CN210593255U - Multi-chamber alternate quantitative cover structure - Google Patents

Abstract

The utility model discloses a multi-chamber alternating quantitative cover structure, which comprises an outer cover, a multi-chamber batcher and a top cover, wherein the multi-chamber batcher is a cylinder structure with two closed ends, the multi-chamber batcher is divided into more than two mutually isolated spaces, and the closed end I and II of each space corresponding to the cylinder structure are respectively provided with an opening I and an opening II; the enclosing cover is including being used for the connecting seat of being connected with the bottle and the annular parcel spare of parcel outside multi-chamber batcher, and multi-chamber batcher is located the connecting seat and keeps away from the bottle side, blind end I and connecting seat contact, and the blind end II fixed connection of top cap and annular parcel spare opens on the top cap has a trompil IV, and trompil IV corresponds with the position of a trompil II, and the connecting seat is opened there is a trompil III, and the position of trompil III and a trompil I corresponds, and the orthographic projection of trompil III and trompil. The utility model has the advantages that the design is exquisite, and the unique design of the multi-chamber alternative batcher endows the continuous quantitative weighing capability thereof; simple structure, low cost and wide application prospect.

Description

Multi-chamber alternate quantitative cover structure

Technical Field

The utility model belongs to the technical field of daily necessities, a multi-chambered ration in turn lid structure is related to, in particular to multi-chambered ration in turn lid structure that convenient operation, ease for use are good and the suitability is good.

Background

For liquid or semi-liquid daily consumable or medicinal products such as laundry detergents, mouthwashes, oral medicaments and the like, which are usually contained in a container such as a bottle, and when such products are filled into the container and poured out for use, there is a need to meter the poured out product so that the user can obtain the appropriate amount of use.

It is common in the market to additionally provide a measuring cup into which the product can be poured for metering when the user is using the cup. However, the problem of this solution is also obvious, firstly, the measuring cup is additionally added to the container and the cover of the container, thus increasing the number of product parts and the complexity of the user's operation; moreover, the measuring cup is also relatively demanding for the user to operate, and the product is sometimes easily poured onto the user's hand, which in the case of corrosive chemicals will affect the safety of the user to some extent.

In order to overcome the above drawbacks, a number of quantitative lid structures have been developed by those skilled in the art, and patent CN 109649818A discloses a quantitative lid structure, in which a closing device of a specific structure is provided in conjunction with a lid member, so that communication between a cup-shaped body and the inside of a container can be realized simply by operating the lid member, thereby conveniently injecting a predetermined amount of a product in the container into the cup-shaped body. Although the structure of the bottle-shaped structure is greatly simplified compared with the prior art, the bottle-shaped structure is still more complex, higher in cost and larger in volume, and is difficult to be widely matched with various bottle-shaped structures for use.

Therefore, the quantitative cover structure which has simple structure and simple operation and can be conveniently matched with various bottle-shaped structures has practical significance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects that the prior art has a complex structure, high cost and complex operation and is difficult to be widely used in cooperation with various bottle-shaped structures, and provides a quantitative cover structure which has a simple structure and simple operation and can be conveniently used in cooperation with various bottle-shaped structures.

In order to achieve the above object, the utility model provides a following technical scheme:

a multi-chamber alternating quantitative cover structure comprises an outer cover, a multi-chamber batcher and a top cover;

the multi-chamber batcher is integrally of a cylindrical structure with two closed ends, the cylindrical structure is divided into more than two isolated spaces, and each space is provided with an opening I and an opening II corresponding to a closed end I and a closed end II of the cylindrical structure respectively;

the outer cover comprises a connecting seat and an annular wrapping piece which are connected with each other and are used for being fixedly connected with the bottle body, the multi-chamber batcher is positioned on one side of the connecting seat, which is far away from the bottle body, the closed end I is contacted with the connecting seat, the connecting seat is provided with an opening III, the opening III corresponds to the position of an opening I of the multi-chamber batcher, the annular wrapping piece is wrapped outside the multi-chamber batcher, and the side surface of the annular wrapping piece is provided with an opening V which is convenient for rotating the multi-chamber batcher;

