CN218390630U - Blending box - Google Patents

Abstract

The embodiment of the application discloses a blending box, wherein the blending box comprises a box main body, a box cover and a cover opening mechanism; the box main body is provided with a discharge hole and a plurality of charging cavities surrounding the discharge hole, each charging cavity is provided with an opening facing upwards and communicated with the discharge hole, and the box main body is enclosed to form a charging space below the plurality of charging cavities and the discharge hole; the box cover can be movably covered at the plurality of openings; the cover opening mechanism comprises a poking rod and a restoring piece, one end of the poking rod is movably connected with the box cover, the other end of the poking rod penetrates through the box main body and extends into the charging space, and the poking rod is connected to the box main body through the restoring piece; when the box cover is closed, the poke rod is arranged obliquely from top to bottom and forwards so as to drive the box cover to open the plurality of openings when the poke rod is subjected to backward external force, and the poke rod drives the box cover to close the plurality of openings through the restoring piece when the external force is eliminated. The utility model discloses the allotment box can avoid spilling the material when conveniently getting the material.

Description

Blending box

Technical Field

The application relates to the technical field of articles for daily use, in particular to a blending box.

Background

Various accommodation boxes are used in daily life. In some use scenes, a plurality of raw materials are required to be mixed together for use, for example, when a user eats a hot pot and barbecues, the user can mix a plurality of different seasonings together according to personal preference to form water dipping, a cook needs to mix a plurality of different food materials together when cooking, a salesman in a milky tea shop needs to mix a plurality of different powders and foods together, and paint and painting need to mix and color pigments with various colors.

In this kind of scene, what adopt at present usually holds the box for many check, promptly, set up a plurality of divided chambeies in holding the box, place various raw materials in the different appearance intracavity, when the material was got to needs, ladled out respectively to outside container with the raw materials of different appearance intracavity. This kind of mode is inconvenient the user and is expected from the holding intracavity of difference, and when getting material, spills the raw materials to other holding intracavity or hold the box outside easily, and this brings very big puzzlement for the user.

The above is only for the purpose of assisting understanding of the technical solution of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model provides a blending box aims at solving many check and holds the inconvenient material of getting of box and spill the technical problem of material easily.

In order to achieve the purpose, the utility model provides a blending box which comprises a box main body, a box cover and a cover opening mechanism;

the box main body is provided with a discharge hole and a plurality of charging cavities surrounding the discharge hole, each charging cavity is provided with an opening facing upwards and communicated with the discharge hole, and the box main body is enclosed to form a charging space below the plurality of charging cavities and the discharge hole;

the box cover can be movably covered at the plurality of openings;

the cover opening mechanism comprises a poke rod and a restoring piece, one end of the poke rod is movably connected with the box cover, the other end of the poke rod penetrates through the box main body and stretches into the charging space, and the poke rod is connected to the box main body through the restoring piece; when the lid is closed, the poker rod from top to bottom just inclines to set up forward to when the poker rod receives external force backward, drive the lid is opened a plurality ofly uncovered, and when external force eliminated, the poker rod passes through the restoring piece drives the lid is closed a plurality ofly uncovered.

In an embodiment, the restoring member includes a swing rod located in the charging space, the swing rod is located at the front side of the poke rod, one end of the swing rod is rotatably connected to the box main body, and the other end of the swing rod is movably connected with the end of the poke rod extending into the charging space.

In an embodiment, the blending box further comprises a receiving cup located within the loading space; the poking rod is hinged with the swinging rod through the material receiving cup, so that when the swinging rod is subjected to backward force, the material receiving cup is driven to avoid the discharge hole and is linked with the poking rod to drive the box cover to open a plurality of openings, and when external force is eliminated, the material receiving cup moves to the position below the discharge hole through the swinging rod and is linked with the poking rod to drive the box cover to close the plurality of openings.

In one embodiment, the cartridge body comprises a bottom plate, a front side plate and a side wall plate which are connected to the outer periphery of the bottom plate, the front side plate, the side wall plate and the bottom plate enclose an inner cavity of the cartridge body, a plurality of loading cavities are formed in the inner cavity of the cartridge body, and the loading space is formed below the bottom plate; the discharge hole is formed in the joint of the bottom plate and the front side plate, and one side, far away from the discharge hole, of the box cover is hinged to the side enclosing plate so as to open and close the plurality of openings.

In one embodiment, the main body further comprises a blocking wall positioned between two adjacent charging chambers, and the blocking wall is provided with a stroke hole which is communicated up and down;

the lower ends of the two swinging rods are fixedly connected with the two sides of the receiving cup, and the upper ends of the two swinging rods are rotatably connected with the periphery of the discharge hole;

one end of the poke rod is hinged with the box cover, the other end of the poke rod penetrates through the travel hole and is hinged with a position, between the two swing rods, of the material receiving cup, when the box cover is closed, the material receiving cup is located under the discharge hole, and the cup opening of the material receiving cup is arranged upwards.

In one embodiment, the travel holes are arranged from top to bottom and inclined towards the discharge hole.

In one embodiment, the inner periphery of the discharge hole is connected with a material guide cover, a discharge hole is formed in the middle of the material guide cover, the inner diameter of the material guide cover is gradually reduced from top to bottom, and the diameter of the cup opening of the material receiving cup is larger than that of the discharge hole.

In one embodiment, the box cover is provided with a position avoiding hole corresponding to the discharge hole, and the inner periphery of the position avoiding hole is provided with a first spoon handle placing groove which is in one-to-one correspondence with and communicated with the plurality of charging cavities; and/or the upper edge of the front side plate is provided with a second spoon handle placing groove communicated with the charging cavity.

