TW201026257A - Container, display system and display device - Google Patents

Abstract

There are provided a display system and the like allowing containers to be displayed with marks on them facing a predetermined direction even if they are placed with the marks facing random directions, when they are displayed so as to stand upright on a display device. The container 20 is cylindrically formed, and includes an annular projecting portion 211, which annularly projects toward the outside, on a bottom portion 21. The annular projecting portion 211 serves as a rotation guiding portion guiding rotation of the container 20 when the container 20 is rotated by a rotation unit, and guides the container 20 so that the container 20 rightly moves on a rotation orbit. Additionally, on an inner side face of the annular projecting portion 211, the container 20 includes first and second concave portions 212a and 212b as one example of opposing portions formed through deformation of the container 20.

Description

201026257 VI. Description of the Invention: [Technical Field to Which the Invention Is Ascribed] The present invention relates to a display system or the like for displaying a container. [Prior Art] For example, in a convenience store or the like, a container filled with a beverage, such as a beverage can or a bottle, is placed upright on a display device (contained in a showcase) for sale. Such a display device is, for example, configured to be tilted to move the container to the front of the showcase using the weight of the container itself. Further, if one container of the front side (frontmost row) is taken out, the subsequent container moves to the front side by its own weight. Here, the portion of the display device on which the container is placed is provided with, for example, a plastic flat plate in order to facilitate the sliding of the container. Further, in recent years, a display device equipped with a plurality of rotatable rollers has been proposed (for example, refer to Patent Document 1). Further, the replenishment of the container is generally performed from the rear side of the display device, but a display device that can be moved from the front side to the front side and moved to the front side for display is also proposed (for example, Refer to Patent Document 2). That is, a display device that returns from the container on the front side and has been returned is proposed. Further, as for the container, a can having the inner concave portion and the vertical rib portion alternately formed in the circumferential direction on the inner peripheral wall of the annular convex portion formed on the bottom of the can has been proposed (for example, refer to Patent Document 3). Further, on the outside of the container, there is a mark for distinguishing it from other products such as a product name and a brand name. If the mark is not directed toward the purchaser, it is not easy to identify the product, and the product is not beautiful enough when displayed. -5- 201026257 View. Therefore, it is preferable that the container to be displayed has the mark oriented in a predetermined direction (e.g., the front side or the like). As a conventional technique described in the publication, a rod-shaped guide rib is provided on the upper surface of the inclined layer plate on which the container is placed, and a concave fitting portion is provided at the bottom of the container (for A method of displaying a container using the guide ridge and the concave fitting portion has been proposed (for example, refer to Patent Document 4), just below the joint mark and directly below the surface opposite to the mark forming surface. According to this display method, the concave fitting portion can be fitted to the guide ribs in a posture in which the mark faces the front side, and a plurality of containers can be arranged in the front-rear direction. As a result, the display of the container can be performed with the mark facing forward. [Patent Document 1] Japanese Laid-Open Patent Publication No. JP-A No. 6,502,408 (Patent Document 3), JP-A-2000-211624 (Patent Document 4) According to the above-mentioned Patent Document 4, the display of the container is performed by fitting the concave fitting portion to the guide ridges, and the mark can be surely directed forward. However, in the invention, the container inserter must have the concave fitting portion fitted to the guide rib each time the container is placed on the display device, which causes the display work of the container to become complicated. Further, in the case where the mark is formed only in a single portion of the container, display errors in a state in which the mark is displayed rearward may occur. In addition, it is very troublesome to carry out the work in the direction of -6 - 201026257 in shops such as convenience stores that sell large quantities of beverages. The main object of the present invention is to provide a display system or the like, which can be placed in a predetermined direction even when the container is placed on the display device while the container is placed upright and the container is placed in a random direction. display. According to the above-mentioned object, the container used in the present invention includes a container main body portion in which a mark is attached to a specific portion, and a rotation means that is provided on the display device (the container main body portion is displayed by φ) to induce rotation of the rotation of the container body portion. The inducing portion and the opposing portion with respect to the rotation stopping portion (stopping the rotation of the container body portion during rotation); and the facing portion, the rotation and the rotation of the container body portion at a position in a predetermined direction at a specific portion are stopped The stop is relatively embarrassing. Furthermore, the container of the present invention is provided with a container body portion to which a mark is attached at a specific portion, and a display device (for displaying the container body portion) to be rotated. The rotation stop portion in which the rotation of the main body portion of the container is stopped is opposed to the crotch portion of the crucible; the opposite portion is provided on the side surface of the container main portion, and the rotation of the container main portion is stopped at a position in a predetermined direction toward the specific portion. Opposite the rotation stop. Further, in the case where the present invention is viewed from the viewpoint of a display system, the display system used in the present invention has a container and a display device for displaying the container; the display device has a moving means for moving the container in a single direction, a rotating means for rotating the container in a direction in which the container is moved in a single direction, and a rotating stop portion for stopping the rotation of the container by the rotating means; the container is provided with a container for attaching a mark to a specific portion a main body portion, a rotation inducing portion that is provided in the display device to induce rotation of the container body portion, and a facing portion that is opposite to the rotation stopping portion; and a facing portion that allows the container body to be oriented toward a predetermined direction at a specific portion The manner in which the rotation of the portion is stopped is opposite to the rotation stop portion. Furthermore, from another point of view, the display system used in the present invention has a container and a display device for displaying the container; the display device has a moving means for moving the container in a single direction, along with a rotating means for moving the container in a single direction by moving the container, and a rotation stopping means for stopping the rotation of the container rotated by the rotating means; and the container is provided with a container body portion having a mark attached to the specific portion And a facing portion that is opposed to the rotation stopping portion; the facing portion is provided on the side surface of the container body portion, and faces the rotation stopping portion so that the rotation of the container body portion is stopped at a position in a predetermined direction toward the predetermined portion. Here, the moving means may have a mounting portion on which the container is placed; and the rotating means may cause the container to move in a single direction in accordance with the movement of the container carried on the placing portion of the moving means Rotate. Further, the following feature may be included, that is, the means for rotating is formed by imparting a rotational force to the container by making the resistance against the moving force (moving the container in one direction) different depending on the position of the container. Further, it may include the feature that the single direction is from the rear of the array system toward the front, and the resistance is different from the left and right by the center of gravity of the container. Further, the moving means may have a mounting portion on which the container is placed, and the resistance is a frictional force generated between the placing portion and the end portion of the container which is in contact with the mounting portion. -8- 201026257 may further include the following feature 'that is, the mounting portion has a plurality of plate-shaped bottom surfaces extending in the front-rear direction to form a mounting surface; and the frictional force is obtained by making the friction coefficient of one of the plurality of bottom surfaces The friction coefficient is different from that of the other bottom surfaces, and the difference is formed on the left and right sides with the center of gravity of the container as a boundary. Further, the present invention may include a feature that the moving means has a placing portion on which the container is placed, and the rotation stopping portion is protruded toward the container side from a contact position between the mounting portion and the end portion of the container that is in contact with the mounting portion. The convex portion; the facing portion of the container is a portion where φ is opposed to the placing portion of the container, and is a concave portion or a convex portion that is positioned between the convex portion and the convex portion. Further, the convex portion of the "rotation stop portion" is arranged in a plurality