WO2014112348A1 - Bottle rack - Google Patents

Abstract

This bottle rack comprises: a pair of frame bodies which are configured with two support columns having a prescribed gap therebetween, wherein each support column of each frame body is pivotably supported about an axis, being brought into mutual proximity at prescribed sites on one end side thereof; anchoring members which anchor such that the support columns which configure each frame body mutually intersect at prescribed angles, and one end and the other end of each of the support columns which configures one frame body are mutually separated by prescribed distances; and protrusion parts in the other end sides of each support column which configures each frame body which protrudes toward another support column which configures the same frame body. By anchoring each frame body with the anchoring members and positioning the other ends of each support column on a floor surface, the bottle rack is configured such that each protrusion part is located a prescribed distance upward from the floor surface, and a prescribed bottle may be loaded upon each protrusion part.

Description

Bottle rack

The present invention relates to a bottle rack, and more particularly to a bottle rack for storing bottles containing drinking water installed in a water server.

In recent years, so-called water servers, which are water feeders that supply drinking water such as cold water and hot water (hot water) from bottles containing drinking water, have become widespread. The water server is usually configured to install a bottle containing drinking water in the upper part, and the drinking water supplied from the bottle in the middle or lower stage, that is, below the bottle installed in the upper part. A pouring spout for cold water and a pouring spout for hot water are provided. And it is comprised so that drinking water may be poured from each spout, and when drinking water in a bottle runs out, it will use continuously by installing a new bottle containing drinking water in the upper part of the water server. be able to.

JP 2008-184223 A

Here, since drinking water is used every day, it is necessary to store a plurality of bottles in preparation for the absence of drinking water in the bottle. However, a general bottle has a cylindrical shape, and has a shape in which a spout protrudes from the center of the end face, so that it is difficult to stack and store it as it is.

Here, there is a technique disclosed in Patent Document 1 as a technique related to stacking and storing bottles. The bottle disclosed in this document has a water supply port and a concave portion on the bottom surface, and a convex portion that is inserted into the concave portion of another bottle on the top surface. This makes it possible to stack bottles.

However, in the technique disclosed in Patent Document 1, it is necessary to form all the bottles in the special shape described above, which causes a problem of low versatility and high cost. On the other hand, as described above, it is a cylindrical shape, and when the bottles having a general shape with the spout protruding from the center of the end face are stacked and stored using the space in the height direction efficiently, A special storage furniture having a shelf in consideration of the height of the bottle is required, resulting in a problem that the cost is high. Further, when the bottle is not stored, the storage furniture becomes an obstacle, and there arises a problem that it is difficult to effectively use the storage place.

For this reason, an object of the present invention is to provide a bottle rack that can solve the above-described problems that the cost is high and that the place where the bottles are stored cannot be effectively used. It is in.

The bottle rack which is one form of the present invention is
A pair of frames each having a predetermined length and two struts having a predetermined interval are provided,
The respective struts of one of the frames and the struts of the other frame are pivotally supported in a mutually rotatable manner in a state where they are close to each other at a predetermined position on one end side of the respective struts,
The columns constituting the one frame and the columns constituting the other frame intersect with each other at a predetermined angle, and the other ends of the columns are mutually connected. It has a fixing member that fixes it in a state separated by a predetermined distance,
Projecting toward the other struts constituting the same frame at a predetermined position on the other end side of the respective struts constituting the respective frame bodies by a predetermined distance away from the other ends of the respective struts. A protrusion to
Each frame is fixed by the fixing member, and the other end of each column constituting the frame is arranged on the floor surface, so that the protrusions are positioned above the floor surface by a predetermined distance. And configured so that a predetermined bottle can be placed on each protrusion.
The configuration is as follows.

And the bottle rack of this invention is
Each of the frames includes a connecting portion that connects the other ends of the two struts constituting the frame,
The fixing member is configured to fix the connecting portions constituting the frame bodies with a predetermined distance therebetween.

The bottle rack of the present invention is
Each of the protrusions provided in each frame body is configured by connecting the two struts constituting each frame body.

Since the bottle rack of the present invention is configured as described above, the pair of frames are fixed by the fixing member, so that the bottle is placed and stored on each protrusion formed on each frame. can do. Further, when the bottle is not stored, the rack itself can be folded because the pair of frames are configured to be rotatable by releasing the fixing by the fixing member. In this way, it is possible to provide a bottle rack capable of effectively using a place for storing bottles at a low cost with a simple configuration.

The bottle rack of the present invention is
The pair of frames arranged on the floor form a lower frame unit of the bottle rack, and an upper frame unit arranged on the upper stage of the lower frame unit,
The upper frame unit includes a pair of upper frame bodies in which two columns are configured with a predetermined interval, and each column of one upper frame body and each column of the other upper frame body And pivotally supported in a mutually rotatable manner in a state where they are close to each other at a predetermined location on one end side of each of the columns,
The upper frame is in a state where a predetermined portion on the other end side of each column constituting each upper frame is close to each end of each column constituting each frame of the lower frame unit. Each support column constituting each upper frame of the body unit and each support column constituting each frame of the lower frame unit are pivotally supported so as to be rotatable with respect to each other;
On the other end of each column that constitutes each upper frame of the upper frame unit, an upper projection that can place a bottle that projects toward the other column that constitutes the same upper frame. Prepared,
The configuration is as follows.

The bottle rack of the present invention is
The upper protrusions provided in each of the upper frame bodies constituting the upper frame body unit are configured by connecting between the two struts respectively constituting the upper frame bodies.

The bottle rack of the present invention is
On the upper stage of the upper frame unit, one or more other upper frame units are arranged and provided,
Each upper frame body of another upper frame body unit located on the lower stage side is configured at a predetermined position on each other end side of each column constituting each upper frame body of the other upper frame body unit. The upper columns of each of the upper columns of the other upper frame unit and the upper frames of the other upper frame unit of the other upper frame unit are configured close to one end of each of the columns. The supporting columns are pivotally connected so that they can rotate with each other,
Other bottles protruding toward the other struts constituting the same upper frame body can be placed on the other ends of the respective struts constituting the upper frame bodies of the other upper frame body units. With an upper protrusion,
The configuration is as follows.

The bottle rack of the present invention is
The other upper stage protrusions provided in each of the upper stage frame bodies constituting one or a plurality of the other upper stage frame body units connect the two struts constituting the upper stage frame bodies respectively. Configured.

The bottle rack of the present invention is configured as described above, and by fixing the frame of the lower frame unit with the fixing member, the bottles are mounted in multiple stages such as the lower stage, the upper stage, and the upper stage. Can be stored. When the bottle is not stored, the rack itself can be folded by releasing the fixation by the fixing member. In this way, it is possible to provide a bottle rack capable of effectively using a place for storing bottles at a low cost with a simple configuration.

