CN211996730U - Container with multiple cavities - Google Patents

Abstract

The utility model discloses a container with multi-chamber, it includes: the device comprises a body, a first fixing part and a second fixing part, wherein the body is used for containing materials and is internally provided with a cavity; the opening is provided with a corresponding cover body assembly for closing the opening; the cavity is communicated with the opening and at least provided with a separation layer for separating the cavity into a plurality of sub-cavities; the separation layer extends to the body and forms a plurality of independent sub-cavities in the body, and the sub-cavities are communicated with the openings corresponding to the sub-cavities; the body at the separation layer is provided with a sliding groove, and a sliding part which enables the hollow parts on the separation layer to be opened or closed when sliding is arranged in the sliding groove. The utility model discloses can store different materials simultaneously, satisfy people's multiple storage demand under the prerequisite that does not increase the space, solve again and carried inconvenience and extravagant problem.

Description

Container with multiple cavities

The utility model discloses an application date is 2019 3 month 4 days, and application number is 201920270207.9, the branch case application of the application of utility model patent name "a container with multi-chamber".

Technical Field

The utility model relates to a container especially relates to a container that is used for storing at least two kinds of materials and has a multi-chamber.

Background

With the development and progress of the times, the packaging modes of materials, especially liquid materials, are various, the shapes are thousands, the materials are different, for example, bottled liquid such as bottled water/beverage/wine/cosmetics and the like is visible everywhere in life, but the containers on the market are basically one container for containing one material, and the packaging mode cannot meet the requirements of people under certain conditions, for example, the following conditions are frequently encountered in life:

1) after some beverages are drunk, the mouth is sweet/sticky and uncomfortable, people want to drink a little water and wash the little water, if a bottle of water is bought for the purpose, firstly, the carrying is inconvenient, and secondly, the drinking cannot be finished, so that the waste is caused;

2) when the beverage is selected to be bought, namely the beverage A and the beverage B are bought, the difficult choice can be made only due to the inconvenience of carrying or the difficulty of drinking two bottles;

3) when a couple or a family goes out, one bottle of water can solve the problem of thirst generally, but in consideration of personal hygiene, two or more bottles of water need to be prepared, so that the couple or the family is inconvenient to carry, and waste is caused if the couple or the family cannot drink the water completely;

4) if the user wants to take boiled water and health-care traditional Chinese medicines, soybean milk, milk or coffee and the like when going out, two or more cups are needed for containing the water, so that the carrying is inconvenient, and the burden is increased for traveling;

5) when people go out to travel, the shampoo and the hair conditioner are needed to be carried, so that the two bottles are needed to be carried, the shampoo is inconvenient to carry, and the hair conditioner is easily lost due to disorder of the articles.

In the prior art, containers such as bottles, cans, barrels, boxes and the like cannot meet the requirements of people, the preparation of containers such as a plurality of bottles/cans/barrels/boxes causes the conditions of inconvenient carrying and waste, and bottles/cans stacked in a kitchen and bottles/cans are commonly used in ladies' cosmetic bags/cosmetic cabinets, which also occupy a large space and are inconvenient to carry.

Therefore, there is a need for a storage container that can meet the storage requirement of people, and at the same time, does not occupy space, and does not cause the trouble of carrying and waste.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems and the defects existing in the prior art, the utility model provides a container with multiple cavities, which not only meets the requirements of people, but also has less occupied space, solves the problems of inconvenient carrying and waste, and simultaneously enables the appearance to be more novel and beautiful.

The utility model aims at realizing through following technical scheme, a container with multi-chamber, it includes:

the body is used for containing materials and is internally provided with a cavity, and at least one end of the body is integrally formed with an opening for the materials to flow through;

the opening is provided with a corresponding cover body component for covering the opening, and a cover plug capable of accommodating and covering the opening is arranged on the cover body component;

the cavity is communicated with the opening and at least provided with a separation layer for separating the cavity into a plurality of sub-cavities;

the separation layer extends to the body and forms a plurality of independent sub-cavities in the body, and the sub-cavities are communicated with the openings corresponding to the sub-cavities.

