CN109533676B

CN109533676B - Quantitative device

Info

Publication number: CN109533676B
Application number: CN201811254431.5A
Authority: CN
Inventors: 李红彪
Original assignee: Zhongshan Huabaole Daily Necessities Co ltd
Current assignee: Zhongshan Huabaole Daily Necessities Co ltd
Priority date: 2018-10-26
Filing date: 2018-10-26
Publication date: 2023-10-10
Anticipated expiration: 2038-10-26
Also published as: CN116853688A; CN109533676A

Abstract

The invention discloses a quantifying device, which comprises a container for containing powdery substances or flowable colloidal substances, wherein the bottom of the container is provided with a base with an opening at the lower part, the inside of the base is provided with a storage cavity, the bottom of the container is provided with a material inlet which can enable substances in the container to fall into the storage cavity from the top of the storage cavity, the inside of the base is provided with a material outlet which can enable the substances in the storage cavity to fall out from the bottom of the storage cavity, the base is provided with a pulling piece which can be pushed and pulled from the side, the storage cavity is communicated with the material inlet and is related to the material outlet by pulling or pushing the pulling piece, so that the substances in the container fall into the storage cavity, the pulling piece is pulled in the opposite direction, the storage cavity is related to the material inlet and is communicated with the material outlet, and the substances in the storage cavity fall out from the material outlet for taking, thereby realizing quantitative taking of the substances in the container, avoiding the need of extending hands into the container, preventing the substances in the container from being polluted, and the operation is simple and convenient.

Description

Quantitative device

[ field of technology ]

The present invention relates to a dosing device for taking out powdery substances or gel-like substances having fluidity.

[ background Art ]

In daily life, when powdered substances such as milk powder or colloid substances with fluidity are taken from containers such as cans, a spoon is generally used for containing or directly pouring, and when the spoon is used, hands are required to be washed cleanly and dried every time in order to prevent pollution, so that the convenience is not realized, and the substances in the containers are easily polluted when the spoon is held by hands and stretched into and out of the containers for many times; and the control of the direct pouring quantity is not easy.

The present invention has been made based on this situation.

[ invention ]

The invention aims to overcome the defects of the prior art and provide the quantitative device which has a simple structure and is convenient to use and can take powdery substances or colloid substances with fluidity.

The invention is realized by the following technical scheme:

a dosing device, characterized by: including the container 1 that is used for splendid attire powdered material or flowing gelatinous material, the bottom of container 1 is equipped with below open-ended base 2, the inside storing chamber 3 that is equipped with of base 2, container 1 bottom is equipped with the inlet 4 that can supply the material in the container 1 to fall into storing chamber 3 from storing chamber 3 top, the inside outlet 5 that can supply the material in storing chamber 3 to fall out from storing chamber 3 bottom that is equipped with of base 2, thereby be equipped with on the base 2 and push-and-pull from the side and make storing chamber 3 and inlet 4 be linked together and storing chamber 3 and outlet 5 close, perhaps storing chamber 3 and inlet 4 are closed and storing chamber 3 and outlet 5 are linked together draw piece 6.

A dosing device as described above, wherein: the pull member 6 comprises a pull member bottom plate 61, front and rear pull member side plates 62 and a pull member back plate 63, the pull member bottom plate 61 forms the bottom of the storage cavity 3, the outlet 5 is arranged between the pull member bottom plate 61 and the pull member back plate 63, a pull member closing plate 64 which can close the inlet 4 and the storage cavity 3 when the outlet 5 is communicated with the storage cavity 3 is arranged between the front and rear pull member side plates 62, a first partition plate 11 is arranged between the bottom of the container 1 and the pull member bottom plate 61, the first partition plate 11 is positioned at one side of the inlet 4 far away from the pull member back plate 63, a quantitative member 7 which can be pulled out from the side surface of the base 2 is arranged between the base 2 and the pull member 6, a quantitative plate 71 is arranged between the first partition plate 11 and the pull member back plate 63, one side of the quantitative plate 71 is provided with a part which is attached to the lower side of the pull member closing plate 64 and can close the inlet 4 between the pull member back plate 63 and the storage cavity 3, the first partition plate 11 and the storage cavity 3 are changed, the first partition plate 11 is arranged between the quantitative partition plate 71 and the storage cavity 3, the quantitative partition plate 3 is closed, and the storage cavity 3 is closed by changing the space between the first partition plate 71 and the left partition plate 7 and the storage cavity 3, and the quantitative partition plate 3 is closed, and the quantitative partition plate 71 is arranged between the quantitative partition plate 7 and the storage cavity 3.