In one embodiment, the cartridge body includes a housing and a plurality of small loading cartridges, the housing is formed with the bottom plate, the front side plate and the side enclosing plate, the small loading cartridges are detachably mounted in the accommodating cavity of the housing, and an inner cavity of each small loading cartridge forms the loading cavity.

In one embodiment, the side wall plate comprises a plurality of concave arc sections which are sequentially adjacent along the circumferential direction of the discharge hole, and the inner concave surfaces of the concave arc sections face the discharge hole; one end of each small loading box, which is far away from the discharge hole, is limited and arranged in the concave arc section in the circumferential direction around the discharge hole; one end of the small loading box, which is close to the discharge hole, is provided with a hanging part, and the hanging part is hung on the inner peripheral edge of the discharge hole.

In one embodiment, the bottom plate extends downwards from the periphery of the discharge hole along the radial direction of the discharge hole to the side far away from the discharge hole, so that the depth of the charging cavity is gradually increased along the radial direction of the discharge hole to the side far away from the discharge hole, and the charging space is enclosed below the bottom plate.

The utility model discloses allotment box is through making to be equipped with the discharge opening and surrounding a plurality of charging chambers of discharge opening on the box main part, every charging chamber all has the uncovered up and communicate with the discharge opening, the box main part encloses to close to be formed with and is located a plurality of charging chambers and discharge opening below; the user only needs when batching to remove to the loading space with outer container in, alright get the material and the batching operation, compares in traditional many check receivers, can shorten the route of getting of a plurality of charging chambers, and can avoid the user to spill the raw materials when getting the material to other charging chambers or allotment box outside.

And the box cover can be movably covered at the plurality of openings; the cover opening mechanism comprises a poking rod and a restoring piece, one end of the poking rod is movably connected with the box cover, the other end of the poking rod penetrates through the box main body and extends into the charging space, and the poking rod is connected to the box main body through the restoring piece; when the box cover is closed, the poke rod is arranged obliquely from top to bottom and forwards so as to drive the box cover to open the plurality of openings when the poke rod is subjected to backward external force, and the poke rod drives the box cover to close the plurality of openings through the restoring piece when the external force is eliminated.

So, when needs batching, the user can with external container by preceding to after move to the charge space in aim at the discharge opening, promote simultaneously that the poker rod linkage lid opens a plurality of uncovered, user alright this moment from uncovered department according to specific demand with the raw materials of different charge intracavity dial in or scoop out in the discharge opening, and then shift to in the external container. After the batching is accomplished, only need remove outside container, the poker rod alright drive the lid under the effect of reply piece and remove to closing a plurality of openings. Then the utility model discloses a blending box will get material operation and the linkage of the operation of uncapping, and the user need not additionally to uncap the operation when getting the material to convenience of customers gets the material more.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of an embodiment of a blending box of the present invention, wherein the lid is in an open position;

FIG. 2 is a schematic view of the blending box of FIG. 1 from another angle;

FIG. 3 is a front view of the dispenser of FIG. 1;

FIG. 4 is a cross-sectional view taken along line IV-IV of FIG. 3;

FIG. 5 is an exploded view of the blending box of FIG. 1;

FIG. 6 is a schematic structural view of an embodiment of a small loading box of the blending box of the present invention;

FIG. 7 is a schematic view of the lid of the dispenser of FIG. 1 in a closed position;

FIG. 8 is a front view of the dispenser of FIG. 7;

FIG. 9 is a cross-sectional view taken along line IX-IX of FIG. 8;

fig. 10 is a schematic structural view of another embodiment of the blending box of the present invention.

The reference numbers indicate:

reference numerals	Name (R)	Reference numerals	Name (R)	Reference numerals	Name (R)
						100	Box main body	150	Front side board	191	Hanging part
110	Discharge hole	151	Second spoon handle placing groove	200	Box cover
						111	Material guiding cover	160	Side coaming	210	Avoiding hole
112	Discharge port	161	Concave arc section	220	First spoon handle holding groove
						120	Charging chamber	170	Retaining wall	300	Cover opening mechanism
121	Open mouth	171	Stroke hole	310	Poke rod
						130	Charging space	180	Shell body	320	Swinging rod
140	Base plate	190	Small box for charging	400	Material receiving cup

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B" including either scheme A, or scheme B, or a scheme in which both A and B are satisfied.

The utility model provides a blending box, this blending box can be used to the scene of various differences, for example, this blending box can regard as the box of flavouring to use, then places different seasonings at a plurality of material loading intracavity of this blending box as required. The blending box can also be used as a food storage box, and different food materials, such as different rice, beans and the like can be placed in the plurality of loading cavities of the blending box according to needs. Of course, the blending box can also be used for accommodating various articles such as powder, particles, liquid and the like, and the use scene of the blending box is not particularly limited.

In the embodiment of the present invention, referring to fig. 1 to 4 and fig. 7 to 9, the blending box includes a box main body 100, a box cover 200 and a cover opening mechanism 300; the box main body 100 is provided with a discharge hole 110 and a plurality of charging cavities 120 surrounding the discharge hole 110, each charging cavity 120 is provided with an opening 121 facing upwards and communicated with the discharge hole 110, and the box main body 100 is enclosed to form a charging space 130 below the plurality of charging cavities 120 and the discharge hole 110.

