CN210365053U

CN210365053U - Milk powder quantitative measuring box cover and milk powder can

Info

Publication number: CN210365053U
Application number: CN201920734914.9U
Authority: CN
Inventors: 陈波
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-04-21
Anticipated expiration: 2029-05-21

Abstract

The utility model belongs to the technical field of infant and children's articles for use, in particular to a lid and a milk powder tank are got to milk powder ration volume. Including first lid to and be located second lid and the third lid of lower extreme on the first lid respectively, be equipped with the through-hole that runs through on the first lid, second lid and third lid pass through the axis of rotation through-hole interconnect, and work as when the second lid rotates, the third lid rotates together, still be formed with the milk powder temporary storage area on the first lid, be formed with the milk powder pouring opening on the third lid, be formed with the milk powder on the second lid and pour the mouth, be equipped with the pouring opening plectrum on the milk powder pouring opening. The milk powder can has the function of quantitatively measuring milk powder without the help of a measuring spoon.

Description

Milk powder quantitative measuring box cover and milk powder can

Technical Field

The utility model belongs to the technical field of infant and children's articles for use, in particular to a lid and a milk powder tank are got to milk powder ration volume.

Background

The milk powder can is a container for storing milk powder, and in daily life, the milk powder directly purchased by consumers comprises a can body, bagged milk powder inside the can body and a measuring spoon. However, the milk powder directly bought from the market is not easy to carry out due to the large volume of the milk powder tank.

To above-mentioned problem, having the firm developed various portable milk powder jar in succession and being used for the journey or go out and carry milk powder, generally also all be furnished with the measuring spoon, but because the opening part volume of portable milk powder jar is less, it is inconvenient when the measuring spoon volume is got, the head of a family has directly taken the method of directly pouring the milk powder in the jar into the milk powder bottle most of the time, this kind of method not only spills the milk powder to the outside easily, also can not realize the purpose that the quantitative volume was got the milk powder simultaneously.

Disclosure of Invention

The utility model provides a to above-mentioned problem, provide a lid and milk powder jar that can realize taking out milk powder ration through the rotation of milk powder jar lid.

The purpose of the utility model is realized like this:

a milk powder quantitative measuring box cover comprises a first cover body, a second cover body and a third cover body, wherein the second cover body and the third cover body are respectively positioned at the upper end and the lower end of the first cover body;

when the milk powder pouring opening of the third cover body is aligned with the milk powder temporary storage area of the first cover body, the milk powder pouring opening of the second cover body is staggered with the milk powder temporary storage area of the first cover body;

when the milk powder pouring opening of the second cover body is aligned with the milk powder temporary storage area of the first cover body, the milk powder pouring opening of the third cover body is staggered with the milk powder temporary storage area of the first cover body.

Furthermore, the cross sections of the milk powder pouring opening, the milk powder temporary storage area and the milk powder pouring opening are consistent and are fan-shaped.

Further, the milk powder pouring opening and the milk powder pouring opening are respectively located on two sides of the rotating shaft, and the milk powder pouring opening are staggered on the same projection plane and do not have overlapped parts.

Furthermore, the rotating shaft comprises a first rotating shaft formed by extending the second cover body towards the first cover body, and a second rotating shaft formed by extending the third cover body towards the first cover body and mutually spliced.

Further, first pivot includes the pivot main part, and the pivot main part extends to the outer end and is formed with the plug socket that has the spliced eye, and the periphery of plug socket is equipped with the inserting groove, the second pivot include with first pivot spliced eye matched with grafting post, the periphery of grafting post be equipped with inserting groove matched with grafting is protruding along.

Furthermore, the inserting grooves comprise a first inserting groove and a second inserting groove, the radian between the second inserting grooves is larger than that between the first inserting grooves, and the inserting convex edges comprise a first inserting convex edge matched with the first inserting groove and a second inserting convex edge matched with the second inserting groove.

Furthermore, the periphery of the plug socket extends outwards to form a rotating support column.