A dosing device as described above, wherein: the quantitative part 7 is provided with a plurality of quantitative limit grooves 73, and the bottom of the container 1 is provided with quantitative limit points 12 which can be matched with the quantitative limit grooves 73 so as to position the quantitative part 7.

A dosing device as described above, wherein: the dosing member 7 is provided with a first limiting portion 74 which can be engaged with the outside of the base 2 to limit the depth of the dosing member 7 pushed into the base 2.

A dosing device as described above, wherein: the bottom of the pull-piece bottom plate 61 is provided with a second limiting part 65 which can be clamped on the outer side of the base 2 so as to limit the depth of the pull-piece 6 pushed into the base 2.

A dosing device as described above, wherein: the bottom of the container 1 is provided with a bottom cavity 8 communicated with the material inlet 4, the material outlet 5 is arranged at the bottom of the bottom cavity 8 and staggered with the material inlet 4, the pulling piece 6 comprises a top plate 601 which is positioned at the top of the bottom cavity 8, separates the bottom cavity 8 from the material inlet 4 and can be pulled left and right, a second partition plate 602 is arranged between the material inlet 4 and the material outlet 5 on the top plate 601, the left and right wall plates of the material inlet 3 are formed by the second partition plate 602 and the right wall 81 of the bottom cavity 8, the bottom of the material inlet 3 is formed by the bottom plate 82 of the bottom cavity 8, a feeding hole 603 which is positioned on the right side of the top plate 601 and can be used for communicating the material inlet 4 with the material inlet 3, the pulling piece 6 is pushed inwards, the second partition plate 602 moves to the left side of the material outlet 5 and enables the material inlet 3 to expand left, meanwhile, the top plate 601 is used for blocking the material inlet 4, the second partition plate 6 moves to the right side of the material outlet 3 and the material outlet 5, and simultaneously the material inlet 3 is correspondingly narrowed, and the material inlet 3 is communicated with the material outlet 3, and the material inlet 3 is narrowed.

A dosing device as described above, wherein: the top plate 601 is provided with a third limiting part 604 protruding upwards and capable of being clamped into the material inlet 4 near the left side of the second partition plate 602, the third limiting part 604 is clamped on the left wall of the material inlet 4 to prevent the pulling piece 6 from sliding leftwards to enable the material storage cavity 3 to be communicated with the material outlet 5, and when the pulling piece is pushed by external force, the third limiting part 604 is separated from the material inlet 4 to enable the pulling piece 6 to move leftwards.

A dosing device as described above, wherein: the pull piece 6 is provided with a fourth limiting part 605 which can be clamped at the outer side of the base 2 to limit the pull piece 6 to slide left by self so as to enable the storage cavity 3 to be communicated with the outlet 5, and when the pull piece 6 is pushed by external force, the third limiting part 604 is separated from the inlet 4 so as to enable the pull piece 6 to move left.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the pulling piece is pulled or pushed to enable the storage cavity to be communicated with the material inlet and the storage cavity to be relatively closed with the material outlet, so that substances in the container drop into the storage cavity under the action of dead weight, when the substances are required to be taken, the pulling piece is pulled in the opposite direction, the storage cavity is relatively closed with the material inlet and the storage cavity is communicated with the material outlet, the substances in the storage cavity drop out from the material outlet for taking, the substances in the container are quantitatively taken through the storage cavity, the hands are prevented from extending into the container, the substances in the container are prevented from being polluted, and the operation is simple and convenient.

2. According to the invention, the volume of the storage cavity can be changed by arranging the quantitative plate and the quantitative part and pulling or pushing the quantitative part outwards or inwards, so that the quantitative taking of substances in the container is more convenient according to the requirement, the quantitative part is provided with the quantitative limiting grooves, the bottom of the container is provided with the quantitative limiting points which can be matched with the quantitative limiting grooves so as to position the quantitative part, and the quantitative part can carry out multi-gear quantification on the storage cavity by adopting the quantitative limiting grooves, and can be limited to automatically move after the quantitative part is quantified.

