JP6654891B2 - Bottle storage devices and trays - Google Patents

Description

  The present invention relates to a bottle storage device and a tray used therefor, and more particularly, to a configuration of a tray on which a bottle such as a wine bottle is placed.

  In a storage device for a bottle of wine or the like, a tray may be provided at an angle to accommodate a long bottle. Patent Document 1 discloses a storage device in which the uppermost tray is tilted. By tilting the tray, long bottles can be accommodated in the front-back direction. Also, a guard member protruding upward is provided on one side of the tray, and the bottle can be tilted and accommodated sideways by placing the neck of the bottle on the guard member.

JP 2001-11647 A

  In order to accommodate the bottles in the storage device described in Patent Literature 1 while being tilted in the front-rear direction, it is necessary to use a dedicated tray that is tilted. It is not necessary to use a dedicated tray when the bottles are tilted and accommodated horizontally, but they cannot be tilted in the front-rear direction.

  In bottle storage devices, it may be preferable to house the bottles side by side in the front-rear direction to enhance the visibility of the bottle labels. This is because when the bottles are stored sideways, it is necessary to pull out the tray to check the labels of the bottles at the back, which is inconvenient. In addition, it may be preferable to house the bottle at an angle to improve the visibility of the bottle label. For this reason, in order to enhance the visibility of the bottle label, it is desirable to accommodate the bottle in a front-rear direction and at an angle. In particular, among wine lovers, there is a need to easily recognize the etiquette label of a wine bottle. On the other hand, there is also a need to store the bottles in the front-rear direction and as horizontally as possible.

  An object of the present invention is to provide a bottle storage device capable of storing bottles in a front-rear direction and at different inclination angles without using a dedicated tray.

The bottle storage device of the present invention has a heat-insulating box having an opening that can be opened and closed on the front surface, and is supported so as to be able to be taken out through the opening in the heat-insulating box, and has a shape symmetrical with respect to the width direction of the heat-insulating box. , A tray on which a bottle can be placed. The tray has a first surface on which the bottle can be placed, and a second surface on the back surface of the first surface, on which the bottle can be placed by turning the tray upside down. When the tray is housed inside the heat-insulating box in the first position in which the first surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box, and the tray is insulated. A first abutting portion for supporting the tray, a second abutting portion for abutting the adiabatic box behind the adiabatic box and supporting the tray with the adiabatic box, and a second surface facing upward. A third contact portion that contacts the heat-insulating box in front of the heat-insulating box when the tray is housed inside the heat-insulating box in the second position, and supports the tray on the heat-insulating box; And a fourth abutting portion that abuts on the heat-insulating box at the rear of the box and supports the tray on the heat-insulating box. The positional relationship between the first to fourth contact portions is such that the angle in the front-back direction of the heat insulating box with respect to the horizontal plane of the second surface in the second posture is the front-back direction of the first surface in the first posture with respect to the horizontal plane. Is set to be larger than the angle of.
In one embodiment of the present invention, the tray extends in parallel with each other in the front-rear direction of the heat-insulating box, and has a plurality of first linear members forming the first and second surfaces, and one end having the first linear member. A plurality of second linear members connected to a front end of the member and extending in a direction different from the first linear member, and one end connected to a rear end of each first linear member; A plurality of third linear members that are different from the linear members and extend in a direction opposite to the second linear members, and a pair of fourth linear members that extend in the front-rear direction on both sides of the mounting portion in the width direction A fifth linear member extending horizontally near the rear end of the first linear member, a sixth linear member extending horizontally near the other end of the third linear member, And a seventh linear member extending horizontally near the other end of the second linear member, wherein the first contact portion is formed near an end of the seventh linear member, Abutment Is formed on the fourth linear member, the third contact portion is formed on the fourth linear member, and the fourth contact portion is formed near the end of the sixth linear member. I have.
In another aspect of the invention, the bottle storage device further includes a recess located at the bottom of the insulated box, a vertical wall located behind the recess and extending upward, and extending rearward from an upper edge of the vertical wall. The vehicle includes a horizontal wall, a first groove extending obliquely upward rearward over the vertical wall and the horizontal wall, and a second groove positioned on the vertical wall and continuous with the first groove.

