JP2023169529A - assembly type container - Google Patents

Abstract

To provide a container in which a bowl portion for storing liquid is configured to be disassembled and assembled.SOLUTION: An assembly type container includes: an upper body portion having a first connector portion; and a lower body portion having a second connector portion coupled to the first connector portion of the upper body portion. The upper body portion and the lower body portion are configured to be assembled and/or disassembled using the first connector portion and the second connector portion. When the first connector portion and the second connector portion are coupled, a bottom part of the first connector portion and a bottom part of the second connector portion are arranged to face each other. The first connector portion has a joint portion formed on an outer periphery of the upper body portion. Further, the second connector portion is formed on an inner periphery of the lower body portion, has a joint portion that joins to the joint portion of the first connector portion, and when the first connector portion is coupled to the second connector portion, a gap is formed between the respective coupling portions.SELECTED DRAWING: Figure 2

Description

TECHNICAL FIELD The present invention relates to a prefabricated container.

Containers such as wine glasses are generally made of glass, and therefore break easily and must be handled with care. Further, a ball portion for pouring liquid and a plate portion for supporting the container are integrally formed.

Patent Document 1 (Publication No. 2015-500697) discloses a wine glass that is easy to carry. In order to make this wine glass easy to carry, the accommodating part where you can pour wine and the stem to which the plate is connected can be attached and detached using a magnet. , the stem can be stored in the storage section.

Special table 2015-500697 public relations

A ball part for pouring liquid, a plate part for supporting a container, and a stem connecting the ball part and the plate part are integrally formed. Therefore, a certain amount of space is required to store the containers. Furthermore, it is not easy to handle when carried. Further, in the wine glass disclosed in Patent Document 1, it is described that the ball portion and the stem are removable, and the stem is configured such that the attached and detached stem can be stored in the storage portion (ball portion). ing. However, even in this wine glass, the size of the storage section has a certain volume, so even when the stem section is stored in the storage section, it is necessary to secure a certain amount of space.

What is required is that a glass container such as a wine glass can contain a predetermined volume of liquid when pouring liquid into it, and must also be below a certain size when storing or carrying the container. Thus, it is an object of the present invention to provide a container in which the bowl portion can be disassembled and assembled.

The assembly type container according to the present invention includes an upper body portion having a first connector portion, and a lower body portion having a second connector portion coupled to the first connector portion of the upper body portion. The upper main body part and the lower main body part are configured to be assembled and/or disassembled using the first connector part and the second connector part, and the first connector part and the second connector part The bottom surface portion of the first connector portion and the bottom surface portion of the second connector portion are arranged to face each other when the two connector portions are combined, and the bottom surface portion of the second connector portion has an inclined surface that slopes downward toward the inside in the radial direction, and when the first connector portion and the second connector portion are connected, the bottom surface portion of the first connector portion and the second connector A gap portion is formed between the bottom surface portion of the portion and the bottom portion of the portion.

In the assembly type container according to the present invention, when the first connector part and the second connector part are connected, the bottom part of the first connector part and the bottom part of the second connector part are arranged to face each other. The bottom surface of the second connector part has an inclined surface that slopes downward toward the inside in the radial direction, and when the first connector part and the second connector part are connected, A gap is formed between the bottom surface of the connector section and the bottom surface of the second connector section. Since the cavity is formed so as to be inclined downward toward the inside in the radial direction, the length of the cavity through which the liquid passes is equal to the length of the bottom of the first connector part and the bottom of the second connector part. Compared to when the gap is formed substantially horizontally, the gap is elongated. As a result, when liquid is poured into the assembly type container and tilted, the amount of liquid flowing out of the gap can be effectively reduced. Furthermore, even when liquid moves into the cavity, the inclined surface slopes upward relative to the movement of liquid radially outward in the cavity, compared to when the cavity is formed approximately horizontally. It is possible to effectively prevent leakage of the liquid to the outside of the cavity. Further, when liquid is present in the gap, by standing the assembled container upright, the liquid can move radially inward of the gap along the inclined surface and return to the liquid storage part.

Further, in the assembly type container according to the present invention, the bottom part of the first connector part has a first water stop part having a convex or concave shape, and the bottom part of the second connector part has the first water stop part. It has a second water stop part having an uneven shape corresponding to the shape of the water part, and when the first connector part and the second connector part are connected, the first water stop part comes into contact with the second water stop part. It may be characterized by being configured so that they touch each other.

In the assembly type container according to the present invention, the bottom part of the first connector part has the first water stop part, and the bottom part of the second connector part has the second water stop part. When the first connector part and the second connector part are connected, the gap formed between the first connector bottom part and the second connector bottom part is elongated compared to when the gap part is formed substantially horizontally. By extending the gap, when liquid is poured into the sectional container, it is possible to effectively reduce the amount of liquid flowing out of the sectional container from the gap. Furthermore, by the first water stop portion coming into contact with the second water stop portion, it is possible to dam the gap and effectively prevent liquid from leaking from the gap to the outside of the assembly type container. can.

Further, in the assembly type container according to the present invention, the second water stop part has a concave shape, and the concave shape of the second water stop part has a tapered shape whose width decreases as it goes downward. may be a feature.

In the assembly type container according to the present invention, the concave shape of the second water stop part has a tapered shape whose width decreases as it goes downward, so that when the first connector part and the second connector part are assembled, The length of the gap between the second water stop part and the first water stop part is longer than when it is installed almost vertically, and when liquid is poured into the assembly type container and tilted, the liquid flows outside the gap. Movement can be effectively reduced. In addition, the second water stop part and the first water stop part face each other and form an abutting part, which dams the gap and prevents liquid from leaking from the gap to the outside of the assembly type container. , can be effectively prevented.

Further, in the assembly type container according to the present invention, the second water stop part has a concave shape and has a water storage part on the bottom surface of the second water stop part, and the first water stop part and the second water stop part have a concave shape. A space for holding liquid may be formed in the water storage portion when the water stop portions face each other.

In the assembly type container according to the present invention, the second water stop part has a concave shape and has a water storage part on the bottom surface of the second water stop part, so that the first water stop part and the second water stop part are connected to each other. When facing each other, a space for holding liquid is formed in the water storage section. As a result, when liquid is poured into the assembly type container, it is possible to effectively prevent the liquid from leaking out of the assembly type container from the gap due to, for example, capillarity. Furthermore, even if liquid exists between the first water stop part and the second water stop part of the assembled prefabricated container, by standing the prefabricated container, the liquid will flow downward into the gap. It can be moved and stored in a water storage area.

In the assembly type container according to the present invention, the side surface portion of the second connector portion may have a second connector inner peripheral surface tapered portion that slopes downward.

In the assembly type container according to the present invention, the side surface portion of the second connector portion may have a second connector inner circumferential surface tapered portion that slopes downward. As a result, the contact portion formed between the tapered inner circumferential surface portion of the second connector and the outer circumferential surface portion of the first connector is reduced by the gap formed between the inner circumferential surface portion of the second connector and the outer circumferential surface portion of the first connector. By damming the gap, when liquid is poured into the assembly type container and tilted, it is possible to effectively prevent the liquid from leaking out of the gap.