The box cover 200 can be movably covered at the plurality of openings 121; the lid opening mechanism 300 comprises a poke rod 310 and a restoring piece, one end of the poke rod 310 is movably connected with the box cover 200, the other end of the poke rod 310 penetrates through the box main body 100 and extends into the loading space 130, and the poke rod 310 is connected with the box main body 100 through the restoring piece; when the box cover 200 is closed, the poke rod 310 is inclined from top to bottom and forward, so that when the poke rod 310 is subjected to a backward external force, the box cover 200 is driven to open the plurality of openings 121, and when the external force is eliminated, the poke rod 310 drives the box cover 200 to close the plurality of openings 121 through the restoring member.

In the present embodiment, the shape of the box main body 100 may be various, for example, the cross-sectional shape of the box main body 100 may be rectangular, circular, semicircular, petal-shaped, etc., and the shape of the discharging hole 110 may also be various, for example, circular, semicircular, rectangular, etc., which are not limited herein. The discharging hole 110 may be disposed in the middle of the box body 100, or may be opened in the edge of the box body 100. A plurality of charging cavities 120 are arranged around the discharging hole 110, and the number of the charging cavities 120 can be selected and designed according to actual requirements, for example, the number of the charging cavities 120 can be two, three, four, six, eight, and the like. The plurality of charging chambers 120 may be identical or different in shape and size, and are not particularly limited herein. So that a plurality of charging cavities 120 are arranged around the discharge hole 110, the adjacent charging cavities 120 can be arranged at intervals or in close proximity. To take full advantage of space, adjacent charging chambers 120 are optionally located in close proximity.

The plurality of charging chambers 120 may be formed by providing a plurality of partition plates in the inner chamber of the cartridge main body 100 to partition the inner chamber of the cartridge main body 100 into the plurality of charging chambers 120, or by installing a plurality of cartridges 190 in the inner chamber of the cartridge main body 100 such that one charging chamber 120 is formed in each of the cartridges 190, and the manner of forming the plurality of charging chambers 120 is not particularly limited. The box main body 100 encloses and forms the loading space 130 below the loading chamber 120 and the discharging hole 110, so that the bottom plate 140 of the box main body 100 can be a cone-shaped structure, or support legs can be provided on the bottom plate 140 of the box main body 100, so that the loading space 130 is enough below the box main body 100.

The materials of the box body 100, the box cover 200, and the cover opening mechanism 300 may be the same or different, and the material types may be various, for example, the box body 100 and the box cover 200 may be made of plastic, metal, or the like. The discharge hole 110 is a through hole. Each charging chamber 120 has an opening 121 facing upwards, and the opening 121 of each charging chamber 120 is communicated with the discharge hole 110, that is, the edge of the opening 121 of the charging chamber 120 is adjacent to the edge of the discharge hole 110, so that the user can take out the raw materials in the plurality of charging chambers 120 through the discharge hole 110 via the opening 121 when charging. Compare in traditional many check receivers, adopt the scheme of this application can shorten a plurality of charging chambers 120 get the material route, and can avoid the user to spill the raw materials to other charging chambers 120 in when getting the material or the allotment box outside. The bottom wall of the charging chamber 120 may be located below the discharge hole 110, and in order to facilitate discharging, the bottom wall of the charging chamber 120 is optionally provided to be inclined downward from the periphery of the discharge hole 110 in the radial direction of the discharge hole 110 toward the side away from the discharge hole 110. In this manner, the bottom wall of the charging chamber 120 is inclined, and the discharge opening 110 is located at the highest position of the bottom walls of the plurality of charging chambers 120. When the material is taken, the material in the charging chamber 120 can be taken out from the discharging hole 110 only by pulling the material from the bottom wall of the charging chamber 120 to the discharging hole 110. The material taking mode is simple, convenient and quick, and easy to operate.

The lid 200 is used to simultaneously close and open the openings 121 of the plurality of charging chambers 120. The shape of the lid 200 can be varied to save material and maintain the consistency of the appearance of the dispenser. Optionally, the shape of the box cover 200 corresponds to the cross-sectional shape of the box body 100 at the opening 121. The box cover 200 is movably covered at the openings 121 of the plurality of loading cavities 120, so that the box cover 200 and the box main body 100 can be in rotating connection or sliding connection. That is, the box cover 200 may rotate to open or close the plurality of openings 121, or smoothly open or close the plurality of openings 121. The movable connection between the box cover 200 and the box main body 100 is not particularly limited.

It should be noted that the directional indications (such as up, down, left, right, front, and back … …) mentioned herein are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture, and if the specific posture is changed, the directional indication is changed accordingly.

The lid opening mechanism 300 is used to assist in interlocking the opening or closing of the lid 200. The length of the poke rod 310 can be selected and designed according to the depth of the inner cavity of the box body 100 and the specific connection position of the poke rod 310 and the box cover 200, and is not limited in detail. Specifically, the main body 100 may be provided with a travel hole 171 for the poke rod 310 to pass through. The poke rod 310 can penetrate through the inner wall of one of the charging cavities 120, and can also penetrate through the blocking wall 170 between two adjacent charging cavities 120. The return member may also have a variety of configurations, for example, the return member may have a spring configuration, a swing lever 320, or the like. The structure of the restoring member and the connection between the tap lever 310 and the cap 200 and the restoring member are changed according to the movable connection between the cap 200 and the main body 100. Two ways are exemplarily illustrated below.