  According to the present invention, by turning the tray upside down, both sides of the mounting portion can be used for mounting the bottle. The tray is housed inside the heat insulating box by the first and second contact portions or the third and fourth contact portions contacting the heat insulating box according to the posture of the tray. The positional relationship between these contact portions and the mounting portion is such that the first angle of the first surface with respect to the horizontal plane in the first posture is smaller than the second angle of the second surface with respect to the horizontal surface in the second posture. It is set to be large. Therefore, when the bottles are stored at an angle close to the horizontal, the tray may be installed in the first position, and when the bottles are stored more inclined, the tray may be installed in the second position.

  Therefore, according to the present invention, it is possible to provide a bottle storage device capable of storing bottles in a front-rear direction and at different inclination angles without using a dedicated tray.

It is a front view showing the state where the wine bottle was stored in the storage device of the bottle concerning one embodiment of the present invention. FIG. 2 is a front view showing a state in which a wine bottle is not stored in the storage device shown in FIG. 1. FIG. 2 is a side view of the storage device shown in FIG. 1. It is a perspective view of a tray. FIG. 5 is a plan view of the tray shown in FIG. 4. FIG. 5 is a side view of the tray shown in FIG. 4, showing a state where a wine bottle is placed. It is a conceptual diagram which shows the positional relationship of the 1st-4th contact parts, and the inclination angle of a mounting part. FIG. 3 is an enlarged view of a portion A in FIG. 2. FIG. 2 is a conceptual diagram of a lowermost storage section of the storage device shown in FIG. 1.

  Hereinafter, an embodiment of a bottle storage device of the present invention will be described with reference to the drawings. Although the present embodiment relates to a wine storage, the present invention is not limited to this, and can be applied to a bottle storage device that stores sake, shochu, fruit juice, and the like. In the following description, "front", "rear", "front", "rear" and "front and rear directions" are based on the front surface provided with the opening of the storage device, and "width direction" is the left and right direction when viewed from the front surface. The terms “upward”, “downward”, and “vertical direction” refer to the normal installation state of the storage device. “Tilt angle” and “angle” are defined with respect to the horizontal plane. In this specification, the front-rear direction may be referred to as X, the width direction as Y, and the up-down direction as Z.

  FIG. 1 is a front view of the wine storage of the present embodiment in which wine bottles are stored, and FIG. 2 is a front view of the wine storage of the present embodiment in which no wine bottles are stored. FIG. 3 is a side sectional view of the wine storage of the present embodiment.

  The wine storage 1 includes a heat insulating box 2 having an outer wall formed of a heat insulating material, and a door 4 that opens and closes a front opening 3 of the heat insulating box 2. Inside the heat-insulating box 2, an inner panel 6 forming a storage space 5 is provided. The inner panel 6 is made of resin in consideration of design properties. The storage space 5 is partitioned by a partition plate 7 into an upper chamber 5a and a lower chamber 5b. The door 4 has a three-layer glass plate structure, and is rotatably attached to the heat insulating box 2 by upper and lower hinges (not shown). Although the wine storage 1 of the present embodiment has the upper room 5a and the lower room 5b, it may have only one room.

  A pair of rails 8 extending horizontally in the front-rear direction X are provided on both side surfaces in the width direction of the inner panel 6 of the heat insulating box 2. The tray 21 on which the wine bottle B is placed is supported by the rails 8 at both ends in the width direction, and is installed inside the heat insulating box 2. The tray 21 is supported on the heat-insulating box 2 so that it can be taken out and attached. Four trays 21 are installed in the upper room 5a and three trays 21 are installed in the lower room 5b. Each of the trays 21 can accommodate four wine bottles B. No tray 21 is provided at the lowermost stage of the lower chamber 5b, and the wine bottle B can be accommodated at a large inclination angle by using the partition wall 10 of the machine room 9 as described later.