[ description of the drawings ]

The invention is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic structural view of a first embodiment;

FIG. 2 is a cross-sectional view of the structure in which the storage chamber is in communication with the inlet and the storage chamber is in a closed state relative to the outlet in the maximum metering position;

FIG. 3 is a cross-sectional view showing a state in which the storage chamber is closed with respect to the inlet and the storage chamber is communicated with the outlet in the maximum quantitative position according to the first embodiment;

FIG. 4 is a cross-sectional view of the embodiment in which the storage chamber is in communication with the inlet and the storage chamber is in a closed position relative to the outlet in other dosing positions;

FIG. 5 is a cross-sectional view showing a state in which the storage chamber is closed with respect to the inlet and the storage chamber is communicated with the outlet in the other quantitative position;

FIG. 6 is a schematic view of the structure of the container in the first embodiment;

FIG. 7 is a schematic view of the structure of the base in the first embodiment;

FIG. 8 is a schematic structural view of a dosing member in the first embodiment;

FIG. 9 is a schematic view showing the structure of a pull member in the first embodiment;

FIG. 10 is a structural cross-sectional view of the pull member in the first embodiment;

fig. 11 is a schematic structural view of a second embodiment;

FIG. 12 is a cross-sectional view showing a structure in which a storage chamber is connected to an inlet and the storage chamber is closed with respect to an outlet in the second embodiment;

FIG. 13 is a sectional view showing a structure in which a storage chamber is closed with respect to an inlet and the storage chamber is connected with an outlet in accordance with a second embodiment;

fig. 14 is a schematic structural view of a container in the second embodiment;

FIG. 15 is a cross-sectional view of a container in embodiment two;

fig. 16 is a schematic structural view of a pull member in the second embodiment;

fig. 17 is a schematic structural view of a third embodiment;

FIG. 18 is a cross-sectional view showing a third embodiment in which the storage chamber is in communication with the inlet and the storage chamber is in a closed state with respect to the outlet;

FIG. 19 is a sectional view showing a structure in which a storage chamber is closed with respect to an inlet and the storage chamber is connected with an outlet in accordance with a third embodiment;

FIG. 20 is a schematic view of the structure of a container in the third embodiment;

fig. 21 is a schematic structural view of a pull member in the third embodiment;

fig. 22 is a sectional view of the pull member in the third embodiment.

[ detailed description ] of the invention

The invention is further described below with reference to the accompanying drawings:

the quantitative device shown in fig. 1 to 22 comprises a container 1 for containing powdery substances or flowable gelatinous substances, a base 2 with an opening at the bottom is arranged at the bottom of the container 1, a storage cavity 3 is arranged in the base 2, an inlet 4 for allowing substances in the container 1 to fall into the storage cavity 3 from the top of the storage cavity 3 is arranged at the bottom of the container 1, an outlet 5 for allowing substances in the storage cavity 3 to fall out from the bottom of the storage cavity 3 is arranged in the base 2, and a pull piece 6 which can be pushed and pulled from the side surface to enable the storage cavity 3 to be communicated with the inlet 4 and enable the storage cavity 3 to be closed with the outlet 5, or enable the storage cavity 3 to be closed with the inlet 4 and enable the storage cavity 3 to be communicated with the outlet 5 is arranged on the base 2.

By pulling or pushing the pulling piece 6, the storage cavity 3 is communicated with the inlet 4, and the storage cavity 3 is closed with the outlet 5, so that substances in the container 1 fall into the storage cavity 3, when the substances are required to be taken, the pulling piece 6 is pulled in the opposite direction, the storage cavity 3 is closed with the inlet 4, and the storage cavity 3 is communicated with the outlet 5, the substances in the storage cavity 3 fall out of the outlet 5 for taking, quantitative taking of the substances in the container 1 is realized through the storage cavity 3, the hand is prevented from extending into the container 1, the substances in the container 1 are prevented from being polluted, and the operation is simple and convenient.

Embodiment one as shown in fig. 1 to 10:

the utility model provides a dosing unit, includes the container 1 that is used for splendid attire powdered material or mobility gelatiniform material, the bottom of container 1 is equipped with below open-ended base 2, the inside storing chamber 3 that is equipped with of base 2, container 1 bottom is equipped with the inlet 4 that can supply the material in the container 1 to fall into storing chamber 3 from storing chamber 3 top, the inside exit slot 5 that can supply the material in storing chamber 3 to fall out from storing chamber 3 bottom that is equipped with of base 2, be equipped with on the base 2 and draw out piece 6, thereby draw out piece 6 from the side and close storing chamber 3 and inlet 4 and storing chamber 3 and exit slot 5 are linked together, as in fig. 3, thereby advance and draw out piece 6 from the side and thereby make storing chamber 3 and inlet 4 be linked together and storing chamber 3 and exit slot 5 are closed, as in fig. 2.