Furthermore, a first limiting end and a second limiting end are arranged on the inner wall of one side, connected with the third cover body, of the first cover body, and a first stopping end matched with the first limiting end part and a second stopping end matched with the second limiting end are arranged on the outer wall of the third cover body;

when the first limiting end abuts against the first stopping end, the milk powder pouring port is communicated with the milk powder temporary storage area;

when the second limiting end abuts against the second stopping end, the milk powder pouring opening is communicated with the milk powder temporary storage area.

Furthermore, all be equipped with positioning groove on first spacing end and the second spacing end, first end and second end be equipped with positioning groove matched with location arch.

The milk powder pouring device comprises a tank body and a box cover, wherein the box cover comprises a first cover body, a second cover body and a third cover body, the second cover body and the third cover body are respectively positioned at the upper end and the lower end of the first cover body, a through hole is formed in the first cover body, the second cover body and the third cover body penetrate through the through hole through a rotating shaft to be connected with each other, when the second cover body rotates, the third cover body rotates together, a milk powder temporary storage area is further formed in the first cover body, a milk powder pouring opening is formed in the third cover body, a milk powder pouring opening is formed in the second cover body, a pouring opening shifting piece is arranged on the milk powder pouring opening, and an internal thread connected with the tank body is further formed in the third cover body;

a box cover connecting port is formed at the upper end of the tank body, external threads are formed on the periphery of the box cover connecting port, and the box cover connecting port is communicated with the third cover body;

Compared with the prior art, the utility model outstanding and profitable technological effect is:

the traditional milk powder tank needs a measuring spoon to measure milk powder no matter the traditional milk powder tank is used at home or is carried out in a journey, so that quantitative milk powder brewing is realized. For some milk powder tanks, especially for those used for carrying away from home, it is somewhat cumbersome if a special measuring spoon needs to be provided, and such milk powder tanks are also small and not suitable for accommodating a measuring spoon. When the milk powder jar links to each other with the lid that has the ration volume and get in the technical scheme of this application, with whole milk powder jar upset, make the milk powder on the third lid mouth of pouring to be linked together with the milk powder buffers on the first lid through rotating and make milk powder in the milk powder jar temporarily keep in the milk powder buffers, realize the above-mentioned step back, rotate the lid again for the milk powder of second lid pour the mouth with milk powder buffers on the first lid are linked together and make the milk powder in the milk powder buffers pour out in the mouth from the milk powder, because the space size of milk powder buffers is fixed, consequently can realize that the quantitative volume gets milk powder. The operation steps are simple and quick to realize, a series of operations can be completed without opening the milk powder can, and the milk powder can convenient to carry is really realized.

Drawings

Fig. 1 is a first exploded view of a cover of a milk powder can.

Fig. 2 is a second exploded view of the cover of the milk powder can.

FIG. 3 is a sectional view of the milk powder buffer area of the box cover connected to the milk powder inlet.

Fig. 4 is a sectional view of the milk powder temporary storage area of the box cover communicated with the milk powder pouring outlet.

Fig. 5 is a schematic view of the second cover and the third cover when they are connected.

Fig. 6 is a cross-sectional view of the second cover and the third cover when they are joined.

Fig. 7 is a first schematic view of the second cover and the third cover when they are separated.

Fig. 8 is a second schematic view of the second cover and the third cover when they are separated.

Fig. 9 is a schematic structural view of the side where the third cover is connected to the first cover.

Fig. 10 is a schematic structural view of a side where the first cover and the third cover are connected.

Fig. 11 is a schematic structural view of a milk powder can.

Fig. 12 is a schematic structural view of a can body.