a top cover is arranged in the direction of a closed end II of the multi-chamber batcher and fixedly connected with the annular wrapping piece, an opening IV is formed in the top cover, the position of the opening IV corresponds to that of an opening II of the multi-chamber batcher, and the orthographic projections of the opening IV and the opening III are not overlapped;

after the connecting seat is fixedly connected with the bottle body, the bottle body is turned over to enable the multi-chamber alternating quantitative cover to be downward in structure, liquid or solid in the bottle body enters a space of the multi-chamber quantitative device through the opening III and the opening I, the multi-chamber quantitative device is rotated to enable the opening IV and the opening II to be aligned, at the moment, the liquid or the solid in the space flows out through the opening II and the opening IV, and continuous quantitative taking out can be achieved by continuously rotating the multi-chamber quantitative device.

The utility model discloses a multi-chambered ration lid structure in turn, structural design is exquisite, and it both is applicable in weighing liquid, also can weigh the solid condiment of certain volume with cooperation such as condiment jar, and its specific application scope is not limited to in this, the utility model discloses only enumerate the scope that the part is suitable for.

The multi-chamber batcher of the utility model is divided into a plurality of isolated spaces, both ends of the isolated space are opened with openings, one end (close to the connecting cover end, namely, the closed end I) is a feeding end, the other end (the closed end II) is a discharging end, the connecting seat and the top cover are respectively provided with an opening corresponding to the openings at both ends of the isolated space, when the positions of the openings of the connecting seat are matched, solid or liquid at one end of the connecting seat enters the isolated space through the openings, when the positions of the openings of the top cover are matched by rotating the multi-chamber batcher, the solid or liquid in the isolated space flows out, if the opening of the isolated space is matched with the position of the opening of the connecting seat in the process of rotating the multi-chamber batcher, the solid or liquid flows into the isolated space, or the opening of the isolated space is matched with the position of the opening of the top cover, the solid or, the solid or liquid will flow into the multi-chamber quantitative device continuously, and flow out from the multi-chamber quantitative device continuously, because the volume of each isolated space in the multi-chamber quantitative device is fixed, namely the volume of the solid or liquid discharged at one time is fixed, the continuous quantitative taking out is realized.

As a preferred technical scheme:

the multi-chamber alternating quantitative cover structure has the advantages that the sizes of the openings I of all the spaces are the same and are distributed circumferentially around the axis of the multi-chamber batcher; all the openings II are of the same size and are circumferentially distributed around the axis of the multi-chamber doser.

In the multi-chamber alternating quantitative cover structure, the shortest distances from the centers of all the openings I to the axis of the multi-chamber quantitative device are the same; the centers of all the openings II have the same shortest distance from the axis of the multi-chamber doser.

In the multi-chamber alternating quantitative cover structure, the opening I and the opening II respectively extend to the direction far away from the multi-chamber batcher to form the annular bulge I and the annular bulge II.

According to the multi-chamber alternating quantitative cover structure, the end face, contacting the closed end I, of the connecting seat is provided with the annular groove I matched with the annular protrusion I, so that the multi-chamber batcher can rotate relative to the connecting seat, and the annular groove I is internally provided with the opening III.

According to the multi-chamber alternating quantitative cover structure, the connecting seat and the annular wrapping piece are integrally formed.

According to the multi-chamber alternating quantitative cover structure, the end face, in contact with the closed end II, of the top cover is provided with the annular groove II matched with the annular protrusion II, so that the multi-chamber batcher can rotate relative to the top cover, the annular groove II is internally provided with the opening IV, and the opening IV extends to the direction far away from the multi-chamber batcher to form the annular protrusion III.