In the assembly type container according to the present invention, the bottom part of the first connector part has a first water stop part having a convex or concave shape, and the bottom part of the second connector part has the first water stop part. a second water stop part having an uneven shape corresponding to the shape of the first water stop part, and when the first connector part and the second connector part are connected, the first water stop part and the second water stop part are connected. At the same time, the side surface of the upper main body comes into contact with the tapered inner circumferential surface of the second connector, so that the connecting portion of the first water stop part and the second water stop part are pressed against each other. It may be characterized by being configured.

In the assembly type container according to the present invention, the bottom part of the first connector part has the first water stop part having a convex or concave shape, and the bottom part of the second connector part has the shape of the first water stop part. It has a second water stop part having a corresponding uneven shape, and when the first connector part and the second connector part are connected, the first water stop part and the second water stop part are connected, and the second water stop part is connected to the second water stop part. The connecting portion of the first water stop portion and the second water stop portion is configured to be pressed against each other by the side surface portion of the upper main body portion coming into contact with the inner peripheral surface tapered portion. As a result, the contact portion between the first water stop portion and the second water stop portion dams the gap from a different direction from the contact portion between the tapered inner circumferential surface of the second connector and the side surface portion of the upper main body. I can do it. The abutment part of the second connector inner circumferential surface taper part and the first connector, and the abutment part of the first water stop part and the second water stop part work together to dam the gap, so that the assembly type container can be assembled. When the liquid is poured and tilted, it is possible to effectively prevent the liquid from leaking to the outside of the assembly type container.

Moreover, in the assembly type container according to the present invention, the upper body part is configured to be disassembled from the lower body part and stored in the lower body part, and the upper body part is disassembled from the lower body part. When storing the first connector part, the first connector part may be inserted through the opening of the lower main body part with the first connector part upside down and can be stored.

In the assembly type container according to the present invention, the upper main body part is configured to be disassembled from the lower main body part and stored in the lower main body part. When storing the upper main body part in the lower main body part, the first connector part is inserted and stored through the opening of the lower main body part with the first connector part upside down. As a result, compared to a state in which the upper main body part and the lower main body part are assembled, it can be made in a state that is less likely to be destroyed by, for example, vibrations and shocks during transportation. Further, since the upper main body part is configured to be able to be stored in the lower main body part, the bulk can be reduced compared to a state in which the upper main body part and the lower main body part are assembled.

The assembly type container according to the present invention may further include a leg part that is removably attached to the lower main body part. The leg portion may have a bowl receiving portion. Further, the lower main body portion may have a leg receiving portion. The leg portion and the lower main body portion are configured to be disassembled via the bowl holder portion and the leg holder portion. Furthermore, by inserting the leg portion upside down through the opening of the lower body portion from the bowl holder side, the leg portion and the inner circumferential surface portion of the second connector portion may face each other. However, the leg portion may be configured to be able to be stored in the lower main body portion.

In the assembly type container according to the present invention, by inserting the leg from the bowl holder side through the opening of the lower main body while the leg is upside down, the leg and the inner circumferential surface of the second connector are connected to each other. are arranged so that the legs can be stored in the lower main body. As a result, compared to a state in which the lower main body part and the leg receiver part are assembled, the assembled container can be carried in a state where it is less likely to be destroyed by vibrations and shocks when being transported. Furthermore, since the lower main body can be stored in the legs, the bulk can be reduced and it can be easily carried.

Further, in the assembly type container according to the present invention, the leg portion may include a stem portion for attaching to and detaching from the lower main body portion, and a plate portion connected to the stem portion. Further, when storing the leg portion in the lower main body portion, a fourth joint portion provided on the plate portion is joined to a third joint portion provided on the second connector portion, and the leg portion is housed in the lower body portion. , it may be characterized in that it is configured to be fixable to the lower main body.

In the assembly type container according to the present invention, the leg portion can have a stem portion for attaching to and detaching from the lower main body portion, and a plate portion connected to the stem portion. When storing the legs in the lower body part, the fourth joint part provided on the plate part of the leg parts is joined to the third joint part provided in the second connector part, and the legs are stored in the lower body part. It can be configured so that it can be fixed to the main body. As a result, for example, when the sectional container is transported, the lower main body portion and the leg portions can be prevented from disassembling due to vibration. Furthermore, since the lower body part and the leg part can be fixed, the plate part has a function as a lid, and it is possible to prevent foreign matter such as dust from entering.

The assembly type container according to the present invention includes an upper body portion having a first connector portion, and a lower body portion having a second connector portion coupled to the first connector portion of the upper body portion. Since the lower body part is configured to be assembled and/or disassembled using the first connector part and the second connector part, when pouring a liquid such as wine into an assembly type container, the upper body part and It can be combined with the lower main body portion to accommodate a predetermined liquid. Furthermore, when carrying the assembly type container or storing it on a shelf, etc., the upper body part and the lower body part can be disassembled, so it can be easily carried or stored without taking up a certain amount of space. I can do it.

Furthermore, when the joint part of the first connector part is joined to the joint part of the second connector part, an abutting part is formed between the respective parts, so that the upper main body part and the lower main body part are connected to each other. Even if the parts are connected, liquid is poured, and the assembly type container is tilted, the liquid leaking from the joint between the upper body part and the lower body part will be blocked by this abutting part and will not flow out of the assembly type container. It is possible to prevent leakage.

FIG. 1 is a diagram for schematically explaining an assembly type container. Moreover, it is a figure which shows schematically the perspective view of a container. FIG. 2 is a diagram schematically showing a cross-sectional view of the sectional container when the sectional container is assembled. FIG. 3 is a side view schematically illustrating the upper main body of the assembly type container. FIG. 4 is a perspective view schematically illustrating the lower main body of the assembly type container. FIG. 5 is a schematic enlarged view of section A in FIG. FIG. 6 is a schematic enlarged view of section B in FIG. FIG. 7 is a diagram schematically illustrating a state in which the assembly type container is disassembled and the upper body part is housed in the lower body part. FIG. 8 is a diagram schematically illustrating a state in which the assembly type container is disassembled and the upper body part and the legs are housed in the lower body part.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an assembly type container according to the present invention will be described in detail with reference to the drawings. In addition, in the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description will be omitted. In the description, directional terms such as "up" and "down" are terms of convenience based on the state shown in the drawings.

The container according to this embodiment is a container that can be freely assembled, disassembled, and stored. First, the assembled container 1 will be explained in detail below.

(assembled container)
FIG. 1 is a diagram for schematically explaining an assembly type container 1 according to a first embodiment. FIG. 1 shows a perspective view of an assembly type container 1. Further, FIG. 2 shows a sectional view of the assembly type container 1. Note that FIG. 2 shows the central axis Ax1 of the assembly type container 1. Moreover, FIG. 3 is a side view for schematically explaining the upper main body part 3 of the assembly type container 1. Moreover, FIG. 4 is a perspective view for schematically explaining the lower main body part 4 of the assembly type container 1. Further, FIG. 5 is a schematic enlarged view of section A in FIG. 2. As shown in FIG. Further, FIG. 6 is a schematic enlarged view of section B in FIG. 5. As shown in FIG.