  A heater 11a, a cooler 12a, and a blower 13a are provided at the rear of the upper chamber 5a. A heater 11b, a cooler 12b, and a blower 13b are provided behind the lower chamber 5b. The heaters 11a and 11b heat the air in the upper chamber 5a and the lower chamber 5b, respectively, and the coolers 12a and 12b cool the air in the upper chamber 5a and the lower chamber 5b, respectively. The blowers 13a and 13b supply air heated by the heaters 11a and 11b or cooled by the coolers 12a and 12b. Circulate in the upper chamber 5a and the lower chamber 5b. Partition walls 14a and 14b are provided at the rear of each of the upper chamber 5a and the lower chamber 5b to visually shield the heaters 11a and 11b, the coolers 12a and 12b, and the blowers 13a and 13b. The partition walls 14a and 14b are provided with openings or slits (not shown) for directly supplying air sent from the blowers 13a and 13b to the storage area of the wine bottle B.

  A machine room 9 is provided at a lower rear portion of the heat insulating box 2, and accommodates a compressor 15, a control board, an electromagnetic valve, piping and the like (not shown except the compressor 15) for performing a refrigeration cycle. The compressor 15 is commonly combined with the two coolers 12a and 12b. The temperature inside the refrigerator is monitored by a thermometer (not shown), and when the temperature inside the refrigerator rises, the compressor 15 and the blowers 13a and / or 13b are started by the control circuit mounted on the control board. The refrigerating cycle is started by the activation of the compressor 15, and the air flowing through the cool air passage (not shown) exchanges heat with the air in the refrigerator at the coolers 12a and / or 12b on the low temperature side of the refrigerating cycle. Cold air is generated. A flammable hydrocarbon refrigerant (not shown) is used as a refrigerant of the refrigeration cycle, and for example, isobutane having a refrigerant number of R600a is suitably used.

  FIG. 4 is a perspective view of the tray 21, and FIG. 5 is a plan view of the tray 21. 6A is a side view of the tray 21. FIG. 6A illustrates a first posture of the tray 21, and FIG. 6B illustrates a second posture in which the tray 21 is turned upside down with respect to the first posture. Is shown. Here, the first posture is the posture of the tray 21 with the first surface S1 facing upward, and the second posture is the posture of the tray 21 with the second surface S2 facing upward. . The tray 21 is supported by the heat-insulating box 2 so as to be able to be taken out through the front opening 3, and has a symmetrical shape with respect to the width direction Y of the heat-insulating box 2. The tray 21 has a bottle mounting portion 22 composed of a plurality of first linear members 31. The first linear members 31 extend parallel to each other in the front-back direction X of the heat-insulating box 2 with the tray 21 accommodated in the heat-insulating box 2. The first linear member 31 is formed of a metal such as iron or aluminum, or a resin. When the first linear member 31 is formed of iron, it is desirable that the first linear member 31 be painted as a measure against rust. Although the first linear member 31 is a linear wire (wire) having a circular cross section, the cross section is not limited to a circle, and may be a polygonal cross section such as a rectangular cross section. In the present embodiment, the mounting portion 22 includes eight first linear members 31. One wine bottle B is supported by two first linear members 31 adjacent to each other. The interval D in the width direction Y of the first linear member 31 is 38 to 40 mm, whereby the standard wine bottle B can be stably held.

  The mounting portion 22 has a first surface S1 and a second surface S2 which is a back surface of the first surface S1. Here, the first and second surfaces S1 and S2 are imaginary planes including the uppermost portion or the lowermost portion of the cross section of the plurality of first linear members 31, and are configured by the plurality of first linear members 31. You. The first surface S1 and the second surface S2 are parallel to each other and are separated from each other by a distance equal to the diameter of the wire if the first linear member 31 has a circular cross section. The wine bottle B can be placed on the first surface S1 and the second surface S2 by inverting the tray 21 around the central axis 23 extending in the front-rear direction X of the heat insulating box 2.

