CN213863600U - Container and mixing device comprising same - Google Patents

Abstract

The utility model discloses a container and contain mixing arrangement of this container is applicable to the mixture of two kind at least different materials. The utility model comprises a base with a mounting hole; a container having an opening; the whole body is arranged in the mounting hole and can move from a first position to a second position relative to the base; the sealing element is arranged on the base; when the container is at the first position, the opening of the container is sealed by the sealing element to form a closed cavity; when the container is at the second position, the sealing element is separated from the sealing of the container, and a channel is formed in the mounting hole. Because only one end of the container is open, only one port needs to be sealed relative to the structure with two open ends, thereby greatly reducing the difficulty of container sealing and the possibility of sealing failure; in addition, the container is used as a component for pushing the sealing element to be separated from the sealing, and the container is ingenious in structural design, simple in structure and convenient to install.

Description

Container and mixing device comprising same

Technical Field

The utility model relates to a container and contain mixing arrangement of this container especially relate to the mixed structure that two kinds of materials mix to and be used for the container of one of the aforementioned two kinds of materials of splendid attire.

Background

There is a need in the art for a mixing device that allows for mixing of two substances while communicating the mixed substances with the outside air via a passageway; or a container for containing a second substance (powder or liquid) is needed, the second substance is sealed inside in an initial state, the second substance is released during use, mixing of the two substances is realized, and the mixed substances are communicated with the outside air through a channel.

Disclosure of Invention

An object of the present invention is to overcome the above-mentioned problems, and to provide a container and a mixing device comprising the same.

The purpose of the utility model is achieved by the following technical proposal,

a container, comprising:

a base having a mounting hole;

a container having an opening; the whole body is arranged in the mounting hole and can move from a first position to a second position relative to the base;

the sealing element is arranged on the base;

when the container is at the first position, the opening of the container is sealed by the sealing element to form a closed cavity; when the container is at the second position, the sealing element is separated from the sealing of the container, and a channel is formed in the mounting hole. Because only one end of the container is open, only one port needs to be sealed relative to the structure with two open ends, thereby greatly reducing the difficulty of container sealing and the possibility of sealing failure; in addition, the container is used as a component for pushing the sealing element to be separated from the sealing, and the container is ingenious in structural design, simple in structure and convenient to install.

When the container is used in a mixing device, the container is filled with a second substance (such as powder, liquid and the like); in the initial state, the sealing element seals the container and the second substance in the cavity; applying external force to force the container to descend relative to the base, when the container moves from the first position to the second position, the sealing element falls off from the base, the sealing element and the container are released, and the second substance is released from the container and mixed with the first substance (such as liquid and powder) in the container to form a mixed substance (such as solution, gel and the like); at this time, the mixed substance can be brought into contact with the outside air due to the passage.

Preferably, when the container is at the first position, a seal is formed on the mounting hole; when the container is in the second position, the seal on the mounting hole is released. That is, when the container is at the first position, the channel is closed; when the container is at the second position, the channel is opened; when the container is applied to a mixing device, the container can be directly used for sealing the appliance, so that the leakage of substances in the appliance can be avoided; also, after the seal on the mounting hole is released, the passage is opened so that the mixed substance can come into contact with the outside air.

Preferably, when the container is at the first position, a seal is formed on the mounting hole; when the container is located at the second position, the seal on the mounting hole is removed, and the method specifically comprises the following steps:

when the container is at the first position, the sealing element seals the mounting hole; when the container is at the second position, the sealing element is separated from the sealing of the mounting hole, and the sealing of the mounting hole is released. When the container is at the first position, the container is sealed by using one sealing element, and the mounting hole is sealed, so that the structure is simple; when the container is at the second position, the sealing element is separated from the sealing of the container and the sealing of the mounting hole, the structure is simple, and the design is ingenious.

Preferably, a plurality of guide ribs are formed on the inner wall of the mounting hole, guide grooves matched with the guide ribs are formed on the outer surface of the container, and the guide ribs are embedded into the guide grooves; the guide groove extends along the moving direction of the container, so that the container always moves linearly when moving.

Preferably, a limiting part is formed at the tail end of the guide groove, when the container is at the second position, the end part of the guide rib abuts against the limiting part, so that the container is supported on the guide rib and cannot fall off, and the channel is formed between the outer surface of the container and the inner wall of the mounting hole.

Preferably, the container further comprises an actuator for forcing the vessel from the first position to the second position.

Preferably, the actuating member comprises an annular wall and a plurality of inclined limiting surfaces formed on the annular wall; the outer surface of the container is provided with a limiting rib matched with the limiting surface. Rotating the actuating piece along a first direction, and utilizing the interaction of the limiting surface and the limiting rib and the guiding action generated by the matching of the guiding rib and the guiding groove to enable the container to descend, further pushing the sealing element to descend until the sealing element falls off from the base, and releasing the sealing between the sealing element and the container and the sealing between the sealing element and the mounting hole; that is, the seal between the seal and the container is released and the seal between the seal and the mounting hole is released by one rotation.