Furthermore, the openings communicated with different sub-cavities can be opened or closed by rotating or pressing and pulling the cover body assembly.

Furthermore, at least one opening can be arranged at one end or two ends of the body; when the number of the openings is one, at least two outlets for material to flow through are arranged on each opening, each outlet can be of a groove structure, a cover plug protruding downwards is correspondingly connected to each outlet, optionally, a sliding groove is formed in the outer side wall of each opening, and a sliding block matched with the sliding groove and arranged on the cover body assembly is arranged in each sliding groove; when the opening is a plurality of, correspond respectively on it and be connected with the lid subassembly, opening and lid subassembly can threaded connection this moment, also can buckle the connection.

Preferably, when the opening is located at two ends of the body, the bottle cap at least one end can support the body not to topple.

Further, the cross-section of the separation layer may be polygonal, circular, spiral, and any regular or irregular shape.

Furthermore, the separation layer can separate the cavity into an upper cavity and a lower cavity, an inner cavity and an outer cavity or a left cavity and a right cavity.

Furthermore, the cover body assembly comprises a cover body and cover plugs used for opening or closing different cavities, the end parts of the cover body are provided with the cover plugs protruding downwards, sliding blocks are arranged on two sides of the cover body, and the sliding blocks slide along the sliding grooves to perform rotation limiting on the cover body assembly.

Optionally, the lid subassembly, including the stopper that is used for opening or sealing different cavitys, the stopper include outer lid stopper and inner cup stopper, the export of outer lid stopper and inner cup stopper rising or decline can open or airtight difference, outer lid stopper and inner cup stopper correspond the cover respectively and arrange in outer bottleneck and interior bottleneck, its center correspondence is provided with the seal cover, its upper and lower outward flange corresponds respectively to be provided with the spacing that prevents outer lid stopper and inner cup stopper slippage, is provided with the export that supplies the material circulation on it between seal cover and outside edge.

Further, the outer cap plug and the inner cap plug may be raised or lowered by being pressed or rotated.

Preferably, the cover assembly exposes only one opening or outlet per rotation or squeeze.

The utility model is suitable for a various scenes that have many materials to store the demand, can be applicable to the storing demand of liquid, solid especially solid powder or fixed granule, can regard as uses such as beverage bottle, drinking cup, material jar, cosmetic bottle.

When the water cup is suitable for a water cup, the cavity of the water cup is divided into two sub-cavities by the separation layer, a sliding groove is formed in the body at the separation layer, and a sliding part which enables the hollow part on the separation layer to be opened or closed during sliding is arranged in the sliding groove; the outer edge of the separation layer is sleeved with a sealing material and is correspondingly arranged in a groove on the inner side of the cup body, a cup ring capable of rotating around the cup wall is arranged on the outer side of the cup body at the separation layer, and when the cup ring rotates, magnets or magnetic materials on the cup ring drive magnets or magnetic materials on the separation layer to synchronously move to open or close hollow parts on the separation layer.

Further, the separating layer, including last disc and lower disc, go up disc and lower disc and pass through axle swivelling joint, upward be provided with fretwork and downward convex lug on the disc, correspond on the disc down and be provided with the fretwork, the rotatory removal through last disc or lower disc is opened or is covered the fretwork, realizes the switching of branch cavity from top to bottom.

Optionally, the upper disc and the lower disc may be provided with only hollows, and when the hollows on the upper disc and the lower disc are overlapped in a staggered manner, the upper sub-cavity and the lower sub-cavity are connected, otherwise, the upper sub-cavity and the lower sub-cavity are sealed.

Preferably, the magnetic material or the magnet is arranged at the edge of the upper disc or the lower disc, and the upper disc or the lower disc is attracted to rotate correspondingly through the rotation of the cup ring so as to open or close the hollow.

Optionally, a sealing ring for preventing material leakage is sleeved at the joint of the outer part of the separation layer and the body, a hollow part for material to pass through is further arranged on the separation layer, a slideway communicated with the hollow part is arranged on the separation layer, and a movable magnet or a permanent magnet is arranged in the slideway.