In FIG. 1, the assembly-type container 1 can include a container body 2 and legs 50, which are arranged in order in the vertical direction.

Further, as shown in FIG. 2, the container main body 2 includes an upper main body 3 having a first connector portion 5 arranged in order in the extending direction of the central axis Ax1, and a first connector portion of the upper main body 3. A lower body part 4 having a second connector part 6 coupled to 5 can be provided.

The upper main body part 3 and the lower main body part 4 are configured to be able to be assembled and disassembled using a first connector part 5 and a second connector part 6.

The upper main body portion 3 of the assembly type container 1 has a first opening 7 having a substantially circular shape. When pouring a liquid 14 such as water, alcohol, wine, etc. into the assembly type container 1, the upper body part 3 and the lower body part 4 are combined to form the container body part 2, and the predetermined liquid is poured from the first opening 7. 14 can be injected and contained.

The upper main body part 3 has a second opening 8 having a substantially circular shape on the side where it is combined with the lower main body part 4 . In this embodiment, the upper main body portion 3 can have a substantially truncated conical shape, for example, in which the second opening 8 has a larger diameter than the first opening 7. However, the shape of the upper body portion 3 is not limited to this, and may have a substantially cylindrical shape, for example.

The lower body part 4 is provided so that the second connector part 6 is coupled to the first connector part 5 of the upper body part 3 so that it can be assembled and disassembled from the upper body part 3. Further, the lower body portion 4 can have a substantially circular third opening 9 on the side that is coupled to the upper body portion 3 .

Referring again to FIG. 2, a leg receiving portion 40 is provided near the bottom of the lower main body portion 4. As shown in FIG. The leg receiving part 40 is a connecting part for coupling with the leg part 50. The assembly type container 1 can further be provided with a container main body 2 and leg portions 50 that are detachable.

Subsequently, the central axis Ax1 shown in FIG. 2 passes through approximately the center of the first opening 7, the second opening 8, and the third opening 9, which are approximately circular. From the top of FIG. 2, the first opening 7, the third opening 9, and the second opening 8 are arranged in this order.

By inserting the upper body part 3 vertically into the third opening 9 of the lower body part 4 from the second opening 8 side along the central axis Ax1, the upper body part 3 is inserted into the lower body part 4. Can be combined.

The upper main body part 3, the lower main body part 4, and the leg parts 50 that constitute the assembly type container 1 are made of, for example, resin such as glass or plastic, stone such as ceramic, metal such as aluminum, copper, or stainless steel, or wood such as cedar. can become. In this embodiment, the material of the upper body part 3, the lower body part 4, and the legs 50 can be made of glass.

Next, the upper main body portion 3 will be explained using FIG. 3. FIG. 3 is a side view of the upper body part 3.

As shown in FIG. 3, the upper body part 3 can have a cylindrical part 10 and a first connector part 5 for connecting to the lower body part 4. As shown in FIG. The first connector section 5 is provided on one end side of the cylindrical section 10. Further, a first opening 7 is provided at the other end of the cylindrical portion 10 .

The first connector part 5 can have a first joint part 11 provided on the outer peripheral surface for fixing to the second connector part 6. The first joint part 11 is a fixing part provided on the outer peripheral surface of the first connector part 5, and when the first connector part 5 and the second connector part 6 are connected, the upper main body part 3 and the lower main body part 4 are connected. Provided to secure it and prevent it from falling off.

In this embodiment, the first joint portions 11 are provided in three locations on the outer peripheral surface of the first connector portion 5 in a concave shape. However, the first joint part 11 is not limited to this, as long as it can be fixed and prevented from falling off when the first connector part 5 of the upper main body part 3 and the second connector part 6 of the lower main body part 4 are connected, for example. It can be provided partially on the outer circumferential surface of the first connector portion 5, or it can be provided continuously over the entire circumference of the outer circumferential surface.

Referring again to FIG. 2, the second connector part 6 of the lower main body part 4 has a second joint part 12 having a convex shape corresponding to the first joint part 11 of the first connector part 5 on the inner peripheral surface. ing. The second joint part 12 is connected to the first joint part 11 when fixing the first connector part 5 of the upper main body part 3 to the second connector part 6 of the lower main body part 4. The lower main body part 4 is fixed to prevent it from falling off.

In this embodiment, the convex part of the second connector part 6 is fitted into the concave part of the first joint part 11 by the concave part, so that the upper body part 3 can be fixed without falling off from the lower body part 4. . When coupling and fixing the upper main body part 3 and the lower main body part 4, the second opening 8 side of the first connector part 5 is vertically moved from the third opening 9 of the lower main body part 4 along the second connector part 6. direction, and when the first joint part 11 and the second joint part 12 face each other, by twisting, the first joint part 11 and the second joint part 12 fit together, and the upper main body part 3 and the lower main body part 4 are combined and fixed to form the container main body part 2.

Further, as will be described in detail later, in this embodiment, when the first connector part 5 and the second connector part 6 are connected, there is a packing etc. between the first connector part 5 and the second connector part 6. Since the first connector part 5 and the second connector part 6 are directly connected without providing a sealing member, a gap 20 is formed between the first connector part 5 and the second connector part 6. (See Figure 5).

Next, the lower main body portion 4 will be explained with reference to FIG. 4. FIG. 4 is a perspective view schematically showing the lower main body portion 4. As shown in FIG.

First, the lower main body portion 4 is provided with a third opening 9 at its upper portion. The third opening 9 is in contact with one end side of the second connector part 6, and when assembling the container body 2, the upper body 3 is inserted into the third opening 9. Can be assembled.

On the other hand, a liquid storage section 13 for storing liquid 14 is provided on the bottom side of the lower main body section 4, which is the other end side of the second connector section 6. The liquid storage section 13 is a bowl-shaped bowl section that can store a liquid 14 such as water, alcohol, wine, or the like.

In this embodiment, the liquid storage section 13 is provided in a bowl shape. However, the shape is not limited to this, and the liquid storage section 13 can have any shape, for example, it can have a polyhedral shape or the like.

Further, the second connector part 6 of the lower main body part 4 can have a second joint part 12 on the inner circumferential surface for joining with the first joint part 11 of the first connector part 5. The second joint portion 12 corresponds in shape to the first joint portion 11 and is formed on the inner peripheral surface of the second connector portion 6 .

In this embodiment, the second joint portions 12 are partially provided at three locations on the inner circumference of the second connector portion 6 as convex joint portions. However, the present invention is not limited to this, and the second joint part 12 may be fixed when the first connector part 5 and the second connector part 6 are combined to prevent the second joint part 12 from falling off. It can be provided partially on the inner circumferential surface of the 2-connector portion 6, or it can be provided continuously over the entire circumference of the inner circumferential surface.