Preferably, the outer surface of the container is provided with a convex rib at a position corresponding to the limiting rib, and a guide rail with a closed tail end is formed between the corresponding limiting rib and the convex rib; the annular wall is provided with a guide part matched with the guide rail, and the guide part is embedded into the guide rail. The guide part is matched with the guide rail, so that the container cannot fall off from the base, when the container is at the second position, the guide part is positioned at the tail end (tail part) of the guide rail, and the channel is formed between the outer surface of the container and the inner wall of the mounting hole.

Preferably, the tail end of the guide rail is a horizontal section, so that the stability of the container at the second position can be effectively ensured.

Preferably, when the container is at the first position, a seal is formed on the mounting hole; when the container is located at the second position, the seal on the mounting hole is removed, and the method specifically comprises the following steps:

a sealing body is arranged on the mounting hole or the container; when the container is at the first position, the sealing body seals the mounting hole; when the container is at the second position, the sealing body releases the sealing of the mounting hole. In this case, the seal member may be in non-sealing contact with the mounting hole, but may be in sealing contact therewith.

Preferably, when the container cannot completely fall off from the base, the channel is a gap formed between the base and the container; when the container completely falls off from the base, the channel is the whole mounting hole.

A mixing device comprising means for containing a first substance, said means having mounted thereon a container as described above for containing a second substance, said means being in a second position in which said means communicates with the interior of the means through an opening and the interior of the means communicates with the exterior through said passageway.

In an initial state (when the container is at the first position), the sealing element seals the container, and the second substance (such as powder, liquid and the like) is sealed in the cavity; applying external force to force the container to descend relative to the base, when the container moves from the first position to the second position, the sealing element falls off from the base, the sealing element and the container are released, the second substance is released into the container through the opening of the container and is mixed with the first substance (such as liquid, powder and the like) in the container to form a mixed substance (such as solution, gel and the like); at this time, the mixed substance can be brought into contact with the outside air due to the passage. Of course, within the scope of the choice of the skilled person, it is also possible to contain the second substance in liquid form in a container and the first substance in powder form in a container; or the container and the utensil are respectively filled with a second substance and a first substance which are powder; or the container and the utensil are respectively filled with the second substance and the first substance which are liquid.

Preferably, the open end of the appliance is provided with a closure for sealing the first substance within the appliance; when the container is in the second position, the seal of the appliance is released. In the initial state (when the container is at the first position), the first substance in the container can be prevented from leaking, and the container is convenient to transport and distribute.

Preferably, the closure is the container.

Compared with the prior art, the utility model have following advantage and effect:

1. the utility model discloses the appearance only one end opening, for both ends open-ended structure, only need seal a port, greatly reduced the sealed degree of difficulty of appearance and the possibility of sealed inefficacy, improved the stability of product.

2. The container is used as a part for pushing the sealing element to separate from the sealing, so that the container has few parts, ingenious and simple structural design and convenient installation and use.

3. Only need the removal of control container, can the different substances of flash mixed, utilize the passageway to communicate the material after will mixing with outside air simultaneously, convenience simple to use.

4. When the container is at the first position, the sealing element seals the mounting hole and the opening; when the container is at the second position, the sealing element is separated from the sealing of the mounting hole and the opening; the sealing of the container and the mounting hole is realized by using one sealing element, and the structure is simple; utilize the container to promote the sealing member and remove, can enough remove the sealed of sealing member and container, can remove the sealed of sealing member and mounting hole again for the passageway is opened, and the mixed material can contact with the outside air, is convenient for slowly-release or pours, simple structure, design benefit.

5. When the container can not fall off from the base completely, the channel is formed by utilizing the gap between the base and the container, so that the size of the channel is reduced, the slow release speed can be effectively reduced, and the service cycle of the mixed substances is prolonged.

6. The limiting surface is abutted against the limiting rib, when the actuating piece rotates, the rotation of the actuating piece is converted into the linear motion of the container by utilizing the interaction of the limiting surface and the limiting rib, the sealing piece is pushed to move, and therefore the sealing of the container is removed.

Drawings

Fig. 1 is an exploded view of a container according to example 1.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a cross-sectional view of a container according to example 1 in an initial state (the container is in a first position).

FIG. 4 is a cross-sectional view of the container of example 1 after the container closure has been removed from the seal with the container.

FIG. 5 is a block diagram of a preferred embodiment of example 1.

Fig. 6 is a view of the assembled container of fig. 5 in its initial state (container in first position).