The bottle rack of the present invention is
A pair of frames each having a predetermined length and two struts having a predetermined interval are provided,
The respective struts of one of the frame bodies and the respective struts of the other frame body are pivotally supported in a mutually rotatable manner in a state of being close to each other at a predetermined position of the respective struts,
The struts constituting the one frame body and the struts constituting the other frame body are in a state of crossing each other with a predetermined angle, and constituting the one frame body A fixing member is provided that fixes each of the columns and the other column constituting the other frame at a predetermined distance from one end and the other of the columns.
Projecting toward the other struts constituting the same frame at a predetermined position on the other end side of the respective struts constituting the respective frame bodies by a predetermined distance away from the other ends of the respective struts. A protrusion to
Each frame is fixed by the fixing member, and the other end of each column constituting the frame is arranged on the floor surface, so that the protrusions are positioned above the floor surface by a predetermined distance. And configured so that a predetermined bottle can be placed on each protrusion.
The configuration is as follows.

In the bottle rack,
Each of the protrusions included in each of the frames is configured by connecting the two struts constituting the same frame.
The configuration is as follows.

In the bottle rack,
At one end of each column that constitutes each frame body, provided with one end side projecting portion capable of placing a bottle that projects toward the other column that constitutes the same frame body,
The configuration is as follows.

In the bottle rack,
The one end side protruding portion provided in each of the frames is configured by connecting between the two struts constituting the same frame.
The configuration is as follows.

In the bottle rack,
The pair of frames arranged on the floor form a lower frame unit of the bottle rack, and an upper frame unit arranged on the upper stage of the lower frame unit,
The upper frame unit includes a pair of upper frame bodies in which two columns are configured with a predetermined interval, and each column of one upper frame body and each column of the other upper frame body And pivotally supported in a state where they are close to each other at predetermined positions of the respective support columns,
When the respective columns of the one frame constituting the lower frame unit and the columns of the other frame intersect each other with a predetermined angle, the upper frame Each upper frame so that each column of the one upper frame constituting the body unit and each column of the other upper frame intersect each other at a predetermined angle. Each upper frame of the upper frame unit is configured in a state in which the other end of each column is configured close to one end of each column constituting the frame of the lower frame unit. The respective struts to be connected to the respective struts constituting the respective frame bodies of the lower frame unit so as to be pivotable with respect to each other,
At one end of each column that constitutes each upper frame of the upper frame unit, an upper projection that can place a bottle that projects toward the other column that constitutes the same upper frame is provided. The
The configuration is as follows.

In the bottle rack,
Each of the upper protrusions provided in each of the upper frame bodies is configured by connecting the two struts constituting the same upper frame body,
The configuration is as follows.

In the bottle rack,
Each of the upper protrusions configured by connecting the two struts provided in each of the upper frame bodies is formed at a position where the height from the floor surface is different from each other.
The configuration is as follows.

In the bottle rack,
Among the upper protrusions, one upper protrusion formed at a position where the height from the floor is higher than the other is formed such that the height of the portion near the center is lower than the other portions. Being
The configuration is as follows.

According to the bottle rack having the above configuration, by fixing the frame of the lower frame unit with the fixing member, the bottles can be placed and stored in multiple stages such as the lower and upper stages. In particular, in a two-stage configuration of frame units such as a lower stage and an upper stage, bottles can be placed in the vicinity of the lower end of the lower stage, the upper end thereof, and the upper stage of the upper stage. Therefore, it is possible to provide a bottle rack capable of effectively using a place for storing bottles at a low cost with a simple configuration.

The present invention can be manufactured at a low cost with a simple configuration by adopting the above-described configuration, and can effectively use a place for storing the bottle.

It is a figure which shows the structure of the rack main body which comprises the bottle rack in the 1st Embodiment of this invention, and is a figure which shows a state when the said rack main body is folded. It is a figure which shows each structure of the rack main body disclosed in FIG. It is a figure which shows the structure of the stopper which comprises the bottle rack in the 1st Embodiment of this invention. It is a figure which shows a mode when the bottle rack in the 1st Embodiment of this invention is assembled. It is a figure which shows a mode when the bottle rack in the 1st Embodiment of this invention is assembled. It is a figure which shows a mode when a bottle is accommodated in the bottle rack in the 1st Embodiment of this invention. It is a figure which shows the modification of the bottle rack in the 1st Embodiment of this invention. It is a figure which shows a mode when the structure of the bottle rack in the 2nd Embodiment of this invention and a bottle are accommodated. It is a figure which shows a mode when the structure of the bottle rack in the 2nd Embodiment of this invention and a bottle are accommodated, and is the figure which looked at the bottle rack shown in FIG. 8 from the right side. It is a figure which shows the structure of the bottle rack in the 2nd Embodiment of this invention, and is the figure which looked at the bottle rack shown in FIG. 8 from upper direction.

<Embodiment 1>
A first embodiment of the present invention will be described with reference to FIGS. 1 to 3 are diagrams showing a configuration of a bottle rack. 4 to 5 are views showing a state when the bottle rack is assembled. FIG. 6 is a diagram showing a state when the bottles are stored in the assembled bottle rack. FIG. 7 is a view showing a modified example of the bottle rack.

The bottle rack of the present invention includes a rack body 10 shown in FIG. 1 and a stopper 80 shown in FIG. As will be described later, each frame body 20 and the like constituting the rack body 10 is formed by a pipe member having a circular cross section, but may be formed by a member having another shape such as a square member or a plate member. Good.

First, the configuration of the rack body 10 will be described in detail with reference to FIGS. As shown in FIG. 1, the rack body 10 includes a plurality of substantially U-shaped or substantially U-shaped frame bodies 20, 30, 40, 50, 60, and 70 connected to each other so as to be foldable. It is configured. Specifically, the rack body 10 includes a pair of frames such as a lower first frame body 20 and a lower second frame body 30 shown in FIG. 2C as a lower frame unit constituting the lower stage. In addition, the rack body 10 includes a middle first frame 40 and a middle second frame 50 shown in FIG. 2B as middle frame units (upper frame units) constituting a middle (upper with respect to the lower). A pair of frames. Further, the rack body 10 is a pair of frames such as an upper first frame 60 and an upper second frame 70 shown in FIG. 2A as upper frame units (other upper frame units) constituting the uppermost stage. Prepare the body.

In the lower first frame body 20 constituting the lower frame unit described above, two columns 21 and 22 having a predetermined length are positioned in parallel with a predetermined interval, and each of the two columns The other ends (the left end in FIG. 2C) of the columns 21 and 22 are connected to each other by a lower connecting portion 23 (connecting portion). The lower connecting portion 23 is formed in a straight line and is formed at right angles to the longitudinal direction of the two support columns 21 and 22. The two support columns 21 and 22 are not limited to being positioned in parallel to each other, and are not limited to being formed in a straight line.

In addition, a bottle mounted extending on the other end side of the two columns 21 and 22 constituting the lower first frame 20 so as to connect portions separated by a predetermined distance from the other ends of the columns 21 and 22. A placement part 24 (protrusion part) is provided. The bottle mounting portion 24 is formed in a straight line and extends in parallel with the lower connecting portion 23. That is, the bottle mounting part 24 is formed at right angles to the longitudinal direction of the two support columns 21 and 22 to be connected.