In the first case, the box cover 200 is hinged to the box body 100 to rotate to open or close the plurality of open openings 121. The return member may be a swing lever 320. When the restoring member is the swing lever 320, the swing lever 320 is disposed in the loading space 130 such that one end of the tap lever 310 is hinged to the box cover 200, the other end is hinged to the swing lever 320, and the other end of the swing lever 320 is hinged to the box main body 100. At this time, the box cover 200, the tap lever 310 and the swing lever 320 form a crank link mechanism. When the ingredients are needed, the external container is placed in the loading space 130 from front to back, a forward and backward thrust is applied to the swing rod 320, the swing rod 320 drives the poke rod 310 to move backward and upward, and the box cover 200 is pushed, so that the box cover 200 is turned over to open the plurality of openings 121. When the external force is removed, the box cover 200 is rotated downward to cover the plurality of openings 121 by gravity and by the limit of the swing lever 320 and the link.

In the second case, the box cover 200 is slidably coupled to the box body 100 to slidably open or close the plurality of open openings 121. The restoring member may include a swing lever 320 provided in the charge space 130 such that one end of the tap lever 310 is hinged to the box cover 200, the other end is hinged to the swing lever 320, and the other end of the swing lever 320 is hinged to the box body 100. At this time, the box cover 200, the tap lever 310 and the swing lever 320 form a slider-crank mechanism. When the swing lever 320 is forced forward and backward, the swing lever 320 transmits a force to the tap lever 310, and the tap lever 310 applies a backward moving force to the box cover 200, so that the swing lever 320 can open the plurality of openings 121 backward in conjunction with the box cover 200. At this time, if the restoring member includes a spring, or if the cap 200 is disposed to be inclined forward from the rear, the cap 200 may be moved forward by the restoring force of the spring or the gravity of the cap 200, thereby automatically closing the plurality of openings 121.

Therefore, the uncovering mechanism 300 can be combined with the poking rod 310 or other connecting rods to form various different link mechanisms by the restoring piece, only one end of the poking rod 310 is required to be movably connected with the box cover 200, the other end of the poking rod penetrates through the box main body 100 to extend into the loading space 130 and is connected to the box main body 100 through the restoring piece, and the poking rod 310 is obliquely arranged from top to bottom and forwards. So, when needs batching, the user places external container in charge space 130 by preceding to the back to aim at discharge opening 110 and stir, external container promotes poker 310 simultaneously, poker 310 pushes away lid 200, drives lid 200 and opens a plurality of uncovered 121, in the user dials into or ladles into discharge opening 110 with the raw materials in the charging chamber 120 according to the demand this moment, the raw materials shifts to external container in through discharge opening 110, get material convenient and fast, can effectively avoid spilling the material. After the ingredients are completed, the user removes the outer container, and the poke rod 310 moves back under the action of the restoring member, thereby driving the box cover 200 to move back to close the plurality of openings 121.

The blending box of the utility model is characterized in that the box main body 100 is provided with the discharge hole 110 and a plurality of charging cavities 120 surrounding the discharge hole 110, each charging cavity 120 is provided with an opening 121 facing upwards and communicated with the discharge hole 110, and the box main body 100 is enclosed to form a charging space 130 below the plurality of charging cavities 120 and the discharge hole 110; the user only needs when batching to remove to the loading space 130 with outer container in, alright get the material and the batching operation, compares in traditional many check receivers, can shorten the route of getting of a plurality of charging chambers 120, and can avoid the user to spill the raw materials when getting the material to other charging chambers 120 in or outside the allotment box.

So that the box cover 200 can be movably covered on the plurality of openings 121; the lid opening mechanism 300 comprises a poke rod 310 and a restoring piece, one end of the poke rod 310 is movably connected with the box cover 200, the other end of the poke rod 310 penetrates through the box main body 100 and extends into the loading space 130, and the poke rod 310 is connected with the box main body 100 through the restoring piece; when the box cover 200 is closed, the poke rod 310 is inclined from top to bottom and forward, so that when the poke rod 310 receives a backward external force, the box cover 200 is driven to open the plurality of openings 121, and when the external force is eliminated, the poke rod 310 drives the box cover 200 to close the plurality of openings 121 through the restoring piece.

Thus, when the ingredients are needed, the user can move the external container from front to back into the loading space 130 to align the discharge hole 110, and push the poking rod 310 to open the plurality of openings 121 in conjunction with the box cover 200, so that the user can poke or scoop the raw materials in different loading cavities 120 into the discharge hole 110 from the openings 121 according to specific requirements, and then transfer the raw materials into the external container. After the ingredients are finished, the pulling rod 310 can drive the box cover 200 to move to close the plurality of openings 121 under the action of the restoring member by only removing the outer container. The utility model discloses a allotment box will get material operation and the linkage of the operation of uncapping, and the user need not additionally to uncap the operation when getting the material to convenience of customers gets the material more.

Further, the restoring member includes a swing lever 320 located in the charging space 130, the swing lever 320 is disposed at a front side of the dial lever 310, and one end thereof is rotatably connected to the box main body 100, and the other end thereof is movably connected to an end of the dial lever 310 extending into the charging space 130.

In the present embodiment, the swing lever 320 is located in the charge space 130 and on the front side of the tap lever 310. The end of the swing lever 320 may be hinged to the inner wall surface or the outer wall surface of the box cover 200, or a hole may be formed in the box cover 200, so that the swing lever 320 is hinged in the hinge hole of the box cover 200, which is not limited herein. The poke rod 310 and the swing rod 320 can be directly hinged or indirectly hinged through other structures. The swing lever 320 is disposed at the front side of the tap lever 310, and one end of the swing lever is rotatably connected to the box body 100, and the other end of the swing lever is movably connected to the end of the tap lever 310 extending into the loading space 130, so that the box cover 200, the tap lever 310, and the swing lever 320 form an anti-parallel four-bar mechanism as a whole. Therefore, the uncovering mechanism 300 only comprises the two connecting rods, namely the poking rod 310 and the swinging rod 320, so that the linked box cover 200 can be opened and closed.