FIG. 7 is a view of the assembled seal of FIG. 5 after it has been disengaged from sealing engagement with the container.

Fig. 8 is a structural diagram of a more preferred embodiment of example 1.

Fig. 9 is a view of the assembled configuration of fig. 8 in an initial state (with the container in a first position).

FIG. 10 is a view of the assembled seal of FIG. 8 after it has been disengaged from sealing engagement with the container.

Fig. 11 is an exploded view of the mixing device of the present invention using the container of fig. 1.

Fig. 12 is a cross-sectional view of fig. 11 in an initial state after assembly (with the container in a first position).

FIG. 13 is a view of the assembled FIG. 11 seal removed from sealing engagement with the container.

Fig. 14 is an exploded view of the mixing device of the present invention using the container of fig. 5.

Fig. 15 is a view of the assembled configuration of fig. 14 in an initial state (with the container in the first position).

Fig. 16 is a sectional view taken along line a-a of fig. 15.

FIG. 17 is a view of the assembled FIG. 14 seal removed from sealing engagement with the container.

Fig. 18 is an exploded view of the mixing device of the present invention using the container of fig. 8.

Fig. 19 is a view of the assembled configuration of fig. 18 in an initial state (with the container in the first position).

FIG. 20 is a block diagram of the assembled FIG. 18 seal after it has been disengaged from the container.

Fig. 21 is a cross-sectional view of a container of example 3 in an initial state (container in a first position).

FIG. 22 is a cross-sectional view of the container of example 3 after the container closure has been removed from the seal with the container.

Fig. 23 is a perspective view of the container in embodiment 3.

FIG. 24 is a cross-sectional view of the mixing device of example 3 in its initial state (with the container in the first position).

FIG. 25 is a cross-sectional view of the mixing device of example 3 with the seal disengaged and the vessel sealed.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 4, the container of the present embodiment includes:

a base 1 having a mounting hole 1-1;

the container 2 is provided with an opening 2-1; the whole body is arranged in the mounting hole 1-1 and can move from a first position to a second position relative to the base 1;

a sealing member 3 mounted on the base 1;

when the container 2 is at the first position, the sealing element 3 seals the opening 2-1 of the container 2 to form a closed cavity 4, and a seal is formed on the mounting hole 1-1; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the container 2, and the sealing on the mounting hole 1-1 is released. That is, when the container 2 is at the first position, the channel is closed; when the container 2 is at the second position, the channel 7 is opened; when the device is applied to a mixing device, the container can be directly used for sealing the appliance 8, so that the leakage of substances in the appliance 8 can be avoided; also, when the sealing on the mounting hole 1-1 is released, the passage 7 is opened so that the mixed substance can come into contact with the outside air.

In this example, when the container 2 is at the first position, a seal is formed on the mounting hole 1-1; when the container 2 is at the second position, the seal on the mounting hole 1-1 is released, specifically:

when the container 2 is at the first position, the sealing element 3 seals the mounting hole 1-1; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the mounting hole 1-1, and the sealing of the mounting hole 1-1 is released. The sealing of the container 2 and the sealing of the mounting hole 1-1 are realized by using one sealing element 3, and the structure is simple; the container 2 is utilized to push the sealing element 3 to move, so that the sealing between the sealing element 3 and the container 2 can be released, the sealing between the sealing element 3 and the mounting hole 1-1 can also be released, the structure is simple, and the design is ingenious.

When the container of the embodiment is used in a mixing device, the container contains a second substance (such as powder, liquid and the like); in the initial state (with the container in the first position), the sealing member 3 seals the opening 2-1 of the container 2, the second substance in the cavity 4, and the mounting hole 1-1 at the same time; applying an external force to force the container 2 to move downwards relative to the base 1, when the container moves from the first position to the second position, the sealing element 3 falls off from the base 1, the sealing between the sealing element 3 and the container 2 is released, the second substance is released from the container 2 to enter the appliance and is mixed with the first substance (such as liquid, powder and the like) in the appliance to form a mixed substance (such as solution, gel and the like), and meanwhile, the sealing element 3 is separated from the sealing with the mounting hole 1-1, so that the sealing of the mounting hole 1-1 is released, and the channel 7 is opened; the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

As shown in fig. 3 and 4, when the vessel 2 is in the first position, the vessel 2 rests in the mounting hole 1-1 by means of the supporting action of the sealing element 3; after the sealing element 3 is disengaged from the base 1, the container 2 loses the supporting force and completely disengages from the base 1 (at this time, the second position is the position where the container completely disengages from the base), and at this time, the whole mounting hole 1-1 serves as the channel 7.

