CN209757838U - Three-cap reverse quantitative bottle - Google Patents

Abstract

The utility model discloses a three-cover reverse quantitative bottle, which comprises a bottle body, wherein a liquid storage cavity A, a liquid storage cavity B, a liquid storage cavity C, a liquid storage cavity D and a liquid storage cavity E which are mutually separated are arranged in the bottle body, a bottle opening A communicated with the liquid storage cavity A is arranged on the bottle body, a cover body A is rotatably connected on the bottle opening A, a bottle opening B communicated with the liquid storage cavity B is arranged on the bottle body, a cover body B is rotatably connected on the bottle opening B, a bottle opening C communicated with the liquid storage cavity E is arranged on the bottle body, and a cover body C is rotatably connected on the bottle opening C; the utility model discloses a three-cover reverse type quantitative bottle, the mixed liquid that can convenient separately pour two kinds of liquid and two kinds of liquid ratio as required has convenient operation, health, appears secondary pollution's the condition when avoiding two kinds of liquid to mix.

Description

three-cap reverse quantitative bottle

[ technical field ] A method for producing a semiconductor device

the utility model relates to a container bottle field specifically is a three-cover reverse type ration bottle.

[ background of the invention ]

In the fields of chemical industry and the like, one liquid needs to be poured out independently or two liquids need to be mixed and poured out according to a specific proportion, the conventional method adopts auxiliary tools such as a beaker, a measuring cup and the like to mix and prepare the two specific liquids, the operation is complicated, a specific flow is needed, and secondary pollution is possible.

the utility model discloses it is not enough to solve prior art and research and propose promptly.

[ Utility model ] content

In order to solve the technical problem, the utility model discloses a three-cover reverse quantitative bottle, which comprises a bottle body, wherein a liquid storage cavity A, a liquid storage cavity B, a liquid storage cavity C, a liquid storage cavity D and a liquid storage cavity E which are separated from each other are arranged in the bottle body; an opening A communicating the liquid storage cavity A with the liquid storage cavity C is formed in the bottle body and located at the bottle opening A, a sealing part A in sealing fit with the inner side wall of the bottle opening A is arranged on the cover body A, a gap A capable of being communicated with the opening A is formed in the sealing part A, and the gap A and the opening A can be communicated or staggered to open or close the opening A by rotating the cover body A; an opening B for communicating the liquid storage cavity B with the liquid storage cavity D is formed in the bottle body and located at the bottle opening B, a sealing part B which is in sealing fit with the inner side wall of the bottle opening B is arranged on the cover body B, a notch B which can be communicated with the opening B is formed in the sealing part B, and the notch B can be communicated with the opening B or staggered to open or close the opening B by rotating the cover body B; an opening C for communicating the liquid storage cavity E with the liquid storage cavity C is formed in the bottle body and located at the bottle mouth C, an opening D for communicating the liquid storage cavity E with the liquid storage cavity D is formed in the bottle body and located at the bottle mouth C, a sealing portion C which is in sealing fit with the inner side wall of the bottle mouth C is arranged on the cover body C, a notch C which can be communicated with the opening C is formed in the sealing portion C, and a notch D which can be communicated with the opening D is formed in the sealing portion C; the notch C and the opening C can be communicated and the notch D and the opening D can be communicated by rotating the cover body C, so that the liquid in the liquid storage cavity C and the liquid in the liquid storage cavity D can enter the liquid storage cavity E; or the notch C and the opening C are staggered and the notch D and the opening D are staggered by rotating the cover body C, and then the opening C is closed and the opening D is closed at the same time.

according to the three-cover reverse quantitative bottle, the bottle body is made of transparent materials, the scale A for displaying the volume of liquid in the liquid storage cavity C is arranged on the outer wall of the bottle body, and the scale B for displaying the volume of liquid in the liquid storage cavity D is arranged on the outer wall of the bottle body.

As above a three lid inversion formula ration bottle, the bottle in be equipped with the baffle A that separates into two cavities with the bottle inner chamber, the left side that just is located baffle A in the bottle is equipped with the baffle B that is used for forming stock solution chamber C, the right side that just is located baffle A in the bottle is equipped with the baffle C that is used for forming stock solution chamber D, the bottle in and the rear side that is located stock solution chamber C and stock solution chamber D be equipped with bottleneck C inside wall cooperation in order to form the baffle D of stock solution chamber E, the inside wall of bottle, baffle A, baffle C and baffle D form stock solution chamber A, the inside wall of bottle, baffle B, baffle C and baffle D form stock solution chamber A, stock solution chamber C, stock solution chamber D be close to stock solution chamber E, and the bottom of stock solution chamber E is less than the top of stock solution chamber C, stock solution chamber D.

