CN214566769U - Multi-cavity multi-effect liquid mixing container - Google Patents

Abstract

The utility model relates to a container of multicavity multiple-effect mixed liquid, it includes: the accommodating part comprises a plurality of separated accommodating chambers and a plurality of openings which are communicated with the accommodating chambers in a one-to-one correspondence manner; the cover body comprises an outer cover and a bottom cover, and the outer cover can be matched with the bottom cover in an opening and closing way; the bottom cover comprises a plurality of connecting ports which are connected with each other, the connecting ports penetrate through the bottom cover and comprise a first connecting port end and a second connecting port end which are communicated with each other, and the first connecting port ends and the openings are detachably connected in a one-to-one correspondence manner; the outer cover comprises a plurality of plug parts which are connected with each other, and the plug parts are used for being matched with the second ends of the connecting ports in a one-to-one correspondence mode. The container can separately place different liquid components and can pour out each liquid component for mixing conveniently and quickly.

Description

Multi-cavity multi-effect liquid mixing container

Technical Field

The utility model relates to a container technical field, concretely relates to multicavity multiple-effect mixed liquid's container.

Background

In daily life, some liquids need to be placed separately and mixed when in use, for example, some disinfectant and detergent need to be separated when in storage, so that the mutual influence of multiple liquids is avoided, for example, the multiple liquids are prevented from being prematurely chemically reacted to cause failure or being prematurely layered to prevent the multiple liquids from being difficult to disperse uniformly again, and when in use, the various liquid components are mixed, and the components play the roles of disinfection or washing together. For example, the peroxyacetic acid disinfectant is generally divided into a solution A and a solution B, and the solutions are mixed when used. For the liquids which need to be mixed in use, different liquid components are usually placed in different independent bottles at present, and the liquids are poured out from the corresponding bottles one by one in use, which is not convenient enough, and the different liquids are dispersed and stored, which is difficult to ensure the centralized storage, and sometimes difficult to find the bottles of certain liquid components, which affects the use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a not enough to prior art, the utility model aims at providing a multicavity multiple effect mixed liquid's container, this container can separately place the liquid component of different efficiency to can pour out each liquid component convenient and fast ground and mix.

In order to realize the utility model discloses an object, the utility model provides a multicavity multiple-effect mixed liquid's container, it includes: the accommodating part comprises a plurality of separated accommodating chambers and a plurality of openings which are communicated with the accommodating chambers in a one-to-one correspondence manner; the cover body comprises an outer cover and a bottom cover, and the outer cover can be matched with the bottom cover in an opening and closing way; the bottom cover comprises a plurality of connecting ports which are connected with each other, the connecting ports penetrate through the bottom cover and comprise a first connecting port end and a second connecting port end which are communicated with each other, and the first connecting port ends and the openings are detachably connected in a one-to-one correspondence manner; the outer cover comprises a plurality of plug parts which are connected with each other, and the plug parts are used for being matched with the second ends of the connecting ports in a one-to-one correspondence mode.

The further technical proposal is that a plurality of containing chambers are arranged in parallel and aligned with each other, and the openings are aligned with each other and face to the same direction; the connection ports are aligned parallel to each other and the plug portions are aligned parallel to each other.

The further technical scheme is that adjacent accommodating chambers are connected by connecting blocks, and all the connecting blocks and the accommodating chambers are integrally formed.

The further technical scheme is that the opening comprises a first connecting pipe and a first connecting part positioned on the outer side of the first connecting pipe; the first end of the connecting port comprises a second connecting pipe and a second connecting part positioned on the outer side of the second connecting pipe; the second connecting pipe is communicated with the second end of the connecting port; the first connecting pipe is sleeved with the second connecting pipe, and the first connecting part is detachably connected with the second connecting part.

The further technical scheme is that the first connecting portion is a boss arranged on the outer surface of the first connecting pipe, the second connecting portion is arranged around the second connecting pipe, the second connecting portion comprises a through hole or a groove, and the boss is detachably connected with the through hole or the groove in a clamping mode.