  A second linear member 32 is connected to the front end of each first linear member 31. One end of the second linear member 32 is connected to the front end of the first linear member 31, and the other end is connected to a seventh linear member 37 described later. The second linear member 32 extends in a direction substantially orthogonal to the first linear member 31, but may extend in a direction other than the orthogonal direction, provided that the second linear member 32 extends in a direction different from that of the first linear member 31. Good.

  A third linear member 33 is connected to the rear end of each first linear member 31. One end of the third linear member 33 is connected to a rear end of the first linear member 31, and the other end is connected to a sixth linear member 36 described later. The third linear member 33 also extends in a direction substantially orthogonal to the first linear member 31, but may extend in a direction other than the orthogonal direction, provided that the third linear member 33 extends in a direction different from that of the first linear member 31. Good. The third linear member 33 extends in a direction opposite to the second linear member 32.

  In the present embodiment, the first to third linear members 31, 32, and 33 are integral members, and are manufactured by bending a linear wire. However, the first to third linear members 31, 32, and 33 may be formed as separate members and joined to each other by an appropriate method such as welding, soldering, or an adhesive. In the latter case, the second and third linear members 32 and 33 are desirably formed of the same material as the first linear member 31.

  A pair of fourth linear members 34 are provided on both sides of the mounting portion 22 in the width direction Y of the heat insulating box 2. The fourth linear member 34 extends in the front-rear direction X of the heat insulating box 2, and is located immediately above the rail 8 when the tray 21 is installed on the heat insulating box 2. The fourth linear member 34 has a bent portion substantially at the center in the front-rear direction X, and crosses the first linear member 31 near the bent portion when viewed from the side (see FIG. 6). . For this reason, a part of the fourth linear member 34 is located above the first linear member 31 regardless of the first posture and the second posture. The portion of the fourth linear member 34 located above the first linear member 31 restricts the movement of the wine bottle B in the width direction Y. Therefore, it is possible to prevent the wine bottle B from colliding with the side surface of the inner panel 6 and being damaged during an earthquake, for example.

  A fifth linear member 35 extends horizontally near the rear edge of the mounting portion 22. The fifth linear members 35 are fixed to the vicinity of the rear end of each first linear member 31, define the interval between the first linear members 31, and function as reinforcing members for the tray 21. A sixth linear member 36 extends horizontally along the other end of the third linear member 33. The sixth linear members 36 are fixed to the other linear ends of the third linear members 33 and the fourth linear members 34 on both sides. Functions as a reinforcing member. The fifth and sixth linear members 36 regulate the movement of the tray 21 in the front-rear direction X by engaging with an engagement member 25 described later.

  A seventh linear member 37 extends horizontally along the other end of the second linear member 32. The seventh linear members 37 are fixed to the fourth linear members 34 near the other end of each of the second linear members 32 and on both sides thereof. 21 functions as a reinforcing member. The seventh linear member 37 also functions as a stopper for preventing the wine bottle B from dropping forward when the tray 21 is in the second position. The fifth to seventh linear members 35, 36, and 37 can also be formed of the same material as the first linear member 31.

  Referring to FIG. 6, in the first posture, the first surface S1 faces upward. At this time, the mounting portion 22 of the tray 21 is in a substantially horizontal state, and the wine bottle B can be stored substantially horizontally. In the second posture, the second surface S2 faces upward. At this time, the mounting portion 22 of the tray 21 is inclined more than the first posture, and the wine bottle B can be accommodated in a more inclined state. That is, the angle θ2 of the second surface S2 in the front-rear direction X with respect to the horizontal plane SH in the second posture is larger than the angle θ1 of the first surface S1 in the front-rear direction X with respect to the horizontal plane SH in the first posture.