As mentioned above, in the assembly type container 1, the upper main body part 3 can be combined with the lower main body part 4 to form an integral container. On the other hand, the upper main body part 3 is also configured so that it can be disassembled from the lower main body part 4.

Further, as will be described in detail later, the disassembled upper main body part 3 is configured to be able to be stored in the lower main body part 4. At this time, the lower main body part 4 is provided so as to accommodate the upper main body part 3 and further accommodate the leg parts 50. Therefore, in order to store the upper main body part 3 and the legs 50 using the second connector part 6, the length of the second connector part 6 in the depth direction is set as necessary to store the upper main body part 3. It is set longer than the length.

Note that when storing the leg portion 50 in the lower main body portion 4, the inner peripheral side of the second connector portion 6 and the leg portion 50 are opposed to each other, and the third joint portion 41 provided on the second connector portion 6 is used. The lower main body portion 4 and the leg portions 50 can be fixed together to prevent them from falling off.

In this embodiment, the third joint part 41 has a concave shape and is provided so as to be joined to the connection part of the leg part 50. However, the third joint part 41 is not limited to this, and it is sufficient that the third joint part 41 can be fixed when the leg part 50 is stored in the lower main body part 4 and can be prevented from falling off. For example, the third joint part 41 may be provided in a convex shape.

Next, a state in which the upper main body part 3 and the lower main body part 4 are combined will be described using FIGS. 5 and 6. FIG. 5 is a cross-sectional view schematically showing an enlarged state of section A shown in FIG. 2. FIG. Further, FIG. 5 shows a central axis Ax1 and a horizontal axis Ax2 perpendicular to the central axis Ax1. Note that FIG. 6 is a cross-sectional view schematically showing an enlarged state of section B in FIG. 5. As shown in FIG.

First, the first connector section 5 will be explained using FIG. 5. As shown in FIG. 5, the first connector portion 5 is provided below the cylindrical portion 10 of the upper main body portion 3. As shown in FIG. The first connector portion 5 can have a first connector outer peripheral surface portion 15 , a first connector bottom surface portion 16 , and a first connector top surface portion 17 .

The first connector outer circumferential surface section 15 has one end, which is the lower side, connected to the first connector bottom surface section 16 , and the other end, which is the upper side, is connected to the first connector upper surface section 17 . Further, a cylindrical portion 10 is provided at the upper part of the first connector upper surface portion 17. On the other hand, a second opening 8 is provided at the lower part of the first connector bottom surface 16 .

Next, referring again to FIG. 5, the second connector section 6 will be explained. As shown in FIG. 5, the second connector section 6 is provided above the liquid storage section 13. The second connector section 6 can have a second connector inner peripheral surface section 18 and a second connector bottom surface section 19 .

The second connector inner circumferential surface portion 18 is provided so as to face and at least partially abut against the first connector outer circumferential surface portion 15 of the upper main body portion 3 when the upper body portion 3 and the lower body portion 4 are coupled. It has a third opening 9 at the top and is connected to the second connector bottom part 19 at the bottom.

Further, the upper portion of one end side of the second connector bottom surface portion 19 is connected to the second connector inner peripheral surface portion 18 . Note that a liquid storage section 13 is provided on the other end side of the second connector bottom surface section 19.

The second connector bottom part 19 is provided so that it can face and at least partially abut the first connector bottom part 16 of the first connector part 5 when the upper main body part 3 and the lower main body part 4 are assembled. There is.

Further, as will be described in detail later, the second connector bottom portion 19 can have a second water stop portion 22. The second water stop portion 22 is provided in a concave shape over the entire circumference of the second connector bottom surface portion 19.

In addition, in this embodiment, the 2nd water stop part 22 is provided so that it may have a concave shape. However, the present invention is not limited thereto, and the second water stop portion 22 may be provided, for example, in a square notch shape or a convex shape.

On the other hand, the first connector bottom part 16 can also have a first water stop part 21 corresponding to the second water stop part 22 . The first water stop part 21 is provided over the entire circumference of the first connector bottom part 16, and is arranged so that it can face the second water stop part 22 of the second connector bottom part 19 and come into contact with it at least partially. It is provided.

When the first connector part 5 and the second connector part 6 are connected, the first water stop part 21 and the second water stop part 22 face each other, and the first water stop part 21 contacts the second water stop part 22. be able to.

In this embodiment, the first water stop part 21 is provided in a convex shape corresponding to the second water stop part 22. However, the present invention is not limited thereto, and the first water stop portion 21 may face the second water stop portion 22 and may be partially in contact with the second water stop portion 22. For example, the first water stop portion 21 may be provided to have a concave shape.

Next, the relationship between the first connector section 5 and the second connector section 6 will be explained using FIG. 5 again.

First, when assembling the upper body part 3 and the lower body part 4 to form the container body part 2, the first connector outer peripheral surface part 15 of the first connector part 5 and the second connector inner peripheral surface part 18 of the second connector part 6 are assembled. are facing each other. Continuing, as the upper body part 3 is inserted deeply into the lower body part 4, the first connector bottom part 16 and the second connector bottom part 19 gradually face each other, and the upper body part 3 and the lower body part 4 are provided so that they can be combined. It is being

In the assembly type container 1, when the upper main body part 3 and the lower main body part 4 are assembled, the first connector part 5 and the second connector part 6 are combined, and the combined first connector outer peripheral surface part 15 and the second connector inner peripheral surface part are connected. One end of the connector 18 is connected to the outside of the container body 2, and the other end is connected to a joint between the first connector bottom 16 and the second connector bottom 19. Further, the other end of the joint between the first connector bottom surface section 16 and the second connector bottom surface section 19 is connected to the liquid storage section 13 .

Further, the first connector bottom surface portion 16 and the second connector bottom surface portion 19, and the first connector outer peripheral surface portion 15 and the second connector inner peripheral surface portion 18, which are arranged in a coupled manner, are formed so as to abut over the entire surface. That can be difficult.

In the assembly type container 1, the first connector part 5 and the second connector part 6 are directly connected without providing a sealing member such as a packing between the first connector part 5 and the second connector part 6. Therefore, when the first connector part 5 and the second connector part 6 are connected, a gap 20 is formed between the first connector part 5 and the second connector part 6.

When drinking the liquid 14 in the assembly type container 1, the assembly type container 1 is tilted, and the liquid 14 flows from the liquid storage part 13 through the gap 20 between the first connector bottom part 16 and the second connector bottom part 19. There is a risk that the liquid may reach the gap 20 between the first connector outer circumferential surface portion 15 and the second connector inner circumferential surface portion 18, and further leak to the outside.

However, for example, even if the liquid 14 flows from the liquid storage part 13 into the gap 20 through the first connector bottom part 16 and the second connector bottom part 19, the first connector bottom part 16 and the second connector bottom part 19, which are opposite to each other, The connector bottom surface portion 19 and the first connector outer peripheral surface portion 15 and the second connector inner peripheral surface portion 18 are inclined or have contact portions that can partially contact each other, thereby damming the flow of the liquid 14 and preventing the liquid 14 from flowing. It is possible to prevent leakage from the cavity 20 to the outside of the assembly type container 1.