The further technical proposal is that the lug boss is arranged along the circumferential direction of the first connecting pipe; the second connecting part comprises a circular ring-shaped pipe, the circle center of the circular ring-shaped pipe is aligned with the circle center of the second connecting pipe, the circular ring-shaped pipe comprises a circular hole which is circumferentially arranged and used for being matched with the boss, and the second connecting part also comprises a connecting piece which is used for connecting two parts of the circular ring-shaped pipe which are separated by the circular hole; or the second connecting part comprises an elliptical ring pipe, the center of the elliptical ring pipe is aligned with the circle center of the second connecting pipe, and an arc-shaped hole used for being matched with the boss is formed in the pipe wall, close to the second connecting pipe, of the elliptical ring pipe.

The further technical scheme is that the boss is gradually inclined towards the direction close to the first connecting pipe along the direction far away from the accommodating cavity.

The second end of the connecting port comprises a transition part and a third connecting pipe, the diameter of the third connecting pipe is smaller than that of the second connecting pipe, the transition part is in a frustum shape, and the transition part is connected with the second connecting pipe and the third connecting pipe; the plug portion comprises an outer circular portion and an inner plug located in the outer circular portion, the outer circular portion is used for being in contact with the outer surface of the third connecting pipe, and the inner plug is used for being in contact with the inner surface of the third connecting pipe.

The further technical proposal is that the outer surface of the containing chamber positioned at the outer side is provided with a concave-convex structure or a rough surface for increasing the friction force; alternatively, the outer surface of the receiving chamber on the outside has a concave curved profile for hand gripping.

The further technical scheme is that the accommodating chamber can be elastically deformed under extrusion.

The first end of the outer cover is hinged with the first end of the bottom cover; the second end of the outer cover is provided with a concave part or a pulling block, or the second end of the bottom cover is provided with a placing groove close to the outer cover.

The bottom cover comprises a first cover panel and a first covering part bent relative to the first cover panel, a first end of a connecting port and a second end of the connecting port are respectively positioned on two sides of the first cover panel, and the tail end of the first covering part is aligned with the outer surface of the accommodating cavity positioned on the outer side; the outer cover comprises a second cover panel and a second cover portion bent relative to the second cover panel, the plug portion is arranged on the inner side of the second cover panel, and the outer surface of the second cover portion is aligned with the outer surface of the first cover portion.

Compared with the prior art, the utility model discloses can gain following beneficial effect:

the utility model discloses a container of multicavity multiple effect mixed liquid provides a plurality of accommodation chambers for deposit the liquid of multiple different nature, and a plurality of openings, connector and the stopper portion of mutually supporting are provided, thereby it mixes to be used for pouring out foretell multiple liquid simultaneously, and this container has avoided multiple different nature liquid to deposit the in-process influence each other, utilizes this container to carry out mixing operation ten minutes convenient and fast moreover. The container is detachably connected between the accommodating chamber and the connection port, which contributes to the reuse of the container.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of a multi-chamber multi-effect liquid mixing container of the present invention.

Fig. 2 is a schematic perspective view of a container for multi-chamber multi-effect mixed liquid according to a first embodiment of the present invention.

Fig. 3 is a perspective view of the container for multi-chamber multi-effect mixed liquid according to the present invention.

Fig. 4 is a schematic view of a first embodiment of a multi-chamber multi-effect mixing fluid container of the present invention showing a cover at a first viewing angle.

Fig. 5 is a schematic view of a cover body of a first embodiment of a multi-chamber multi-effect liquid mixing container according to the present invention at a second viewing angle.

Fig. 6 is a schematic view of a cover body in a second embodiment of the multi-chamber multi-effect liquid mixing container of the present invention.

Fig. 7 is a schematic diagram of a third embodiment of a multi-chamber multi-effect mixing fluid container of the present invention.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Detailed Description

As shown in fig. 1 to 5, a first embodiment of the present invention provides a multi-chamber multi-effect mixed liquid container, which includes a container 10 and a cover 20, wherein the container 10 and the cover 20 may be made of plastic. The containing part 10 includes two separated containing chambers 11 and a plurality of openings communicating with each containing chamber 11 in a one-to-one correspondence, the openings being used for passing the liquid of the containing chambers 11 around or for containing the liquid. The cover body 20 includes an outer cover 30 and a bottom cover 21, and the outer cover 30 is openably and closably engaged with the bottom cover 21. The bottom cap 21 includes a plurality of interconnected ports therethrough and including a first port end and a second port end in communication with each other, the first port end being removably connected in a one-to-one correspondence with the openings, and the outer cap 30 includes a plurality of interconnected plug portions for mating with the second port end in a one-to-one correspondence.