In addition, the said bottle mounting part 24 is not necessarily limited to being formed in linear form. As will be described later, in order to stably support the placed bottle B, the bottle B may be formed in a convex shape toward the lower connecting portion 23, that is, inwardly curved in a concave shape. Further, the bottle mounting portion 24 is not necessarily limited to being formed by connecting the two support columns 21 and 22. For example, the bottle mounting portion 24 is a member that protrudes from one strut 21 constituting the lower first frame body 20 toward the other strut 22 and / or from the other strut 21 toward the one strut 22. And a member that protrudes. Further, the connecting portion 23 is not necessarily limited to being formed in a linear shape, and is not necessarily limited to being formed by connecting the two support columns 21 and 22.

The lower second frame 30 that forms a pair with the lower first frame 20 and constitutes the lower frame unit has substantially the same configuration as the lower first frame 20. That is, the lower second frame 30 is configured by connecting the two columns 31 and 32 at the other end (the right end in FIG. 2C) at the connecting portion 33. Further, the lower second frame 30 is parallel to the connecting portion 33 at a predetermined position on the other end side of each of the columns 31 and 32, that is, at a position away from the other end of the columns 31 and 32 by a predetermined distance. An extended bottle mounting portion 34 is provided. However, the distance between the columns 31 and 32 constituting the lower second frame 30 is formed shorter than the distance between the columns 21 and 22 constituting the lower first frame 20. As a result, as shown in FIG. 2C, the support columns 31 and 32 constituting the lower second frame body 30 are positioned and placed inside the support columns 21 and 22 constituting the lower first frame body 20. Will be. In addition, the bottle mounting part 34 may be provided with two or more. For example, it is possible to prevent the bottle from falling by providing a plurality of projecting portions serving as the bottle mounting portion 34 between the two support columns 31 and 32 at a predetermined interval.

The lower first frame body 20 and the lower second frame body 30 described above are coupled so as to be rotatable relative to each other. Specifically, as shown in FIG. 2 (C) and FIG. 1 (B), the corresponding struts, that is, the struts indicated by reference numeral 21 of the lower first frame body 20 and the lower second frame body 30. The support column indicated by reference numeral 31, the support column indicated by reference numeral 22 of the lower first frame body 20, and the support column indicated by reference numeral 32 of the lower second frame body 30 are pivotally supported in a state of being close to each other. At this time, one end side from the center in the longitudinal direction of each column 21, 22, 31, 32 (the lower first frame body 20 on the right side in FIG. 2C, the lower second frame body 30 on the left side in FIG. 2C) ) And are connected to each other at a predetermined position. Thereby, each support | pillar 21,22,31,32 is the state which is located in the substantially same plane as shown in FIG.2 (C), and the pivot support location as shown in FIG. And can be rotated so that they intersect each other at a predetermined angle. And in the state where each support | pillar 21,22,31,32 cross | intersected and rotated, as shown in FIG. 4, the state where the one end and the other end of each said support | pillar 21,22,31,32 were separated by predetermined distance As will be described later, the assembled state is obtained. Note that the lower first frame body 20 and the lower second frame body 30 do not have to be configured to be positioned on the outer side and the inner side, and the respective frame bodies 20 and 30 that are equidistant between the columns. You may comprise a lower frame unit using.

Next, the above-described middle frame unit will be described. As shown in FIG. 2 (B), the middle first frame 40 constituting the middle frame unit has two support columns 41, 42 having a predetermined length and positioned in parallel at a predetermined interval. Each other end (the left end portion in FIG. 2B) of each of the two support columns 41 and 42 is connected to each other by a middle connecting portion 43 (upper protruding portion). The middle connecting portion 43 is formed in a straight line and is perpendicular to the longitudinal direction of the two columns 41 and 42. The two support columns 41 and 42 are not limited to being positioned parallel to each other, and are not limited to being formed in a straight line.

In addition, each support | pillar 41 and 42 which comprises the middle stage 1st frame 40 is formed shorter than the support | pillars 21 and 22 which comprise the lower 1st frame 20 in length. And the other end side does not have the bottle mounting part 24, and only the intermediate | middle stage connection part 43 is formed. In addition, a bottle is placed on the middle connecting portion 43 as described later. For this reason, the middle connecting portion 43 is not necessarily formed in a straight line shape, and is formed with a convex shape toward the outside, that is, a curved shape inside, so as to stabilize the placement state of the bottle B. It may be. Moreover, the middle stage connection part 43 is not necessarily limited to being connected.

Also, the middle second frame 50 that forms a pair with the middle first frame 40 and constitutes the middle frame unit has almost the same configuration as the middle first frame 40. That is, the middle second frame 50 is configured by connecting the two support columns 51 and 52 at the other end (the right end in FIG. 2B) by the middle connecting portion 53 (upper protruding portion). ing. However, the distance between the columns 51 and 52 constituting the middle second frame 50 is formed shorter than the distance between the columns 41 and 42 constituting the middle first frame 40. As a result, as shown in FIG. 2B, the support columns 51 and 52 constituting the middle second frame body 50 are disposed inside the support columns 41 and 42 constituting the middle first frame body 40. Will be. In addition, the middle stage connection part 53 may be provided with two or more. For example, it is possible to prevent the bottle from falling by providing a plurality of projecting portions serving as the middle connecting portion 53 between the two support columns 51 and 52 at a predetermined interval.

The middle first frame 40 and the middle second frame 50 described above are coupled so as to be rotatable relative to each other. Specifically, as shown in FIG. 2 (B) and FIG. 1 (B), the corresponding struts corresponding to each other, that is, the struts indicated by reference numeral 41 of the middle first frame body 40 and the middle second frame body 50 are shown. The support column shown by reference numeral 51, the support column shown by reference numeral 42 of the middle first frame body 40, and the support column shown by reference numeral 52 of the middle second frame body 50 are each pivotally supported in a state of being close to each other. At this time, one end side from the center in the longitudinal direction of each of the columns 41, 42, 51, 52 (in the middle first frame 40, the right side of FIG. 2B, in the middle second frame 50, the left side of FIG. 2B). ) And are connected to each other at a predetermined position. Thereby, each support | pillar 41,42,51,52 is the state which is located in the substantially same plane as shown in FIG.2 (B), and the pivot support location as shown in FIG. And can be rotated so that they intersect each other at a predetermined angle. And in the state where each support | pillar 41,42,51,52 crossed and rotated, as shown in FIG. 4, the state where the one end and the other end of each said support | pillar 41,42,51,52 were separated by predetermined distance As will be described later, the assembled state is obtained. The middle first frame 40 and the middle second frame 50 do not have to be configured to be positioned on the outer side and the inner side, respectively. It may be used to form a middle frame unit.