1-a box cover, 11-a first cover body, 111-a through hole, 112-a milk powder temporary storage area, 113-a first limit end, 114-a second limit end, 115-a positioning groove, 116-a positioning groove, 117-an anti-slip pattern, 12-a second cover body, 121-a milk powder pouring outlet, 13-a third cover body, 131-a milk powder pouring inlet, 132-a first stop end, 133-a second stop end, 134-a positioning bulge, 135-a positioning bulge, 136-an internal thread, 14-a pouring outlet shifting piece, 15-a rotating shaft, 151-a first rotating shaft, 1511-a rotating shaft main body, 1512-a socket, 1513-a first inserting groove, 1514-a second inserting groove, 1515-an inserting hole, 1516-a supporting column, 152-a second rotating shaft, 1521-an inserting column, 1522-first inserting convex edge, 1523-second inserting convex edge, 2-tank body, 21-box cover connecting port and 211-external thread.

Detailed Description

The invention will be further described in the following with reference to specific embodiments thereof,

as shown in fig. 1 and 2, a lid is got to milk powder ration volume, includes first lid 11 to and be located second lid 12 and the third lid 13 of lower extreme on first lid 11 respectively, be equipped with the through-hole 111 that runs through on the first lid 11, second lid 12 and third lid 13 pass through axis of rotation 15 through-hole 111 interconnect, and work as when second lid 12 rotates, third lid 13 rotates together, still be formed with milk powder temporary storage area 112 on the first lid 11, be formed with milk powder pouring opening 131 on the third lid 13, be formed with milk powder pouring opening 121 on the second lid 12, be equipped with pouring opening shifting piece 14 on the milk powder pouring opening 121. In practical use, the box cover 1 is installed on the box body 2, a user rotates the first cover body 11 to align the temporary powdered milk storage area 111 of the first cover body 11 with the powdered milk pouring opening 131 of the third cover body 13, at this time, the whole powdered milk box is turned over, the powdered milk in the box body 2 can enter the temporary powdered milk storage area 111 through the powdered milk pouring opening 131 of the third cover body 13, after the above steps are completed, the first cover body 11 is rotated to align the temporary powdered milk storage area 111 on the first cover body 11 with the powdered milk pouring opening 121 on the second cover body 12, at this time, the temporary powdered milk storage area 112 on the first cover body 11 and the third cover body 13 are not communicated with each other, by opening the pouring opening shifting piece 14, the powdered milk can be poured into a corresponding container from the temporary powdered milk storage area 112 of the first cover body 11 through the powdered milk pouring opening 121 of the second cover body 12, because the volume of the temporary powdered milk storage area, therefore, the quantitative measurement of the milk powder can be realized, in addition, in the whole operation process, the box cover 1 is not required to be unscrewed from the box body 2, the operation is very simple and convenient, the measurement can be realized without a measuring spoon, and in the rotation of the first cover body 11, because the second cover body 12 and the third cover body 13 are connected, the rotation of the first cover body 11 cannot cause the change of the relative position relationship between the second cover body 12 and the third cover body 13.

Specifically, when the temporary powdered milk storage area 112 on the first cover 11 is communicated with the powdered milk pouring port 131 on the third cover 13 as shown in fig. 4, and when the temporary powdered milk storage area 112 on the first cover 11 is communicated with the powdered milk pouring port 121 on the second cover 12 as shown in fig. 4, in addition, due to the existence of the pouring port shifting piece 14, the powdered milk does not directly leak to the outside from the powdered milk pouring port 121 on the second cover 12 when the powdered milk can is turned over and the first cover 11 is rotated. Correspondingly, the temporary storage area for powdered milk on the first cover body is communicated with the powdered milk pouring opening on the third cover body as shown in fig. 3.

Further, the cross sections of the powdered milk pouring opening 131, the powdered milk temporary storage area 112 and the powdered milk pouring opening 121 are uniform and are fan-shaped.