Preferably, the plurality of receiving chambers 11 are aligned in parallel with each other, the openings are aligned with each other and face the same direction, the connecting ports are aligned in parallel with each other, and the plugs are aligned in parallel with each other, so that the structure of the container is more tidy, the manufacturing of the receiving portion 10 and the cover body 20 is facilitated, the mixing of the liquids guided out of the receiving chambers 11 can be facilitated, and the liquids discharged out of the receiving chambers 11 are more uniform.

Preferably, adjacent receiving chambers 11 are connected by connecting blocks 12, and all connecting blocks 12 and receiving chambers 11 are integrally formed, for example, plastic is injection molded and then each receiving chamber 11 is blow molded.

Preferably, the opening comprises a first connecting tube 13 and a first connecting portion 14 located outside the first connecting tube. The first end of the connection port includes a second connection pipe 22 and a second connection portion located outside the second connection pipe 22, and the second connection pipe 22 is communicated with the second end of the connection port. The first connecting pipe 13 is fitted with the second connecting pipe 22, and the first connecting portion 14 is detachably connected with the second connecting portion so that the opening is connected and communicated with the first end of the connecting port. More preferably, the first connecting portion 14 is a boss disposed on an outer surface of the first connecting pipe, the second connecting portion is disposed around the second connecting pipe 23, the second connecting portion includes a through hole or a groove, the boss is detachably engaged with the through hole or the groove, the boss can be inserted into the through hole or the groove to be engaged by aligning a first end of the connecting port with the opening, and pressing the cover 20 toward the accommodating portion 10, and conversely, when the cover 20 is pulled out from the accommodating portion 10, the boss can be disengaged from the through hole or the groove, so as to accommodate or replace different liquids in different accommodating chambers 11.

Preferably, the boss is provided along a circumferential direction of the first connection pipe 13 to provide a more stable and reliable snap-fit relationship, and more preferably, the boss is gradually inclined toward a direction approaching the first connection pipe 13 in a direction away from the receiving chamber 11 so that the boss is more easily snapped into the corresponding through-hole or groove. The second connection portion comprises, in correspondence with the boss, a circular annular tube 23, the centre of the circular annular tube 23 being aligned with the centre of the second connection tube 22, the circular annular tube 23 comprising a circumferential annular hole 24 for cooperation with the boss, and a connecting member 25, for example rod-shaped, for connecting the two portions of the circular annular tube 23 separated by the annular hole 24. Preferably, the end of the second connection pipe 22 has a thinner wall than the circular ring-shaped pipe 23, and the end of the second connection pipe 22 can be slightly elastically deformed, so that the second connection pipe 22 is inserted into the first connection pipe 13 and the first connection pipe 13 is inserted.

Preferably, the second end of the connection port includes a transition portion 26 and a third connection pipe 27, the diameter of the third connection pipe 27 is smaller than that of the second connection pipe 22, the transition portion 26 is in a frustum shape, so as to reduce the occurrence of dead corners, and the transition portion 26 connects the second connection pipe 22 and the third connection pipe 27. Since the second connection tube 22 is engaged with the opening, the opening may have a larger diameter to facilitate the liquid contained in the containing chamber 11. The third connection pipe 27 has a small diameter so as to control the flow rate of the liquid. More preferably, the different third connecting pipes 27 may have the same or different diameters, and the liquid outlet amounts of different liquids may be controlled by the diameters.