of directions in a single direction so as to prevent the plurality of containers placed on the placing portion from coming into contact with each other. Furthermore, the present invention is directed to another embodiment, the display system used in the present invention has a container for marking a specific portion on the outside and a display device for displaying the container; the display device is provided with: a moving means for moving in one direction, a rotating means for rotating the container in accordance with movement of the container by the moving means in a single direction φ, and a rotating stop portion for stopping the rotation of the container rotated by the rotating means; The position of the specific portion toward the predetermined direction stops the rotation, and the bottom portion includes a facing portion that is opposite to the rotation stop portion. Here, the moving means may have a mounting portion on which the container is placed; and the rotating means rotates the container in accordance with the movement of the container placed on the placing portion of the moving means in one direction . Further, the following feature may be included, that is, the means for rotating is formed by imparting a rotational force to the container -9 - 201026257 by making the resistance against the moving force (moving the container in one direction) different depending on the position of the container. Further, it may include the feature that the single direction is from the rear of the array system toward the front, and the resistance is different from the left and right by the center of gravity of the container. Further, the moving means may have a mounting portion on which the container is placed, and the resistance is a frictional force generated between the placing portion and the end portion of the container which is in contact with the mounting portion. Furthermore, the mounting portion may have a plurality of plate-shaped bottom surfaces extending in the front-rear direction to form a mounting surface; the frictional force is obtained by making the friction coefficient of one of the plurality of bottom surfaces and the like The friction coefficient of the bottom surface is different, and the difference is formed on the left and right by the boundary of the container _ center of gravity. In addition, the display device used in the present invention is a display device for displaying a container that is marked on a specific portion on the outside, and has a moving means for moving the container in one direction. a rotating means for rotating the container in a single direction as the moving means moves, and a rotating stop portion for stopping the rotation of the container rotated by the rotating means; the rotation stopping portion is a confrontation of the contact degaussing shape The portion (provided at the boundary between the side portion and the bottom portion of the container and opposed to the rotation stopping portion ,) stops the rotation of the container at a position of a specific portion of the container toward a predetermined direction. In the display system or the like provided as described above, when the container is placed upright and displayed on the display device, the mark can be displayed in a predetermined direction even if the container is placed in a random direction with the mark of the container. [Embodiment] <First Embodiment> -10-201026257 Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings. Fig. 1 (Fig. 1A and Fig. 1B) shows a schematic structure of a display device according to an embodiment of the present invention. As shown in FIG. 1A, the display device 30 of the present embodiment includes a mounting portion 31 on which the container 2 is filled with the inside, and a movement path (transport path) for forming the container 20, and is used to guide A guide 32 for guiding the movement of the container 20. Further, the restricting plate 34 is provided to be transparent, and is disposed along one side of the mounting portion 31 to stop the movement of the container 20. Here, the guide 32 is fixed to the mounting portion 31 by, for example, inserting both end portions into the opening 33 of the mounting portion 31. In addition, the container 20 is a cylindrical can, but a resin container such as a so-called PET bottle or a so-called bottle metal can having a lid can be used. As shown in Fig. 1B, the display device 30 is housed inside a showcase 1 that is installed in a convenience store, a supermarket, or the like. The main structure of the showcase 10 includes a cabinet main body portion 10A having a rectangular parallelepiped shape, and a cabinet door 10B that is openable and closable relative to the cabinet main body portion 10A. The display unit 30 is placed on a shelf (not shown) provided in the showcase 1〇. At this time, the display device 30 is disposed such that the side of the restricting plate 34 is located on the side of the cabinet door 10B. Further, the side where the restricting plate 34 is disposed is located below the side opposite to the side on which the restricting plate 34 is disposed. In other words, the display device 30 is disposed so as to be inclined downward from the rear side of the showcase 1 toward the front side (the take-out portion side) of the take-out container 20. Here, in the showcase 10 of the present embodiment, a cabinet door (not shown) is also provided on the rear side, and the rear side can be opened. Further, the container -20 - 201026257 is placed in the display device 30 from the rear side. That is, the input portion of the container 20 is provided on the rear side of the showcase 1 and on the rear side of the display device 30. Further, the container 20 to be loaded is moved toward the side of the cabinet door 10 on the placing portion 31. That is, it moves toward the purchaser side of the purchase container 20. In this specification, the side of the door 10 0 is referred to as the front side (front side), and the side opposite to the side of the door 10 0 is referred to as the rear side (rear). Further, the width direction of the showcase 10 (the direction orthogonal to the moving direction of the container 20) is referred to as the horizontal direction and the width direction, and the display device 30 will be described in more detail. Fig. 2 (Fig. 2 and Fig. 2) is a view for explaining the mounting portion 31 of the display device 30. The second drawing is a plan view of the mounting portion 31, and the second drawing is a side view of the mounting portion 31. As shown in FIG. 2, the placing unit 31 is provided with a function of a moving means (moving the container 20 toward the front) on the movement path formed by the guide 32 (not shown in the drawing). The roller portion 311 is in contact with the bottom portion (end portion) of the container 20 to impart a sliding resistance (frictional resistance) to the container 20. In the present embodiment, the container 20 is rotated by the sliding resistance from the resistance applying portion 312. Therefore, the resistance applying portion 312 is a rotating means for rotating the container 20. Further, the placing unit 31 includes a rotation stopping mechanism 3 1 3 that is disposed between the first roller portion 311 and the resistance applying portion 312 to stop the rotation of the container 20 (described later). Here, the first roller portion 311, the resistance providing portion 312, and the rotation stopping mechanism 3 1 3 are arranged side by side in the lateral direction. In addition, the mounting portion 31 has a second roller portion 314 that moves the container 20 further forward than the first roller portion 311, the resistance providing portion 312, and the rotation stopping mechanism 313 -12-201026257. The first roller portion 311 has a plurality of roller-shaped members 311a (provided to be rotatable in the moving direction of the container 20). The roller-shaped members 311a are arranged in the moving direction (front-rear direction) of the container 20. The resistance applying portion 312 can be constituted by, for example, a rubber member. As the rubber member, for example, EPDM (ethylene-propylene rubber) can be used. The second roller portion 314 has a plurality of roller-shaped members 31 4a (provided to be rotatable in the moving direction of the container 20). The roller-shaped members 3 14a are arranged in the moving direction of the container 20. The roller-shaped members 3 1 4a are arranged side by side in the width direction in two rows. Further, each of the roller-shaped members 314a is formed to be wider than the roller-shaped member 311a of the first roller portion 311. The rotation stopping mechanism 3 1 3 is provided with a belt-shaped member 313a which is formed in an endless shape and can be circulated and moved as shown in Fig. 2B. The rotation stopping mechanism 313 is provided with a first frame roller 31 3b and a second frame roller 313c which are rotatably and which are stretched from the inside by the band member 313a. Further, a plurality of moving members φ 313d are fixed to the surface of the belt-shaped member 313a and arranged along the moving direction of the belt-shaped member 313a, and are circulated in accordance with the movement of the belt-shaped member 313a. Further, a plurality of projections 313e (an example of the rotation stopping portion and the convex portion) are provided along the moving direction of the belt-shaped member 313a at a predetermined interval, and protrude from the surface of the moving member 313d. The projection 313 e is provided so as to protrude toward the container 20 side from the contact position between the lowermost end portion of the container 20 placed on the mounting portion 31 and the moving member 313d (the mounting portion 31). Further, the rotation stop mechanism 313 is disposed obliquely, and the flat surface 313f formed by the moving member 313d has an angle 相对 with respect to the surface -13 - 201026257 312f of the resistance providing portion 312 or the like (see Fig. 2B). In other words, the inclination angle of the rotation stopping mechanism 313 is set to be larger than the inclination angle of the resistance applying portion 312 or the like. Therefore, in the present embodiment, the protrusion 313e protrudes from the surface 312f and the like,