According to the multi-chamber alternating quantitative cover structure, the connecting seat is of a cylindrical structure with one closed end, and the inner wall of the connecting seat is provided with a threaded structure fixedly connected with the bottle body;

the annular wrapping piece is integrally of a cylindrical structure and is coaxial with the connecting seat, the outer wall of the annular wrapping piece is flush with the outer wall of the connecting seat, and two openings V are symmetrically formed in the outer wall of the annular wrapping piece; the opening V is a rectangle-like shape, which differs from a rectangle in that its edges are smoothed and its width in the middle is greater than the width on both sides. The shape, position and number of the openings V are not limited thereto, and those skilled in the art can select the shape, position and number according to the actual situation, and the symmetrical openings V facilitate the user to rotate the multi-chamber doser.

As above-mentioned multi-chambered is quantitative lid structure in turn, the connection seat end is kept away from through unsmooth cooperation fixed connection to top cap and annular parcel piece, the utility model discloses a fixed form is not limited to this only, and the suitable fixed connection structure can be selected according to the practical application scene to the technical staff in the field.

In the multi-chamber alternating quantitative cap structure, the two or more isolated spaces have the same shape and size. The utility model discloses a protection scope is not limited to this, and the shape size in each space also can be different, but each space that the shape size is the same, more accords with user's use habit on the one hand, and on the other hand, the processing degree of difficulty is littleer.

In the multi-chamber alternating dosing cap structure as described above, the multi-chamber doser is divided into two spaces isolated from each other. The multi-chamber quantitative measuring device of the present invention is not limited to this, but can be divided into three, four and more isolated spaces, and the continuity of the multi-chamber alternate quantitative cover structure is better when two isolated spaces are used.

Has the advantages that:

(1) the multi-chamber alternating quantitative cover structure of the utility model has exquisite design, the multi-chamber alternating quantifier endows the multi-chamber alternating quantifier with the liquid supply (goods) capability similar to a left-wheel pistol type, and the multi-chamber alternating quantifier can also supplement liquid (goods) to other bins in the multi-chamber alternating quantifier while discharging liquid, thereby realizing continuous quantitative weighing;

(2) the utility model discloses a multi-chambered ration lid structure in turn, simple structure, low cost, the volume is less, can regard as lid accessory and all kinds of bottle-shaped structure cooperation to use, has application prospect.

Drawings

Fig. 1 to 4 are a front view, a left side view, a top view and a bottom view of the multi-chamber alternating quantitative cap structure of the present invention, respectively;

FIGS. 5 and 6 are schematic cross-sectional views A-A and E-E, respectively, of FIG. 1;

FIG. 7 is a schematic cross-sectional view taken along line B-B in FIG. 2;

FIGS. 8 and 9 are schematic cross-sectional views C-C and D-D, respectively, of FIG. 7;

FIG. 10 is a schematic sectional view taken along line G-G in FIG. 4;

the measuring tool comprises a base, an outer cover, a connecting seat, 12 annular grooves I, 13 annular grooves III, 14 threaded structures, 15 annular wrapping parts, 16 annular holes V, 2 multi-chamber batcher, 21 closed space I, 22 closed space II, 23 annular holes I, 24 annular holes II, 25 annular protrusions I, 26 annular protrusions II, 3 top covers, 31 annular grooves II, 32 annular holes IV and 33 annular protrusions III.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

A multi-chamber alternating quantitative cover structure is shown in figures 1-10 and comprises an outer cover 1, a multi-chamber quantitative device 2 and a top cover 3;

the multi-chamber batcher 2 is a cylinder structure with two closed ends, the cylinder structure is divided into two isolated spaces (the closed space I21 and the closed space II 22) with the same shape and size, the isolated spaces can be three, four or more than five, the sizes of the shapes of the multi-chamber batcher are also different, an opening I23 and an opening II 24 are respectively arranged in each space corresponding to the closed end I and the closed end II of the cylindrical structure, the sizes of the openings I23 in all the spaces are the same and are distributed around the axis circumference of the multi-chamber batcher, the shortest distances from the centers of the openings I23 to the axis of the multi-chamber batcher are the same, the sizes of the openings II 24 in all the openings II 24 are the same and are distributed around the axis circumference of the multi-chamber batcher, the shortest distances from the centers of the openings II 24 to the axis of the multi-chamber batcher are the same, and the openings I23 and the openings II 24 respectively extend to the direction far away from the multi-chamber bat;