According to the three-cover reverse quantitative bottle, the liquid storage cavity C and the liquid storage cavity D are the same in shape and are symmetrically arranged around the partition plate A.

According to the three-cover reverse quantitative bottle, the bottle body is made of transparent materials, and scales used for displaying the volume of liquid in the liquid storage cavity C and the liquid storage cavity D are arranged on the outer wall of the bottle body.

The three-cap reverse quantitative bottle is characterized in that the cap body C is connected with the bottle mouth C through threads.

According to the three-cap reverse quantitative bottle, the cap body A and the bottle mouth A are in threaded connection or fastening connection, and the cap body B and the bottle mouth B are in threaded connection or fastening connection.

Compared with the prior art, the utility model has the advantages of as follows:

1. The utility model discloses a three-cover reverse type quantitative bottle, the mixed liquid that can convenient separately pour two kinds of liquid and two kinds of liquid ratio as required has convenient operation, health, appears secondary pollution's the condition when avoiding two kinds of liquid to mix.

[ description of the drawings ]

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

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

Fig. 2 is a top view of an embodiment of the present invention;

3 FIG. 33 3 is 3 one 3 of 3 the 3 schematic 3 views 3 in 3 full 3 section 3 taken 3 along 3 the 3 line 3 A 3- 3 A 3 in 3 FIG. 32 3; 3

3 FIG. 34 3 is 3 a 3 second 3 schematic 3 view 3 of 3 the 3 full 3 section 3 taken 3 along 3 the 3 direction 3 A 3- 3 A 3 in 3 FIG. 32 3; 3

FIG. 5 is one of the schematic full section views taken along B-B of FIG. 2;

FIG. 6 is a second schematic view of the full section taken along the direction B-B in FIG. 2;

Fig. 7 is a schematic structural view of a cover a in an embodiment of the present invention;

fig. 8 is a schematic structural view of the cover C in the embodiment of the present invention;

FIG. 9 is a schematic perspective cross-sectional view of a bottle body according to an embodiment of the present invention;

FIG. 10 is a second schematic perspective sectional view of the bottle body according to the embodiment of the present invention;

FIG. 11 is a third schematic perspective sectional view of the bottle body according to the embodiment of the present invention;

Fig. 12 is a schematic view of the whole section of the embodiment of the present invention, in which the cover a and the bottle mouth a, the cover B and the bottle mouth B are connected by screw threads.

[ detailed description ] embodiments

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

as shown in fig. 1 to 12, the three-cap reverse quantitative bottle of the present embodiment includes a bottle body 1, a liquid storage cavity a101, a liquid storage cavity B102, a liquid storage cavity C103, a liquid storage cavity D104 and a liquid storage cavity E105 are arranged in the bottle body 1, a bottle opening a11 communicated with the liquid storage cavity a101 is arranged on the bottle body 1, a cap body a21 is rotatably connected to the bottle opening a11, a bottle opening B12 communicated with the liquid storage cavity B102 is arranged on the bottle body 1, a cap body B22 is rotatably connected to the bottle opening B12, a bottle opening C13 communicated with the liquid storage cavity E105 is arranged on the bottle body 1, and a cap body C23 is rotatably connected to the bottle opening C13; an opening A201 communicating the liquid storage cavity A101 with the liquid storage cavity C103 is arranged at the bottle body 1 and positioned at the bottle opening A11, a sealing part A211 matched with the inner side wall of the bottle opening A11 in a sealing manner is arranged on the cover body A21, a notch A212 communicated with the opening A201 is arranged on the sealing part A211, and the notch A212 can be communicated with the opening A201 or staggered to open or close the opening A201 by rotating the cover body A21; an opening B202 for communicating the liquid storage cavity B102 with the liquid storage cavity D104 is arranged at the bottle body 1 and positioned at the bottle opening B12, a sealing part B221 which is in sealing fit with the inner side wall of the bottle opening B12 is arranged on the cover body B22, a notch B222 which can be communicated with the opening B202 is arranged on the sealing part B221, and the notch B222 can be communicated with the opening B202 or staggered to open or close the opening B202 by rotating the cover body B22 (the opening A and the opening B are closed in fig. 3, and the opening A and the opening B are opened in fig. 4); an opening C203 for communicating the liquid storage cavity E105 with the liquid storage cavity C103 is arranged at the bottle body 1 and positioned at the bottle mouth C13, an opening D204 for communicating the liquid storage cavity E105 with the liquid storage cavity D104 is arranged at the bottle body 1 and positioned at the bottle mouth C13, a sealing part C231 which is in sealing fit with the inner side wall of the bottle mouth C13 is arranged on the cover body C23, a notch C232 which can be communicated with the opening C203 is arranged on the sealing part C231, and a notch D233 which can be communicated with the opening D204 is arranged on the sealing part C231; the notch C232 can be communicated with the opening C203 and the notch D233 can be communicated with the opening D204 by rotating the cover body C23, so that the liquid in the liquid storage cavity C103 and the liquid storage cavity D104 can enter the liquid storage cavity E105; alternatively, the opening C203 and the opening D204 can be closed by shifting the notch C232 and the opening C203 and shifting the notch D233 and the opening D204 by rotating the cover C23. (FIG. 5 shows a state where the opening C is closed, and FIG. 6 shows a state where the opening C is opened)