It is reduced as the protrusion 313 e moves forward. As a result, in the present embodiment, when the projection 313e and the container 20 are brought into a non-contact state (described later in detail), the non-contact state can be formed more smoothly. In addition, the above angle library .X is not required. Even if the angle X does not exist, the projection 313e can move below the placing portion 31 and become in a non-contact state with the container 20. G Next, the container 20 will be explained. Fig. 3 (Figs. 3A to 3H) is a case where the container 20 is viewed from the bottom side. The container 20 of the present embodiment has a cylindrical shape, and as shown in Fig. 3A, the bottom portion 21 is provided with an annular projecting portion 211 that protrudes outward in a ring shape. In the case where the container 20 is rotated by a rotation means to be described later, the ring-shaped projecting portion 211 constitutes a rotation inducing portion for inducing the rotation, and can induce the container 2 to follow the correct rotation orbit. Further, the side surface on the inner side of the inner side of the annular projecting portion 211 includes a first recessed portion 21 2a and a second recessed portion 21 2b which are examples of the opposing portion formed by the deformation of the container 20 (in the present specification, the container 20 is formed in the container 20 The recessed portion may be referred to simply as the recessed portion 212). Here, the first concave portion 212a and the second concave portion 212b are disposed in a relative relationship. In other words, the first concave portion 212a and the second concave portion 212b are disposed so as to have a phase difference of 180° along the circumferential direction of the container 20. In addition, the specific part of the outer surface (side portion 22) of the container 20 has a first name - 1426, a second identification mark 23b (a product name, a brand name, etc.) for distinguishing it from other products. In the present specification, the following will be referred to simply as "identification mark 23"). Here, the first identification mark 23a and the second identification mark 23b may be in the same form or in different forms. Further, the first identification mark 23a and the second identification mark 23b are arranged such that the phase difference between them in the circumferential direction of the container 20 is 180°. Next, the relationship between the concave portion 212 and the identification mark 23 will be described. In the circumferential direction of the container 20, the first identification mark 23a and the first concave portion 212a are arranged to have a phase difference of @180°. Further, the second identification mark 23b and the second concave portion 212b are also arranged to have a phase difference of 180°. In other words, the first identification mark 23a and the first concave portion 212a are formed to have a predetermined positional relationship, and the second identification mark 23b and the second concave portion 212b are also formed to have a predetermined positional relationship. Further, the first identification mark 23a and the first concave portion 21 2a are disposed at different positions, and the second identification mark 23b and the second concave portion 21 2b are also disposed at different positions. Further, the first concave portion 212a is formed on the opposite side to the installation side of the first identification mark 23a. The second concave portion 212b is formed on the opposite side to the installation side of the second identification mark 23b. In the present embodiment, the plurality of identification marks 23 are provided like the first identification mark 23a and the second identification mark 23b, and the concave portions 212 are provided corresponding to the respective identification marks 23 (the first concave portion 212a and the second concave portion 212b). ). Further, after the identification mark 23 and the concave portion 2 1 2 of the present embodiment are formed, the other one is formed on the basis of the one formation position, and the third embodiment is shown in the form of a can. The container 20 is in the form of a concave portion 212, and a resin container such as a PET bottle is more suitable for -15-201026257. In such a resin container, a convex portion corresponding to the concave portion 212 is formed in the mold, and the concave portion 212 is formed, for example, in a blow molding process. Then, the film (sticker) having the identification mark 23 is wound in the container 20, and the film having the identification mark 23 is wound around the container 20 based on the position at which the concave portion 2 1 2 is formed. On the other hand, in the case where the container 20 is an aluminum can or the like, the concave portion 212 is formed in the following manner. For example, in the case of a two-piece aluminum can, the cup forming -DI (Draw & Iron) forming - φ washing - outer printing - hardening drying - inner coating - hardening drying - is carried out in sequence. The processing of the diameter reduction processing-inspection or the like can form the concave portion 212 in the process of performing the processing. For example, the annular protruding portion 211 and the concave portion 212 can be formed, for example, in the step of forming the DI. Further, the identification mark 23 can be formed by multi-color lithography based on the position at which the concave portion 2 1 2 is formed after the outer printing step is aligned. Further, external printing using multicolor lithography or the like is usually carried out at a speed of approximately 2,000 cans per minute. Therefore, it is conceivable that it is difficult to perform the alignment based on the concave portion 212. Therefore, for example, in the step before the mouth reduction processing, the rotation of the container 20 is performed, and the position of the identification mark 23 is detected using a sensor or the like. Further, after the container 20 is stopped using the result of the position detection, the concave portion 2 1 2 is formed in the container 20 by a mold or the like. When the concave portion 2 1 2 is formed by a mold, it is carried out, for example, by a conventional technique disclosed in Japanese Laid-Open Patent Publication No. 2 000-2 1 624. For example, it is formed by a molding machine that applies a mold to the inside and the outside of the container 20 and applies pressure from the inside and the outside of the container 20. -16 - 201026257 Here, as shown in Fig. 3B, the concave portion 212 of the container 20 can also be provided on the outer side surface of the annular projecting portion 21 1 . Further, in addition to the concave portion 212, for example, as shown in Fig. 3C, a protruding portion (convex portion) 2 1 3 formed by deformation of the container 20 may be provided on the inner side surface of the annular protruding portion 2 1 1 . This form is more suitable for a case where the degree of freedom of forming processing such as a PET bottle is large. Further, although the illustration is omitted, the protruding portion 213 may be provided on the side surface on the outer φ side of the annular protruding portion 211. The protruding portion 213 and the concave portion 212 can be formed in a region surrounded by the annular protruding portion 211, the annular protruding portion 211, and the side portion 22 of the container 2A in addition to the side surface of the annular protruding portion 211 (refer to FIG. 3A). ) between the areas. Further, although the above description is directed to the container 20 in which the annular protruding portion 211 is provided, as shown in FIG. 3D, the protruding portion 213 or the concave portion may be provided on the substantially flat bottom portion 21 where the annular protruding portion 211 is not provided. (not shown). This illustration exemplifies a so-called three-piece can, in which a bottom portion 21 composed of a φ individual member different from the side portion 22 is wound to form a container 20. Here, the crimping portion 231 is protruded outward from the bottom portion 21. Further, the winding portion 23 i is the same as the above-described annular protruding portion 211, and is a rotation inducing portion configured to induce rotation when the container 20 rotates, and the container 20 can be induced to follow the correct rotation orbit. Here, the protruding portion 213 and the concave portion (not shown) are formed on the bottom portion 21, and the bottom portion 21 is wound around the side portion 22 to be given to the container 20. Further, for example, in the case where the forming process of the container 20 is difficult, the protruding portion 213 is not deformed by the container 20, but is 175-201026257 as shown in Fig. 3E and Fig. 3F, and can be provided with a resin sheet, a metal piece, and an adhesive. Other components such as agents, sheets, stickers, etc. are formed. Fig. 3E shows an example in which the protruding portion 213 is formed inside the annular protruding portion 211. The 3Fth diagram shows an example in which the protruding portion 213 is formed outside the annular protruding portion 2 1 1 . Here, for example, in the case where the protrusion 2 1 3 is formed using a resin, for example, a device (for example, a hot melt gun) that melts and discharges a thermoplastic resin including an epoxy resin or the like is fused to the container 20 . Formed out. Further, for example, in a state where the container 20 is rotated, a position such as the identification mark 23 is detected using a sensor or the like. Further, after the container 2 is stopped by the result of the position detection, the resin is adhered (fused) to a predetermined position by using the above-described means. In these aspects, the projections 213 can be formed quickly, and the steps are simple. Further, the container 20 may be heated or the like at the time of sale. Therefore, it is preferable that the resin used for the projection 213 is not melted at the temperature at the time of heating and selling. Further, as shown in Figs. 3G and 3H, a ridge portion 214 which is raised from the bottom portion 2i may be provided on the bottom portion 21 by, for example, applying an adhesive or attaching another member such as a sticker. Further, by the ridge portion 214, a portion that is relatively recessed can be used as the recess portion 212. In addition, the material of the container 20 is not particularly limited as long as it can be applied to a refreshing drink such as beer or juice such as beer. For example, a metal such as aluminum or stainless steel, a resin such as PET (polyethylene terephthalate), or the like can be used. Further, the shape and type of the container 20 are not particularly