Preferably, a plurality of guide ribs 1-2 are formed on the inner wall of the mounting hole 1-1, guide grooves 2-2 matched with the guide ribs 1-2 are formed on the outer surface of the container 2, and the guide ribs 1-2 are embedded into the guide grooves 2-2; the guide groove 2-2 extends along the moving direction of the container 2, so that the container 2 always moves linearly.

As a preferred embodiment of this embodiment, the container further comprises an actuating member 5 for forcing the vessel 2 from the first position to the second position. As shown in fig. 5-7, in this example, the actuating member 5 includes an annular wall 5-1, and a plurality of inclined limiting surfaces 5-2 formed on the annular wall; and the outer surface of the container 2 is provided with a limiting rib 2-4 (the limiting surface is abutted against the limiting rib after installation) matched with the limiting surface 5-2. Rotating the actuating piece 5 along a first direction, and utilizing the interaction of the limiting surface 5-2 and the limiting rib 2-4 and the guiding action generated by the matching of the guiding rib 1-2 and the guiding groove 2-2 to enable the container 2 to descend, further pushing the sealing piece 3 to descend until the sealing piece falls off from the base 1, and releasing the sealing between the sealing piece 3 and the container 2; that is, the seal between the seal member 3 and the container 2 can be released by one rotation operation. Of course, it is also possible, within the scope of the choice of the skilled person, to push the vessel 2 from the first position to the second position by direct pressing.

As a more preferable embodiment of this embodiment, in order to avoid the container 2 from completely falling off the base 1, this embodiment provides the following two implementation schemes: A. as shown in fig. 5-7, a limiting portion 2-3 is formed at the end of the guiding groove 2-2, when the container 2 is at the second position, the end of the guiding rib 1-2 abuts against the limiting portion 2-3, so that the container 2 is supported on the guiding rib 1-2 and cannot fall off, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. B. As shown in fig. 8-10, the outer surface of the container 2 is provided with a convex rib 2-5 at a position corresponding to the position-limiting rib 2-4, and a guide rail 2-6 with a closed end is formed between the corresponding position-limiting rib 2-4 and the convex rib 2-5; the annular wall 5-1 is provided with a guide part 5-3 matched with the guide rail 2-6, and the guide part 5-3 is embedded into the guide rail 2-6; the container 2 is prevented from falling off the base 1 by the cooperation of the guide portion 5-3 and the guide rail 2-6, and when the container 2 is in the second position, the guide portion 5-3 is located at the end of the guide rail 2-6, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. Compared with the mode that the whole mounting hole 1-1 is used as a channel, the size of the channel is reduced, the slow release speed can be effectively reduced, and the service cycle of the mixed substance (such as slow release gel) is prolonged.

More preferably, the ends of the guide rails 2-6 are horizontal sections, which can effectively ensure the stability of the container 2 at the second position.

The mixing device of the embodiment comprises a device 8 for containing a first substance, wherein the device 8 is provided with the container for containing a second substance; as shown in fig. 11-13, when the container is in the container structure as shown in fig. 1-4, the container 2 is in the first position, the sealing member 3 seals the opening 2-1 of the container 2 to form a closed cavity 4 for containing the second substance, and the container 2 rests in the mounting hole 1-1 by virtue of the supporting action of the sealing member 3; after the sealing element 3 falls off from the base 1 under the action of the container 2, the container 2 loses the supporting force and completely falls off from the base 1 into the container 8 (at this time, the second position is the position where the container completely falls off from the base), and at this time, the whole mounting hole 1-1 serves as the channel 7. After the seal 3 has been disengaged, the vessel 2 communicates with the inside of the appliance 8 through the opening 2-1, releasing the second substance into the appliance 8, and the inside of the appliance 8 communicates with the outside through the passage 7.

In the initial state (with the container in the first position), the sealing member 3 seals the opening 2-1 of the container 2, sealing the second substance in the cavity 4, while the sealing member 3 seals the mounting hole 1-1, sealing the first substance in the container 8; applying an external force to force the container 2 to move downwards relative to the base 1, when the container moves from the first position to the second position, the sealing element 3 falls off from the base 1, the sealing between the sealing element 3 and the container 2 is released, the second substance is released from the container 2 to enter the appliance and is mixed with the first substance (such as liquid, powder and the like) in the appliance to form a mixed substance (such as solution, gel and the like), and meanwhile, the sealing element 3 is separated from the sealing with the mounting hole 1-1, so that the sealing of the mounting hole 1-1 is released, and the channel 7 is opened; the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

As shown in fig. 14-17, in the case of the container structure shown in fig. 5-7, when the vessel 2 is in the first position, the sealing member 3 seals the opening 2-1 of the vessel 2 to form a closed cavity 4 for containing the second substance; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the container 2, the second substance is released into the container 8, and the end part of the guide rib 1-2 abuts against the limiting part 2-3, so that the container 2 is supported on the guide rib 1-2 and cannot fall off, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. Under the structure, if the limiting part 2-3 is not arranged, the container 2 completely falls out of the base 1 into the container 8 after the sealing element 3 falls out of the base 1 (at the second position, the container completely falls out of the base), and at the moment, the whole mounting hole 1-1 is used as the channel 7. After the seal 3 has been disengaged, the vessel 2 communicates with the inside of the appliance 8 through the opening 2-1, releasing the second substance into the appliance 8, and the inside of the appliance 8 communicates with the outside through the passage 7.