Preferably, the plug portion comprises an outer circular ring portion 31 and an inner plug 32 located inside the outer circular ring portion 31, the outer circular ring portion 31 is used for contacting with the outer surface of the third connecting pipe 27, and the inner plug 32 is used for contacting with the inner surface of the third connecting pipe 27, so that the sealing function can be better achieved. Preferably, the inner plug 32 may also be ring-shaped, the end of the inner plug 32 has a thinner wall than the outer ring part 31, and the inner plug 32 can be slightly elastically deformed, so that the inner plug 32 can be inserted into the third connecting pipe 27 and tightly plug the third connecting pipe 27.

Preferably, the outer surface of the accommodating chamber 11 located at the outer side is provided with a concave-convex structure for increasing friction force, for example, a transverse concave strip 16 may be provided to increase friction force when holding the accommodating chamber 11 by hand, so as to prevent the accommodating chamber 11 from easily sliding.

Preferably, the accommodation chamber 11 is capable of being elastically deformed under pressure, i.e., the liquid in the accommodation chamber 11 can be squeezed out by the pressure. The utility model discloses an in other embodiments, hold cavity 11 or opening part and can set up the air inlet, keep holding cavity 11 inside and outside atmospheric pressure balanced, hold cavity 11 through invering, liquid can flow out under the action of gravity.

Preferably, the first end of the outer lid 30 is hinged to the first end of the bottom lid 21, and the second end of the bottom lid 21 is provided with a placement groove 33 near the outer lid 30, so that a finger can be inserted into the placement groove 33 to open the outer lid 30.

Preferably, the bottom cover 21 comprises a first cover panel 28 and a first cover portion 29 bent with respect to the first cover panel 28, a first end of the connection port and a second end of the connection port being respectively located on both sides of the first cover panel 28, and a tip end of the first cover portion 29 being aligned with an outer surface of the accommodation chamber 11 located on the outer side. The outer lid 30 further comprises a second lid panel 34 and a second cover portion 35 folded relative to the second lid panel 34, the plug portion being disposed on the inside of the second lid panel 34, the second cover portion 35 ending in alignment with the first cover portion 29. The overall appearance of the container is smoother due to the arrangement, and the influence on hand feeling or dust accumulation easily caused by the concave-convex parts at the joints is avoided.

As shown in fig. 6, the container of the second embodiment of the present invention is substantially the same as the first embodiment, except that the second connecting portion of the bottom cover 21 includes an elliptical ring-shaped tube 23 instead of a circular ring-shaped tube, the center of the elliptical ring-shaped tube 23 is aligned with the center of the second connecting tube 22, an arc-shaped hole 24 for matching with the boss is formed on the wall of the elliptical ring-shaped tube 23 close to the second connecting tube 22, and the wall of the elliptical ring-shaped tube 23 away from the second connecting tube 22 is a complete connecting surface without an additional connecting member.

As shown in fig. 7, the container according to the third embodiment of the present invention is substantially the same as the first embodiment, except that the number of the accommodating chambers 11 is 3, and the number of the corresponding openings, connecting ports, and plugs is three. In this embodiment, 3 accommodation chambers 11 are arranged side by side, and in other embodiments of the present invention, 3 accommodation chambers may also be arranged in a circumferential direction, and the cross section of the accommodation chamber may be, for example, a sector, and 3 accommodation chambers may be spliced into a circular cross section. In addition, in the present embodiment, the outer surface of the receiving chamber 11 at the outer side has a concave arc profile 15 for hand holding, and the second end of the outer cover 30 is provided with a pulling block 36, and the pulling block 36 is used for conveniently pulling up the outer cover 30.

Finally, it should be emphasized that the above-described embodiments are merely preferred embodiments of the present invention, and are not intended to limit the present invention. 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 multi-chamber multi-effect mixing fluid container, comprising:

the accommodating part comprises a plurality of separated accommodating chambers and a plurality of openings which are communicated with the accommodating chambers in a one-to-one correspondence manner;

the cover body comprises an outer cover and a bottom cover, and the outer cover is matched with the bottom cover in an opening and closing way; the bottom cover comprises a plurality of connecting ports which are connected with each other, the connecting ports penetrate through the bottom cover and comprise connecting port first ends and connecting port second ends which are communicated with each other, and the connecting port first ends are detachably connected with the openings in a one-to-one correspondence mode; the outer cover comprises a plurality of plug parts which are connected with each other, and the plug parts are used for being matched with the second end of the connecting port in a one-to-one correspondence mode.