limited. The container 20 includes, for example, a so-called two-piece can (DI can), a three-piece can, a PET bottle 201026257, a glass bottle, a threaded can (so-called bottle metal can), and the like. Here, when the container 20 is made of a resin material such as PET resin, the container 20 is formed by blow molding or the like, and it is preferable to form the concave portion 212 and the protruding portion 213 at the same time. In this case, since the forming step of the concave portion 212 or the like is not additionally required, the manufacturing steps of the container 2 can be reduced. Also in this case, for example, the protruding portion 213 can be prevented from being peeled off from the container 20. It is of course also possible to mount the projection 213 after the container 20 is formed. φ In addition, in the case where the container 2 is a so-called three-piece can, the concave portion 212 and the protruding portion 213 can be simultaneously formed in the step of forming the bottom portion 21. That is, in the existing steps of forming the three-piece can, in the stage of forming the bottom portion 21, the concave portion 2 1 2 and the protruding portion 2 1 3 can be formed together. It is of course also possible to form the recess 212 and the projection 213 after the end of the printing step. Next, the operation of the display device 3 and the container 20 when the container 20 is placed on the mounting portion 31 of the display device 30 will be described. Fig. 4 is a view for explaining the operation of the display device 30 and the container 20, as shown by the solid line 4A in Fig. 4, and the container 20 is placed on the rear side of the display device 30, and the annular projecting portion 211 (see 3A) will come into contact with the protrusion 313e. Thus, the load of the container 20 acts on the rotation stopping mechanism 313, and the moving member 313d of the rotation stopping mechanism 313 moves forward. At this time, the right side of the container 20 is smoothly moved forward by the first roller portion 311. However, the left side of the figure is biased by the resistance providing portion 3 1 2 to restrict the movement toward the front. As a result, as shown by the broken line 4B, 7K, the container 20 is rotated in the clockwise direction (circumferential direction) while moving forward -19-201026257. That is, the resistance against the moving force (moving the container 20 toward the front) is different depending on the position of the container, whereby the container 20 is rotated. More specifically, the left and right resistances are formed differently by the center of gravity of the container 20, whereby the container 20 is rotated. Further, when the container 20 is rotated, the annular projection 211 (see Fig. 3A) contacts the projection 313e to induce the container 20 to follow a certain rotation locus. Then, in the first concave portion 212a or the second concave portion 21 2b of the container 20 (see Fig. 3A), the projection 313e of the rotation stopping mechanism 313 is entered. That is, e is such that the first concave portion 212a or the second concave portion 212b faces the projection 31 3e. Thereby, the rotation of the container 20 is stopped (restricted, referring to the broken line 4C). Then, if the container 20 reaches the predetermined position of the second roller portion 314, the container 20 and the projection 313e are brought into a non-contact state. Thus, the container 20 is further moved forward by the second roller portion 314 (see the broken line 4D). In addition, although the container 20 which provided the 1st recessed part 212a and the 2nd recessed part 212b was used in this figure, for example, when the container 20 provided with the protrusion part 213 is used (for example, refer to FIG. 3E), it is a case. The protrusion 313e abuts against the protruding portion 213 to cause the rotation of the container 20 to stop. In this embodiment, as shown by the solid line 4A, for example, even if the container 20 is placed on the mounting portion 31 in a state in which the first identification mark 23a faces the rear side, the first identification mark 23 can be made at the stage of reaching the front. a is facing forward. Therefore, even if the container 20 is placed (input) in a state where the first identification mark 23a is not facing forward, the first identification mark can be obtained when the container 20 reaches the front side of the showcase 10 (see FIG. 1B). 23 a becomes a state toward the front. That is, even if the input person who puts the container 20 into the display device 30 does not perform the operation of the special -20-201026257, the first identification mark 23a can be made to face forward. Here, the length of the rotation stopping mechanism 313 in the front-rear direction is formed to correspond to the length of the resistance applying portion 312. That is, it has the same length as the resistance imparting portion 312. Here, the length of the rotation stopping mechanism 313 in the front-rear direction can be made larger than the length of the resistance applying portion 312. However, if the length of the resistance providing portion 312 is larger than the length of the rotation stopping mechanism 313, the rotation stop mechanism 3 1 3 stops rotating, and the identification mark 23 becomes the container 20 in the forward state, and may be rotated again. The identification mark 23 is oriented in a direction other than the front. Further, in the case where the rotation stopping mechanism 313 is used for the container 20 in which the identification mark 23 is provided at the front and back sides 2 (for example, referring to Fig. 3A), the length (distance) must have a margin for at least half a turn of the container 20. In detail, the rotation stop mechanism 313 must have at least half the length of the outer circumference of the container 20, and in the case where a plurality of containers 20 are sequentially loaded, the adjacent φ containers 20 may contact each other to hinder the rotation of the container 20. . Therefore, the projections 313e of the rotation stopping mechanism 313 are such that the adjacent containers 20 are not in contact with each other with a gap therebetween. The form of the rotation stop mechanism 313 here is not limited to the above-described form. 〇 FIG. 5 is a side view showing another example of the rotation stop mechanism 3 1 3 . The above-mentioned projection 313e is not movable with respect to the moving member 313d. On the other hand, as shown in Fig. 5, the projection 313e shown in Fig. 5 is movable with respect to the moving member 313d. The projection 313e shown in Fig. 5 is provided so as to be rotatable (oscillated) with the fulcrum 313g as a center. Further, the projection 313e is provided in a substantially L shape, and when one end portion T1 protrudes from the surface of the moving member 313d, the other end portion T2 does not protrude from the surface of the moving member 313d. Further, the rotation stopping mechanism 313 of the present embodiment includes a driving portion 313h on the upper portion of the second tension roller 313c, and the driving portion 313h can drive the projection 313e to make the end portion T2 protruding from the surface of the moving member 313d non-protruding. State and cause the end portion T 1 to protrude. Fig. 6 (Fig. 6A - Fig. 6C) is for explaining the operation of the rotation stopping mechanism 313 shown in Fig. 5. The container 20 placed on the moving member 313d (see Fig. 6A) slides forward on the moving member 313d. The annular projection 211 is thus in contact with the end portion T1 side. Then, the end portion T1 is in a non-protruding state with respect to the surface of the moving member 313d, and the container 20 is further moved toward the front. On the other hand, the end portion T2 protrudes from the surface of the moving member 313d in response to the end portion T1 becoming non-protruding. result. As shown in Fig. 6B, the annular projection 211 will contact the end portion T2. Then, the container 20 is further moved forward while rotating. Further, the rotation of the container 20 is stopped by the end portion T2 entering the first concave portion 212a (see Fig. 3A). Thereafter, the container 20 is further moved forward in the second roller portion 314 (see Fig. 6C). The first identification mark 23a (see Fig. 3A) and the like are in a forward state. Here, the end portion T2 after the contact with the annular projecting portion 211 is released is pressed by the driving portion 313h as shown in Fig. 6C. Along with this, the end portion T2 201026257 is in a non-protruding state, and the end portion T1 is in a protruding state. As a result, when the container 20 is placed, as shown in Fig. 6, the end portion Τ1 of the projection 313e is in a protruding state, and the end portion T2 is in a non-protruding state. In the example shown in FIGS. 2A and 2B, it is necessary to insert (place) the container 20 so that the projection 313e enters the inside of the annular projection 21 1 . However, in the present embodiment, the annular projection 2 1 1 On the inner side, the projection 3 1 3 e (end portion T2 of the projection 313e) can be automatically entered. Therefore, the workload of the input person who puts the container 20 into the display device 30 can be reduced. 7 to 10 are explanatory views of other aspects of the resistance applying portion 312. In Fig. 8, the rotation stop mechanism 313 is simplified. The resistance applying portion 3 1 2, for example, as shown in Fig. 7, can form a triangle, and the width on the front side is narrower than the rear side. That is, the width of the rear side can be different from the width of the front side. Further, as shown in Fig. 8, on the right side of the moving path of the container 20, a bottom plate 312a composed of a general resin plate may be provided. That is, a configuration in which the roller-shaped member is not provided is employed. Further, the bottom plate 3 1 2a is provided on the left side of the moving path of the container 20, and a resistance applying portion 312b such as rubber is provided in a part of the bottom plate 3 1 2a. Thus, when the container 20 is moved, the frictional resistance acting on the right side of the bottom portion 2 1 and the frictional resistance acting on the left side can be made different. That is, the frictional resistance difference can be produced. Further, in this example, the example in which the resistance applying portion 312b is made of rubber is described. However, the frictional resistance difference can be generated by, for example, different surface roughness. Further, in the present embodiment, as shown in Fig. 8, the second roller portion 314 (see Fig. 2) is not provided, but the portion corresponding to the second roller portion 314 is provided, and the bottom plate portion is provided at -23-201026257. 