is an effect that it is easy to drink when drinking liquid. In addition, as described above, there is an effect that it is very easy to hold. Further, as described above, the stepped inner side surface 43b of the engaging projection 43 becomes a non-slip, and it can be made excellent in modeling by coloring it.
<Embodiment 5>

  With reference to FIG. 5, the cup 50 of Embodiment 5 is demonstrated. 5A is a top view of the cup 50, FIG. 5B is a front view, and FIG. 5C is a bottom view.

  As shown in these drawings, the cup 50 includes a bottom 51, an outer wall 52, and an engagement protrusion 53. In the cup 50 of the present embodiment, the central axis C is the center of the bottom 51, the outer wall 52, the engagement protrusion 53, and the center of the entire cup 50.

  The bottom 51 has an outer peripheral edge 51a formed in a regular hexagon, and an inner peripheral edge 51b formed in a regular hexagon smaller than the outer peripheral edge 51a.

  The outer wall 52 is formed so as to rise upward from the outer peripheral edge portion 51 a of the bottom portion 51. The outer wall 52 is formed in the shape of a regular hexagonal truncated pyramid that has a larger opening area at the upper portion. That is, the outer surface 52a and the inner surface 52b of the outer wall 52 are formed such that the distance from the central axis C increases as the position is higher. In the present embodiment, the outer wall 52 has a regular hexagonal shape as viewed from above, as shown in FIG.

  The engaging projection 53 is formed in a substantially regular hexagonal frustum-shaped cylindrical shape that becomes thinner toward the upper portion. That is, the engaging protrusion 53 is formed so as to rise upward from the inner peripheral edge 51b of the bottom 51, and the distance between the outer surface 53a and the inner surface 53b with respect to the central axis C is located on the upper end side. It is formed to be closer to the part to be.

  The height h of the engagement protrusion 53 described above is approximately ½ of the height H of the outer wall 52. When the engagement protrusion 53 including the height is formed large, the volume of the entire cup 50 that can store the liquid is reduced, but the engagement protrusions 53 and 53 of the two cups 50 and 50 are engaged as described later. By doing so, when the two cups 50, 50 are superposed on each other, the contact area of both the engaging projections 53, 53 is widened, so that both the cups 50, 50 can be stably superposed.

In this embodiment, when the thickness of the bottom 51 is t1, the thickness of the outer wall 52 is t2, and the thickness of the engagement protrusion 53 is t3, the bottom 51, the outer wall 52, and the engagement protrusion 53 are During the wall thickness,
t2 <t3 <t1
Is formed to hold.

  That is, the thickness t1 of the bottom 51 which is the support portion of the entire cup 50 is the largest, and then the thickness t3 of the engaging projections 53 to be engaged with each other when stacked is thick, and the thickness t2 of the outer wall 52 is It is formed to be the thinnest.

  In the present embodiment, the shape, thickness, and inclination angle of the outer wall 52 and the shape, thickness, and inclination angle of the engagement protrusion 53 are obtained by overlapping the two cups 50, 50, respectively. , 53 are engaged with each other so that the outer walls 52, 52 of the two cups 50, 50 do not come into contact with each other for the same reason as in the first embodiment, and a gap G (not shown) is provided between them. Is to be formed.

  Thereby, since the outer walls 52 and 52 of the two cups 50 and 50 do not contact, they are not rubbed and damaged or cracked. The same applies when three or more cups 50, 50.

  In the present embodiment, the engagement protrusion 53 is formed in a substantially regular hexagonal frustum-shaped cylindrical shape, but may be formed in a substantially hexagonal pyramid-shaped cylindrical shape.

  Further, in the present embodiment, the case where the shape of the entire cup 50 is a regular hexagon has been described as an example, but the present invention is not limited to this, and a regular triangle, a regular square diameter, a regular pentagon, a regular heptagon, The present invention can be applied to regular polygons such as regular octagons, and in this case, the same effect can be achieved.

(A) is a top view of a state in which two cups 10 and 10 are stacked one above the other as viewed from above, (b) is a longitudinal sectional view of (a) taken along line AA, and (c) is two It is the bottom view which looked at the state where cups 10 and 10 were piled up and down from the lower part. (A) is the top view which looked at the state which piled up two cups 20 and 20 up and down from the upper part, (b) is a longitudinal cross-sectional view which cuts (a) by the AA line, (c) is two It is the bottom view which looked at the state where cups 20 and 20 were piled up and down from the lower part. (A) is a top view of the state in which two cups 30 and 30 are stacked one above the other as viewed from above, (b) is a longitudinal sectional view taken along line AA, (c) is two It is the bottom view which looked at the state which piled up cups 30 and 30 up and down from the lower part. (A) is a top view of two cups 40, (b) is a front view, (c) is a bottom view, (d) is a longitudinal sectional view taken along line AA, (d). FIG. 2 is a longitudinal sectional view showing a state in which two cups 40, 40 are vertically stacked, cut along line AA shown in FIG. (A) is a top view of two cups 50, (b) is a front view, and (c) is a bottom view.

Explanation of symbols

10, 20, 30, 40, 50
Cup 11, 21, 31, 41, 51
Bottom 11a, 21a, 31a, 41a, 51a
Bottom peripheral edge 12, 22, 32, 42, 52
Outer walls 12a, 22a, 32a, 42a, 52a
Outer surfaces 12b, 22b, 32b, 42b, 52b of the outer wall
Inner surfaces 12c, 22c, 32c, 42c, 52c of the outer wall
Openings 13, 23, 33, 43, 53
Engagement projection C Center axis R Distance from center axis to inner surface of lower cup r Distance from center axis to outer surface of upper cup

Claims (5)

A bottom portion whose peripheral edge is formed in a circular or regular polygon shape, and a cylindrical outer wall that rises upward from the peripheral edge and has a truncated cone shape or a truncated pyramid shape whose opening area increases toward the upper portion. In the cup
A conical, frustoconical, pyramid-shaped, or truncated pyramid-shaped cylindrical engaging projection that becomes thinner toward the upper part at the center of the bottom, and when the two cups are stacked one above the other , Having engaging and disengaging engagement protrusions that are engaged with each other in the vertical direction;
In the state where the two cups are stacked one above the other and the two engaging protrusions are engaged, and the upper cup is positioned vertically and laterally with respect to the lower cup, The inner wall of the outer wall of the lower cup from the center axis of the engaging projection at an arbitrary height position in the region where the outer wall of the cup and the outer wall of the upper cup overlap on the outer side and the inner side. The engagement protrusion and the outer wall are formed such that the distance to the surface is larger than the distance to the outer surface of the outer wall of the upper cup.
A cup characterized by that. The outer wall has a linear cross-sectional shape when cut by a virtual plane including the central axis.
The cup according to claim 1. The outer wall has a curved cross-sectional shape when cut along a virtual plane including the central axis.
The cup according to claim 1. The outer wall is formed such that the cross-sectional shape is concave outward with respect to the central axis.
The cup according to claim 3. The thickness of the engagement protrusion is set to be thicker than the thickness of the outer wall,
The cup according to any one of claims 1 to 4, characterized in that:

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