The lower frame unit and the middle frame unit described above are connected to each other. Specifically, as shown in FIG. 1A and FIG. 4, the middle stage first frame 20 is connected to one end of each of the columns 21, 22, 31, and 32 constituting the lower stage first frame body 20 and the lower stage second frame body 30. Each support | pillar 51,52,41,42 which each comprises the two-frame body 50 and the middle stage 1st frame body 40 is connected so that it can rotate mutually. At this time, the connecting portion of the middle first frame 40 and the middle second frame 50 is located near the other end of the frames 40, 50, specifically, a predetermined distance away from each middle connecting portion 43, 53. It will be a place. As a result, as shown in FIG. 4, when the lower first frame body 20 and the lower second frame body 30 constituting the lower frame body unit are rotated to be in an assembled state where the respective pillars intersect, Since one end side of 22, 31, 32 is separated by a predetermined distance, each of the middle second frame 50 and the middle first frame 40 connected to each of the columns 21, 22, 31, 32 is provided. The support columns 51, 52, 41, and 42 are also rotated and intersected, and one end and the other end of each of the support columns 51, 52, 41, and 42 are also in an assembled state separated by a predetermined distance.

Next, the above-described upper frame unit will be described. As shown in FIG. 2 (A), the upper first frame 60 constituting the upper frame unit has two struts 61 and 62 having a predetermined length positioned in parallel with a predetermined interval. Each other end (the left end in FIG. 2A) of each of the two columns 61 and 62 is connected to each other by an upper connecting portion 63 (another upper protruding portion). Yes. The upper connecting portion 63 is formed in a straight line, and is formed at right angles to the longitudinal direction of the two support columns 61 and 62. The two struts 61 and 62 are not limited to being positioned parallel to each other, and are not limited to being formed in a straight line.

In addition, each support | pillar 61 and 62 which comprises the upper stage 1st frame 60 is shorter than the support | pillars 21 and 22 which comprise the lower 1st frame 20, and further comprises the middle 1st frame 40. It is shorter than the columns 41 and 42. And the other end side does not have the bottle mounting part 24, and only the upper stage connection part 63 is formed. Note that a bottle is placed on the upper connecting portion 63 as described later. For this reason, the upper connection part 63 is not necessarily limited to being formed in a straight line shape, and is curved so as to be convex toward the outside, that is, the inside is concave, so that the placement state of the bottle B is stable. It may be formed. Moreover, the middle stage connection part 63 is not necessarily limited to being connected.

Further, the upper second frame 70 which forms a pair with the upper first frame 60 and constitutes the upper frame unit has substantially the same configuration as the upper first frame 60. That is, in the upper second frame body 70, two struts 71 and 72 are connected at the other end (the right end portion in FIG. 2A) by the upper connection portion 73 (the other upper protrusion portion). It is configured. However, the distance between the columns 71 and 72 constituting the upper second frame body 70 is formed shorter than the distance between the columns 61 and 62 constituting the upper first frame body 60. As a result, as shown in FIG. 2A, the support columns 71 and 72 constituting the upper second frame body 70 are disposed inside the support columns 61 and 62 constituting the upper first frame body 60. Will be. In addition, the upper stage connection part 73 may be provided with two or more. For example, it is possible to prevent the bottle from falling by providing a plurality of projecting portions serving as the upper connecting portion 73 between the two support columns 71 and 72 at a predetermined interval.

The upper first frame body 60 and the upper second frame body 70 described above are coupled so as to be rotatable relative to each other. Specifically, as shown in FIGS. 2 (A) and 1 (B), each of the struts corresponding to each other, that is, the strut shown by reference numeral 61 of the upper first frame body 60 and the upper second frame body 70. The support column indicated by reference numeral 71, the support column indicated by reference numeral 62 of the upper first frame body 60, and the support column indicated by reference numeral 72 of the upper second frame body 70 are each pivotally supported in a state of being close to each other. At this time, at one end of each support 61, 62, 71, 72 (on the upper first frame 60 on the right side of FIG. 2A, on the upper second frame 70 on the left side of FIG. 2A) It is supported and connected. Thereby, each support | pillar 61,62,71,72 is the state which is located in the substantially same plane as shown in FIG. 2 (A), and the pivot support location as shown in FIG. And can be rotated so that they intersect each other at a predetermined angle. And in the state which each support | pillar 61, 62, 71, 72 crossed and rotated, as shown in FIG. 4, the other end of each said support | pillar 61, 62, 71, 72 is the assembly state which left | separated only predetermined distance, Become. Note that the upper first frame body 60 and the upper second frame body 70 do not have to be configured to be positioned on the outer side and the inner side, respectively. The upper frame unit may be configured by using.

The middle frame unit and the upper frame unit described above are configured to be connected to each other. Specifically, as shown in FIG. 1A and FIG. 4, the upper stage first frame body 40 and the middle stage second frame body 50 are respectively connected to one end of each column 41, 42, 51, 52. Each support | pillar 71,72,61,62 which each comprises the 2 frame 70 and the upper stage 1st frame 60 is connected so that it can rotate mutually. At this time, the connection position of the upper first frame body 60 and the upper second frame body 70 is in the vicinity of the other end of the frame bodies 60, 70, that is, a position away from each upper connection section 63, 73 by a predetermined distance Become. As a result, as shown in FIG. 4, when the lower first frame body 20 and the lower second frame body 30 constituting the lower frame body unit are rotated into an assembled state, the support columns 41, 42, 51, 52 are Since the one end side is separated by a predetermined distance, the columns 71, 72, 61 of the upper second frame 70 and the upper first frame 60 connected to the columns 41, 42, 51, 52, respectively. , 62 rotate and intersect each other, and the other ends of the respective struts 71, 72, 61, 62 are in an assembled state separated by a predetermined distance.

Subsequently, the configuration of the stopper 80 (fixing member) will be described with reference to FIG. 3A is a top view of the stopper 80, FIG. 3B is a side view, and FIG. 3C is a bottom view. The stopper 80 is composed of a flat plate member whose main body 81 has a predetermined width and length. At both ends in the longitudinal direction of the stopper main body 81, there are engaging portions 82 and 83 formed by folding both end portions of the stopper main body 81 into a substantially U shape. The engaging portions 82 and 83 are formed so that the connecting portions 23 and 33 formed in the lower first frame body 20 and the lower second frame body 30 described above can be inserted into the folded portion. .

Next, the state when the bottle rack having the above-described configuration is assembled will be described with reference to FIGS. First, when the bottle rack is not used, as shown in FIG. 1, each frame 20, 30, 40, 50, 60, 70 constituting the rack body 10 is folded, that is, each frame unit is It should be located on a plane. Thereby, the magnitude | size of bottle rack itself can be made small, and the said rack itself can be accommodated easily.

When using the bottle rack, first, the upper first frame body 60 and the upper second frame body 70 located at the upper stage of the rack body 10 in the state of FIG. 1 are pulled upward. Then, as shown in FIG. 4, the columns are in an intersecting state, and the connecting portions 23, 33 and the like provided in the frame units are in an assembled state in which they are positioned at a predetermined interval.