the outer cover 1 comprises a connecting seat 11 and an annular wrapping piece 15 which are connected with each other and are used for being fixedly connected with the bottle body, the connecting seat 11 is of a cylindrical structure with one closed end, a thread structure 14 fixedly connected with the bottle body is arranged on the inner wall of the connecting seat, the annular wrapping piece 15 is of a cylindrical structure integrally and wraps the multi-chamber batcher 2 and is coaxial with the connecting seat 11, the outer wall of the annular wrapping piece 15 is flush with the outer wall of the connecting seat 11, two openings V16 facilitating the rotation of the multi-chamber batcher are symmetrically formed in the outer wall of the annular wrapping piece 15, the opening V16 is of a similar rectangle shape and is different from the rectangle in that the edge of the opening is in smooth transition and the width in the middle is larger than the widths of two sides, the multi-chamber batcher 2 is positioned on the side, far away from the bottle body, the closed end I is in contact with the connecting seat, so that the multi-chamber batcher 2 can rotate relative to the connecting seat 11, the annular groove I12 is internally provided with a hole III 13, the position of the hole III 13 corresponds to the position of a hole I of the multi-chamber batcher, and the connecting seat 11 and the annular wrapping piece 15 are manufactured by integral molding;

the top cover 3 is arranged in the direction of the closed end II of the multi-chamber batcher, an annular groove II 31 matched with the annular protrusion II 26 is formed in the end face, contacting with the closed end II, of the top cover 3, so that the multi-chamber batcher 2 can rotate relative to the top cover 3, an opening IV32 is formed in the annular groove II 31, the position of the opening IV32 corresponds to that of an opening II of the multi-chamber batcher, the orthographic projection of the opening IV32 and the opening III 13 is not overlapped, the opening IV32 extends to the direction far away from the multi-chamber batcher to form an annular protrusion III 33, and the top cover 3 and the annular wrapping piece 15 are fixedly connected through concave-convex matching far away from;

the utility model discloses a multi-chambered quantitative lid structure in turn's use flow as follows:

after the connecting seat is fixedly connected with the bottle body, the bottle body is turned over to enable the multi-chamber alternating quantitative cover structure to face downwards, at the moment, the opening III is aligned with the opening I of the closed space I, liquid or solid in the bottle body enters the closed space I of the multi-chamber quantitative device through the opening III and the opening I of the closed space I, the multi-chamber quantitative device is rotated by 180 degrees to enable the opening IV to be aligned with the opening II of the closed space I, at the moment, the liquid or solid in the closed space I flows out through the opening II and the opening IV, when the liquid or solid in the closed space I flows out, the opening I of the closed space II is aligned with the opening III, the liquid or solid in the bottle body enters the closed space II through the opening III and the opening I of the closed space II, in the rotating process, the materials circularly flow in and out of the multi-chamber batcher, and because the volumes of the closed space I and the closed space II in the multi-chamber batcher are fixed, the continuous quantitative taking out of the materials can be realized.

Through verification, the multi-chamber alternating quantitative cover structure of the utility model has exquisite design, the multi-chamber alternating quantifier endows the multi-chamber alternating quantifier with the liquid supply (goods) capability similar to a left-wheel pistol type, and the multi-chamber alternating quantifier can also supplement liquid (goods) to other bins in the multi-chamber alternating quantifier while discharging liquid, thereby realizing continuous quantitative weighing; the structure is simple, the cost is low, the volume is small, the cover can be used as a cover body accessory to be matched with various bottle-shaped structures, and the application prospect is good.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these embodiments are merely illustrative and various changes or modifications may be made without departing from the spirit and scope of the invention.