  The storage method of the wine bottle B varies depending on the type of wine and the preference of the user. For example, a storage method is conceivable in which the wine bottle B is normally stored with the bottom of the wine bottle B down so as to allow the cage to settle to the bottom immediately before opening, in order to allow the cage to settle at the bottom immediately before opening. . There is also a need to store the wine bottle B at an angle in order to make it easier to find corrosion of metal cap seals (cork stopper covers), generation of mold, contamination of etiquette labels, and the like. For this reason, in the present embodiment, the posture (tilt) of the mounting portion 22 of the tray 21 can be switched between the first posture and the second posture by a simple operation of simply turning the tray 21 upside down. it can.

  It is desirable that the angle θ1 in the first posture is 0 ° or more and 5 ° or less, and that the angle θ2 in the second posture is 10 ° or more and 15 ° or less, particularly about 12 °. When the angle θ1 in the first posture takes an angle other than 0 degrees (when not horizontal), it is desirable that the sign is opposite to the sign of the angle θ2 in the second posture. Thus, in the first position, the mounting portion 22 is inclined downward toward the rear, so that the possibility of the wine bottle B falling can be reduced. On the other hand, in the second posture, the mounting portion 22 is inclined downward toward the front, so that the visibility of etiquette labels and the like is improved. In the second position, the second linear member 32 and the seventh linear member 37 function as stoppers for the wine bottle B, so that the wine bottle B can be prevented from falling.

  Referring to FIG. 6A, when the tray 21 is accommodated in the heat insulating box 2 in the first posture in which the first surface S1 faces upward, the first contact portion P1 is moved to the heat insulating box 2. 2, the second contact portion abuts on the heat insulating box 2 behind the heat insulating box 2. The first contact portion P1 is formed near the end of the seventh linear member 37, and the second contact portion P2 is formed on the fourth linear member.

  Referring to FIG. 6B, when the tray 21 is accommodated inside the heat insulating box 2 in the second posture in which the second surface S2 faces upward, the third contact portion P3 is moved to the heat insulating box. 2, the fourth contact portion contacts the heat insulating box 2 behind the heat insulating box 2. The third contact portion P3 is formed on the fourth linear member 34, and the fourth contact portion P4 is formed near the end of the sixth linear member 36.

  FIG. 7 is a conceptual diagram schematically illustrating FIG. 6 in order to explain the positional relationship between the contact portions P1 to P4.

  FIG. 7A corresponds to FIG. 6A, and shows the tray 21 in the first posture. The distance X1 between the first contact portion P1 and the first surface S1 is defined as the length of a perpendicular drawn from the first contact portion P1 to the first surface S1. The distance X2 between the second contact portion P2 and the first surface S1 is defined as the length of a perpendicular drawn from the second contact portion P2 to the first surface S1. Assuming that the distance between the first contact portion P1 and the second contact portion P2 is L1, the first angle θ1 is obtained as sin θ1 = (X1−X2) / L1.

  FIG. 7B corresponds to FIG. 6B and shows the tray 21 in the second posture. The distance X3 between the third contact portion P3 and the second surface S2 is defined as the length of a perpendicular drawn from the third contact portion P3 to the second surface S2. The distance X4 between the fourth contact portion P4 and the second surface S2 is defined as the length of a perpendicular drawn from the fourth contact portion P4 to the second surface S2. Assuming that the distance between the third contact portion P3 and the fourth contact portion P4 is L2, the second angle θ2 is obtained as sin θ2 = (X4−X3) / L2.

In order to satisfy θ1 <θ2, it is sufficient that sinθ1 <sinθ2. Therefore, in general, (X1−X2) / L1 <(X4−X3) / L2
It suffices if the relationship is established.

  Referring again to FIG. 2, a pair of bar-shaped members 24 extending in the up-down direction Z are fixed near the widthwise side edges of the back wall of the heat-insulating box 2. The rod-shaped member 24 is formed of a high-strength material such as iron. Although two bar-shaped members 24 are provided for each of the upper chamber 5a and the lower chamber 5b, that is, on one side of the back wall, one bar member 24 may be provided across the upper chamber 5a and the lower chamber 5b. The rod-shaped member 24 is provided with through holes near the upper end, near the center, and near the lower end, and is fixed to the inner panel 6 with screws 29.