Specifically, first, in the lower frame unit, when the columns constituting the lower first frame 20 and the lower second frame 30 cross and rotate, the columns 21, 22, The other end of 31, 32, that is, between the connecting portions 23, 33 is opened with a predetermined interval. At this time, as shown in FIG. 4, by inserting the connecting portions 23 and 33 into the engaging portions 82 and 83 formed at both ends of the stopper 80, the positions of the connecting portions 23 and 33 are determined. Can be fixed. In this state, the connecting portions 23 and 33 between the lower first frame body 20 and the lower second frame body 30 are arranged on the floor surface. Then, the bottle mounting parts 24 and 34 that connect the respective struts constituting the lower first frame body 20 and the lower second frame body 30 are positioned above the floor surface by a predetermined distance.

As described above, the lower first frame body 20 and the lower second frame body 30 are in a state where the positions of the connecting portions 23 and 33 between the lower first frame body 20 and the lower second frame body 30 are fixed. Since the position of one end (upper end) of each support is also fixed, the rotation angle of each support between the middle second frame 50 and the middle first frame 40 connected to each support is also Fixed. Then, each middle stage connection part 43 and 53 which connects each other end located in the lower side of each support | pillar of the middle stage 2nd frame 50 and the middle stage 1st frame 40 is fixed in the assembly state which left | separated only predetermined distance. Is done. Thereby, each middle stage connection part 43 and 53 will be located above the position of the bottle mounting parts 24 and 34 mentioned above.

Further, as described above, in the state where the positions of the connecting portions 43 and 53 between the middle first frame 40 and the middle second frame 50 are fixed, the middle first frame 40 and the middle second frame 50. Since the position of one end (upper end) of each support is also fixed, the rotation angle of each support between the upper second frame 70 and the upper first frame 60 connected to each support is also Fixed. Then, each upper stage connection part 63 and 73 which connects each other end located in the lower side of each support | pillar of the upper stage 2nd frame 70 and the upper stage 1st frame 60 is fixed in the assembly state which only the predetermined distance left | separated. Is done. Thereby, each upper stage connection part 63 and 73 will be located above the position of the bottle mounting parts 44 and 54 mentioned above.

By assembling the bottle rack as described above, as shown in FIG. 4 and FIG. 5, the bottle mounting portions 24 and 34, the middle connection portions 43 and 53, and the upper connection portions 63 and 73 are arranged in this order from the bottom to the top. Will be formed. And since the bottle mounting parts 24 and 34, the intermediate | middle stage connection parts 43 and 53, and the upper stage connection parts 63 and 73 are each fixed with the predetermined space | interval, as shown in FIG. The bottle B can be placed obliquely. Specifically, the bottom surface and the side surface of each bottle B are placed on the paired bottle placement portions 24 and 34, the middle connection portions 43 and 53, and the upper connection portions 63 and 73, respectively. Then, in the example of FIG. 6, the bottles B can be stacked and stored in three stages.

In the above-described example, only one bottle B is placed in one stage, but the distance between the columns constituting each frame described above, that is, the length of each connecting portion and bottle placing portion is set. By forming it long, a plurality of bottles B can be placed in one stage. Further, the bottle rack itself is not limited to three stages, and may be composed of one stage, two stages, or four stages or more.

Further, as described above, the stopper 80 for fixing the rack body 10 is not limited to a structure for fixing between the connecting portions positioned in the lower stage. For example, the structure which fixes the crossing angle of the support | pillar which comprises any frame unit may be sufficient. Anyway, the stopper 80 should just be a structure which can fix the bottle mounting parts 24 and 34, the intermediate | middle stage connection parts 43 and 53, and the upper stage connection parts 63 and 73 at a predetermined space | interval.

Here, a modified example of the bottle rack described above will be described with reference to FIG. As shown in this figure, two bands 91 and 92 are provided at predetermined intervals on each column of the lower frame unit constituting the rack body 10. The bottle rack can be carried on the back by putting the bands 91 and 92 on the shoulders through the arms of the bands 91 and 92. Thereby, the person who delivers a bottle can carry on the back in the state which mounted the bottle in the bottle rack. In the example of FIG. 7, the bands 91 and 92 are provided on the pillars constituting the lower frame unit, but may be provided on other frame units. Moreover, what is provided to carry the bottle rack on the back is not limited to the belts 91 and 92, and any member may be provided as long as it is a member that can be fixed to the bottle rack and can carry the rack.

<Embodiment 2>
A second embodiment of the present invention will be described with reference to FIGS. FIG. 8 is a front view showing a configuration of the bottle rack and a state when the bottle is stored in the bottle rack. 9 is a side view of the bottle rack of FIG. 8 as viewed from the right side, and FIG. 10 is a top view of the bottle rack of FIG. 8 as viewed from above.

As shown in FIG. 8, the bottle rack of the present embodiment includes a lower frame unit 100 that is installed on the floor surface and positioned at the lower level when assembled, and an upper frame unit 200 that is positioned at the upper level. Yes. Further, the bottle rack includes a stopper 180 in the lower frame unit 100. Each frame unit 100, 200 is formed by a pipe member having a circular cross section, but may be formed by a member having another shape such as a square member or a plate member.

As shown in FIG. 9, the lower frame unit 100 has a substantially U-shaped or substantially U-shaped lower first frame in which the opening is positioned on the floor side when assembled. 120 (one frame) and a lower second frame 130 (the other frame). And a pair of lower frame body which consists of the lower stage 1st frame body 120 and the lower stage 2nd frame body 130 is mutually connected so that it can fold.

Specifically, the lower first frame body 120 has two support columns having a predetermined length, and is arranged in parallel at a predetermined interval. The lower first frame body 120 has a lower upper connection portion 125 (one end-side protruding portion) that connects one end of each of the two columns (the upper end (upper end) in FIGS. 8 and 9) to each other. is doing. The lower upper connection part 125 is formed in a straight line and is formed perpendicular to the longitudinal direction of the two columns. As described above, the lower first frame 120 is formed in a substantially U shape or a substantially U shape as described above by the two support columns and the lower upper connection portion 125. The two struts described above are not limited to being parallel to each other, and are not limited to being formed in a straight line.

The other ends (the lower ends (lower ends) in FIGS. 8 and 9) of the two columns constituting the lower first frame 120 are arranged on the floor surface. For this reason, the other end of each support | pillar of the lower stage 1st frame 120 is bent outward as shown to the code | symbol 123 of FIG.9 and FIG.10 so that arrangement | positioning with respect to a floor surface may be stabilized. . A lower lower connecting portion 124 (protruding portion) extending so as to connect the respective struts is provided at a position away from the other end of each strut of the lower first frame 120 by a predetermined distance. . The lower stage lower connection part 124 is formed in a straight line and extends in parallel with the lower stage upper connection part 125. That is, the lower lower connection part 124 is formed at a right angle to the longitudinal direction of the two struts to be connected.