Next, the state in which the upper main body part 3 and the lower main body part 4 are combined will be described in detail using FIG. 6. FIG. 6 is a schematic enlarged view of section B in FIG. 5. As shown in FIG. Note that FIG. 6 shows a central axis Ax1, a horizontal axis Ax2, and a vertical axis Ax3 perpendicular to the horizontal axis Ax2.

First, with reference to FIG. 6, the inclined surface portions provided on the first connector bottom surface portion 16 and the second connector bottom surface portion 19 will be described.

As shown in FIG. 6, the second connector bottom surface portion 19 of the second connector portion 6 has an inclined surface 23 that is inclined radially inward and downward by an angle Θ1 with respect to the horizontal axis Ax2. I can do it.

In addition, since the first connector bottom part 16 is provided so as to face and partially abut against the second connector bottom part 19, the first connector bottom part 16 is also provided at an angle of approximately Θ1. ing.

When the container main body part 2 is assembled, the first connector bottom part 16 of the first connector part 5 faces the second connector bottom part 19 of the second connector part 6, so that the first connector bottom part 16 and the second connector bottom part 19 of the second connector part 6 are inclined by approximately an angle Θ1, and at least It can be partially touched. Therefore, a gap 20 is formed between the first connector bottom surface part 16 and the second connector bottom surface part 19 so as to be inclined by approximately an angle Θ1 from the horizontal axis Ax2 according to the inclined surface 23.

The gap 20 between the first connector bottom surface part 16 and the second connector bottom surface part 19 is formed to be inclined downwardly from the horizontal axis Ax2 toward the inside in the radial direction, so that the liquid in the prefabricated container 1 is The length of the gap 20 through which the liquid 14 passes when the liquid 14 is poured is as compared to when the gap 20 between the first connector bottom part 16 and the second connector bottom part 19 is formed substantially horizontally. Stretched.

By extending the cavity 20, when the liquid 14 is poured into the assembly type container 1 and tilted, the liquid 14 flowing out from the cavity 20 to the outside of the assembly type container 1 can be retained in the cavity 20, for example. Since the volume increases, it can be effectively reduced.

Further, by having the inclined surface 23, even if the liquid 14 moves into the gap 20 between the second connector bottom surface section 19 and the first connector bottom surface section 16, the inclined surface 23 will prevent the liquid 14 from moving into the gap section 20. Compared to when the gap 20 is formed substantially horizontally, the liquid 14 is inclined upwardly relative to the liquid 14 moving radially outward within the gap 20, making it possible to effectively prevent the liquid 14 from leaking to the outside of the gap 20. can.

Further, when the liquid 14 is present in the cavity 20, by standing the assembled container 1 upright, the liquid 14 can move radially inward of the cavity 20 along the inclined surface 23 and return to the liquid storage part 13.

Note that this angle Θ1 is an angle formed between the extension line of the inclined surface 23 provided on the second connector bottom part 19 and the central axis Ax1 radially outward and upward, and for example, 30 degrees < Θ1 < 90 degrees.

In this embodiment, the inclined surface 23 is provided along the entire circumference of the second connector bottom surface portion 19. However, the present invention is not limited thereto, and the inclined surface 23 may be provided, for example, partially on the second connector bottom surface portion 19.

Further, in this embodiment, the inclined surfaces 23 are provided at substantially equal angles along the entire circumference of the second connector bottom surface portion 19. However, the present invention is not limited thereto, and the inclined surface 23 may be provided at a plurality of different angles, for example, on the second connector bottom surface portion 19.

Next, referring to FIG. 6 again, the first water stop section 21 and the second water stop section 22 will be described.

As shown in FIG. 6, the first connector bottom part 16 can have a first water stop part 21, and the second connector bottom part 19 can have a second water stop part 22.

As mentioned above, in this embodiment, the second connector bottom surface part 19 has the second water stop part 22 provided in a concave shape, the first connector bottom surface part 16 corresponds to the second water stop part 22, 1. The water stop portion 21 is provided in a convex shape.

When the upper main body part 5 and the lower main body part 6 are combined to form the container main body part 2, the first water stop part 21 and the second water stop part 22 are arranged to face each other, and the first water stop part 21 and the second water stop portion 22 are configured so that they can at least partially abut.

In this embodiment, the first water stop part 21 and the second water stop part 22 are provided so that they can be fitted, and when the first connector part 5 and the second connector part 6 are connected, the first water stop part 21 is fitted into the second water stop part 22 by unevenness, so that the first water stop part 21 is inserted into the second water stop part 22, and the outer peripheral surface of the first water stop part 21 is aligned with the second water stop part 22. A cavity is formed facing the outer circumferential surface of.

The first water stop part 21 faces the second water stop part 22 and forms a gap, so that the gap 20 between the first connector bottom part 16 and the second connector bottom part 19 is approximately horizontal. compared to when it was formed.

By extending the void 20, when the liquid 14 is poured into the prefabricated container 1, the amount of liquid 14 that leaks out of the prefabricated container 1 from the void 20 can be reduced, for example, from the void 20 to the pipe line. Since the length subject to frictional resistance is extended, it can be effectively reduced.

In addition, since the first water stop part 21 and the second water stop part 22 form a contact part, the void part 20 can be dammed, and when the liquid 14 is poured into the assembly type container 1 and tilted, the void part It is possible to effectively prevent the liquid 14 from leaking from the container 20 to the outside of the assembly type container 1.

Next, referring to FIG. 6 again, the first water stop part 21 and the second water stop part 22 are provided with inclined taper parts on the radially outer peripheral side surface and the inner peripheral side surface. There is.

The tapered portions provided in the first water stop portion 21 and the second water stop portion 22 are formed such that the width of the concave shape becomes smaller as going downward from the opening.

First, as shown in FIG. 6, the side surface portion on the radially outer peripheral side of the second water stop portion 22 is inclined upwardly toward the radially outer side by an angle Θ2 with respect to the horizontal axis Ax2. , the second water stop portion may have an outer circumferential tapered portion 24.

Further, the first water stop portion 21 can have a first water stop portion outer circumferential tapered portion 25 on the side surface on the radially outer circumferential side.

As mentioned above, the first water stop part 21 is provided so as to face and partially abut against the second water stop part 22, and the first water stop part outer periphery tapered part 25 also extends from the second water stop part outer periphery. It is provided so as to face the tapered portion 24 and to be able to partially abut it.

In this embodiment, when the container main body 2 is assembled, the second water stop part outer circumferential tapered part 24 and the first water stop part outer circumference taper part 25 are opposed to each other at an angle of approximately Θ2 with respect to the horizontal axis Ax2. , is configured to be able to abut at least a portion of it.