The pull member 6 comprises a pull member bottom plate 61, front and rear pull member side plates 62 and a pull member back plate 63, the pull member bottom plate 61 forms the bottom of the storage cavity 3, the outlet 5 is arranged between the pull member bottom plate 61 and the pull member back plate 63, a pull member closing plate 64 which can close the inlet 4 and the storage cavity 3 when the outlet 5 is communicated with the storage cavity 3 is arranged between the front and rear pull member side plates 62, a first partition plate 11 is arranged between the bottom of the container 1 and the pull member bottom plate 61, the first partition plate 11 is positioned at one side of the inlet 4 far away from the pull member back plate 63, a quantitative member 7 which can be pulled out from the side surface of the base 2 is arranged between the base 2 and the pull member 6, a quantitative plate 71 is arranged between the first partition plate 11 and the pull member back plate 63, one side of the quantitative plate 71 is provided with a part which is attached to the lower side of the pull member closing plate 64 and can close the inlet 4 between the pull member back plate 63 and the quantitative plate 71, the first partition plate 11 and the right partition plate 71 are arranged, and the quantitative partition plate 11 is formed by changing the distance between the quantitative partition plate 71 and the storage cavity 3, and the quantitative partition plate 11 is changed, and the quantitative partition plate 71 is formed by changing the volume of the first partition plate 11.

After the pulling piece 6 is pulled out, the pulling piece closing plate 64 blocks the material inlet 4, so that the material storage cavity 3 and the material inlet 4 are closed, and the material outlet 5 moves below the material storage cavity 3 along with the pulling piece 6, so that the material storage cavity 3 is communicated with the material outlet 5.

By pulling the dosing plate 71 outwards or pushing the dosing member 7 inwards, the volume of the storage cavity 3 can be changed, and the material in the container 1 can be taken quantitatively according to the requirement more conveniently.

In order to limit the automatic movement of the quantifying piece 7 after the quantifying is completed, a plurality of quantifying limiting grooves 73 are formed in the quantifying piece 7, a quantifying limiting point 12 which can be matched with the quantifying limiting grooves 73 to position the quantifying piece 7 is formed in the bottom of the container 1, and the quantifying piece 7 can conduct multi-gear quantification on the storage cavity 3 by adopting the plurality of quantifying limiting grooves 73.

Fig. 2 and 3 show the dosing member 7 in a position of maximum dosing. Fig. 4 and 5 show the position of the dosing member 7 in the other dosing position.

The dosing member 7 is provided with a first limiting portion 74 which can be engaged with the outside of the base 2 to limit the depth of the dosing member 7 pushed into the base 2.

The bottom of the pull-piece bottom plate 61 is provided with a second limiting part 65 which can be clamped on the outer side of the base 2 so as to limit the depth of the pull-piece 6 pushed into the base 2.

Second embodiment as shown in fig. 11 to 16:

the utility model provides a dosing device, includes the container 1 that is used for splendid attire powdered material or mobility gelatiniform material, the bottom of container 1 is equipped with the base 2 of below opening, the inside storing chamber 3 that is equipped with of base 2, container 1 bottom is equipped with the inlet 4 that can supply the material in the container 1 to fall into storing chamber 3 from storing chamber 3 top, the inside exit slot 5 that can supply the material in storing chamber 3 to fall out from storing chamber 3 bottom that is equipped with of base 2, be equipped with on the base 2 and draw a 6, thereby advance a 6 from the side and close storing chamber 3 and inlet 4 and storing chamber 3 and exit slot 5 are linked together, as in fig. 13, thereby draw a 6 from the side and make storing chamber 3 and inlet 4 be linked together and storing chamber 3 and exit slot 5 are closed, as in fig. 12.

The bottom of the container 1 is provided with a bottom cavity 8 communicated with the material inlet 4, as shown in fig. 15, the material outlet 5 is arranged at the bottom of the bottom cavity 8 and staggered with the material inlet 4, the pull piece 6 comprises a top plate 601 which is positioned at the top of the bottom cavity 8, separates the bottom cavity 8 from the material inlet 4 and can be pulled left and right, a second partition 602 is arranged between the material inlet 4 and the material outlet 5 on the top plate 601, the right wall 81 of the second partition 602 and the bottom cavity 8 form left and right wall plates of the material inlet 3, the bottom plate 82 of the bottom cavity 8 forms the bottom of the material inlet 3, a feeding hole 603 which is positioned on the right side of the top plate 601 and can be used for communicating the material inlet 4 with the material inlet 3 is arranged on the right side of the top plate 601, the second partition 602 moves to the left side of the material outlet 5 and enables the material inlet 3 to be pulled left, the material inlet 3 is communicated with the material outlet 5, and simultaneously the top plate 601 is used for sealing the material inlet 4 to be pulled out of the material inlet 3, and the material inlet 3 is correspondingly reduced, and the material inlet 3 is pulled out of the material inlet 3 to be communicated with the material outlet 3, and the material inlet 3 is correspondingly reduced to the material inlet 3.