Also, the lower second frame 130 that forms a pair with the lower first frame 120 and constitutes the lower frame unit has substantially the same configuration as the lower first frame 120. That is, the lower second frame 130 is configured by connecting two struts at one end (the upper end (upper end) in FIGS. 8 and 9) at the lower upper connecting portion 135 (one end projecting portion). ing. Moreover, the other end of each support | pillar of the lower stage 2nd frame 130 is bent and formed toward the outer side. Further, the lower second frame 130 is parallel to the lower upper connecting portion 135 (protruding portion) at a predetermined position on the other end side of each column, that is, at a position away from the other end of the column by a predetermined distance. A lower lower connection part 134 that extends is provided.

However, the distance between the columns constituting the lower second frame 130 is formed to be shorter than the distance between the columns constituting the lower first frame 120. As a result, as shown in FIG. 9, each support column constituting the lower second frame body 130 is positioned inside each support column constituting the lower first frame body 120.

The lower first frame body 120 and the lower second frame body 130 described above are coupled so as to be rotatable relative to each other. Specifically, as shown in FIG. 8 and FIG. 9, the respective struts corresponding to each other, that is, one strut of the lower first frame 120 and one strut of the lower second frame 130, The other support column of the one frame body 120 and the other support column of the lower second frame body 130 are pivotally supported in a state of being close to each other. At this time, in the longitudinal direction of each support | pillar, it is mutually pivotally supported and connected in the predetermined location of one end side (upper end side) from the center. Thereby, as shown in FIG. 8, each support | pillar can be rotated in the state which mutually made | formed the predetermined angle at the pivotal support location.

And in the state which each support | pillar cross | intersected and rotated, as shown in FIG. 8, one end of each support | pillar of the lower stage 1st frame 120 and the lower stage 2nd frame 130 and each other end are respectively predetermined | prescribed. It becomes a state separated by a distance and becomes an assembled state as will be described later. Further, as described in the first embodiment, the lower first frame body 120 and the lower second frame body 130 are positioned on substantially the same plane as described in the first embodiment by rotating relative to each other. It will also be in the folded state which is a state.

Further, the lower first frame body 120 and the lower second frame body 130 are configured to be fixed by a stopper 180 (fixing member) in a state in which the lower column first frame body 120 and the lower stage second frame body 130 are rotated with each other and the columns cross each other. As shown in FIG. 8, the stopper 180 is pivotally supported so as to be rotatable relative to each other, and includes one strut constituting the lower first frame 120, one strut constituting the lower second frame 130, It is comprised by the flat member which connects. Specifically, one end of the stopper 180 is pivotally supported at a place where the lower lower connecting portion 124 of one column of the lower first frame 120 is provided. The other end of the stopper 180 is configured to be detachable at a position where the lower lower connection part 134 of one strut of the lower second frame 130 is provided.

The other end of the stopper 180 is formed with a through hole in which a circular portion and a groove portion having a width smaller than the diameter of the circular portion are communicated. Correspondingly, the lower second frame 130 is provided with a lower lower connection part 134 of one support column, and protrudes outward from the circular part smaller than the circular part of the through hole of the stopper 180. Is provided. And the base part of this latching | locking part is formed in the diameter narrower than the groove part of the through-hole of the stopper 180. FIG. As a result, the other end of the stopper 180 can be inserted into and removed from the circular portion of the through hole, and can be attached to and detached from one column of the lower second frame 130. And the other end of the said stopper 180 can be fixed to one support | pillar of the lower-stage 2nd frame 130 by positioning the base part of a latching | locking part in the groove part location of the through-hole of the stopper 180. FIG. As a result, as shown in FIG. 8, the lower lower connection portion 124 of one strut of the lower first frame 120 and the lower lower connection portion 134 of one strut of the lower second frame 130 are provided as stoppers. It is fixed with a distance of 180. This state is called an assembled state of the bottle rack.

As shown in FIG. 8, the lower lower connection parts 124 and 134 of the lower first frame 120 and the lower second frame 130 that are in the assembled state as described above are separated from each other by a predetermined distance, It will be located at almost the same height from the floor. And between each lower stage lower connection part 124,134, as shown to the dotted line of FIG. 8, the bottle B can be mounted. At this time, the bottle B can be mounted on the bottle rack by disposing the bottom surface and the side surface of the bottle B in the lower lower connection portions 124 and 134, respectively.

Further, the lower upper connecting portions 125 and 135 of the lower first frame 120 and the lower second frame 130 in the assembled state are also separated from each other by a predetermined distance as shown in FIG. Will be located at almost the same height. For this reason, the bottle B can be mounted also between each lower upper connection part 125,135 as shown by the dotted line of FIG. At this time, the bottle B can be mounted on the bottle rack by disposing the bottom surface and the side surface of the bottle B in the lower upper connection portions 125 and 135, respectively.

As described above, the lower frame unit 100 composed of the lower first frame body 120 and the lower second frame body 130 includes bottles B on the lower lower connection parts 124 and 134 and the lower upper connection parts 125 and 135, respectively. Can be placed. That is, the bottle B can be placed in two stages on one lower frame unit 100.

In addition, the lower stage lower connection parts 124 and 134 and the lower stage upper connection parts 125 and 135 are not necessarily limited to being linearly connected. Further, the lower lower connection parts 124 and 134 and the lower upper connection parts 125 and 135 are not limited to being formed by connecting two struts constituting the same frame. For example, the lower-stage lower coupling portions 124 and 134 and the lower-stage upper coupling portions 125 and 135 are members that project from one column to the other column in the lower first frame and the second frame, respectively, and / or , Or a member projecting from the other support column toward the one support column.

Also, a plurality of lower lower connection parts 124 and 134 and lower upper connection parts 125 and 135 may be provided. For example, a plurality of protrusions that will be the lower-stage lower coupling portions 124 and 134 and the lower-stage upper coupling portions 125 and 135 may be provided between two columns with a predetermined interval. Thereby, it can prevent that a bottle falls.

Next, the above-described upper frame unit 200 will be described. As shown in FIG. 9, the upper frame unit 200 has a substantially U-shaped or substantially U-shaped upper first arrangement in which the opening is positioned on the lower frame unit 100 side when assembled. A frame body 140 (one upper frame body) and an upper second frame body 150 (the other upper frame body) are provided. A pair of upper frame bodies composed of the upper first frame body 140 and the upper second frame body 150 are coupled so as to be rotatable relative to each other and can be folded.

Specifically, as shown in FIGS. 8 and 9, the upper first frame body 140 and the lower second frame body 150 are mutually corresponding struts, that is, one strut of the upper first frame body 140 and One strut of the upper second frame 150, the other strut of the upper first frame 140, and the other strut of the upper second frame 150 are pivotally supported in a state where they are close to each other. At this time, in the longitudinal direction of each support | pillar, it is axially supported mutually and connected in the predetermined location of the other end side (lower end side) from the center. Thereby, as shown in FIG. 8, each support | pillar can be rotated in the state which mutually made | formed the predetermined angle at the pivotal support location.