When needing the batching, the user places external container in charge space 130 by preceding to back to aim at discharge opening 110 and stir, external container promotes swinging arms 320 by preceding to back, the swinging arms 320 swings, push away lid 200 with linkage poker rod 310, drive lid 200 upset and open a plurality of uncovered 121, the user is according to the demand with the raw materials in the charging chamber 120 stir into or ladle into in discharge opening 110 this moment, the raw materials shifts to external container in through discharge opening 110 in, get material convenient and fast, can effectively avoid spilling the material. After the ingredient is finished, the user removes the outer container, and the swing lever 320 is rotated to move the poke rod 310 forward and downward, thereby driving the box cover 200 to close the plurality of openings 121.

In one embodiment, referring again to fig. 1-4 and 7-9, the blending box further includes a receiving cup 400 located in the loading space 130; the poking rod 310 is hinged to the swing rod 320 through the material receiving cup 400, so that when the swing rod 320 is subjected to backward force, the material receiving cup 400 is driven to avoid the discharge hole 110, the poking rod 310 is linked to drive the box cover 200 to open the plurality of openings 121, when external force is eliminated, the material receiving cup 400 moves to the lower side of the discharge hole 110 through the swing rod 320, and the poking rod 310 is linked to drive the box cover 200 to close the plurality of openings 121.

In this embodiment, the shape of the receiving cup 400 may also be various, for example, the cross-sectional shape of the receiving cup 400 may also be circular, rectangular, polygonal, etc., and may be selected and designed according to actual requirements, which is not limited herein. The depth of the receiving cup 400 can also be designed according to actual requirements. In order to receive materials conveniently, waste materials of the discharge hole 110 are prevented from being scattered, and the diameter of the cup opening of the receiving cup 400 is larger than the inner diameter of the discharge hole 110. The poke rod 310 is hinged with the swing rod 320 through the receiving cup 400, so that the poke rod 310 can be hinged with the receiving cup 400, the swing rod 320 is fixedly connected with the receiving cup 400, the poke rod 310 can also be fixedly connected with the receiving cup 400, and the swing plate is hinged with the receiving cup 400. In order to prevent the receiving cup 400 from shaking relative to the swing rod 320, optionally, the lower end of the swing rod 320 is fixedly connected to the receiving cup 400, and the lower end of the poke rod 310 is hinged to the receiving cup 400.

It will be appreciated that the periphery of the charging hole inevitably has residual waste material when the user discharges through the charging hole in the charging space 130. Through making swinging arms 320 and poker rod 310 articulated mutually through receiving cup 400, when lid 200 was closed, can make receiving cup 400 remove to the below of discharge opening 110 through poker rod 310 and swinging arms 320's linkage, then receiving cup 400 can be used to accept the residue waste material that the discharge opening 110 periphery dropped, can effectively avoid the peripheral waste material of discharge opening 110 to spill to desktop or mesa, make the use of whole allotment box cleaner and tidier, further promote user's use and experience. When the material is needed to be received, the user pushes the swing rod 320 backwards to the external container, and when the linkage box cover 200 is opened, the material receiving cup 400 is driven to avoid the discharge hole 110, so that the material receiving cup 400 does not influence the charging operation of the external container. Meanwhile, the receiving cup 400 is connected between the swing rod 320 and the poking rod 310, the receiving cup 400 is mounted by fully utilizing the linkage of the swing rod 320 and the poking rod 310, and the receiving cup 400 is mounted without additionally arranging a connecting structure.

In one embodiment, as shown in fig. 1, 3 to 5, and 7 to 10, the cartridge body 100 includes a bottom plate 140, a front side plate 150 and a side wall plate 160 connected to an outer periphery of the bottom plate 140, the front side plate 150, the side wall plate 160 and the bottom plate 140 enclose an inner cavity of the cartridge body 100, a plurality of loading chambers 120 are formed in the inner cavity of the cartridge body 100, and a loading space 130 is formed below the bottom plate 140; the discharging hole 110 is opened at the connection position of the bottom plate 140 and the front side plate 150, and one side of the box cover 200 away from the discharging hole 110 is hinged to the side enclosing plate 160 to open and close the plurality of openings 121.

In the embodiment, the front plate 150 may have a planar plate structure, or may have an arc plate structure. The side enclosing plate 160 may be an arc-shaped plate-shaped structure, or may be a structure formed by splicing a plurality of plane-shaped plates, and is not particularly limited herein. Specifically, support legs may be provided at the bottom of the bottom plate 140 so that the loading space 130 is formed below the bottom plate 140. So that the discharge hole 110 is formed at the connection between the bottom plate 140 and the front plate 150, and the discharge hole 110 is a gap hole opening forward. The plurality of charging cavities 120 are formed in the inner cavity formed by the enclosing of the front side plate 150, the side wall plate 160 and the bottom plate 140, and the charging cavities 120 are not arranged around the periphery of the discharging hole 110, so that a user can directly observe the charging space 130 during charging, and can directly observe the discharging quantity of the discharging hole 110 and the receiving quantity of an external container during charging, so that the user can control the material taking quantity more conveniently, and the user use experience is improved. And one side of the box cover 200 far away from the discharging hole 110 is hinged to the side enclosing plate 160 to open and close the plurality of openings 121, so that the user is not influenced to take materials from the openings 121 after the box cover 200 is opened.