312a components of the same material. As in the present embodiment, the difference in resistance may be changed depending on the area of the resistance body. Further, the rotational force ' of the container 20 due to the difference in resistance can be made according to the weight of the contents of the container 20, the inclination angle of the display device 30 (the mounting portion 3 1 ), the material, the area, and the surface condition of the resistance body. And choose appropriately and consider the cost of the equipment. In this embodiment, the resistance acting on the left side of the container 20 is also large, and the rotational force is applied to the container 20. That is, in the present embodiment, the container 20 is given a rotational force by the frictional force acting on the side (right side) of the container 2 and the frictional force acting on the other side (left side) of the container 20. In other words, in the present embodiment, a plurality of plate-like bottom surfaces extending in the front-rear direction are provided in the width direction, and the friction coefficient of one bottom surface (the bottom surface disposed on the left side of the rotation stopping mechanism 313) and the other bottom surface (disposed to the rotation stop) The bottom surface of the right side of the mechanism 313 has a different coefficient of friction to impart a rotational force to the container 20. Further, as shown in Fig. 9, the resistance applying portion 312' may be formed by providing a rubber member 312d such as EP D 之间 between a plurality of roller-shaped members 3 1 2 c arranged in the front-rear direction. In the figure, although the example in which the roller-shaped member 312c and the rubber member 312d are alternately arranged is illustrated, it is not required to be interactively arranged. In the case where greater resistance is to be obtained, the proportion of the rubber member 312d can be further increased. In addition, as shown in FIG. 1 , the resistance providing unit 3 1 2 includes a plurality of roller-shaped members 312e arranged in the front-rear direction and a plurality of roller-shaped members 312e facing the moving direction of the container 20, respectively. The motor that rotates can also be used. 201026257 Next, other aspects of the display device 30 will be described. Fig. 11 (Fig. 11A to Fig. 11C) shows another form of the display device 30. In the above embodiment, the rotation of the container 20 is performed by applying resistance to the bottom portion 21 of the container 20. In the present embodiment, the container 20 is rotated by the guide 32 while the container 20 is guided forward by the guide 32. That is, in this embodiment, the guide 32 functions as a rotating means. Incidentally, the same functions as those described above are denoted by the same reference numerals, and the description thereof will be omitted. In the present embodiment, the rear side (upper side of the drawing) of the placing portion 31 is disposed such that one end side (one side side) in the width direction is located lower than the other end side (the other side side). Tilted state. Specifically, the rear side of the placing portion 3 1 is disposed such that the side of the guide 32 side is inclined downward from the side opposite to the side of the guide 32. On the other hand, the front side of the placing portion 31 (specifically, the front side of the guide 32) is not inclined in the width direction. Further, in the eleventh diagram, the three-corner shape and the rectangular shape indicated by the symbols 11A and 11B indicate the inclined state of the rear side and the front side of the mounting portion 31. In the following description, the triangle and the rectangle indicate the inclination of each member and each part. When the container 20 is placed on the rear side of the placing unit 31 (see the solid line 11C in Fig. 11), the side portion 22 of the container 20 contacts the guide 32 because the mounting portion 31 is not inclined. Thereafter, the container 20 is moved forward while being guided by the guide 32, and is rotated counterclockwise by the resistance of the guide 32 (refer to the broken line 1 1 D ). In the present embodiment, the rotation of the container 20 is performed by the guide 32 as it is. Therefore, in the present embodiment, the resistance providing portion 312 shown in the second Α-25-201026257 diagram or the like is not provided. Here, in the mounting portion 31, a plurality of rotatable roller-shaped members can be provided, and a plate-like member having a smooth surface can be provided. Further, the container 20 is stopped by the rotation stopping mechanism 313, and the identification mark 23 is brought forward (see the broken line 1 1 E ). Then, the container 20 is moved further forward on the placing portion 31 and stopped at a predetermined position (see the broken line 1 1F). The mounting portion 31 on the lower side of the guide 32 is not inclined as described above. Therefore, the container 20 after the guiding of the guide 32 is moved substantially linearly toward the front as indicated by the arrow 11 G. Further, in the present embodiment, the inclination angle in the front-rear direction of the placing portion 31 can be made smaller than in the case shown in Fig. 2 (the frictional force acting on the bottom portion 21 is different on the left and right sides). That is, the rotation of the container 20 can be performed at a smaller inclination angle than in the case shown in Fig. 2 or the like. Therefore, the present state can lower the height of the display device 30 as compared with the case shown in Fig. 2 and the like. In other words, the space occupied by the display device 30 in the height direction can be made smaller. Further, the shape and the like of the guide 32 are not particularly limited, and for example, it can be formed by using a rubber member such as EPDM. Further, the guide member 32 can be formed, for example, by attaching a rubber member or the like to the surface of a base material such as metal. Further, the guide 32 can be formed by providing irregularities or the like on the surface of various substrates. Further, in Figs. 11A and 11B, a guide member is not provided on the opposite side of the guide member 32, but an appropriate guide member can be provided. Further, an appropriate guide can be provided on the front side of the guide 32. -26- 201026257 Here, in the case where a guide is further provided in front of the guide member 32, the guide member is preferably such that the frictional resistance of the surface is extremely small. Or the width of the guide (the magnitude of the height of the guide) should be small. When a guide member is further present in front of the guide member 32, if the frictional force from the guide member acts on the container 20' at the portion where the rotation stop mechanism 313 is not provided, re-rotation of the container 20 may occur, and the identification mark 2 3 is oriented. Outside the front. Further, in the case where the guide is further provided in front of the guide 32, it is preferable that the mounting portion 31 on the front side of the rotation stop mechanism 3 1 3 is prevented from being in contact with the guide member 20 in order to prevent the container 20 from contacting the guide member. A state in which the width direction is inclined is given. Further, as shown in the HC map, the placing portion 31 preferably has a central portion in the width direction of the placing portion 31 (the central portion of the moving path of the container 20) located below the end portion in the width direction. Further, in the case where two rows of roller rows are provided in the width direction of the placing portion 31, it is preferable that the respective rollers are disposed obliquely to lower the vicinity of the central portion of the moving path. Fig. 12 (Fig. 12A to Fig. 12C) shows another form of the rotation stopping mechanism φ 313. Further, Fig. 13 shows the operation of the rotation stop mechanism 313 and the container 20. In the present embodiment shown in Fig. 12A, the rotation stopping mechanism 313 is disposed not on the movement path of the container 20 but on the side of the movement path. Fig. 12A shows a plan view of the display device 30, Fig. 12B shows a side view of the rotation stop mechanism 313, and Fig. 12C shows a case where the display device 30 is viewed from the front side. The rotation stop mechanism 313 shown in the figure has a projection 313e that does not protrude upward, but protrudes in the width direction of the rotation stop mechanism 313. In other words, -27-201026257, the projection 313e protrudes in a direction (cross direction) orthogonal to the moving direction of the container 20. That is, it protrudes from the side of the moving path of the container 20 onto the moving path. Further, the rotation stopping mechanism 3 1 3 is provided with a plurality of rod-like members 3 1 3 j : the rod-shaped members 313j project to the movement path of the container 20 and enter between the containers 20 to prevent the respective containers 20 from coming into contact with each other. The identification mark 23 and the protruding portion 213 of the container 20 used in the display device 30 are arranged in the circumferential direction of the container 20 so as to have a phase difference of 90° as indicated by reference numeral 17A in Fig. 13 . @ Operation of the rotation stopping mechanism 313 and the container 20 will be described with reference to Fig. 13 容器 The container 20 (reference numeral 17A) placed on the rear side of the display device 30 is moved forward while being guided by the guide 32. At this time, the container 20 receives the rotational force from the guide 32 and moves forward in the counterclockwise direction (see reference numeral 17B). Then, when the container 20 is further moved forward in the rotated state, the protruding portion 213 and the projection 313e are brought into an abutting state, and the rotation of the container 20 is stopped (reference numeral 17C). At the time of G, the container 2 is in a state in which the identification mark 23 faces forward. Then, when the container 20 passes the rotation stop mechanism 313, it moves further forward, and stops at a predetermined position (reference numeral 17D) with the identification mark 23 facing forward. Here, if the containers 20 are in contact with each other, the rotation of the container 20 may be blocked by the other containers 20, so that the identification mark 23 cannot face forward. In the present embodiment, since the rod-shaped members 313j are provided, the containers 20 can be prevented from coming into contact with each other. Further, the projection 313e and the rod-shaped member 313j which are moved to the front are moved to the lower side by the notch 3 1 5 formed in the portion 318 of the -28-201026257, and then moved to the rear side. Next, another embodiment of the display device 30 and the like will be described. Fig. 14 (Fig. 14A to Fig. 14C) shows another form of the display device 30 and the container 20. The first 4A diagram shows a plan view of the display device 30. Fig. 14B shows the state in which the display device 30 is viewed from the front side and the container 20. Further, Fig. 14C shows the operation of the container 20.