Furthermore, a plurality of magnets or permanent magnets are arranged in the cup ring, the magnetic poles of the magnets or the permanent magnets on the opposite sides are the same, the inward magnetic poles of the adjacent magnets on the opposite sides are different, and the magnets in the separation layers are pushed to slide through the rotation of the cup ring, so that the hollowing-out is opened or closed.

The utility model discloses a separate layer separates into the container a plurality of intercommunication respectively to the branch cavity of different openings or export, can store different materials simultaneously, has satisfied people's multiple storage demand under the prerequisite that does not increase the space, has both avoided occuping unnecessary space, has solved again and has carried inconvenient and extravagant problem, also enables the outward appearance simultaneously and more novel more pleasing to the eye beautiful.

Drawings

It is to be understood that the following drawings illustrate only certain embodiments of this invention and are therefore not to be considered limiting of its scope, for those skilled in the art to which it pertains, and from which further related drawings may be derived without inventive faculty.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an embodiment of the present invention;

fig. 6 is a schematic structural view of an embodiment of the cover assembly according to the present invention;

FIG. 7 is a schematic top view of the embodiment shown in FIG. 6;

fig. 8 is a schematic structural view of an embodiment of the cover assembly according to the present invention;

fig. 9 is a schematic structural view of an embodiment of the present invention in which the cover assembly is in communication with the sub-chamber;

fig. 10 is a schematic structural view illustrating an embodiment of the communication state between the cover assembly and the sub-cavity according to the present invention;

fig. 11 is a schematic structural diagram of an embodiment of the present invention;

fig. 12 is a schematic structural view of an embodiment of the upper disc of the present invention;

fig. 13 is a schematic structural view of an embodiment of the lower disc of the present invention;

FIG. 14 is a schematic structural view of an embodiment of the separation layer and cup ring of the present invention;

fig. 15 is a view a-a of fig. 14.

In the figure: 1-body, 2-opening, 3-separation layer, 4-cover component, 10-separation cavity, 21-outlet, 22-central groove, 23-chute, 24-sealing sleeve, 25-bottle mouth, 30-cup ring, 31-groove, 32-magnet, 33-central shaft, 34-lug, 35-hollow, 36-upper disc, 37-lower disc, 38-slideway, 39-sealing ring, 41-cover plug, 42-bulge, 43-sliding block, 44-inner cover plug, 45-outer cover plug and 200-limit.

Detailed Description

The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

It should be noted that the terms "inside", "opposite side", "outside", "one end", "the other end", "upper end center", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred part or portion must have a specific orientation, be configured in a specific orientation, and thus, should not be construed as limiting the present invention.

It should be further noted that, unless expressly stated or limited otherwise, the terms "connected" and "connected" are to be construed broadly, as they may be non-removable/connectable, and removable/connectable, for example; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention in specific situations.

In the first embodiment shown in fig. 1-3: a container with multiple chambers, suitable for storing liquid or solid materials, comprising: the device comprises a body 1 which is used for containing materials and is internally provided with a cavity, wherein two ends of the body 1 are integrally formed with an opening 2 for the materials to flow through;

a cover body assembly 4 which is corresponding to the opening 2 and is used for covering the opening 2 is connected to the opening 2, and a cover plug (not marked in the figure) which can be used for covering the opening is arranged on the cover plug;

a cavity (not shown) communicating with the opening 2 and having therein at least one partition layer 3 for partitioning the cavity into a plurality of sub-cavities 10;

the separation layer 3 extends to the body 1 and forms a plurality of independent sub-cavities 10 in the body 1, and the sub-cavities 10 are communicated with the openings 2 corresponding to the sub-cavities 10.

Further, the opening and closing of the cover body assembly 4 can be rotated or pressed to open the openings 2 communicated with different sub-cavities, and only one opening 2 is opened at a time.

Further, the shape and position of the separation layer 3 may be designed according to the requirement, for example, the separation layer may separate the cavity into a plurality of sub-cavities distributed up and down, left and right, or inside and outside, and the corresponding separation surface of the separation layer may be polygonal, circular, spiral, and any other regular or irregular shape, for example, a double-spiral separation surface, as long as the separation surface extends to the body and forms a plurality of sub-cavities sealed respectively in the cavity.