As shown in fig. 18-20, in the case of the container structure shown in fig. 8-10, when the vessel 2 is in the first position, the sealing member 3 seals the opening 2-1 of the vessel 2 to form a closed cavity 4 for containing the second substance; when the vessel 2 is in the second position, the sealing element 3 is separated from the sealing with the vessel 2, the second substance is released into the vessel 8, and the vessel 2 is prevented from falling off the base 1 by the cooperation of the guide part 5-3 and the guide rail 2-6 (the guide part 5-3 is positioned at the tail end of the guide rail 2-6), so that the channel 7 is formed between the outer surface of the vessel 2 and the inner wall of the mounting hole 1-1.

Example 2

This embodiment is substantially the same as embodiment 1 except that in this embodiment, the passage 7 is formed in the mounting hole 1-1 regardless of whether the vessel 2 is in the first position or the second position; the method specifically comprises the following steps:

a base 1 having a mounting hole 1-1;

the container 2 is provided with an opening 2-1; the whole body is arranged in the mounting hole 1-1 and can move from a first position to a second position relative to the base 1;

a sealing member 3 mounted on the base 1;

when the container 2 is at the first position, the sealing element 3 seals the opening 2-1 of the container 2 to form a closed cavity 4; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the container 2; and no matter the container 2 is at the first position or the second position, a channel 7 is formed in the mounting hole 1-1; specifically, a through hole can be formed in the sealing element 3 at a position corresponding to the gap between the base 1 and the container 2; or the sealing member 3 only closes the opening 2-1 and is not in sealing contact with the mounting hole 1-1 of the base 1, so that the gap between the base 1 and the vessel 2 can be used as a passage for communicating two ends of the base 1 no matter the vessel 2 is in the first position or the second position.

When the container of the embodiment is used in a mixing device, the container contains a second substance (such as powder, liquid and the like); in the initial state (with the container in the first position), the seal 3 seals the opening 2-1 of the container 2, sealing the second substance in the cavity 4; applying an external force to force the container 2 to move downwards relative to the base 1, when the container moves from the first position to the second position, the sealing element 3 falls off from the base 1, the sealing between the sealing element 3 and the container 2 is released, the second substance is released from the container 2 into the appliance and is mixed with the first substance (such as liquid, powder and the like) in the appliance to form a mixed substance (such as solution, gel and the like); the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

As shown in fig. 3 and 4, when the vessel 2 is in the first position, the vessel 2 rests in the mounting hole 1-1 by means of the supporting action of the sealing element 3; after the sealing element 3 is disengaged from the base 1, the container 2 loses the supporting force and completely disengages from the base 1 (at this time, the second position is the position where the container completely disengages from the base), and at this time, the whole mounting hole 1-1 serves as the channel 7.

Preferably, a plurality of guide ribs 1-2 are formed on the inner wall of the mounting hole 1-1, guide grooves 2-2 matched with the guide ribs 1-2 are formed on the outer surface of the container 2, and the guide ribs 1-2 are embedded into the guide grooves 2-2; the guide groove 2-2 extends along the moving direction of the container 2, so that the container 2 always moves linearly.

As a preferred embodiment of this embodiment, the container further comprises an actuating member 5 for forcing the vessel 2 from the first position to the second position. As shown in fig. 5-7, in this example, the actuating member 5 includes an annular wall 5-1, and a plurality of inclined limiting surfaces 5-2 formed on the annular wall; and the outer surface of the container 2 is provided with a limiting rib 2-4 (the limiting surface is abutted against the limiting rib after installation) matched with the limiting surface 5-2. Rotating the actuating piece 5 along a first direction, and utilizing the interaction of the limiting surface 5-2 and the limiting rib 2-4 and the guiding action generated by the matching of the guiding rib 1-2 and the guiding groove 2-2 to enable the container 2 to descend, further pushing the sealing piece 3 to descend until the sealing piece falls off from the base 1, and releasing the sealing between the sealing piece 3 and the container 2; that is, the seal between the seal member 3 and the container 2 can be released by one rotation operation. Of course, it is also possible, within the scope of the choice of the skilled person, to push the vessel 2 from the first position to the second position by direct pressing.