容器 As shown in Fig. 14B, the container 20 of the present embodiment has a groove-like recess 221 (another example of the weir portion) formed along the circumferential direction of the container 20 at a portion of the side portion 22. Here, the phase difference between the concave portion 221 and the identification mark 23 is 90°. Forming a large recess 221 locally in this manner is difficult for a metal can. On the other hand, in the resinous container 20, since the degree of processing freedom is large, it is easier to form than the metal can. Further, the guide member 3 of the display device 30 is formed in a rod shape as shown in Figs. The operation of the container 20 will be described with reference to Fig. 14C. The container 20 placed on the rear side of the display device #30 is moved forward while being guided by the guide 32 in the same manner as described above. At this time, the container 20 is given a rotational force from the guide 32. When the container 20 is rotated, the guide 32 enters the concave portion 221 of the container 20 (see Fig. 14B, the concave portion 221 is opposed to the guide 32), and the rotation of the container 20 is stopped (reference numeral 22A). Next, the container 20 is moved (sliding) toward the front while being guided by the guide 32. Thereby, the container 20' which has reached the take-out portion of the display device 3 is in a state in which the identification mark 23 faces forward. Further, in the present embodiment, the guide 32 has a function as a rotating means and also has a function of a rotation stopping portion. Although not shown in the figure, a plurality of roller-shaped members (having a function of a moving means) may be provided in the placing unit 31, for example, -29-201026257. In addition, the moving means can also use a spherical roller. Further, the moving means can also use, for example, a plate-like member whose surface is smooth. Next, another embodiment of the display device 30 and the like will be described. Fig. 15 (Fig. 15A and Fig. 15B) shows another form of the display device 30 and the container 20. The same is true in the present embodiment. Since the blow molding can be performed and the processing freedom is large, the container 20 is preferably a resin container. In Fig. 15, a PET bottle is illustrated. As shown in Fig. 15A, the container 20 has a concave portion 221 along the circumferential direction of the container 20 on both the side portion 22 and the side portion 22 on the other side with the axis of the container 2A as a boundary. That is, the container 20 has a concave portion 221 at a position where the phase difference is 180°. The identification mark 23 of the container 2 of the present embodiment and the concave portion 22 1 have a phase difference of 90°. On the other hand, the display device 30 has two guides 32 on both sides of the movement path of the container 20. The guide members 32 are not linear in the front-rear direction, but are curved so that the moving path of the container 20 is narrower toward the front. Further, in the placing portion 31 of the present embodiment, the inclination is not given in the width direction, and the inclination is given only in the front-rear direction. In the present embodiment, when the container 20 is placed on the placing portion 31, the container 20 is moved forward on the placing portion 31, and is in contact with one of the two guide members 32 as shown in Fig. 15B. Next, the container 20 is guided forward by the guide 32 and is biased by the guide 32. Next, the guide 32 enters the recess 221 of the container 20 to stop the rotation of the container 20. Thereafter, the container 20 is further moved forward in a state of recognizing the direction of 201026257 § 2 2 3 . The method of providing the identification mark 23 to the container 20 can be provided by, for example, painting or printing when the container 2 is a can. Further, when the container 20 is a PET bottle or the like, the film provided with the identification mark 23 can be wound around the container 20, and then the film can be thermally contracted. In other words, the identification mark 23 can be provided by separately attaching a film or the like in addition to painting or the like. Here, as for the composition of the film which is subjected to heat shrinkage, a composition which is usually used as a heat Φ shrink film can be employed. For example, the composition described in JP-A-2006-34B68 can be used. Further, the method for producing the film which is heat-shrinkable is not particularly limited, and an existing production method can be employed. For example, the production method described in JP-A-2006-341568 can be employed. Further, the conditions for thermally shrinking the film can also be thermally contracted by a conventional condition such as steam treatment at 90 °C. Here, Fig. 16 (Figs. 16A and 16B) and Fig. 17 (Figs. 17A and 17B) show other forms in which the container 32 is given a rotational force by the guide 32. As shown in Fig. 16, the guide member 32 is not disposed at the side portion 22 of the container 20, but at a position where the cover 25 of the container 20 can be contacted. Further, Fig. 16A shows a case where the display device 30 is viewed from the front, and Fig. 16B shows a case where the display device 30 is viewed from above. On the peripheral surface of the cover 25, the unevenness for the slip prevention is usually given. Therefore, according to the present embodiment, the guide member 32 is brought into contact with the cover 25, and the container 20 can be more reliably imparted with a rotational force. Further, as shown in Fig. 7A, the two guide members 32 are arranged in parallel along the front-rear direction of the display device 30, and the resistance providing portion 323 for imparting sliding resistance to the container 20 is provided on the upper surface of one of the guide members 32. (Refer to Figure 17B). The resistance applying portion 323 can be formed, for example, by attaching a rubber member. On the other hand, as shown in Fig. 17A, the container 20 of the present embodiment is provided with an annular projecting portion 26 which projects annularly from the outer circumferential surface of the container 20 in the circumferential direction. Further, the container 20 is placed on the display device 30 in a state in which the annular projecting portion 26 is placed on the guide 32. In the present embodiment, when the container 20 is slid forward, the force (frictional force) acting on the container 20 is increased on the left side (the resistance providing portion 323 side). Therefore, the container 20 is rotated clockwise as shown in Fig. 17B. <Second Embodiment> Next, a second embodiment will be described. Fig. 18 (Fig. 18A and Fig. 18B) shows a schematic structure of a display device according to a second embodiment of the present invention. Similarly to the display device 30 of the first embodiment, the display device 30 of the present embodiment shown in FIG. 18A includes a mounting portion 31 on which the container 20 for filling the beverage© is placed, and the container 20 is formed. The guide path 32 for moving the path (transport path) and for guiding the movement of the container 20 is further provided with a restriction plate 34' which is transparent and disposed along one side of the mounting portion 31 for the container The movement of 20 stops. The guide 32 here is, for example, an opening (not shown) in which both end portions are inserted into the mounting portion 31, thereby being fixed to the placing portion 31. In addition, the container 20 is a cylindrical can, but a resin container such as a so-called PET bottle or a so-called bottle-shaped metal can having a lid can be used. As shown in FIG. 18B, the display device 30 of the present embodiment also receives the main structure of the showcase 10 in the interior of the showcase 1 that is installed in a convenience store, a supermarket, etc., from -32 to 201026257. Similarly to the first embodiment, the cabinet main body portion 10A having a rectangular parallelepiped shape is provided so as to be openable and closable with respect to the cabinet main body portion 1. The display device 30 here is placed on a shelf (not shown) provided on the showcase 10. At this time, the display device 30 is disposed such that the side on which the restricting plate 34 is disposed is located on the side of the door 10 of the cabinet door. Further, the side where the restricting plate 34 is disposed is located below the opposite side to the side where the 0 restricting plate 34 is disposed. In other words, the display device 30 is disposed so as to be inclined downward from the rear side of the showcase 1 toward the front side (the take-out side) of the take-out container 20. Also in the showcase 1 of the present embodiment, a cabinet door (not shown) is provided on the rear side, and the rear side can be opened. Further, the container 20 is loaded into the display device 30 from the rear side. That is, the input portion of the container 20 is provided on the rear side of the showcase 1 及 and on the rear side of the display device 30. Further, the loaded container 20 is moved toward the side of the cabinet door 10 on the placing portion 31. That is, it moves toward the purchaser side of the purchase container 20. Next, the display device 30 will be described in more detail. Fig. 19 (Fig. 19 - Fig. 19C) shows the form of the display device 30 and the container 20. The 