  FIG. 8 is an enlarged view of a portion A in FIG. An engaging member 25 is fixed to the rod-shaped member 24 near the height of each tray 21. The engaging members 25 are L-shaped hooks that open upward, and the left and right engaging members 25 are provided at symmetric positions and in symmetric shapes. The engaging member 25 is made of the same member as the rod-shaped member 24, and is fixed to the rod-shaped member 24 by welding or the like. In order to make it less noticeable, it is desirable that the rod-shaped member 24 and the engaging member 25 have the same color as the inner panel 6 and the tray 21, for example, black or brown. In order to ensure visibility and operability, it is desirable that the width dimension of the engaging member 25 when viewed from the front is 15 to 30 mm and the height is 10 to 20 mm. The engaging member 25 is engaged with the fifth linear member 35 or the sixth linear member 36 according to the posture of the tray 21. More specifically, when the tray 21 is in the first position, the sixth linear member 36 is engaged with the engaging member 25, and when the tray 21 is in the second position, the fifth linear member 36 is in the fifth position. The linear member 35 is engaged with the engaging member 25. To engage the tray 21 with the engaging member 25, the rear end of the empty tray 21 on which the wine bottle B is not placed is slightly lifted, and the fifth linear member 35 or the sixth linear member 36 is moved. The tray 21 may be slightly pushed backward so as to straddle above the engaging member 25, and then the rear end of the tray 21 may be returned.

  The wine bottle B may be pulled out to confirm the etiquette label and the cap seal. At this time, when pulling out the tray 21 forward, since the wine bottle B is heavy at about 1 kg per bottle, a considerable force may be required. Therefore, when the user cannot pull out the tray 21 with a weak force, the user pulls out the tray 21 with a stronger force. However, if the force is excessively applied, the tray 21 is pulled out at a stretch, and the wine bottle B falls to the user's feet, causing injury. There are concerns. For this reason, in the present embodiment, the tray 21 is engaged with the engaging member 25 so that the tray 21 does not jump out together when the wine is pulled out, and does not move forward. Moreover, the engagement can be released by a simple operation of slightly lifting the rear end of the tray 21. Further, since the engaging member 25 and the bar-shaped member 24 are formed of metal, the engaging member 25 is not damaged even if the tray 21 is pulled out with a large force.

  FIG. 9 shows the lowermost wine storage section of the heat insulating box 2. FIG. 9A is a side view, and FIG. 9B is a view seen from a direction B in FIG. 9A. A concave portion 26 is provided at the bottom of the heat insulating box 2. Three concave portions 26 are provided, each extending in the front-rear direction X of the heat insulating box 2. As shown in FIG. 3, a machine room 9 that accommodates the compressor 15, the control board, and the like is provided behind the concave portion 26, and a partition wall 10 that partitions the machine room 9 from the storage space 5 is provided. The partition wall 10 has a vertical wall W1 extending vertically from the recess 26, and a horizontal wall W2 horizontally extending rearward from the upper edge of the vertical wall W1. The first groove 27 extends obliquely upward rearward over the vertical wall W1 and the horizontal wall W2. Further, a second groove 28 continuous with the first groove 27 is provided in the vertical wall W1. The wine bottle B can be accommodated in a state in which the neck is held in the first groove 27 and the bottom is held in the front edge of the recess 26 and the bottom is held. The second groove 28 receives the shoulder of the wine bottle B. The shape of the second groove 28 is set large so as to conform to various shapes of the wine bottle B. Since the lower part of the heat insulating box 2 is difficult for a user to visually recognize, the wine bottle B is accommodated at a more upright angle than the second posture by using the partition wall 10 that partitions the machine room 9 and the storage space 5. , Etiquette labels and the like can be improved.