As a more preferable embodiment of this embodiment, in order to avoid the container 2 from completely falling off the base 1, this embodiment provides the following two implementation schemes: A. as shown in fig. 5-7, a limiting portion 2-3 is formed at the end of the guiding groove 2-2, when the container 2 is at the second position, the end of the guiding rib 1-2 abuts against the limiting portion 2-3, so that the container 2 is supported on the guiding rib 1-2 and cannot fall off, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. B. As shown in fig. 8-10, the outer surface of the container 2 is provided with a convex rib 2-5 at a position corresponding to the position-limiting rib 2-4, and a guide rail 2-6 with a closed end is formed between the corresponding position-limiting rib 2-4 and the convex rib 2-5; the annular wall 5-1 is provided with a guide part 5-3 matched with the guide rail 2-6, and the guide part 5-3 is embedded into the guide rail 2-6; the container 2 is prevented from falling off the base 1 by the cooperation of the guide portion 5-3 and the guide rail 2-6, and when the container 2 is in the second position, the guide portion 5-3 is located at the end of the guide rail 2-6, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. Compared with the mode that the whole mounting hole 1-1 is used as a channel, the size of the channel is reduced, the slow release speed can be effectively reduced, and the service cycle of the mixed substance (such as slow release gel) is prolonged.

More preferably, the ends of the guide rails 2-6 are horizontal sections, which can effectively ensure the stability of the container 2 at the second position.

The mixing device of the embodiment comprises a device 8 for containing a first substance, wherein the device 8 is provided with the container for containing a second substance; as shown in fig. 11-13, when the container is in the container structure as shown in fig. 1-4, the container 2 is in the first position, the sealing member 3 seals the opening 2-1 of the container 2 to form a closed cavity 4 for containing the second substance, and the container 2 rests in the mounting hole 1-1 by virtue of the supporting action of the sealing member 3; after the sealing element 3 falls off from the base 1 under the action of the container 2, the container 2 loses the supporting force and completely falls off from the base 1 into the container 8 (at this time, the second position is the position where the container completely falls off from the base), and at this time, the whole mounting hole 1-1 serves as the channel 7. After the seal 3 has been disengaged, the vessel 2 communicates with the inside of the appliance 8 through the opening 2-1, releasing the second substance into the appliance 8, and the inside of the appliance 8 communicates with the outside through the passage 7.

In the initial state (with the container in the first position), the seal 3 seals the opening 2-1 of the container 2, forming a closed cavity 4 for containing a second substance; applying an external force to force the vessel 2 to move downwards relative to the base 1, wherein when the vessel moves from the first position to the second position, the sealing member 3 falls off from the base 1, the sealing between the sealing member 3 and the vessel 2 is released, and the second substance in the cavity 4 is released into the utensil 8 and mixed with the first substance in the utensil 8 to form a mixed substance (such as a solution, a gel and the like); the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

Preferably, since the channel 7 is always open, in order to avoid leakage of the first substance in the appliance 8, in the initial state, the open end of the appliance 8 may be closed, for example, a sealing member (which may be an aluminum foil, a rubber plug, or the like) for sealing the first substance in the appliance 8 is provided; in use, the closure is removed and the container is then mounted on the utensil 8, external force is applied to force the vessel 2 downwardly relative to the base 1, the seal 3 and vessel 2 are unsealed such that the second substance in the cavity 4 is released into the utensil 8 and mixes with the first substance in the utensil 8. Alternatively, the container is mounted on the device 8 and an external force is applied to force the container 2 downwardly relative to the base 1, releasing the seal of the device 8 while the seal 3 is sealed to the container 2 (e.g., by breaking an aluminum foil; or by lifting a rubber stopper to release the seal from the device), such that the second substance in the cavity 4 is released into the device 8 and mixes with the first substance in the device 8.

As shown in fig. 14-17, in the case of the container structure shown in fig. 5-7, when the vessel 2 is in the first position, the sealing member 3 seals the opening 2-1 of the vessel 2 to form a closed cavity 4 for containing the second substance; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the container 2, the second substance is released into the container 8, and the end part of the guide rib 1-2 abuts against the limiting part 2-3, so that the container 2 is supported on the guide rib 1-2 and cannot fall off, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. Under the structure, if the limiting part 2-3 is not arranged, the container 2 completely falls out of the base 1 into the container 8 after the sealing element 3 falls out of the base 1 (at the second position, the container completely falls out of the base), and at the moment, the whole mounting hole 1-1 is used as the channel 7. After the seal 3 has been disengaged, the vessel 2 communicates with the inside of the appliance 8 through the opening 2-1, releasing the second substance into the appliance 8, and the inside of the appliance 8 communicates with the outside through the passage 7.