19th drawing shows a plan view of the display device 30. The 19th view shows the state in which the display device 30 is viewed from the front side and the container 20. Further, the 19Cth diagram shows the operation of the container 20. Further, the '20' and C drawings are side views of the container 2 使用 used in the present embodiment. Fig. 20B shows a case where the container 20 shown in Fig. 20A is viewed from the bottom surface side -33 to 201026257, and Fig. 20D shows a case where the container 20 shown in Fig. 20C is viewed from the bottom surface side. Further, in Fig. 20, a container 20 is illustrated in Figs. 20A and 20B, and another container 20 is illustrated in Figs. 20C and 20D. The container 20 shown in Figs. 20A and B is provided at a portion of the side portion 22 of the container 20: a chamfer portion 225 formed by chamfering one portion of the bottom portion of the container 20. That is, a chamfered bevel is provided at the boundary between the side portion 22 and the bottom of the container 20. The corner portion 225 is provided at a portion that is 90 degrees out of phase with the identification mark 23 of the container 20 in the circumferential direction of the container 20. Further, the 20C and D drawings illustrate the case where the chamfering is performed at two places of the container 20. In the container 20 shown in the figure, an identification mark 23 is provided at two places in the table and the inside. That is, the identification mark 23 is provided at a portion where the circumferential direction of the container 20 is 180 degrees. Further, in the container 20 of the figure, the corner portions 225 and 226 are provided at positions which are 90 degrees out of phase with the identification mark 23. Further, it is difficult for the metal can to form the large chamfered portions 225 and 226 locally. On the other hand, in the resin container 20, since the degree of freedom in processing is large, it is easier to form than the metal can. Further, the guides 321 and 322 of the display unit 〇 30 are formed in a rod shape as shown in Figs. 19A and B. The guide 322 on the left side is disposed at a position corresponding to the central portion in the height direction of the side wall of the body 220 of the container 20 in order to prevent the escape. The guide member 321, on the right side is a rotating means (a torque is applied to the container 20 as described later to impart a rotational force) and functions as a rotation stopping portion. Therefore, it is disposed at a height close to the bottom of the container 20. The surface of the right guide 312 is a frictional resistance using a resin, rubber or the like. The operation of the container 20 will be described with reference to Fig. 9C. Placed on the display -34 - 201026257 The container 20 on the rear side of the apparatus 30 is moved forward while being guided by the guides 321 and 322 in the same manner as described above. At this time, since the placing portion 31 is inclined to the right, the container 20 approaches and contacts the guide 321 on the right side. As a result, the guide 321 imparts a rotational force to the container 20. When the container 2 is rotated, the guide 321 enters the chamfered portion 225 of the container 20 (the corner portion 225 is opposed to the guide 321) and stops the rotation of the container 2 (refer to reference numeral 220A). Next, the container 20 is moved (sliding) toward the front while being guided by the guide 321 . φ such that the container 20 that has reached the take-out portion of the display device 3 is in a state in which the identification mark 23 is directed forward. Further, in the present embodiment, the guide member 3 2 1 has the function of the rotation means □ also has the function of the rotation stop unit. Here, although the illustration is omitted in Fig. 19, a plurality of roller-shaped members (functions of moving means) can be provided in the placing portion 31, for example. In addition, a spherical roller can also be used for the moving means. Further, the moving means can also use a plate-like member whose surface is smooth, for example. Although the above description is directed to the case where the chamfered portion 225 is opposed to the guide 321 , when the container 20 shown in FIGS. 20C and D is used, the chamfered portion 226 and the φ guide 321 are opposed to each other to allow the container 20 to be placed. The situation where the rotation stops. Next, other aspects of the display device 30 and the like will be described. Fig. 22 shows another form of the display device 30 and the like. The container 20 used in this embodiment is the container 20 shown in Figs. 20A and B. A roller that can rotate freely is placed on the mounting portion 31 of the display device 30. As a moving means, three rows of first rollers 3 1 10 are laid on the input portion side of the container 20, and two rows are laid from the intermediate portion to the take-out portion side. The second roller 3140 of the column. In the figure, the resistance applying portion 3 1 2 is formed by, for example, a rubber member 3120d such as EPDM, and a shape of -35 - 201026257 is formed between a plurality of roller-shaped members 3120c arranged in the front-rear direction. In the figure, although the example in which the roller-shaped member 312〇c and the rubber member 31 2 0d are alternately arranged is illustrated, it is not necessarily required to be interactively provided. To further increase the resistance, the proportion of the rubber member 3120d can be increased. Further, in the case where the resistance is small, the resistance providing portion 31 is a simple resin plate. At the present display device 30, the movement of the container 20 is promoted by tilting downward in the direction of the take-out portion. Further, the mounting portion 31 of the display device 3 is lowered toward the guide 321 side. That is, in this embodiment, the mounting portion 31 is also inclined in the width direction. In this embodiment, the guides 321 and 322 are disposed at the same position as the portion shown in FIG. 19B; the resistance for imparting the rotation is formed by the roller-shaped member 3120c and the rubber member 3120d. The resistance providing unit 312 performs the process. Therefore, the right guide 321 ' does not need to have the function of the resistance providing portion, but only has the rotation stop function. The container 20 must be slid after the rotation is stopped. Therefore, it is preferable that the surface of the guide member 321 is not a rubber having a large frictional resistance, but a stainless steel or a low friction coefficient Teflon (registered trademark) tape which is excellent in slidability. As shown in Fig. 22, the container 20 is placed in a state in which the identification mark 23 of the container 20 faces the left guide 322 (reference numeral 221A), and is moved by the loading portion 31 when moving toward the take-out portion side. The inclination causes the container 20 to be in a state close to the side of the guide 321 . With this movement, the right side of the container 20 becomes moved on the resistance imparting portion 3 1 2, and since the movement on the right side is slower than the left side, the container 20 is rotated. When the identification mark 23 of the container 20 is in a state toward the take-out portion side (the traveling direction) (refer to reference numeral 22 1B), the chamfered portion 225 near the bottom of the container 20 is aligned with the guide 321 and rotated by the guide 321 Stop-36- 201026257. In this state, the container 20 is moved in the direction of the take-out portion, and is arranged in the take-out portion in a state where the identification mark 23 faces the front side. In the case where the mounting portion 31 is a flat plate made of resin or the like, the resistance providing portion 312 is a flat plate having a large frictional resistance (for example, rubber), and the normal portion on the left side. In the case of 3130, a general resin or a fluororesin having a small frictional resistance or the like is used, and the same effect of 0 can be obtained. Next, other aspects of the display device 30 and the like will be described. Fig. 21 (Fig. 21A and Fig. 21B) shows another form of the display device 30 and the container 20. The same is true in the present embodiment. Since the blow molding can be performed and the processing freedom is large, the container 20 is preferably a resin container. In Fig. 21, a PET bottle is illustrated. Here, the container 20 shown in Figs. 20C and D is used. The identification mark 23 of the φ device 20 of this embodiment and the chamfered portions 225, 226 have a phase difference of 90°. The display device 30 has two guides 32 on both sides of the movement path of the container 20. The guide members 32 are not linear in the front-rear direction, but are curved so that the movement path of the container 20 is narrower toward the front. The guide 32 is formed to a height close to the bottom of the container 20. Further, in the mounting portion 31 of the present embodiment, the inclination is not given in the width direction, and the inclination is given only in the front-rear direction. In the present embodiment, when the container 20 is placed on the placing portion 31, the container 20 moves forward on the placing portion 31, and comes into contact with one of the two guide members 32 as shown in Fig. 21B. Next, the container 20 is guided by the guide 32 to move forward -37-201026257 and is imparted with a rotational force by the guide 32. Next, the guide 32 enters the corner portions 225, 226 of the container 20 to stop the rotation of the container 20. Thereafter, the container 20 is further moved forward with the identification mark 23 facing forward. BRIEF DESCRIPTION OF THE DRAWINGS The first and second drawings show the schematic structure of the display device according to the first embodiment of the present invention. 2A and 2B are explanatory views of the mounting portion of the display device. _ 3A ~ Η diagram is the case where the container is viewed from the bottom side. Figure 4 shows the operation of the display device and the container. Fig. 5 is a side view showing another example of the rotation stopping mechanism. Figs. 6A to 6C are explanatory views of the operation of the rotation stopping mechanism shown in Fig. 5. Fig. 7 is an explanatory view showing other aspects of the resistance imparting portion. Fig. 8 is an explanatory view showing another aspect of the resistance imparting portion.