The second water stop part outer periphery taper part 24 and the first water stop part outer periphery taper part 25 face each other at an angle of approximately Θ2 from the horizontal axis Ax2, so that the second water stop part outer periphery taper part 24 and the first water stop part The gap portion 20 between the outer peripheral tapered portions 25 is also formed to be inclined.

Since the gap 20 between the second water stop part outer circumferential tapered part 24 and the first water stop part outer circumference taper part 25 is formed to be inclined, the length of the gap part 20 is equal to the length of the first water stop part 21. and the second water stop portion 22 are provided substantially vertically and are extended compared to when they face each other.

By stretching the cavity 20, when the liquid 14 is poured into the prefabricated container 1 and tilted, for example, the volume of the liquid 14 that can be held in the cavity 20 increases, so that the volume of the liquid 14 that can be held in the prefabricated container 1 increases from the cavity 20. The amount of liquid 14 moving to the outside can be effectively reduced.

Furthermore, when the first water stop section 21 and the second water stop section 22 face each other, the second water stop section outer circumference tapered section 24 and the first water stop section outer circumference taper section 25 can form an abutting section. .

The second water stop part outer periphery taper part 24 and the first water stop part outer periphery taper part 25 form a contact part, so that the gap 20 can be dammed, and the liquid 14 can be poured into the assembly type container 1 and tilted. At this time, it is possible to effectively prevent the liquid 14 from leaking out of the assembly type container 1 from the cavity 20.

Note that this angle Θ2 is an angle formed by the extension line of the second water stop part outer circumferential tapered part 24 and the horizontal axis Ax2 radially inward and downward, for example, "45 degrees < Θ2 < 90 degrees". can be in the range of

In the present embodiment, the second water stop portion outer circumferential tapered portion 24 is provided along the entire circumference of the second water stop portion 22 on the radially outer circumferential side, but is not limited to this, and may be provided partially. can.

Further, in this embodiment, the second water stop portion outer circumferential tapered portion 24 is provided at an equal angle over the entire circumference of the second water stop portion 22. However, the present invention is not limited thereto, and the second water stop portion outer circumferential tapered portion 24 may be provided at a plurality of different angles, for example.

Subsequently, as shown in FIG. 6, the radially inner side surface of the second water stop portion 22 is inclined upwardly toward the radially inner side by an angle Θ3 with respect to the horizontal axis Ax2. In addition, the second water stop portion may have an inner circumferential tapered portion 26.

Further, the first water stop portion 21 may have a first water stop portion inner circumferential tapered portion 27 on the radially inner side surface.

As described above, the first water stop part 21 is provided so as to face and partially abut against the second water stop part 22, and the first water stop part 21 also has an inner circumferential tapered part of the second water stop part. It can be provided so that it can partially abut against 26 while facing it.

In the present embodiment, when the container main body 2 is assembled, the second water stop part inner circumferential tapered part 26 and the first water stop part inner circumference taper part 27 face each other at an angle of approximately Θ2 with respect to the horizontal axis Ax2, It is configured so that at least a portion of it can come into contact with it.

The second water stop part inner circumferential tapered part 26 and the first water stop part inner circumference taper part 27 face each other at an angle of approximately Θ3 from the horizontal axis Ax2, so that the second water stop part inner circumference taper part 26 and the first water stop part The gap portion 20 between the inner peripheral tapered portions 27 is also formed to be inclined.

Since the gap 20 between the second water stop part inner circumference tapered part 26 and the first water stop part inner circumference taper part 27 is formed to be inclined, the length of the gap part 20 is equal to the length of the first water stop part 21. and the second water stop portion 22 are provided substantially vertically and are extended compared to when they face each other.

By stretching the cavity 20, when the liquid 14 is poured into the prefabricated container 1 and tilted, for example, the volume of the liquid 14 that can be held in the cavity 20 increases, so that the volume of the liquid 14 that can be held in the prefabricated container 1 increases from the cavity 20. The amount of liquid 14 moving to the outside can be effectively reduced.

Furthermore, when the first water stop section 21 and the second water stop section 22 face each other, the second water stop section inner circumference tapered section 26 and the first water stop section inner circumference taper section 27 can form an abutting section. .

The second water stop part inner periphery taper part 26 and the first water stop part inner periphery taper part 27 form a contact part, so that the cavity 20 can be dammed, and the liquid 14 can be poured into the assembly type container 1 and tilted. At this time, it is possible to effectively prevent the liquid 14 from leaking out of the assembly type container 1 from the cavity 20.

Note that this angle Θ3 is an angle formed by the extension line of the inner circumferential tapered part 26 of the second water stop part and the horizontal axis Ax2 radially outward and downward, for example, "45 degrees < Θ3 < 90 degrees". It can be a range.

In the present embodiment, the second water stop portion inner circumferential tapered portion 26 is provided along the entire radially inner circumference of the second water stop portion 22, but is not limited to this, and may be provided partially. can.

Further, in this embodiment, the second water stop portion inner circumferential tapered portion 26 is provided at an equal angle over the entire circumference of the second water stop portion 22. However, the present invention is not limited thereto, and the second water stop portion inner circumferential tapered portion 26 may be provided at a plurality of different angles, for example.

Next, the second water stop portion 22 will be explained using FIG. 6 again. As shown in FIG. 6, the second water stop section 22 can have a water storage section 28 on the bottom surface.

The water storage section 28 is an extension of the bottom surface of the second water stop section 22, and when the first water stop section 21 and the second water stop section 22 face each other, the first water stop section 21 and the second water stop section 22 A space for the water reservoir 28 to hold the liquid 14 can be formed in the gap 20 between the two.

By further forming a space in the void 20 formed between the first water stop part 21 and the second water stop part 22, when the liquid 14 is poured into the assembly type container 1, for example, due to the occurrence of capillary phenomenon. Leakage of the liquid 14 to the outside of the cavity 20 can be effectively prevented.

Moreover, even if the liquid 14 exists between the first water stop part 21 and the second water stop part 22, by standing the assembly type container 1 upright, the liquid 14 will move downward into the gap part 20. It can be moved and stored in the water storage section 28.

In this embodiment, the water storage section 28 is provided at one location in the second water stop section 22. However, the present invention is not limited thereto, and the water storage section 28 may be provided, for example, over the entire circumference of the second water stop section 22.

Further, in this embodiment, since the second water stop portion 22 is provided in a concave shape, the water storage portion 28 is provided as an extension portion. However, the present invention is not limited thereto, and the water storage section 28 may be configured such that an additional space is provided in the gap 20 between the first water stop section 21 and the second water stop section 22. When provided as a shape, it can also be provided as a shortened portion of the second water stop portion 22.

Next, the contact portion provided between the second connector inner circumferential surface portion 18 and the first connector outer circumferential surface portion 15 will be described using FIG. 6. Further, FIG. 6 shows a vertical axis Ax3 that is perpendicular to the horizontal axis Ax2.