When the three-cover reverse quantitative bottle is used, two different liquids are contained in the liquid storage cavity A and the liquid storage cavity B, the liquid in the liquid storage cavity A can be poured out independently by opening the cover body A independently, and the liquid in the liquid storage cavity B can be poured out independently by opening the cover body B independently; when two different liquid solutions need to be prepared, the opening C and the opening D are kept closed by rotating the cover body C, firstly, the cover body A is rotated to open the opening A, then the quantitative bottle is turned over to make the liquid in the liquid storage cavity A enter the liquid storage cavity C through the opening A, when the liquid in the liquid storage cavity C has a proper volume, the opening A is closed by rotating the cover body A, then the cover body B is rotated to open the opening B, then the quantitative bottle is turned over to ensure that the liquid in the liquid storage cavity B enters the liquid storage cavity D through the opening B, when the liquid storage cavity D is filled with liquid with proper volume, the opening B is closed by rotating the cover body B, and finally the opening C and the opening D are opened by rotating the cover body C, the liquid storage cavity C and the liquid storage cavity D can enter the liquid storage cavity E to be mixed by turning over the quantitative bottle, and finally the cover body C is opened to pour out the mixed liquid; the utility model discloses a three-cover reverse type quantitative bottle, the mixed liquid that can convenient separately pour two kinds of liquid and two kinds of liquid ratio as required has convenient operation, health, appears secondary pollution's the condition when avoiding two kinds of liquid to mix.

In order to facilitate the volume of liquid in the discernment stock solution chamber C or stock solution chamber D, bottle 1 adopts transparent material to make, the outer wall of bottle 1 is equipped with the scale A that is used for showing the volume of liquid in the stock solution chamber C103, the outer wall of bottle 1 is equipped with the scale B that is used for showing the volume of liquid in the stock solution chamber D104.

As shown in fig. 9, 10 and 11, a partition a31 is provided in the bottle body 1 to divide the inner cavity of the bottle body 1 into two chambers, a partition B32 for forming a liquid storage chamber C103 is provided in the bottle body 1 and on the left side of the partition a31, a partition C33 for forming a liquid storage chamber D104 is provided in the bottle body 1 and on the right side of the partition a31, a partition D34 matched with the inner side wall of the bottle opening C13 is provided in the bottle body 1 and on the rear side of the liquid storage chamber C103 and the liquid storage chamber D104 to form a liquid storage chamber E105, the inner side wall of the bottle body 1, the partitions a31, the partitions C33 and the partition D34 form a liquid storage chamber a101, the inner side wall of the bottle body 1, the partitions B32, the partitions C33 and the partition D34 form a liquid storage chamber a101, and the liquid storage chambers C103 and D104 are close to the liquid storage chamber E105, and the bottom of the liquid storage chamber E105 is lower.

In this embodiment, the reservoir C103 and the reservoir D104 have the same shape, and the reservoir C103 and the reservoir D104 are symmetrically disposed with respect to the partition a 31. The bottle body 1 is made of transparent material, so that the liquid storage cavity C and the liquid storage cavity D can be formed by only arranging one scale in the embodiment, and the scale 16 for displaying the volume of the liquid in the liquid storage cavity C103 and the liquid storage cavity D104 is arranged on the outer wall of the bottle body 1.

In this embodiment, the cap C23 is threadably engaged with the spout C13. As shown in fig. 3 and 4, the cap a21 is fastened to the bottle mouth a11, and the cap B22 is fastened to the bottle mouth B12; as shown in FIG. 12, cap A21 is threadably engaged with spout A11, and cap B22 is threadably engaged with spout B12.