Claims (10)

1. A multi-chamber alternating quantitative cover structure is characterized by comprising an outer cover, a multi-chamber batcher and a top cover;

the multi-chamber batcher is integrally of a cylindrical structure with two closed ends, the cylindrical structure is divided into more than two isolated spaces, and each space is provided with an opening I and an opening II corresponding to a closed end I and a closed end II of the cylindrical structure respectively;

the outer cover comprises a connecting seat and an annular wrapping piece which are connected with each other and are used for being fixedly connected with the bottle body, the multi-chamber batcher is positioned on one side of the connecting seat, which is far away from the bottle body, the closed end I is contacted with the connecting seat, the connecting seat is provided with an opening III, the opening III corresponds to the position of an opening I of the multi-chamber batcher, the annular wrapping piece is wrapped outside the multi-chamber batcher, and the side surface of the annular wrapping piece is provided with an opening V which is convenient for rotating the multi-chamber batcher;

a top cover is arranged in the direction of a closed end II of the multi-chamber batcher and fixedly connected with the annular wrapping piece, an opening IV is formed in the top cover, the position of the opening IV corresponds to that of an opening II of the multi-chamber batcher, and the orthographic projections of the opening IV and the opening III are not overlapped;

after the connecting seat is fixedly connected with the bottle body, the bottle body is turned over to enable the multi-chamber alternating quantitative cover to be downward in structure, liquid or solid in the bottle body enters a space of the multi-chamber quantitative device through the opening III and the opening I, the multi-chamber quantitative device is rotated to enable the opening IV and the opening II to be aligned, at the moment, the liquid or the solid in the space flows out through the opening II and the opening IV, and continuous quantitative taking out can be achieved by continuously rotating the multi-chamber quantitative device.

2. A multi-chambered alternating dosing cap structure according to claim 1, wherein the openings I of all spaces are of the same size and are circumferentially distributed around the axis of the multi-chambered doser; all the openings II are of the same size and are circumferentially distributed around the axis of the multi-chamber doser.

3. A multi-chambered alternating dosing cap structure according to claim 2, wherein the shortest distance of the centre of all the openings I from the axis of the multi-chambered dosing chamber is the same; the centers of all the openings II have the same shortest distance from the axis of the multi-chamber doser.

4. A multi-chambered alternating dosing cap structure according to claim 3, wherein the openings I and II extend with an annular protrusion I and an annular protrusion II, respectively, in a direction away from the multi-chambered doser.

5. A multi-chamber alternative quantitative cover structure according to claim 4, characterized in that the end surface of the connecting base contacting the closed end I is provided with an annular groove I matching with the annular protrusion I, so that the multi-chamber quantitative device can rotate relative to the connecting base, and the annular groove I is provided with an opening III.

6. A multi-chamber alternating dosing cap structure as claimed in claim 5, wherein the coupling seat and the ring wrapper are made by integral moulding.

7. A multi-chamber alternating dosing cap structure according to claim 4, characterised in that the end surface of the top cap contacting the closed end II is provided with an annular groove II matching with the annular protrusion II to enable the multi-chamber doser to rotate relative to the top cap, the annular groove II is provided with an opening IV therein, and the opening IV extends with an annular protrusion III in a direction away from the multi-chamber doser.

8. A multi-chamber alternating quantitative cap structure as claimed in claim 1, wherein the connecting seat is a cylindrical structure with one end closed, and a screw structure fixedly connected with the bottle body is provided on the inner wall thereof;

the annular wrapping piece is integrally of a cylindrical structure and is coaxial with the connecting seat, the outer wall of the annular wrapping piece is flush with the outer wall of the connecting seat, and two openings V are symmetrically formed in the outer wall of the annular wrapping piece; the opening V is a rectangle-like shape, which differs from a rectangle in that its edges are smoothed and its width in the middle is greater than the width on both sides.

9. A multi-chamber alternating dosing cap structure as claimed in claim 1, wherein the cap is fixedly connected to the end of the annular wrapper remote from the receptacle by a male-female fit; the shape and the size of the more than two spaces isolated from each other are the same.

10. A multi-compartment alternating dosing cap structure according to claim 9, wherein said multi-compartment doser is divided into two spaces isolated from each other.

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