Further, the cover assembly 4 at least one end may be placed upright to support the body against tipping.

Example two as shown in fig. 4-5: a container with multiple chambers, suitable for storing liquid or solid materials, comprising: the device comprises a body 1 which is used for containing materials and is internally provided with a cavity, wherein one end of the body 1 is integrally formed with an opening 2 for the materials to flow through;

the opening 2 is provided with a corresponding cover body assembly (not shown in the figure) for covering the opening 2, and a cover plug (not shown in the figure) capable of accommodating and covering the opening is arranged on the cover body assembly;

a cavity (not shown) communicating with the opening 2 and having therein at least one partition layer 3 for partitioning the cavity into a plurality of sub-cavities 10;

the separation layer 3 extends to the body 1 and forms a plurality of independent sub-cavities 10 in the body 1, and the sub-cavities 10 are communicated with the openings 2 corresponding to the sub-cavities 10.

Further, the number of the openings may be one or more, and in order to save the manufacturing cost, when one opening is adopted, the cover body assembly arranged on the opening can open or close different sub-cavities by rotating and/or pulling, and only one outlet 21 is opened or exposed at a time.

As shown in fig. 6, the opening 2 has a sliding groove 23 formed on an outer sidewall thereof, and a sliding block 43 disposed on the cover assembly is disposed in the sliding groove 23.

Further, the cover assembly comprises a cover body and a cover plug 41 for opening or closing different cavities, the end of the cover body is provided with the cover plug 41 protruding downwards for covering the outlet 21, the inner side of the cover body is provided with a sliding block 43, and the sliding block 43 rotationally slides along the sliding groove 23 to rotationally limit the cover assembly.

A protrusion 42 capable of rotating around the central groove 22 is embedded in the central groove 22 at the center of the upper end of the cover body, and preferably, the protrusion 42 is an arc-shaped surface.

Further, the outlet 21 and the cap plug 41 are provided with a slope or bevel (not shown) for facilitating the cap plug 41 to slide out of the outlet 21.

Further, the cover assembly rotates each time to expose only one outlet 21, the two outlets 21 correspond to two sub-chambers, the cover assembly 4 is provided with 2 cover plugs 41, when the two outlets 21 are covered by the 2 cover plugs 41, the two sub-chambers are sealed, otherwise, any one of the outlets 21 is opened, as shown in fig. 7.

In the third embodiment shown in fig. 8-10, a multi-chamber container is designed identically on the basis of the solution of the second embodiment.

Optionally, the number of the bottle openings 25 at the end of the body 1 is 2, and the bottle openings are respectively communicated with 2 sub-cavities.

Optionally, the cap assembly includes a cap plug for opening or closing different sub-chambers, the cap plug includes an outer cap plug 45 and an inner cap plug 44, the outer cap plug 45 and the inner cap plug 44 can be lifted or lowered to open or close different outlets 21, and the outer cap plug 45 and the inner cap plug 44 are respectively sleeved on the bottle openings 25 of the outer layer and the inner layer.

The center of the upper end of the bottle mouth 25 is correspondingly provided with a sealing sleeve 24, the upper outer edge of the bottle mouth is correspondingly provided with a limit 200 for preventing an outer cover plug 45 and an inner cover plug 44 from slipping, and an outlet 21 for material circulation is arranged between the sealing sleeve 24 and the outer edge.

Further, the outer cap plug and the inner cap plug may be lifted or lowered by pressing and pulling.

In the initial state, the upper edges of the outer cap plug 45 and the inner cap plug 44 are in the same plane, and the inner cap plug 44 is arranged on the inner side of the outer cap plug 45, when outer material needs to be used, the outer cap plug 45 is pulled upwards to enable the outer cap plug 45 to ascend, a hole in the upper end of the outer cap plug 45 is communicated with the outer layer cavity, the hole in the upper end of the inner cap plug 44 is sealed by the sealing sleeve 24 in the inner layer, the size of a flowing space is limited by controlling the pulling height of the outer cap plug 45, and the outer cap plug 45 is prevented from slipping through the limit 200 of the outer layer bottle mouth 25.