DESCRIPTION OF SYMBOLS 1 Wine storage 2 Heat insulation box 3 Front opening 4 Door 5 Storage space 6 Inner panel 21 Tray 22 Bottle placement part 31-37 First to seventh linear member B Wine bottle L1 First contact part P1 Distance L2 of second contact portion P2 Distance L2 between third contact portion P3 and fourth contact portion P4 P1 to P4 First to fourth contact portions S1, S2 First and second surfaces X1 X2 Distance between first contact portion P1 and first surface S1 X2 Distance between second contact portion P2 and first surface S1 X3 Distance between third contact portion P3 and second surface S2 X4 Fourth Between the contact portion P4 and the second surface S2 θ1, θ2 First and second angles

Claims (7)

A heat-insulating box having an opening that can be opened and closed on the front side, and the heat-insulating box is supported so as to be able to be taken out through the opening, has a symmetrical shape with respect to the width direction of the heat-insulating box, and can hold a bottle. Have a tray and
The tray is
A bottle mounting portion, comprising: a first surface on which a bottle can be mounted, and a second surface on the back surface of the first surface, on which the bottle can be mounted by turning the tray upside down. When,
When the tray is accommodated in the heat-insulating box in the first posture in which the first surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box, and the tray is moved. A first contact portion to be supported by the heat-insulating box, a second contact portion to be in contact with the heat-insulating box behind the heat-insulating box, and to support the tray with the heat-insulating box;
When the tray is accommodated inside the heat-insulating box in the second posture in which the second surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box to remove the tray. A third contact portion that is supported by the heat-insulating box, and a fourth contact portion that contacts the heat-insulating box behind the heat-insulating box and supports the tray with the heat-insulating box. Have
The positional relationship between the first to fourth contact portions is such that the angle of the heat insulating box body in the front-rear direction with respect to the horizontal plane of the second surface in the second posture is the first position in the first posture. Set to be greater than the angle in the front-rear direction with respect to the horizontal plane of the surface ,
The tray is
A plurality of first linear members that extend in parallel with each other in the front-rear direction of the heat-insulating box and constitute the first and second surfaces;
A plurality of second linear members each having one end connected to a front end of each of the first linear members and extending in a direction different from the first linear members;
A plurality of third linear members each having one end connected to a rear end of each of the first linear members and extending in a direction different from the first linear members and opposite to the second linear members; When,
A pair of fourth linear members extending in the front-rear direction on both sides of the mounting portion in the width direction,
A fifth linear member extending horizontally near a rear end of the first linear member;
A sixth linear member extending horizontally near the other end of the third linear member;
A seventh linear member extending horizontally near the other end of the second linear member,
The first contact portion is formed near an end of the seventh linear member, the second contact portion is formed on the fourth linear member, and the third contact portion is formed on the fourth linear member. Is formed on the fourth linear member, and the fourth contact portion is formed near an end of the sixth linear member . A bar-shaped member fixed to the inner wall of the heat-insulating box and extending vertically,
An engagement member fixed to the rod-shaped member and opened upward,
The storage device according to claim 1 , wherein the engagement member engages with the fifth linear member or the sixth linear member according to the posture of the tray. The storage device according to claim 2 , wherein the pair of bar-shaped members are provided near both side edges in the width direction of the back wall. A heat-insulating box having an opening that can be opened and closed on the front side, and the heat-insulating box is supported so as to be able to be taken out through the opening, has a symmetrical shape with respect to the width direction of the heat-insulating box, and can hold a bottle. Have a tray and
The tray is
A bottle mounting portion, comprising: a first surface on which a bottle can be mounted, and a second surface on the back surface of the first surface, on which the bottle can be mounted by turning the tray upside down. When,
When the tray is accommodated in the heat-insulating box in the first posture in which the first surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box, and the tray is moved. A first contact portion to be supported by the heat-insulating box, a second contact portion to be in contact with the heat-insulating box behind the heat-insulating box, and to support the tray with the heat-insulating box;