As shown in fig. 18-20, in the case of the container structure shown in fig. 8-10, when the vessel 2 is in the first position, the sealing member 3 seals the opening 2-1 of the vessel 2 to form a closed cavity 4 for containing the second substance; when the vessel 2 is in the second position, the sealing element 3 is separated from the sealing with the vessel 2, the second substance is released into the vessel 8, and the vessel 2 is prevented from falling off the base 1 by the cooperation of the guide part 5-3 and the guide rail 2-6 (the guide part 5-3 is positioned at the tail end of the guide rail 2-6), so that the channel 7 is formed between the outer surface of the vessel 2 and the inner wall of the mounting hole 1-1.

Example 3

As shown in fig. 21 to 23, this embodiment is substantially the same as embodiment 1 except for the sealing manner of the mounting hole 1-1.

A container, comprising:

a base 1 having a mounting hole 1-1;

the container 2 is provided with an opening 2-1; the whole body is arranged in the mounting hole 1-1 and can move from a first position to a second position relative to the base 1;

a sealing member 3 mounted on the base 1;

when the container 2 is at the first position, the sealing element 3 seals the opening 2-1 of the container 2 to form a closed cavity 4, and a seal is formed on the mounting hole 1-1; when the container 2 is at the second position, the sealing element 3 is separated from the sealing of the container 2, and the sealing on the mounting hole 1-1 is released. That is, when the container 2 is at the first position, the channel is closed; when the container 2 is at the second position, the channel 7 is opened; when the device is applied to a mixing device, the container can be directly used for sealing the appliance 8, so that the leakage of substances in the appliance 8 can be avoided; also, when the sealing on the mounting hole 1-1 is released, the passage 7 is opened so that the mixed substance can come into contact with the outside air.

Specifically, a sealing body 6 is arranged on the mounting hole 1-1 or the container 2; when the container 2 is at the first position, the sealing body 6 seals the mounting hole 1-1; when the container 2 is at the second position, the sealing body 6 releases the sealing of the mounting hole 1-1. As shown in fig. 20, in this embodiment, the sealing body 6 is a sealing aluminum foil formed at an end (a end far from the sealing member) of the mounting hole 1-1, and the sealing between the aluminum foil and the mounting hole 1-1 is broken to open the passage 7 during or before the container 2 is pushed to the second position.

When the container of the embodiment is used in a mixing device, the container contains a second substance (such as powder, liquid and the like); in an initial state (when the container is at the first position), the sealing element 3 seals the opening 2-1 of the container 2, the second substance is sealed in the cavity 4, and the sealing body 6 seals the mounting hole 1-1, so that the first substance is prevented from leaking, and the transportation is convenient; applying an external force to force the container 2 to move downwards relative to the base 1, when the container 2 moves from the first position to the second position, the sealing element 3 falls off from the base 1, the sealing between the sealing element 3 and the container 2 is released, the second substance is released from the container 2 into the appliance and is mixed with the first substance (such as liquid, powder and the like) in the appliance to form a mixed substance (such as solution, gel and the like), and in the process of pushing the container 2 to move to the second position or before pushing the container 2 to move to the second position, the sealing between the sealing body 6 and the mounting hole 1-1 is broken, so that the sealing of the mounting hole 1-1 is released, and the channel 7 is opened; the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

Preferably, as shown in fig. 23, a plurality of guide ribs 1-2 are formed on the inner wall of the mounting hole 1-1, a guide groove 2-2 matched with the guide ribs 1-2 is formed on the outer surface of the container 2, and the guide ribs 1-2 are embedded into the guide grooves 2-2; the guide groove 2-2 extends along the moving direction of the container 2, so that the container 2 always moves linearly.

In order to avoid that the container 2 completely falls off from the base 1, the tail end of the guide groove 2-2 forms a limiting part 2-3, when the container 2 is at the second position, the end part of the guide rib 1-2 is abutted against the limiting part 2-3, so that the container 2 is supported on the guide rib 1-2 and cannot fall off, and the channel 7 is formed between the outer surface of the container 2 and the inner wall of the mounting hole 1-1. Compared with the mode that the whole mounting hole 1-1 is used as a channel, the size of the channel is reduced, the slow release speed can be effectively reduced, and the service cycle of the mixed substance (such as slow release gel) is prolonged.

As shown in fig. 24-25, the mixing device of the present embodiment comprises a device 8 for containing a first substance, wherein the device 8 is provided with the container for containing a second substance; when the container 2 is at the first position, the container seals the first substance inside, so that leakage is avoided, and transportation is facilitated; when the vessel 2 is in the second position, the vessel 2 communicates with the interior of the appliance 8 through the opening 2-1, and the interior of the appliance 8 communicates with the exterior through the passage 7.