First, as shown in FIG. 6, the second connector inner circumferential surface portion 18 has a second connector inner circumferential surface tapered portion 29 that is inclined downwardly from the vertical axis Ax3 toward the inside in the radial direction by an angle Θ4. I can do it. The second connector inner circumferential surface tapered portion 29 is an inclined portion provided so as to be able to partially contact the first connector outer circumferential surface portion 15 .

Since the second connector inner peripheral surface part 18 has the second connector inner peripheral surface tapered part 29, when the upper main body part 3 and the lower main body part 4 are assembled to form the container main body part 2, the second connector inner peripheral surface taper part 29 and the first connector outer circumferential surface portion 15 can face each other to form an abutting portion.

The second connector inner circumferential surface tapered portion 29 and the first connector outer circumferential surface portion 15 form a contact portion, so that
The gap between the second connector inner peripheral surface portion 18 and the first connector outer peripheral surface portion 15 can be dammed,
When the liquid 14 is poured into the assembly type container 1 and tilted, the liquid 14 can be effectively prevented from leaking to the outside of the assembly type container 1 from the cavity 20.

Note that the angle Θ4 is the average of the angles that the second connector inner circumferential surface tapered portion 29 provided over the entire circumference of the second connector inner circumferential surface portion 18 and the vertical axis Ax3 form downward toward the inside in the radial direction. For example, the range can be "0 degrees < Θ4 < 30 degrees."

Further, in the present embodiment, the second connector inner circumferential surface tapered portion 29 is provided over the entire circumference of the second connector inner circumferential surface portion 18. However, the present invention is not limited thereto, and the second connector inner circumferential surface tapered portion 29 may be provided in a part of the second connector inner circumferential surface portion 18.

By partially providing the second connector inner circumferential surface tapered portion 29 on the second connector inner circumferential surface portion 18, when the first connector portion 5 and the second connector portion 6 are coupled, the second connector inner circumferential surface portion 18 comes into contact with the first connector outer circumferential surface portion 15, and can further press the opposing portions of the first water stop portion 21 and the second water stop portion 22.

By pressing the first water stop part 21 and the second water stop part 22 with the second connector bottom part 19, the abutting part of the first water stop part 21 and the second water stop part 22 is, for example, According to the law, the gap 20 can be dammed up from different directions from the abutting portion between the second connector inner circumferential surface tapered portion 29 and the first connector outer circumferential surface portion 15.

The contact portion between the second connector inner peripheral surface tapered portion 29 and the first connector outer peripheral surface portion 15 and the contact portion between the first water stop portion 21 and the second water stop portion 22 touch the cavity 20 from different directions. By being able to dam up, when the liquid 14 is poured into the assembly type container 1 and tilted, the abutting part between the second connector inner circumferential surface tapered part 29 and the first connector outer circumferential surface part 15, the first water stop part 21 and the first In cooperation with the abutting portion of the two water stop portions 22, the liquid 14 can be prevented from leaking to the outside of the assembly type container 1 from the gap portion 20.

(container disassembled and stored)
The upper body part 3 of the assembly type container 1 is combined with the lower body part 4 to form an integral container, but is also configured to be disassembled from the lower body part 4. Further, the leg portions 50 connected to the lower body portion 4 can also be disassembled from the lower body portion 4.

Further, the disassembled upper main body part 3 is configured to be able to be stored in the lower main body part 4. Further, the leg portions 50 are also configured to be able to be stored in the lower body portion 4 while the upper body portion 3 is housed in the lower body portion 4 . Hereinafter, in FIGS. 7 and 8, the upper main body part 3, lower main body part 4, and leg part 50 of the assembly type container 1 are disassembled, and the upper main body part 3 and the leg part 50 are stored in the lower main body part 4. Explain the condition.

Note that FIG. 7 is a diagram for schematically explaining a state in which the assembly type container 1 is disassembled and the upper body part 3 is housed in the lower body part 4. Moreover, FIG. 8 is a diagram for schematically explaining a state in which the assembly type container 1 is disassembled and the upper body part 3 and the legs 50 are housed in the lower body part 4.

First, a state in which the upper main body part 3 is housed in the lower main body part 4 will be explained using FIG. 7. Further, in FIG. 7, the leg portion 50 is shown in an exploded state.

As mentioned above, the upper main body part 3 is configured to be disassembled from the lower main body part 4 and stored in the lower main body part 4. When storing the upper body part 3 in the lower body part 4, with the first connector part 5 upside down, insert the cylinder part 10 first through the third opening 9 of the lower body part 4. By inserting it downward, the first connector part 5 of the upper body part 3 faces the second connector part 6 of the lower body part 4, and the upper body part 3 can be housed in the lower body part 4.

The assembly-type container 1 is configured such that the upper body part 3 can be stored in the lower body part 4, so that it is easier to assemble the upper body part 3 and the lower body part 4 to form the container body part 2. For example, it can be made into a shape that is difficult to break due to vibrations and shocks during transportation.

Moreover, by storing the upper body part 3 in the lower body part 4, the bulk can be reduced compared to when the upper body part 3 and the lower body part 4 are assembled to form the container body part 2. Can be carried.

Note that when the upper main body part 3 is stored in the lower main body part 4, the first connector upper surface part 17 of the upper main body part 3 faces the second connector inner peripheral surface part 18 of the lower main body part 4, and at least partially touches the second connector inner peripheral surface part 18 of the lower main body part 4. It is set up so that it can be accessed.

Next, referring to FIG. 7 again, the connection portions provided in the lower main body portion 4 and the leg portions 50 will be described.

First, as shown in FIG. 7, the leg portion 50 can have a bowl receiving portion 52. The bowl receiving part 52 is a connecting part provided so that the leg part 50 can be assembled and disassembled with the leg receiving part 40 of the lower main body part 4.

On the other hand, the lower main body part 4 can have a leg receiving part 40 at the bottom on the outer peripheral side of the liquid storage part 13. The leg receiving part 40 is a connecting part provided so that the bowl receiving part 52 can be connected thereto.

The lower main body part 4 and the leg part 50 are configured to be assembled by connecting the bowl receiving part 52 of the leg part 50 to the leg receiving part 40 of the lower main body part 4. Furthermore, the lower main body portion 4 and the leg portions 50 can be disassembled by disassembling the connected leg receiving portion 40 and bowl receiving portion 52.

In this embodiment, the leg receiving portion 40 is provided in a concave shape. However, the present invention is not limited thereto, and the leg receiving portion 40 may be provided to have a convex shape, for example.

Further, in this embodiment, the bowl receiving portion 52 is provided in a convex shape corresponding to the leg receiving portion 40. However, the present invention is not limited thereto, and the bowl receiving portion 52 only needs to be connected to the leg receiving portion 40, and may be provided in a concave shape, for example.

Next, referring to FIG. 7 again, the leg portion 50 will be explained. As shown in FIG. 7, the leg portion 50 can have a stem portion 51. The stem portion 51 can be used as a handle when the assembly type container 1 is assembled.