As shown in fig. 10, when the inner material is needed, the outer cap plug 45 is pressed to slide to the outer edge of the sealing sleeve 24 of the outer layer to seal the outer layer sub-cavity, the inner cap plug 44 is pulled upwards to lift the inner cap plug 44, so that the hole at the upper end of the inner cap plug 44 is communicated with the inner layer sub-cavity, the material stored in the inner layer sub-cavity flows out through the outlet 21 of the inner layer and the hole at the upper end of the inner cap plug 44 in sequence, the size of the flow space is limited by controlling the pulling height of the inner cap plug 44, and the inner cap plug 44 is prevented from slipping by the limit 200 of the bottle mouth 25 of the inner layer.

Example four: a container with multiple cavities is designed equivalently on the basis of the technical scheme of the third embodiment.

Optionally, the bottle openings on the outer layer and the inner layer are respectively connected with the outer cap plug 45 and the inner cap plug 44 through threads, threads are tapped at the joints of the inner side walls of the outer cap plug 45 and the inner cap plug 44 and the outer side walls of the bottle openings on the outer layer and the inner layer, and the outlet 21 of different cavity-divided connections is opened or closed by rotating the outer cap plug 45 or the inner cap plug 44 to ascend or descend along the threads.

Example five as shown in fig. 11-13: a container having a plurality of chambers is provided,

it includes: the device comprises a body 1 which is used for containing materials and is internally provided with a cavity, wherein two ends of the body 1 are integrally formed with an opening 2 for the materials to flow through;

the opening 2 is provided with a corresponding cover body assembly 4 for covering the opening 2, and a cover plug (not marked in the figure) capable of accommodating and covering the opening is arranged on the cover body assembly;

a cavity (not shown) communicating with the opening 2 and having therein at least one partition layer 3 for partitioning the cavity into a plurality of sub-cavities 10;

the separation layer 3 extends to the body 1 and forms a plurality of independent sub-cavities 10 in the body 1, and the sub-cavities 10 are communicated with the openings 2 corresponding to the sub-cavities 10.

Furthermore, the body 1 is provided with a groove 31 for positioning the separation layer 3 on the inner side wall of the separation layer, a chute is arranged on the outer side of the body 1 opposite to the separation layer 3, and a cup ring 30 with a magnet therein is arranged in the chute.

Furthermore, the separating layer is provided with a magnet, a permanent magnet or a magnetic material, so that the separating layer can rotate in the circumferential direction after being acted by magnetic force.

Furthermore, two symmetrical magnets 32 are disposed in the cup ring 30, and the cup ring 30 can slide in the sliding groove.

When the cup ring 30 rotates, the magnet 32 in the cup ring 30 drives the magnet or magnetic material on the separation layer 3 to move synchronously to open or close the hollow 35 on the separation layer.

Optionally, a sealing ring 39 is sleeved at the joint of the separation layer and the body 1, so that mutual leakage between the sub-cavities can be prevented.

Further, the separating layer, it includes disc 36 and lower disc 37, goes up disc 36 and lower disc 37 and rotates through axle 33 and connect, goes up and corresponds on disc 36 and is provided with the convex lug 34 of downwardly extending and fretwork 35 or filter screen, also corresponds on the lower disc 37 and is provided with fretwork 35, lug 34 with the size of fretwork 35 corresponds the matching and is located same circumference.

Optionally, at least a portion of the upper disc 36 or the lower disc 37 is made of a magnetic material or a magnet, and preferably, the periphery of the upper disc 36 or the lower disc 37 is made of a magnetic material or a magnet.

Rotatory cup ring 30, under the effect of magnetic force, goes up disc 36 or disc 37 down and also can follow the rotation, when fretwork 35 on last disc 36 and disc 37 down's fretwork 35 or filter screen overlap, the intercommunication of branch cavity about realizing, when going up disc 36 decurrent lug 34 and disc 37 down on fretwork 35 overlap, the airtight of branch cavity about realizing.

The rotation of the upper disc 36 or the lower disc 37 can open or close the upper and lower sub-chambers by the rotation of the protrusions 34 and the hollows 35.