Fig. 9 is an explanatory view of another aspect of the resistance imparting portion. G Fig. 10 is an explanatory diagram of another aspect of the resistance providing unit. The 1st 1st to 1st drawings show another form of the display device. Figures 12A-C show other aspects of the rotation stop mechanism. Figure 13 shows the operation of the rotation stop mechanism and the container. Figures 14A-C show another form of display device and container. The first 15A and B drawings show another form of the display device and the container. Fig. 16A and Fig. B show other forms when a steering force is applied to the container by the guide member - 38 - 201026257 The first embodiment shows the other forms when the steering member applies a rotational force to the container. Figs. 18A and 2B show the schematic structure of the display device according to the second embodiment of the present invention. Figures 19A-C show the form of the display device and container. The 20th to 〇 diagram shows the shape of the container. 21A and B show another embodiment of the display device and the container. Fig. 22 shows another form of the display device and the like. [Description of main component symbols] 20 : Container 23 : Identification mark 30 : Display device 3 1: Mounting portions 32, 321 , 322 : Guide 2 12a : First recess 2 12b : Second recess 22 1 : : Concave portion 225 , ' 226: chamfered portion 3 11: first roller portion 312 : resistance imparting portion 3 1 3e : projection - 39 -

Claims (1)

201026257 VII. Patent application scope: 1. A container characterized by comprising: a container body portion to which a mark is attached at a specific portion, and a rotation means for assisting display on a display device (for displaying the container body portion) to induce the container a rotation inducing portion that rotates the main body portion, and a facing portion that faces the rotation stopping portion (stopping rotation of the container body portion during rotation); and the facing portion is a position Q that faces the predetermined direction at the specific portion The manner in which the rotation of the container body portion is stopped is opposed to the rotation stopping portion. 2. A container according to the invention, comprising: a container body portion to which a mark is attached at a specific portion; and a rotation of the container body portion that is provided in the display device (for displaying the container body portion) to rotate the container body portion The rotation stop portion is opposed to the weir portion of the weir; the weir portion is provided on a side surface of the container body portion, and is configured such that the rotation of the container body portion is stopped at a position in the predetermined direction at the specific portion and the rotation stop The department is relatively embarrassing. 3. A display system, comprising: a container and a display device for displaying the container; wherein the display device comprises: a moving means for moving the container in a single direction, and the aforementioned a rotating means for rotating the container in the one direction, and a rotation stopping portion for stopping the rotation of the container rotated by the rotating means by -40 to 201026257; the container is provided with: a mark attached to a specific portion a container main portion, a rotation inducing portion that is provided in the rotation means of the display device to induce rotation of the container main portion, and a facing portion that faces the rotation stopping portion; @the facing portion is at the specific portion The position toward the predetermined direction causes the rotation of the container body portion to stop, and the rotation stop portion faces the rotation stop portion. A display system comprising: a container and a display device for displaying the container; wherein the display device has a moving means for moving the container in a single direction, and the container is formed by the moving means a rotation means for rotating the container in the unidirectional direction, and a rotation stop portion for stopping the rotation of the container rotated by the rotation means; the container having: a container body portion having a mark attached to a specific portion, And a facing portion that is opposite to the rotation stopping portion; the facing portion is provided on a side surface of the container body portion, and the rotation of the container body portion is stopped at a position in the predetermined direction toward the predetermined portion, and the rotation is stopped The department is relatively embarrassing. -41 - 201026257 The syllabus of the syllabus of the syllabus of the syllabus of the syllabus of the syllabus of the syllabus of the syllabus of the syllabus The movement of the previous paragraph and the movement of the paragraph to the side of the recital r is described in the previous paragraph of the hand of the device - IEI ·, / Γ 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋 旋The system is the c load of the Miyazumi Mbe 0. The force of the shift is 4, and the fourth is made by Fan. The number of the hand is the same as the one. The device should be blocked by force. > 勖 勖 303 : 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目 目From the case of Shen, if you say that you don’t form the right and left, and the boundary is the heart of the tlmll, you can force the front of the series, the Imz ZJ. 6 容 述 述 前 前 前 前 前 前 前 专有 专有 专有 专有 专有 专有 专有 专有 专有 专有 专有 专有 专有 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 The load-bearing load is said to be the front end of the production force. The pre-loading is carried out, and the frictional force of the surface of the fascia is such that the friction coefficient of one of the plurality of bottom surfaces is different from the friction coefficient of the other bottom surface. And the difference is formed on the left and right with the center of gravity of the aforementioned container as a boundary. 10. The display system according to claim 3, wherein -42-201026257, the moving means has a placing portion on which the container is placed; and the rotation stopping portion is larger than the placing portion and the container a contact portion of the end portion that is in contact with the mounting portion is a convex portion that protrudes toward the container side; and the facing portion of the container is provided at a portion of the container that faces the mounting portion, and A concave portion or a convex portion that is positioned between the convex portion (as the rotation stopping portion). The display system according to claim 10, wherein Φ is a convex portion of the rotation stopping portion, and the plurality of containers placed on the placing portion are not in contact with each other. A plurality of intervals are arranged along the aforementioned single direction. A display system having: a container for marking a specific portion on the outside and a display device for displaying the container; wherein the display device is provided with: a moving means for moving the container in a single direction And a rotation means for rotating the container in response to the movement of the container in the one-way direction, and a rotation stopping portion for stopping the rotation of the container rotated by the rotation means; The rotation is stopped at a position in which the specific portion is oriented in a predetermined direction, and a facing portion having a deangulated shape with respect to the rotation stopping portion is provided on the bottom side. The display system according to claim 12, wherein the moving means has a mounting portion on which the container is placed; -43-201026257, wherein the rotating means is the mounting portion along with the moving means The display system described in claim 12, wherein the rotating means is caused by the movement of the aforementioned container in the unidirectional direction. The resistance to move the container in the unidirectional direction is different depending on the location of the container to impart a rotational force to the container. The display system according to claim 14, wherein the one direction is a direction from the rear of the display system toward the front, and the resistance is formed on the left and right by the center of gravity of the container; . The display system according to claim 14 or claim 5, wherein the moving means has a placing portion on which the container is placed, and the resistance is in the loading portion and the container The friction generated between the ends of the contact. The display system according to claim 16, wherein the mounting portion has a plurality of plate-shaped bottom surfaces extending in the front-rear direction to form a mounting surface; and the frictional force is caused by the plurality of bottom surfaces The friction coefficient of one bottom surface is different from the friction coefficient of the other bottom surface, and the left and right sides are formed differently by the center of gravity of the container. A display device for displaying a container for marking a specific portion on the outside, characterized in that: - 44 - 201026257 a moving means for moving the container in a single direction, along with the foregoing a rotating means for rotating the container in the one direction by the movement means, and a rotation stopping means for stopping the rotation of the container rotated by the rotating means; the rotation stopping portion is a contact degaussing The opposite portion of the shape (provided at the boundary between the side portion and the bottom portion of the container and opposed to the rotation stopping portion) stops the rotation of the container at a position in which the specific portion of the container faces a predetermined direction. -45-