In an embodiment, referring to fig. 1 to 5 and 7 to 10, the main body 100 further includes a blocking wall 170 located between two adjacent loading cavities 120, and the blocking wall 170 is provided with a vertically penetrating stroke hole 171;

the number of the swing rods 320 is two, the lower ends of the two swing rods 320 are fixedly connected with the two sides of the receiving cup 400, and the upper ends of the two swing rods are rotatably connected with the periphery of the discharge hole 110;

one end of the poke rod 310 is hinged with the box cover 200, the other end of the poke rod penetrates through the stroke hole 171 and is hinged with the part of the material receiving cup 400 between the two swing rods 320, when the box cover 200 is closed, the material receiving cup 400 is positioned right below the discharge hole 110, and the cup opening of the material receiving cup 400 is arranged upwards.

In this embodiment, the blocking wall 170 may be located at the middle of the entire cartridge body 100 in the circumferential direction. The number of the charging cavities 120 may be even, and a plurality of charging holes are uniformly distributed at both sides of the blocking wall 170 in the circumferential direction, so that the opening and closing of the box cover 200 is smoother. The upper end of the swing lever 320 may be detachably connected to the periphery of the discharge hole 110 for easy cleaning. The lower end of the swing lever 320 may be detachably coupled to the receiving cup 400. The two swing rods 320 are respectively connected to the two sides of the receiving cup 400, and the lower end of the poke rod 310 is hinged with the position, between the two swing rods 320, of the receiving cup 400, so that the two swing rods 320 and the poke rod 310 form a triangular structure, the swinging of the receiving cup 400 is more stable, and meanwhile, when the box cover 200 is closed, the two swing rods 320 and the poke rod 310 can drive the receiving cup 400 to stably hover under the discharge hole 110, and the phenomenon that the receiving cup 400 is staggered with the discharge hole 110 is avoided; the structure of the blending box is stable and reliable, and the blending box can be repeatedly used.

The blocking wall 170 may be a side wall of the two charging chambers 120, or may be an additional structure. The blocking wall 170 is provided with the vertically penetrating stroke hole 171, so that the tap lever 310 extends into the charging space 130 through the stroke hole 171 of the blocking wall 170, and compared with the case of directly penetrating the bottom wall of the charging chamber 120, the structure of the charging chamber 120 can be prevented from being damaged, the tap lever 310 can be prevented from polluting the raw material in the charging chamber 120, and the raw material in the charging chamber 120 can be prevented from interfering with the movement of the tap lever 310. In addition, set up stroke hole 171 on keeping off wall 170, then this keep off wall 170 can be to the poker rod 310 go on effectively spacingly in the circumference around material outlet 110, compare in only making poker rod 310 wear to establish the scheme of the diapire of charging chamber 120, keep off wall 170 to the spacing area of poker rod 310 bigger, spacing effect is better, can effectively avoid poker rod 310 to take place to rock when reciprocating, and then make opening and closing of lid 200 more reliable and more stable.

Further, as shown in fig. 4 and 9, the stroke hole 171 is inclined from the top to the bottom toward the discharge hole 110. Since the forward and backward pushing force needs to be converted into the upward and backward uncovering force of the poke rod 310, the poke rod 310 needs to be tilted forward from top to bottom. By making the stroke hole 171 incline from top to bottom toward the discharging hole 110, that is, making the stroke hole 171 incline from top to bottom toward the front, the extending direction of the stroke hole 171 is substantially the same as the extending direction of the tap rod 310 when the box cover 200 is closed. Thus, the opening area of the stroke hole 171 can be reduced, and the structural strength of the blocking wall 170 can be improved. In addition to the inclined arrangement of the stroke hole 171 from the top to the bottom toward the discharge hole 110, the width of the stroke hole 171 in the front-rear direction is gradually increased from the bottom to the top. In this way, the die-drawing operation of the stroke hole 171 during manufacturing is facilitated without affecting the swing of the tap lever 310. In other embodiments, the axis of the stroke hole 171 may be aligned with the vertical direction, that is, the stroke hole 171 is a straight hole, which facilitates the mold opening.

In an embodiment, referring to fig. 1, 5, and 7 to 10, the inner circumference of the discharge hole 110 is connected with a material guiding cover 111, a discharge hole 112 is formed in the middle of the material guiding cover 111, the inner diameter of the material guiding cover 111 is gradually reduced from top to bottom, and the diameter of the cup opening of the material receiving cup 400 is greater than the inner diameter of the discharge hole 112.

In the present embodiment, the size of the discharge hole 112 may be selected and designed according to actual requirements, and is not specifically limited herein. In order to improve strength, the material guide cover 111 is integrally formed with the cassette main body 100. The material guide hood 111 is substantially trumpet-shaped. The inner diameter of the material guiding cover 111 is gradually reduced from top to bottom, so that the material guiding cover 111 can play a role of guiding materials, and the discharging at the discharging port 112 is smoother. And the diameter of the cup opening of the receiving cup 400 is larger than the inner diameter of the discharge hole 112, so that the raw materials can flow into the receiving cup 400 through the discharge hole 112 by the flow guiding function of the material guiding cover 111, the raw materials are prevented from being scattered outside the receiving cup 400, and the overall use cleanliness is further improved.