Preferably, the edges of the cutouts 35 and the protrusions 34 have slopes to facilitate sliding out, so that the upper disc 36 or the lower disc 37 can slide in or out relatively easily when rotating with the cup ring 30.

Preferably, the surface material of the upper disc 36 or the lower disc 37 may be silicone rubber, so as to achieve a better sealing effect.

Optionally, the upper disc 36 or the lower disc 37 may only be provided with the mutually-matched hollows 35, when at least parts of the hollows 35 on the upper disc 36 and the lower disc 37 are overlapped, the upper and lower sub-chambers are communicated, and when the hollows 35 on the upper disc 36 and the lower disc 37 are not overlapped, the upper and lower sub-chambers are sealed.

Optionally, when a separation layer with a double-layer disc structure is adopted, the sliding part is a shifting lever connected to the upper disc or the lower disc, a sliding groove for the shifting lever to slide is reserved on the body, the shifting lever is in an airtight state in a hollow-out mode on the separation layer at one end of the sliding groove in an initial state, when the hollow-out mode needs to be opened, the shifting lever is shifted to slide along the sliding groove, the upper disc and the lower disc slide relatively, at least parts of the hollow-out modes on the upper disc and the lower disc are overlapped, the upper disc and the lower disc are communicated, a sealing ring is arranged between the sliding groove and the upper disc or the lower disc.

In this embodiment, the cup ring 30 rotates to drive the upper disc 36 or the lower disc 37 to move circularly, so as to open or close the hollow 35 on the separation layer 3, thereby realizing the communication or sealing of the upper and lower separation chambers.

As shown in fig. 11, 14 and 15, the sixth embodiment: a multi-cavity container is based on the fifth embodiment, and the hollow-out opening or closing mode on the separation layer is replaced.

Optionally, a sealing ring 39 is sleeved at a joint of the outer part of the separation layer and the body 1, a hollow 35 for materials to pass through is arranged on the separation layer, a slideway 38 communicated with the hollow 35 is arranged on the separation layer, and a magnet 32 or a permanent magnet is arranged in the slideway 38.

Further, the cup ring 30 is provided with a plurality of magnets 32 or permanent magnets therein, inward magnetic poles of the magnets 32 or permanent magnets on opposite sides are the same, inward magnetic poles of adjacent magnets on opposite sides are different, and the magnets 32 in the separation layer 3 are pushed to slide by rotation of the cup ring 30 so as to open or close the hollow.

For example, when the cup ring 30 rotates to approach the magnet 32 in the separation layer 3, if the magnetic properties of the two poles of the magnet 32 in the separation layer 3 are different from the magnetic properties of the opposite sides of the magnet 32 in the cup ring 30, the magnet 32 in the separation layer 3 slides until the hollow 35 is closed, otherwise, the hollow 35 is opened or conducted.

This embodiment drives the magnet in the separation layer through the rotation of cup ring 30 and makes linear motion to open or airtight separation layer 3 is last fretwork 35, realizes the intercommunication or airtight of minute cavity from top to bottom.

The separate layer is separated and the shape that divides the cavity that forms can change as required, for example can be heart shape, two spiral shapes etc. the quantity of separate layer does not do the restriction yet, can be one or two even more, when a plurality of separate layers, the separate layer can be connected on the body, also can connect between body and another separate layer, the fretwork also can adopt the filter screen, and the design that adopts the multi-chamber had both satisfied people's multiple storage demand under the prerequisite that does not increase storage space, had solved again and carried inconvenience and extravagant problem, also can make container appearance more novel more pleasing to the eye simultaneously to can give beautiful moral, for example heart shape divides the cavity, interior outer minute cavity, two spiral minute cavity etc..

Lid subassembly, can for opening or export rotation or sharp lift communicate different minute cavitys, to the ordinary technical personnel in the field, can be according to the utility model discloses a technical scheme and embodiment are right the utility model discloses make up or equal the replacement, to these changeable combinations or replacement, the utility model discloses no longer illustrate one by one example.