The upper first frame 140 has two support columns having a predetermined length, and is arranged in parallel at a predetermined interval. The upper first frame 140 has the other end of each of the two columns (the lower end (lower end) in FIGS. 8 and 9) is one end of each column of the lower second frame 130 described above ( It is connected so that it can rotate in the vicinity of the upper end. Specifically, each column corresponding to each other, that is, one column of the lower second frame 130 and one column of the upper first frame 140, and the other column and upper column of the lower second frame 130. The other support columns of the first frame 140 are pivotally supported in the state of being close to each other.

Further, each one end side (upper end portion (upper end) in FIGS. 8 and 9) of each support column constituting the upper first frame body 140 is a place away from the one end to the other end side by a predetermined distance. It is formed by bending a predetermined angle. Thereby, when the upper stage 1st frame 140 will be in an assembly state, the one end vicinity has a shape extended in the orthogonal | vertical direction with respect to a floor surface.

The upper first frame 140 has an upper upper connecting portion 143 (upper protruding portion) in which one end of each column constituting the upper first frame 140 is connected to each other. The upper upper connecting portion 143 is formed in a substantially M shape as shown in FIG. 9, and the position near the center between the columns is higher than the level near the both ends on the column side. Is formed in a concave shape so as to be low. Furthermore, the upper upper connection part 143 included in the upper first frame 140 is positioned higher than both ends near the upper upper connection part 153 included in the upper second frame 150 described later, and the vicinity of the center is The upper second frame 150 is formed so as to be positioned at substantially the same height as the upper upper connecting portion 153 of the upper second frame 150. In other words, the upper upper connection part 143 included in the upper first frame 140 is formed to be inclined at a predetermined angle from the column side which is both ends to the vicinity of the center.

Further, the upper second frame 150 has two support columns having a predetermined length, and the respective support columns are arranged in parallel at a predetermined interval. The upper second frame 150 has the other ends of the two columns (the lower end (lower end) in FIGS. 8 and 9) near one end (upper end) of the lower first frame 120 described above. Are connected so as to be rotatable. Specifically, each column corresponding to each other, that is, one column of the lower first frame 120 and one column of the upper second frame 150, and the other column and the upper column of the lower first frame 120. The other struts of the second frame 150 are pivotally supported in the state of being close to each other.

Moreover, each one end side (upper end (upper end) in FIGS. 8 and 9) of each support column constituting the upper second frame 150 is a place away from the one end to the other end by a predetermined distance. It is formed by bending a predetermined angle. Thereby, the upper stage 1st frame 140 is formed in the shape where one end vicinity of each support | pillar extends in the orthogonal | vertical direction with respect to a floor surface when it will be in an assembly state.

The upper second frame 150 has an upper upper connecting portion 153 (upper protruding portion) in which one ends of the columns constituting the upper second frame 150 are connected to each other. The upper upper connecting portion 153 is formed in a straight line as shown in FIG. And the height of the upper stage upper connection part 153 which the upper stage 2nd frame 150 has is formed lower than the height of the upper stage upper connection part 143 which the upper stage 1st frame 140 has. Specifically, the height of the upper upper connecting portion 153 included in the upper second frame 150 is lower than the height of the upper upper connecting portion 143 included in the upper first frame 140 on the support column side, and is substantially equal to the height of the central portion. It is formed at the same height.

With the above-described configuration, as shown in FIG. 8, when the lower frame unit 100 is in the assembled state using the stopper 180, the lower first frame 120 and the lower second frame 130 constituting the lower frame unit 100. One end of each support column is separated from each other so that one end and the other end of each support column of the upper first frame 140 and the upper second frame 150 constituting the upper frame unit 200 are separated from each other. Will be. Then, the upper stage upper connecting portions 143 and 153 constituting the upper frame unit 200 are positioned apart from each other by a predetermined distance as shown in FIG. Then, as shown by the dotted line in FIG. 8, the bottle B can be placed between the upper upper connection portions 143 and 153.

At this time, the bottle B can be mounted on the bottle rack by disposing the bottom surface and the side surface of the bottle B in the upper upper connecting portions 143 and 153, respectively. In particular, since the side surface of the bottle B is accommodated in the recess formed near the center of the upper upper connection part 143 of the upper first frame body 140 of the upper upper connection parts 143 and 153, the bottle The mounting state of B will be stabilized.

As described above, according to the bottle rack of the present invention, the bottles B can be placed in three stages only by including the two frame units 100 and 200.

In the present embodiment, the bottle rack constituted by the lower frame unit and the upper frame unit is described. However, the bottle rack according to the present invention is arranged such that another upper frame unit is placed in the upper stage of the upper frame unit 200. One or more may be provided. Thereby, it is also possible to place the bottles B in more stages.

And when the bottle rack of the present invention does not store the bottle, the rack itself can be folded by releasing the fixation of the frame body unit by the stopper 180 (fixing member) as in the first embodiment. In this way, it is possible to provide a bottle rack capable of effectively using a place for storing bottles at a low cost with a simple configuration. In the above description, the lower frame unit 100 is equipped with the stopper 180 so as to fix each frame of the lower frame unit 100. However, the upper frame unit 200 is equipped with the stopper 180, and the upper frame unit 200 is fixed. You may comprise so that each frame of 200 may be fixed.

Moreover, the upper stage upper connection part 143 is not necessarily limited to being connected linearly. Moreover, the upper stage upper connection parts 143 and 153 are not limited to being formed by connecting two struts constituting the same frame. For example, the upper upper connecting portions 143 and 153 are members that protrude from one strut toward the other strut and / or from the other strut to the one strut in the upper first frame body and the second frame body, respectively. You may be comprised by the member which protrudes toward.

In addition, the upper stage upper connection part 143,153 may each be provided with two or more. For example, a plurality of protrusions serving as upper upper connection portions 143 and 153 may be provided between two support columns with a predetermined interval. Thereby, it can prevent that a bottle falls.

In the above-described example, only one bottle B is placed in one stage, but the distance between the pillars constituting each frame described above, that is, the length of each connecting portion is further increased. Thus, a plurality of bottles B may be placed on one stage.
<Appendix>
The present invention can also be described as the following supplementary notes. Hereinafter, an outline of another configuration of the present invention will be described. However, the present invention is not limited to the following configuration.

(Appendix 1)
A pair of frames each having a predetermined length and two struts having a predetermined interval are provided,
The respective struts of one of the frame bodies and the respective struts of the other frame body are pivotally supported in a mutually rotatable manner in a state of being close to each other at a predetermined position of the respective struts,
The struts constituting the one frame body and the struts constituting the other frame body are in a state of crossing each other with a predetermined angle, and constituting the one frame body A fixing member is provided that fixes each of the columns and the other column constituting the other frame at a predetermined distance from one end and the other of the columns.
Projecting toward the other struts constituting the same frame at a predetermined position on the other end side of the respective struts constituting the respective frame bodies by a predetermined distance away from the other ends of the respective struts. A protrusion to
Each frame is fixed by the fixing member, and the other end of each column constituting the frame is arranged on the floor surface, so that the protrusions are positioned above the floor surface by a predetermined distance. And configured so that a predetermined bottle can be placed on each protrusion.
Bottle rack.