As shown in fig. 5 and 6, the powdered milk pouring port 131 and the powdered milk pouring port 121 are respectively located at both sides of the rotating shaft 15, and the powdered milk pouring port 131 and the powdered milk pouring port 121 are offset from each other on the same projection plane without overlapping portions. The milk powder pouring opening 121 in the second cover body 12 and the milk powder pouring opening 131 in the third cover body 13 are staggered with each other to avoid the situation that the milk powder pouring opening 131, the milk powder temporary storage area 112 and the milk powder pouring opening 121 are communicated simultaneously when the first cover body 11 rotates, and the situation that milk powder leaks out in the gap in the rotating process due to the rotation of the first cover body 11 and quantitative measurement cannot be achieved.

As shown in fig. 5 to 7, the rotating shaft 15 includes a first rotating shaft 151 formed by extending the second cover 12 toward the first cover 11, and a second rotating shaft 152 formed by extending the third cover 13 toward the first cover 11. The mutual insertion of the first rotating shaft 151 and the second rotating shaft 152 ensures that the rotation of the two shafts are linked simultaneously

Further, as shown in fig. 8, the first rotating shaft 151 includes a rotating shaft main body 1511, the rotating shaft main body 1511 extends to an outer end to form a plug seat 1512 having a plug hole 1515, a plug groove is disposed on an outer periphery of the plug seat 1512, the second rotating shaft 152 includes a plug post 1521 matched with the plug hole 1515 of the first rotating shaft 151, and a plug convex edge matched with the plug groove is disposed on an outer periphery of the plug post 1521. The stable connection between the first rotating shaft 151 and the second rotating shaft 152 is ensured by the matching of the inserting column 1521 and the inserting hole 1515, and the inserting groove and the inserting convex edge prevent the first rotating shaft 151 from rotating relative to the second rotating shaft 152, so that when the second cover 12 rotates, the third cover 13 can also rotate together.

Further, the insertion grooves comprise a first insertion groove 1513 and a second insertion groove 1514, the radian between the second insertion grooves 1514 is larger than that between the first insertion grooves 1513, and the insertion convex edges comprise a first insertion convex edge 1522 matched with the first insertion groove 1513 and a second insertion convex edge 1523 matched with the second insertion groove 1514. The radian between the second insertion grooves 1514 is greater than that of the first insertion groove 1513 so that the second shaft 152 can be butted against the first shaft 151 at only one angle, ensuring that the milk powder pouring port 131 and the milk powder pouring port 121 are staggered after the second lid body 12 and the third lid body 13 are connected.

Further, a rotation support post 1516 is formed on the outer circumference of the socket 1512. The supporting column 1516 makes the first rotating shaft 151 and the second rotating shaft 152 more fit with the through hole 111 of the first cover 11 after being inserted, and there is no gap between the two, so as to ensure the smoothness of rotation.

As shown in fig. 9 and 10, a first position-limiting end 113 and a second position-limiting end 114 are disposed on an inner wall of a side of the first cover 11 connected to the third cover 13, and a first position-limiting end 115 matched with the first position-limiting end 113 and a second position-limiting end 116 matched with the second position-limiting end 114 are disposed on an outer wall of the third cover 13; when the first position-limiting end 113 abuts against the first position-limiting end 115, the milk powder pouring port 131 is communicated with the milk powder temporary storage area 112; when the second position-limiting end 114 abuts against the second position-limiting end 133, the powdered milk pouring outlet 131 is communicated with the powdered milk temporary storage area 112. The above-mentioned design features are such that the powdered milk pouring port 131 or the powdered milk pouring port 121 is already aligned when the first cover 11 is rotated by a certain angle.

Furthermore, the first position-limiting end 113 and the second position-limiting end 114 are both provided with

positioning grooves

115, 116, and the first position-limiting end 132 and the second position-limiting end 133 are provided with positioning protrusions 134,135 matched with the positioning grooves 115. When the powdered milk pouring outlet 121 of the second cover 12 is aligned with the powdered milk temporary storage area 112 of the first cover 11, a fixing effect is obtained, no external force is applied, no position change occurs,