The utility model discloses various lid subassemblies can be assembled in each embodiment as required on the opening to satisfy many people's demand of drinking, for example, when dividing the cavity about adopting, adopt on the opening of last cavity or lower cavity intercommunication lid subassembly, corresponding, a plurality of exports on the lid subassembly can correspond and communicate to the branch cavity of difference, the utility model discloses not restrict the quantity of dividing the cavity, when the quantity of dividing the cavity exceedes 2, can divide the cavity to arbitrary through the separate layer again and communicate to the export of difference, have multiple implementation deformation on this basis.

Finally, the opening of the utility model is an inlet and outlet for material circulation, when only one opening is arranged on the body, the opening is extended to the opening through the separation layer to form a sub-cavity with different outlets, and the outlets are also equal to the openings; when the opening has a plurality ofly, the separate layer extends to on the body in order to form a plurality of relatively inclosed minute cavities, the utility model discloses a plurality of the finger is two and more than two.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A container with multiple chambers, comprising: the body (1) is used for containing materials and is internally provided with a cavity, and is characterized in that two ends of the body (1) are integrally formed with an opening (2) for the materials to flow through;

the opening (2) is provided with a corresponding cover body assembly (4) for closing the opening (2);

the cavity is communicated with the opening (2), at least one separation layer (3) used for separating the cavity into a plurality of sub-cavities (10) is arranged in the cavity, and the separation layer is provided with hollows;

the separation layer (3) extends to the body (1) and forms a plurality of independent sub-cavities (10) in the body (1), and the sub-cavities (10) are communicated with the openings (2) corresponding to the sub-cavities;

a sliding groove is arranged on the body (1) at the position of the separation layer (3), and a sliding part which enables the upper and lower separation cavities (10) to be communicated or sealed when sliding is arranged in the sliding groove.

2. A multi-chamber container according to claim 1, wherein the sliding member is a cup ring (30) having a magnet (32), the separating layer (3) has a magnet (32) or a magnetic material and a hollow (35), and the magnet (32) is symmetrically arranged in the cup ring (30).

3. A multi-chamber container according to claim 2, wherein the magnet (32) in the cup ring (30) drives the magnet or magnetic material on the separating layer (3) to move synchronously to open or close the hollow (35) on the separating layer when the cup ring (30) rotates.

4. A multi-chamber container according to claim 3, wherein the separating layer comprises an upper disc (36) and a lower disc (37), the upper disc (36) and the lower disc (37) are rotatably connected by a shaft (33), the upper disc (36) is provided with a protrusion (34) extending downwards and protruding, and a hollow (35) or a filter screen, the lower disc (37) is also correspondingly provided with a hollow (35), and at least part of the upper disc (36) or the lower disc (37) is made of a magnetic material or a magnet.

5. A multi-chamber container according to claim 4, wherein the contacting edges of the protrusions (34) and the hollows (35) have a slope facilitating the sliding out.

6. A multi-chamber container according to claim 3, wherein the separating layer comprises an upper disc (36) and a lower disc (37), the upper disc (36) and the lower disc (37) are rotatably connected by a shaft (33), the upper disc (36) and the lower disc (37) are correspondingly provided with hollows (35) or filter screens, and at least part of the upper disc (36) or the lower disc (37) is made of magnetic material or magnet.

7. A multi-chamber container according to claim 3, wherein the separating layer is provided with openings (35) for the passage of material and with a slide (38) leading to the openings (35), the slide (38) being provided with movable magnets (32) or permanent magnets.

8. A multiple chamber container according to claim 7, wherein the cup ring has a plurality of magnets (32) disposed therein, the inwardly directed poles of opposing side magnets (32) being the same and the inwardly directed poles of adjacent opposing side magnets being different.

9. A multi-chamber container according to claim 1, wherein the separating layer comprises an upper disc and a lower disc, the upper disc and the lower disc are provided with mutually matching cutouts, the sliding member is a lever connected to the upper disc or the lower disc, and the upper and lower chambers are connected when the lever is moved to at least partially overlap the cutouts of the upper disc and the lower disc.

10. A multi-chamber container according to any of claims 1 to 9, wherein the separating layer is provided with a sealing ring around its outer junction with the body.

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