In one embodiment, as shown in fig. 1 to 3, 5 to 8, and 10, the box cover 200 is provided with a clearance hole corresponding to the discharge hole 110, and the inner periphery of the clearance hole is provided with a first spoon handle placing groove 220 corresponding to and communicating with the plurality of charging cavities 120 one by one; and/or the upper edge of the front side plate 150 is provided with a second spoon handle placing groove 151 communicated with the charging cavity 120.

In the present embodiment, the size and shape of the clearance hole are adapted to the discharging hole 110. In order to prevent the introduction of ash impurities into the charging chamber 120, the first handle placement groove 220 is slightly larger than a commonly used handle. The first spoon handle placing grooves 220 are arranged at intervals on the periphery of the avoiding hole. Through setting up a plurality of first spoon handle rest grooves at the internal perisporium of keeping away a hole for a plurality of first spoon handle rest groove 220 and a plurality of charging chamber 120 one-to-one and intercommunication, so, when lid 200 was closed, can directly place the ladle in charging chamber 120, wear out the spoon handle to keeping away a position hole department through first spoon handle rest groove 220, then convenience of customers uses more.

By opening the second spoon handle placement groove 151 communicating with the charging chamber 120 at the upper edge of the front side plate 150, when the spoon is placed in the charging chamber 120 in the immediate vicinity of the front side plate 150, this spoon handle can be directly projected from the second spoon handle placement groove 151 to the front side of the cartridge body 100, for the convenience of the user. Set up first spoon handle and put groove 220 on lid 200, and set up second spoon handle and put groove 151 on front side board 150, then the user can select the position of placing of spoon handle according to actual demand, effectively promotes the use convenience of blending box.

In one embodiment, referring to fig. 1 to 6, the cartridge main body 100 includes a housing 180 and a plurality of small charging cartridges 190, a bottom plate 140, a front side plate 150 and a side wall plate 160 are formed on the housing 180, the small charging cartridges 190 are detachably mounted in the accommodating cavity of the housing 180, and an inner cavity of each small charging cartridge 190 forms a charging cavity 120.

In this embodiment, the bottom plate 140, the front side plate 150 and the side panel 160 are formed on the casing 180, and the cavity of the casing 180 is enclosed by the bottom plate 140, the front side plate 150 and the side panel 160. The charge capsule 190 may be removably mounted in the cavity of the housing 180 by means of a snap-fit, snap-fit or the like. By making the cartridge main body 100 include a plurality of cartridges 190 that charge, the cartridges 190 that charge are detachably mounted in the cavity of the housing 180, and then the cartridges 190 that charge that have different raw materials placed therein can be replaced as needed by a user, and the cartridges 190 that charge can be detached alone and also be more convenient for the user to clean.

Further, the side wall plate 160 includes a plurality of concave arc segments 161 which are adjacent in sequence along the circumferential direction of the discharge hole 110, and the inner concave surface of the concave arc segment 161 faces the discharge hole 110; one end of each small loading box 190, which is far away from the discharge hole 110, is limited and arranged in a concave arc section 161 in the circumferential direction of the discharge hole 110; one end of the small loading box 190, which is close to the discharge hole 110, is provided with a hanging part 191, and the hanging part 191 is hung on the inner periphery of the discharge hole 110.

In this embodiment, the side wall plate 160 includes a plurality of concave arc segments 161 that are adjacent to each other in sequence along the circumferential direction of the discharge hole 110, and the inner concave surface of the concave arc segment 161 faces the discharge hole 110, so that the side wall plate 160 is petal-shaped as a whole. The number of concave-arc segments 161 corresponds to the number of cartridges 190, such that a plurality of cartridges 190 are installed in a one-to-one correspondence in the plurality of concave-arc segments 161. The cross-sectional shape of the charge capsule 190 is thus substantially drop-shaped. Make a small box 190 of feeding keep away from the one end adaptation of discharge opening 110 and install to a concave arc section 161, concave arc section 161's interior concave surface can be around discharge opening 110 upwards carry on spacingly to small box 190 of feeding in circumference, so, every small box 190 of feeding counterpoint is installed in a concave arc section 161, the user's of being more convenient for assembly, and can prevent that small box 190 of feeding from taking place upwards skew in circumference in casing 180.

By providing the hanging portion 191 at the end of the loading capsule 190 adjacent to the discharge hole 110, the loading capsule 190 is prevented from moving in the radial direction of the discharge hole 110 by the hanging portion 191 and the concave arc section 161, so that the loading capsule 190 can be more stably mounted in the housing 180. It can be understood that the plurality of small loading boxes 190 are arranged in the circumferential direction of the discharging hole 110 in an adjacent manner, and the plurality of small loading boxes 190 can be mutually limited in the circumferential direction around the discharging hole 110, so that the small loading boxes 190 can be limited only by the concave arc sections 161 of the side enclosing plates 160, no partition plate needs to be additionally arranged in the shell 180 to limit the movement of the small loading boxes 190 in the circumferential direction, and the manufacturing process and the cost of the shell 180 can be simplified.

In one embodiment, as shown in fig. 1 to 5 and 7 to 10, the bottom plate 140 extends from the periphery of the discharge hole 110 in a radial direction of the discharge hole 110 and is inclined downward toward a side away from the discharge hole 110, so that the depth of the charging chamber 120 is gradually increased toward the side away from the discharge hole 110 in the radial direction of the discharge hole 110, and the charging space 130 is enclosed below the bottom plate 140.