Claims (7)

1. The three-cap reverse quantitative bottle is characterized by comprising a bottle body (1), wherein a liquid storage cavity A (101), a liquid storage cavity B (102), a liquid storage cavity C (103), a liquid storage cavity D (104) and a liquid storage cavity E (105) which are mutually separated are arranged in the bottle body (1), a bottle opening A (11) communicated with the liquid storage cavity A (101) is arranged on the bottle body (1), a cover body A (21) is rotatably connected on the bottle opening A (11), a bottle opening B (12) communicated with the liquid storage cavity B (102) is arranged on the bottle body (1), a cover body B (22) is rotatably connected on the bottle opening B (12), a bottle opening C (13) communicated with the liquid storage cavity E (105) is arranged on the bottle body (1), and a cover body C (23) is rotatably connected on the bottle opening C (13); an opening A (201) for communicating the liquid storage cavity A (101) with the liquid storage cavity C (103) is formed in the bottle body (1) and located at the bottle opening A (11), a sealing part A (211) which is in sealing fit with the inner side wall of the bottle opening A (11) is arranged on the cover body A (21), a notch A (212) which can be communicated with the opening A (201) is formed in the sealing part A (211), and the notch A (212) can be communicated with the opening A (201) or staggered to open or close the opening A (201) by rotating the cover body A (21); an opening B (202) for communicating the liquid storage cavity B (102) with the liquid storage cavity D (104) is formed in the bottle body (1) and located at the bottle opening B (12), a sealing part B (221) which is in sealing fit with the inner side wall of the bottle opening B (12) is arranged on the cover body B (22), a notch B (222) which can be communicated with the opening B (202) is formed in the sealing part B (221), and the notch B (222) can be communicated with the opening B (202) or staggered to open or close the opening B (202) by rotating the cover body B (22); an opening C (203) for communicating the liquid storage cavity E (105) with the liquid storage cavity C (103) is formed in the position, located at the bottle opening C (13), of the bottle body (1), an opening D (204) for communicating the liquid storage cavity E (105) with the liquid storage cavity D (104) is formed in the position, located at the bottle opening C (13), of the bottle body (1), a sealing portion C (231) in sealing fit with the inner side wall of the bottle opening C (13) is arranged on the cover body C (23), a notch C (232) capable of being communicated with the opening C (203) is formed in the sealing portion C (231), and a notch D (233) capable of being communicated with the opening D (204) is formed in the sealing portion C (231);

The notch C (232) and the opening C (203) can be communicated and the notch D (233) and the opening D (204) can be communicated by rotating the cover body C (23), so that the liquid in the liquid storage cavity C (103) and the liquid storage cavity D (104) can enter the liquid storage cavity E (105); alternatively, by rotating the cover C (23), the notch C (232) and the opening C (203) can be displaced and the notch D (233) and the opening D (204) can be displaced, and the opening C (203) and the opening D (204) can be closed at the same time.

2. The quantitative bottle with three inverted covers as claimed in claim 1, wherein the bottle body (1) is made of transparent material, the outer wall of the bottle body (1) is provided with a scale A for displaying the volume of the liquid in the liquid storage chamber C (103), and the outer wall of the bottle body (1) is provided with a scale B for displaying the volume of the liquid in the liquid storage chamber D (104).

3. the three-cap reversed quantitative bottle according to claim 1, wherein a partition A (31) dividing the inner cavity of the bottle body (1) into two chambers is provided in the bottle body (1), a partition B (32) for forming a liquid storage chamber C (103) is provided in the bottle body (1) and on the left side of the partition A (31), a partition C (33) for forming a liquid storage chamber D (104) is provided in the bottle body (1) and on the right side of the partition A (31), a partition D (34) cooperating with the inner side wall of the bottle mouth C (13) to form a liquid storage chamber E (105) is provided in the bottle body (1) and on the rear side of the liquid storage chamber C (103) and the liquid storage chamber D (104), the inner side wall of the bottle body (1), the partition A (31), the partition C (33) and the partition D (34) form a liquid storage chamber A (101), and the inner side wall of the bottle body (1), the partition A (31), the partition B, Baffle B (32), baffle C (33) and baffle D (34) form stock solution chamber A (101), stock solution chamber C (103), stock solution chamber D (104) be close to stock solution chamber E (105), and the bottom of stock solution chamber E (105) is less than the top of stock solution chamber C (103), stock solution chamber D (104).

4. the quantitative bottle with three inverted caps as set forth in claim 3, wherein the reservoir chamber C (103) and the reservoir chamber D (104) have the same shape, and the reservoir chamber C (103) and the reservoir chamber D (104) are symmetrically disposed about the partition A (31).

5. The quantitative bottle with three inverted covers as claimed in claim 3, wherein the bottle body (1) is made of transparent material, and the outer wall of the bottle body (1) is provided with scales (16) for displaying the volume of the liquid in the liquid storage chamber C (103) and the liquid storage chamber D (104).

6. The quantitative bottle of claim 1, wherein said cap body C (23) is screwed to said bottle mouth C (13).

7. The quantitative bottle of claim 6, wherein said cap body A (21) is screwed or fastened to the bottle mouth A (11), and said cap body B (22) is screwed or fastened to the bottle mouth B (12).