In the initial state (when the container is at the first position), the sealing element 3 seals the opening 2-1 of the container 2, the second substance is sealed in the cavity 4, and the sealing body 6 seals the mounting hole 1-1 to avoid leakage of the first substance; applying an external force to force the container 2 to move downwards relative to the base 1, when the container 2 moves from the first position to the second position, the sealing element 3 falls off from the base 1, the sealing between the sealing element 3 and the container 2 is released, the second substance is released from the container 2 into the appliance and is mixed with the first substance (such as liquid, powder and the like) in the appliance to form a mixed substance (such as solution, gel and the like), and in the process of pushing the container 2 to move to the second position or before pushing the container 2 to move to the second position, the sealing between the sealing body 6 and the mounting hole 1-1 is broken, so that the sealing of the mounting hole 1-1 is released, and the channel 7 is opened; the mixed substance is now able to come into contact with the outside air due to the presence of the channels 7. When the mixed substance is chlorine dioxide slow-release gel or other slow-release substances, the slow release can be carried out by utilizing the channel 7; when the mixed substance is mixed beverage (such as honey water, tea water, etc.), the mixed beverage can be poured out by the channel 7 for drinking.

Claims (14)

1. A container, characterized by comprising:

a base (1) having a mounting hole (1-1);

a container (2) having an opening (2-1); the whole body is arranged in the mounting hole (1-1) and can move from a first position to a second position relative to the base (1);

a seal member (3) mounted on the base (1);

when the container (2) is at the first position, the sealing element (3) seals the opening (2-1) of the container (2) to form a closed cavity (4); when the container (2) is at the second position, the sealing element (3) is separated from the sealing of the container (2), and a channel (7) is formed in the mounting hole (1-1).

2. The container of claim 1, wherein: when the container (2) is at the first position, a seal is formed on the mounting hole (1-1); when the container (2) is at the second position, the sealing on the mounting hole (1-1) is released.

3. A container according to claim 2, wherein the mounting hole (1-1) is provided with a seal when the container (2) is in the first position; when the container (2) is at the second position, the sealing on the mounting hole (1-1) is released, specifically:

when the container (2) is at the first position, the mounting hole (1-1) is sealed by the sealing element (3); when the container (2) is at the second position, the sealing element (3) is separated from the sealing of the mounting hole (1-1), and the sealing of the mounting hole (1-1) is released.

4. The container of claim 1, wherein: a plurality of guide ribs (1-2) are formed on the inner wall of the mounting hole (1-1), guide grooves (2-2) matched with the guide ribs (1-2) are formed on the outer surface of the container (2), and the guide ribs (1-2) are embedded into the guide grooves (2-2).

5. The container of claim 4, wherein: the tail end of the guide groove (2-2) forms a limiting part (2-3), and when the container (2) is at the second position, the end part of the guide rib (1-2) is abutted against the limiting part (2-3).

6. The container of claim 1, wherein: the container further comprises an actuating member (5) for forcing the vessel (2) from the first position to the second position.

7. The container of claim 6, wherein: the actuating piece (5) comprises an annular wall (5-1) and a plurality of inclined limiting surfaces (5-2) formed on the annular wall; the outer surface of the container (2) is provided with a limiting rib (2-4) matched with the limiting surface (5-2).

8. The container of claim 7, wherein: convex ribs (2-5) are arranged on the outer surface of the container (2) and at positions corresponding to the limiting ribs (2-4), and guide rails (2-6) with closed tail ends are formed between the corresponding limiting ribs (2-4) and the convex ribs (2-5); the annular wall (5-1) is provided with a guide part (5-3) matched with the guide rail (2-6), and the guide part (5-3) is embedded into the guide rail (2-6).

9. The container of claim 8, wherein: the tail end of the guide rail (2-6) is a section of horizontal section.

10. The container of claim 2, wherein: when the container (2) is at the first position, a seal is formed on the mounting hole (1-1); when the container (2) is at the second position, the sealing on the mounting hole (1-1) is released, specifically:

a sealing body (6) is arranged on the mounting hole (1-1) or the container (2); when the container (2) is at the first position, the sealing body (6) seals the mounting hole (1-1); when the container (2) is at the second position, the sealing of the mounting hole (1-1) is released.

11. The container of claim 1, wherein: the channel (7) is a gap formed between the base (1) and the container (2) or the whole mounting hole (1-1).

12. A mixing device comprising means (8) for containing a first substance, characterized in that: the device (8) is provided with a container for a second substance according to any one of claims 1 to 11, the container (2) being in communication with the interior of the device (8) through the opening (2-1) and the interior of the device (8) being in communication with the exterior through the passage (7) when the container (2) is in the second position.

13. The mixing device of claim 12, wherein: the open end of the appliance (8) is provided with a closure for sealing a first substance within the appliance (8); when the container (2) is in the second position, the seal of the appliance (8) is released.

14. A blending assembly according to claim 13, wherein said closure is said container.

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