The top plate 601 is provided with a third limiting part 604 protruding upwards and capable of being clamped into the material inlet 4 near the left side of the second partition plate 602, the third limiting part 604 is clamped on the left wall of the material inlet 4 to prevent the pulling piece 6 from sliding leftwards to enable the material storage cavity 3 to be communicated with the material outlet 5, and when the pulling piece is pushed by external force, the third limiting part 604 is separated from the material inlet 4 to enable the pulling piece 6 to move leftwards.

The quantitative device has simple structure and convenient operation.

Embodiment three as shown in fig. 17 to 22:

the difference between the third embodiment and the second embodiment is that: the pull piece 6 is provided with a fourth limiting part 605 which can be clamped at the outer side of the base 2 to limit the pull piece 6 to slide left by self so as to enable the storage cavity 3 to be communicated with the outlet 5, and when the pull piece 6 is pushed by external force, the third limiting part 604 is separated from the inlet 4 so as to enable the pull piece 6 to move left.

Claims

1. A dosing device, characterized by: the device comprises a container (1) for containing powdery substances or flowing colloidal substances, wherein a base (2) with an opening at the lower part is arranged at the bottom of the container (1), a storage cavity (3) is arranged in the base (2), an inlet (4) for allowing substances in the container (1) to fall into the storage cavity (3) from the top of the storage cavity (3) is arranged at the bottom of the container (1), an outlet (5) for allowing the substances in the storage cavity (3) to fall out from the bottom of the storage cavity (3) is arranged in the base (2), and a pulling piece (6) which can be pushed and pulled from the side surface to enable the storage cavity (3) to be communicated with the inlet (4) and enable the storage cavity (3) to be closed with the outlet (5) or enable the storage cavity (3) to be closed with the inlet (4) and enable the storage cavity (3) to be communicated with the outlet (5) is arranged on the base (2);

the utility model provides a device for automatically closing a storage cavity, which comprises a base (6), wherein the base comprises a storage cavity (3), a storage cavity (63) and a base (3), a pulling piece (6) comprises a pulling piece base plate (61), a front pulling piece side plate (62) and a pulling piece back plate (63), the pulling piece base plate (61) is formed at the bottom of the storage cavity (3), a discharging port (5) is arranged between the pulling piece base plate (61) and the pulling piece back plate (63), a pulling piece closing plate (64) which can close the storage cavity (3) and the discharging port (5) when the discharging port (5) is communicated with the storage cavity (3) is arranged between the pulling piece side plate (62), a first partition plate (11) is arranged between the bottom of the container (1) and the pulling piece base plate (61), the first partition plate (11) is arranged at one side of the feeding port (4) away from the pulling piece back plate (63), a quantitative piece (7) which can be pulled out from the side surface of the base (2) is arranged between the base (2), a quantitative plate (71) is arranged on the quantitative plate (7) and is arranged between the first partition plate (11) and the pulling piece back plate (63), a quantitative plate (71) is arranged between the pulling piece (71) and the closure plate (71) which can be biased to one side of the pulling piece (71) and the closure plate (71) which can be positioned between the closure plate (64), the first partition plate (11) and the quantitative plate (71) form a left wall plate and a right wall plate of the storage cavity (3), the quantitative part (7) is pulled to change the distance between the quantitative plate (71) and the first partition plate (11) so as to change the volume of the storage cavity (3), and after the pulling part (6) is pulled out, the storage cavity (3) is closed with the material inlet (4) and the storage cavity (3) is communicated with the material outlet (5);

the quantitative part (7) is provided with a plurality of quantitative limit grooves (73), and the bottom of the container (1) is provided with quantitative limit points (12) which can be matched with the quantitative limit grooves (73) so as to position the quantitative part (7);

the quantitative part (7) is provided with a first limit part (74) which can be clamped on the outer side of the base (2) so as to limit the depth of the quantitative part (7) pushed into the base (2).

2. A dosing device according to claim 1, characterized in that: the bottom of the pulling piece bottom plate (61) is provided with a second limiting part (65) which can be clamped on the outer side of the base (2) so as to limit the depth of the pulling piece (6) pushed into the base (2).