A bowl receiving portion 52 is provided at one end of the stem portion 51 . On the other hand, a plate portion 53 is provided on the other end side of the stem portion 51. The plate part 53 can be used, for example, to install it on a desk or the like when the assembly type container 1 is assembled.

Further, the plate portion 53 can have a fourth joint portion 54 on the side surface. The fourth joint portion 54 is a connecting portion that is partially provided on the outer peripheral side surface of the plate portion 53.

As described above, in the assembly type container 1, the upper main body part 3 is configured to be disassembled from the lower main body part 4. Moreover, the disassembled upper main body part 3 is configured to be able to be stored in the lower main body part 4. Furthermore, the assembly type container 1 is provided so that the upper body part 3 can be housed in the lower body part 4 and the leg parts 50 can be housed in the lower body part 4.

When storing the legs 50 in the lower body 4, insert the legs 50 upside down from the bowl holder 52 side through the third opening 9 of the lower body 4. The leg portion 50 and the second connector inner circumferential surface portion 18 face each other, and the leg portion 50 can be stored in the lower main body portion 4.

Since the lower main body part 4 can be stored in the leg parts 50, the lower main body part 4 and the leg part 50 can be carried in a state that is less likely to be destroyed by vibrations and shocks when being transported, for example, compared to a state in which the lower main body part 4 and the leg parts 50 are assembled. be able to.

Furthermore, since the lower main body portion 4 can be stored in the leg portions 50, the bulk can be reduced and the device can be easily carried.

Next, a state in which the upper main body part 3 and the leg parts 50 are housed in the lower main body part 4 will be explained using FIG.

As described above, in the assembly type container 1, the leg portions 50 can be stored in the lower body portion 4 while the upper body portion 3 is housed in the lower body portion 4.

Furthermore, when the leg portion 50 is stored in the lower main body portion 4, by joining the fourth joint portion 54 provided on the plate portion 53 to the third joint portion 41 provided on the second connector portion 6, It is configured such that the lower main body portion 4 and the leg portions 50 can be fixed.

By fixing the lower body part 4 and the leg parts 50, for example, when the assembly type container 1 is transported, it is possible to prevent the lower body part 4 and the leg parts 50 from disassembling due to vibration.

Further, by fixing the lower body portion 4 and the leg portions 50, the plate portion 53 has a function as a lid, and it is possible to prevent foreign matter such as dust from entering.

Note that in this embodiment, the fourth joint portion 54 is provided in a concave shape. However, the fourth joint portion 54 is not limited to this, as long as it can fix the lower body portion 4 and the leg portion 50 and prevent them from falling off when the leg portion 50 is stored in the lower body portion 4. For example, the fourth joint portion 54 may be provided in a convex shape. can.

In the above embodiment, a wine glass has been described as an assembly type container, but it is not limited to these containers, and may include a cup used at home or in a restaurant, a takeout container, a water bottle carried outdoors, etc. It can include any container that contains a liquid 14 inside.

Moreover, the method of connecting the first connector part 5 and the second connector part 6 is not limited to the above-mentioned method, and other members such as elasticity, frictional fixation, packing, and non-slip material can also be used.

1 Assembly type container 2 Container main body part 3 Upper main body part 4 Lower main body part 5 First connector part 6 Second connector part 7 First opening part 8 Second opening part 9 Third opening part 10 Cylindrical part 11 First joint part 12 Second joint part 13 Liquid storage part 14 Liquid 15 First connector outer circumference part 16 First connector bottom part 17 First connector top part 18 Second connector inner circumference part 19 Second connector bottom part 20 Gap part 21 First water stop part 22 Second water stop section 23 Inclined surface 24 Second water stop section outer circumference tapered section 25 First water stop section outer circumference taper section 26 Second water stop section inner circumference taper section 27 First water stop section inner circumference taper section 28 Water storage section 29 No. 2 Connector inner peripheral surface tapered part 40 Leg receiving part 41 Third joint part 50 Leg part 51 Stem part 52 Bowl receiving part 53 Plate part 54 Fourth joint part

Claims (9)

an upper body portion having a first connector portion;
a lower body portion having a second connector portion coupled to the first connector portion of the upper body portion;
The upper main body part and the lower main body part are configured to be assembled and/or disassembled using the first connector part and the second connector part, and the first connector part and the second connector part The bottom surface portion of the first connector portion and the bottom surface portion of the second connector portion are arranged to face each other when the first connector portion and the second connector portion are coupled,
The bottom surface portion of the second connector portion has an inclined surface that slopes downward toward the inner side in the radial direction,
When the first connector part and the second connector part are connected, a gap is formed between the bottom part of the first connector part and the bottom part of the second connector part. Features an assembly type container.
The bottom part of the first connector part has a first water stop part having a convex or concave shape,
The bottom part of the second connector part has a second water stop part having an uneven shape corresponding to the shape of the first water stop part,
The assembly type according to claim 1, wherein the first water stop part is configured to come into contact with the second water stop part when the first connector part and the second connector part are connected. container.
The second water stop part has a concave shape,
3. The assembly type container according to claim 2, wherein the concave shape of the second water stop part has a tapered shape whose width decreases as it goes downward.
The second water stop part has a concave shape and has a water storage part on the bottom surface of the second water stop part,
3. The assembly type container according to claim 2, wherein when the first water stop part and the second water stop part face each other, a space for holding liquid is formed in the water storage part.
2. The assembly type container according to claim 1, wherein the side surface of the second connector part has a second connector inner peripheral surface tapered part that slopes downward.
The bottom part of the first connector part has a first water stop part having a convex or concave shape,
The bottom part of the second connector part has a second water stop part having an uneven shape corresponding to the shape of the first water stop part,
When the first connector part and the second connector part are connected, the first water stop part and the second water stop part are connected, and the upper main body part is connected to the tapered inner peripheral surface part of the second connector. 6. The sectional container according to claim 5, wherein the connecting portion of the first water stop part and the second water stop part is pressed against each other by abutment of side parts of the container. .
The upper body part is configured to be disassembled from the lower body part and stored in the lower body part,
When storing the upper main body part in the lower main body part, the first connector part is configured to be inserted and stored through the opening of the lower main body part with the first connector part upside down. The assembly type container according to claim 1, characterized in that:
Further comprising legs removably provided on the lower main body,
The leg portion has a bowl holder,
The lower main body portion has a leg receiving portion,
The leg portion and the lower main body portion are configured to be disassembled via the bowl holder portion and the leg holder portion,
By inserting the leg portion upside down through the opening of the lower main body portion from the bowl receiving portion side, the leg portion and the inner circumferential surface portion of the second connector portion face each other, The assembly-type container according to claim 1, wherein the leg portion is configured to be able to be stored in the lower main body portion.
The leg portion includes a stem portion for attaching to and detaching from the lower main body portion;
a plate portion connected to the stem portion;
When storing the leg portion in the lower main body portion, the fourth joint portion provided on the plate portion is joined to the third joint portion provided on the second connector portion, and the leg portion is housed in the lower body portion. The assembly type container according to claim 8, characterized in that it is configured to be fixable to the lower main body.