In the present embodiment, by making the bottom plate 140 extend from the periphery of the discharge opening 110 in a downward inclination toward the side away from the discharge opening 110 in the radial direction of the discharge opening 110, the bottom plate 140 is an inclined plate as a whole, and the discharge opening 110 is disposed at the highest position of the bottom plate 140. So, make the bottom plate 140 directly meet with the discharge opening 110, it does not have the fender to separate between charging chamber 120 and the discharge opening 110, the degree of depth of charging chamber 120 is along the radial one side of keeping away from discharge opening 110 of discharge opening 110 crescent setting, then can not influence charging of charging chamber 120 on the one hand, on the other hand the user when getting the material, can directly be by uncovered 121 with the raw materials of charging chamber 120 dial out to the discharge opening 110 in, make the material of getting of user more convenient and fast, easily operation. Meanwhile, as the bottom plate 140 extends from the periphery of the discharge hole 110 to the side away from the discharge hole 110 along the radial direction of the discharge hole 110 in a downward inclination manner, the charging space 130 enclosed below the bottom plate 140 is gradually increased from back to front, so that the charging space 130 below the bottom plate 140 is large enough, and a user can conveniently use an external container to perform material receiving operation at the discharge hole 110.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. A blending container, comprising:

the box comprises a box main body, a plurality of material loading cavities and a plurality of material loading cavities, wherein the material discharging holes and the material loading cavities surrounding the material discharging holes are formed in the box main body, each material loading cavity is provided with an opening which faces upwards and is communicated with the material discharging holes, and material loading spaces located below the material loading cavities and the material discharging holes are formed in the box main body in an enclosing mode;

the box cover can be movably covered at the plurality of openings; and

the cover opening mechanism comprises a poke rod and a restoring piece, one end of the poke rod is movably connected with the box cover, the other end of the poke rod penetrates through the box main body and extends into the charging space, and the poke rod is connected to the box main body through the restoring piece; when the lid is closed, the poker rod from top to bottom just inclines to set up forward to when the poker rod receives external force backward, drive the lid is opened a plurality ofly uncovered, and when external force eliminated, the poker rod passes through the restoring piece drives the lid is closed a plurality ofly uncovered.

2. The dispenser of claim 1, wherein said return member includes a swing lever located in said loading space, said swing lever being disposed at a front side of said lever and pivotally connected at one end to said cartridge body and at another end to an end of said lever extending into said loading space.

3. The blending container of claim 2, further comprising a receiving cup located within the loading space; the poking rod is hinged with the swinging rod through the material receiving cup, so that when the swinging rod is subjected to backward force, the material receiving cup is driven to avoid the discharge hole and is linked with the poking rod to drive the box cover to open a plurality of openings, and when external force is eliminated, the material receiving cup moves to the position below the discharge hole through the swinging rod and is linked with the poking rod to drive the box cover to close the plurality of openings.

4. The blending container according to claim 3, wherein the container body comprises a bottom plate, a front side plate and a side wall plate connected to an outer periphery of the bottom plate, the front side plate, the side wall plate and the bottom plate enclosing an inner cavity of the container body, a plurality of the loading chambers are formed in the inner cavity of the container body, and the loading space is formed below the bottom plate; the discharge hole is formed in the joint of the bottom plate and the front side plate, and one side, far away from the discharge hole, of the box cover is hinged to the side enclosing plate so as to open and close the plurality of openings.

5. The dispenser of claim 4, wherein said cartridge body further comprises a wall between two adjacent chambers, said wall defining a travel opening therethrough;

the lower ends of the two swinging rods are fixedly connected with the two sides of the receiving cup, and the upper ends of the two swinging rods are rotatably connected with the periphery of the discharge hole;

one end of the poke rod is hinged with the box cover, the other end of the poke rod penetrates through the travel hole and is hinged with a position, between the two swing rods, of the material receiving cup, when the box cover is closed, the material receiving cup is located under the discharge hole, and the cup opening of the material receiving cup is arranged upwards.

6. The blending container of claim 5, wherein the through-travel holes are disposed from top to bottom and inclined toward the discharge hole; and/or the inner periphery of the discharge hole is connected with a material guide cover, a discharge hole is formed in the middle of the material guide cover, the inner diameter of the material guide cover is gradually reduced from top to bottom, and the diameter of the cup opening of the material receiving cup is larger than that of the discharge hole.

7. The blending box according to claim 4, wherein the box cover is provided with a clearance hole corresponding to the discharging hole, and the inner periphery of the clearance hole is provided with a first spoon handle placing groove which is in one-to-one correspondence with and is communicated with the plurality of charging cavities; and/or the upper edge of the front side plate is provided with a second spoon handle placing groove communicated with the charging cavity.

8. The blending container of claim 4, wherein said container body comprises a housing and a plurality of cartridges, said housing having said bottom panel, said front panel and said side panels formed thereon, said cartridges being removably mounted within said cavity of said housing, the interior of each of said cartridges defining said loading chamber.

9. The blending cartridge of claim 8, wherein the side shroud comprises a plurality of concave segments sequentially adjoining along a circumference of the discharge opening, an inner concave surface of the concave segments facing the discharge opening; one end of each small loading box, which is far away from the discharge hole, is limited and arranged in the concave arc section in the circumferential direction around the discharge hole; one end of the small loading box, which is close to the discharge hole, is provided with a hanging part, and the hanging part is hung on the inner peripheral edge of the discharge hole.

10. The dispenser according to any one of claims 4 to 8, wherein said bottom plate extends from the periphery of said discharge opening in a direction inclined downward toward a side away from said discharge opening in a radial direction of said discharge opening, so that the depth of said charging chamber is gradually increased toward the side away from said discharge opening in the radial direction of said discharge opening, and said charging space is defined below said bottom plate.

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