2. A multi-chamber multi-effect mixing fluid container according to claim 1, wherein:

a plurality of said receiving chambers aligned in parallel with each other, said openings being aligned with each other and facing in the same direction; the connection ports are aligned parallel to each other and the plug portions are aligned parallel to each other.

3. A multi-chamber multi-effect mixing fluid container according to claim 1, wherein:

adjacent accommodating chambers are connected by connecting blocks, and all the connecting blocks and the accommodating chambers are integrally formed.

4. A multi-chamber multi-effect mixing fluid container according to any one of claims 1 to 3, wherein:

the opening comprises a first connecting pipe and a first connecting part positioned on the outer side of the first connecting pipe;

the first end of the connecting port comprises a second connecting pipe and a second connecting part positioned on the outer side of the second connecting pipe; the second connecting pipe is communicated with the second end of the connecting port;

the first connecting pipe is sleeved with the second connecting pipe, and the first connecting part is detachably connected with the second connecting part.

5. A multi-chamber multi-effect mixing fluid container according to claim 4, wherein:

the first connecting portion are arranged on the boss on the outer surface of the first connecting pipe, the second connecting portion are arranged around the second connecting pipe, the second connecting portion comprise a through hole or a groove, and the boss is detachably connected with the through hole or the groove in a clamped mode.

6. A multi-chamber multi-effect mixing fluid container according to claim 5, wherein:

the boss is arranged along the circumferential direction of the first connecting pipe;

the second connecting part comprises an annular pipe, the circle center of the annular pipe is aligned with that of the second connecting pipe, the annular pipe comprises an annular hole which is circumferentially arranged and used for being matched with the boss, and the second connecting part further comprises a connecting piece which is used for connecting two parts of the annular pipe which are separated by the annular hole; or the second connecting part comprises an elliptical ring pipe, the center of the elliptical ring pipe is aligned with the circle center of the second connecting pipe, and an arc-shaped hole used for being matched with the boss is formed in the pipe wall, close to the second connecting pipe, of the elliptical ring pipe.

7. A multi-chamber multi-effect mixing fluid container according to claim 5, wherein:

the boss is gradually inclined toward the first connection pipe in a direction away from the receiving chamber.

8. A multi-chamber multi-effect mixing fluid container according to claim 4, wherein:

the second end of the connecting port comprises a transition part and a third connecting pipe, the diameter of the third connecting pipe is smaller than that of the second connecting pipe, the transition part is in a frustum shape, and the transition part is connected with the second connecting pipe and the third connecting pipe; the different third connecting pipes have the same or different diameters;

the plug portion includes outer ring portion and is located interior stopper in the outer ring portion, outer ring portion be used for with the surface contact of third connecting pipe, interior stopper be used for with the interior surface contact of third connecting pipe.

9. A multi-chamber multi-effect mixing fluid container according to any one of claims 1 to 3, wherein:

the outer surface of the accommodating chamber positioned at the outer side is provided with a concave-convex structure or a rough surface for increasing friction force; or the outer surface of the accommodating chamber positioned at the outer side is provided with a concave arc profile for hand holding;

the receiving chamber is capable of being elastically deformed under compression.

10. A multi-chamber multi-effect mixing fluid container according to any one of claims 1 to 3, wherein:

the first end of the outer cover is hinged with the first end of the bottom cover; the second end of the outer cover is provided with a concave part or a pulling block, or the second end of the bottom cover is provided with a placing groove close to the outer cover;

the bottom cover comprises a first cover panel and a first covering part bent relative to the first cover panel, the first end and the second end of the connecting port are respectively positioned at two sides of the first cover panel, and the tail end of the first covering part is aligned with the outer surface of the accommodating cavity positioned at the outer side;

the outer cover comprises a second cover panel and a second cover portion bent relative to the second cover panel, the plug portion is arranged on the inner side of the second cover panel, and the tail end of the second cover portion is aligned with the first cover portion.

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