as shown in fig. 11 and 12, the milk powder packaging box comprises a box body 2 and a box cover 1, wherein the box cover 1 comprises a first cover body 11, and a second cover body 12 and a third cover body 13 which are respectively positioned at the upper end and the lower end of the first cover body 11, a through hole 111 is formed in the first cover body 11, the second cover body 12 and the third cover body 13 are connected with each other by penetrating through the through hole 111 through a rotating shaft 15, when the second cover body 12 rotates, the third cover body 13 rotates together, a milk powder temporary storage area 112 is further formed in the first cover body 11, a milk powder pouring port 131 is formed in the third cover body 13, a milk powder pouring port 121 is formed in the second cover body 12, a pouring port shifting piece 14 is arranged on the milk powder pouring port 121, and an internal thread 136 connected with the box body 2 is further formed in the third cover body 13;

a box cover connecting port 21 is formed at the upper end of the tank body 2, an external thread 211 is formed on the periphery of the box cover connecting port 21, and the box cover connecting port 21 is communicated with the third cover body 13;

when the powdered milk pouring opening 131 of the third cover 13 is aligned with the powdered milk buffer 112 of the first cover 11, the powdered milk pouring opening 121 of the second cover 12 is staggered with the powdered milk buffer 112 of the first cover 11;

when the powdered milk pouring outlet 121 of the second cover 12 is aligned with the powdered milk buffer 112 of the first cover 11, the powdered milk pouring outlet 131 of the third cover 13 is offset from the powdered milk buffer 112 of the first cover 11.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. A milk powder quantitative measuring box cover is characterized by comprising a first cover body, a second cover body and a third cover body, wherein the second cover body and the third cover body are respectively positioned at the upper end and the lower end of the first cover body;

2. The quantitative milk powder measuring box cover according to claim 1, wherein the cross sections of the milk powder pouring opening, the milk powder temporary storage area and the milk powder pouring opening are uniform and are fan-shaped.

3. The quantitative milk powder measuring box cover according to claim 1, wherein the milk powder pouring opening and the milk powder pouring opening are respectively located on two sides of the rotating shaft, and the milk powder pouring opening are mutually staggered on the same projection plane and have no overlapped part.

4. The quantitative milk powder measuring box cover according to claim 1 or 3, wherein the rotation shaft comprises a first rotation shaft formed by the second cover body extending towards the first cover body, and a second rotation shaft formed by the third cover body extending towards the first cover body, wherein the second rotation shafts are mutually inserted.

5. The quantitative milk powder measuring and taking box cover according to claim 4, wherein the first rotating shaft comprises a rotating shaft body, an inserting seat with an inserting hole is formed by extending the rotating shaft body outwards, an inserting groove is formed on the periphery of the inserting seat, the second rotating shaft comprises an inserting column matched with the inserting hole of the first rotating shaft, and an inserting convex edge matched with the inserting groove is formed on the periphery of the inserting column.

6. The quantitative milk powder measuring box cover according to claim 5, wherein the inserting grooves comprise a first inserting groove and a second inserting groove, the radian between the second inserting grooves is larger than that between the first inserting grooves, and the inserting convex edge comprises a first inserting convex edge matched with the first inserting groove and a second inserting convex edge matched with the second inserting groove.

7. The quantitative milk powder measuring box cover according to claim 5, wherein a rotary support column is formed by extending the outer periphery of the socket outwards.

8. The quantitative milk powder measuring box cover according to claim 1, wherein a first limit end and a second limit end are arranged on the inner wall of one side of the first cover body connected with the third cover body, and a first stop end matched with the first limit end and a second stop end matched with the second limit end are arranged on the outer wall of the third cover body;

9. The quantitative milk powder measuring box cover according to claim 8, wherein the first and second limiting ends are provided with positioning grooves, and the first and second stopping ends are provided with positioning protrusions matching with the positioning grooves.

10. A milk powder can comprises a can body and a can cover, and is characterized in that the can cover comprises a first cover body, a second cover body and a third cover body, wherein the second cover body and the third cover body are respectively positioned at the upper end and the lower end of the first cover body;