(Appendix 2)
The bottle rack according to appendix 1,
Each of the frames includes a connecting portion that connects the other ends of the two struts constituting the frame,
The fixing member is configured to fix the connecting portions constituting the frame bodies in a state of being separated from each other by a predetermined distance.
Bottle rack.

(Appendix 3)
The bottle rack according to appendix 1 or 2,
Each of the protrusions included in each of the frames is configured by connecting the two struts that constitute each of the frames.
Bottle rack.

(Appendix 4)
The bottle rack according to any one of appendices 1 to 3,
The pair of frames arranged on the floor form a lower frame unit of the bottle rack, and an upper frame unit arranged on the upper stage of the lower frame unit,
The upper frame unit includes a pair of upper frame bodies in which two columns are configured with a predetermined interval, and each column of one upper frame body and each column of the other upper frame body And pivotally supported in a mutually rotatable manner in a state where they are close to each other at a predetermined location on one end side of each of the columns,
The upper frame is in a state where a predetermined portion on the other end side of each column constituting each upper frame is close to each end of each column constituting each frame of the lower frame unit. Each support column constituting each upper frame of the body unit and each support column constituting each frame of the lower frame unit are pivotally supported so as to be rotatable with respect to each other;
On the other end of each column that constitutes each upper frame of the upper frame unit, an upper projection that can place a bottle that projects toward the other column that constitutes the same upper frame. Prepared,
Bottle rack.

(Appendix 5)
The bottle rack according to appendix 4,
Each of the upper protrusions included in each of the upper frame bodies constituting the upper frame body unit is configured by connecting between the two columns supporting each of the upper frame bodies.
Bottle rack.

(Appendix 6)
The bottle rack according to appendix 4 or 5,
On the upper stage of the upper frame unit, one or more other upper frame units are arranged and provided,
Each upper frame body of another upper frame body unit located on the lower stage side is configured at a predetermined position on each other end side of each column constituting each upper frame body of the other upper frame body unit. The upper columns of each of the upper columns of the other upper frame unit and the upper frames of the other upper frame unit of the other upper frame unit are configured close to one end of each of the columns. The supporting columns are pivotally connected so that they can rotate with each other,
Other bottles protruding toward the other struts constituting the same upper frame body can be placed on the other ends of the respective struts constituting the upper frame bodies of the other upper frame body units. With an upper protrusion,
Bottle rack.

(Appendix 7)
The bottle rack according to appendix 6,
The other upper stage protrusions provided in each of the upper stage frame bodies constituting one or a plurality of the other upper stage frame body units connect the two struts constituting the upper stage frame bodies respectively. Configured,
Bottle rack.

As mentioned above, although this invention was demonstrated with reference to the said embodiment etc., this invention is not limited to embodiment mentioned above. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

The present invention enjoys the benefit of the priority claim based on the patent application of Japanese Patent Application No. 2013-004726 filed on January 15, 2013 in Japan, and is described in the patent application. The contents are all included in this specification.

DESCRIPTION OF SYMBOLS 10 Rack main body 20 Lower first frame 30 Lower second frame 21, 22, 31, 32 Column 23, 33 Connection part 24, 34 Bottle mounting part 40 Middle first frame 50 Middle second frame 41, 42 , 51, 52 Post 43, 53 Middle connection 60 Middle first frame 70 Middle second frame 61, 62, 71, 72 Post 63, 73 Middle connection 80 Stopper 81 Stopper body 82, 83 Locking part 100 Lower Frame unit 120 Lower first frame 124 Lower lower connecting portion 125 Lower upper connecting portion 130 Lower second frame 134 Lower lower connecting portion 135 Lower upper connecting portion 140 Upper first frame 143 Upper upper connecting portion 150 Upper second Frame body 153 Upper upper link 180 Stopper 200 Upper frame unit B Bottle

Claims (8)

1. A pair of frames each having a predetermined length and two struts having a predetermined interval are provided,
   The respective struts of one of the frame bodies and the respective struts of the other frame body are pivotally supported in a mutually rotatable manner in a state of being close to each other at a predetermined position of the respective struts,
   The struts constituting the one frame body and the struts constituting the other frame body are in a state of crossing each other with a predetermined angle, and constituting the one frame body A fixing member is provided that fixes each of the columns and the other column constituting the other frame at a predetermined distance from one end and the other of the columns.
   Projecting toward the other struts constituting the same frame at a predetermined position on the other end side of the respective struts constituting the respective frame bodies by a predetermined distance away from the other ends of the respective struts. A protrusion to
   Each frame is fixed by the fixing member, and the other end of each column constituting the frame is arranged on the floor surface, so that the protrusions are positioned above the floor surface by a predetermined distance. And configured so that a predetermined bottle can be placed on each protrusion.
   Bottle rack.
2. The bottle rack according to claim 1,
   Each of the protrusions included in each of the frames is configured by connecting the two struts constituting the same frame.
   Bottle rack.
3. The bottle rack according to claim 1 or 2,
   At one end of each column that constitutes each frame body, provided with one end side projecting portion capable of placing a bottle that projects toward the other column that constitutes the same frame body,
   Bottle rack.
4. The bottle rack according to claim 3,
   The one end side protruding portion provided in each of the frames is configured by connecting between the two struts constituting the same frame.
   Bottle rack.
5. The bottle rack according to any one of claims 1 to 4,
   The pair of frames arranged on the floor form a lower frame unit of the bottle rack, and an upper frame unit arranged on the upper stage of the lower frame unit,
   The upper frame unit includes a pair of upper frame bodies in which two columns are configured with a predetermined interval, and each column of one upper frame body and each column of the other upper frame body And pivotally supported in a state where they are close to each other at predetermined positions of the respective support columns,
   When the respective columns of the one frame constituting the lower frame unit and the columns of the other frame intersect each other with a predetermined angle, the upper frame Each upper frame so that each column of the one upper frame constituting the body unit and each column of the other upper frame intersect each other at a predetermined angle. Each upper frame of the upper frame unit is configured in a state in which the other end of each column is configured close to one end of each column constituting the frame of the lower frame unit. The respective struts to be connected to the respective struts constituting the respective frame bodies of the lower frame unit so as to be pivotable with respect to each other,
   At one end of each column that constitutes each upper frame of the upper frame unit, an upper projection that can place a bottle that projects toward the other column that constitutes the same upper frame is provided. The
   Bottle rack.
6. The bottle rack according to claim 5,
   Each of the upper protrusions provided in each of the upper frame bodies is configured by connecting the two struts constituting the same upper frame body,
   Bottle rack.
7. The bottle rack according to claim 6,
   Each of the upper protrusions configured by connecting the two struts provided in each of the upper frame bodies is formed at a position where the height from the floor surface is different from each other.
   Bottle rack.
8. The bottle rack according to claim 7,
   Among the upper protrusions, one upper protrusion formed at a position where the height from the floor is higher than the other is formed such that the height of the portion near the center is lower than the other portions. Being
   Bottle rack.
   

Images