When the tray is accommodated inside the heat-insulating box in the second posture in which the second surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box to remove the tray. A third contact portion that is supported by the heat-insulating box, and a fourth contact portion that contacts the heat-insulating box behind the heat-insulating box and supports the tray with the heat-insulating box. Have
The positional relationship between the first to fourth contact portions is such that the angle of the heat insulating box body in the front-rear direction with respect to the horizontal plane of the second surface in the second posture is the first position in the first posture. It is set to be larger than the angle in the front-rear direction with respect to the horizontal plane of the surface,
A recess located at the bottom of the heat insulating box,
A vertical wall located behind the recess and extending upward;
A horizontal wall extending rearward from an upper edge of the vertical wall,
A first groove extending obliquely upward toward the rear across the vertical wall and the horizontal wall,
A storage device, further comprising a second groove located on the vertical wall and continuous with the first groove. The length of a perpendicular drawn from the first contact portion to the first surface is X1,
The length of a perpendicular drawn from the second contact portion to the first surface is X2,
The length of a perpendicular drawn from the third contact portion to the second surface is X3,
The length of a perpendicular drawn from the fourth contact portion to the second surface is X4,
The distance between the first contact portion and the second contact portion is L1,
When the distance between the third contact portion and the fourth contact portion is L2,
(X1-X2) / L1 <(X4-X3) / L2
The bottle storage device according to any one of claims 1 to 4 , wherein the following relationship is satisfied.   The angle according to any one of claims 1 to 5, wherein the angle in the first posture is 0 degree or more and 5 degrees or less, and the angle in the second posture is 10 degrees or more and 15 degrees or less. Storage device. A tray, which is supported so as to be able to be taken out through the opening in an insulating box having an opening that can be opened and closed on the front side, has a symmetrical shape with respect to the width direction of the insulating box, and is capable of placing bottles. ,
A bottle mounting portion, comprising: a first surface on which a bottle can be mounted, and a second surface on the back surface of the first surface, on which the bottle can be mounted by turning the tray upside down. When,
When the tray is accommodated in the heat-insulating box in the first posture in which the first surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box, and the tray is moved. A first contact portion to be supported by the heat-insulating box, a second contact portion to be in contact with the heat-insulating box behind the heat-insulating box, and to support the tray with the heat-insulating box;
When the tray is accommodated inside the heat-insulating box in the second posture in which the second surface faces upward, the tray comes into contact with the heat-insulating box in front of the heat-insulating box to remove the tray. A third contact portion supported by the heat-insulating box, a fourth contact portion abutting on the heat-insulating box behind the heat-insulating box, and supporting the tray on the heat-insulating box;
A plurality of first linear members that extend in parallel with each other in the front-rear direction of the heat-insulating box and constitute the first and second surfaces;
A plurality of second linear members each having one end connected to a front end of each of the first linear members and extending in a direction different from the first linear members;
A plurality of third linear members each having one end connected to a rear end of each of the first linear members and extending in a direction different from the first linear members and opposite to the second linear members; When,
A pair of fourth linear members extending in the front-rear direction on both sides of the mounting portion in the width direction,
A fifth linear member extending horizontally near a rear end of the first linear member;
A sixth linear member extending horizontally near the other end of the third linear member;
A seventh linear member extending horizontally near the other end of the second linear member ,
The first contact portion is formed near an end of the seventh linear member, the second contact portion is formed on the fourth linear member, and the third contact portion is formed on the fourth linear member. Is formed on the fourth linear member, the fourth contact portion is formed near an end of the sixth linear member,
The positional relationship between the first to fourth contact portions is such that the angle of the heat insulating box body in the front-back direction with respect to the horizontal plane of the second surface in the second posture is the first position in the first posture. A tray that is set to be larger than the angle in the front-rear direction with respect to the horizontal plane of the surface.

Images