CN102020053A - Quantifying cover component and quantifying device - Google Patents
Quantifying cover component and quantifying device Download PDFInfo
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- CN102020053A CN102020053A CN 201010600702 CN201010600702A CN102020053A CN 102020053 A CN102020053 A CN 102020053A CN 201010600702 CN201010600702 CN 201010600702 CN 201010600702 A CN201010600702 A CN 201010600702A CN 102020053 A CN102020053 A CN 102020053A
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Abstract
The invention discloses a quantifying cover component and a quantifying device. The quantifying cover component comprises a first cover and a second cover, wherein the first cover is matched with a container; the first cover is provided with a quantifying cavity and an elastically reset moveable element; the second cover is moveably arranged on the first cover; the second cover has a closed state and an open sate; at the closed state, the moveable element is tightly pressed at a first position by the second cover so as to connect the quantifying cavity with the container; at the open state, the second cover leaves away from the moveable element and the moveable element is reset to a second position under the action of an elastic force, so as to disconnect the quantifying cavity from the container and open an opening part; when the second cover is at the closed state, the fluid can flow into the quantifying cavity; and when the second cover is at the open state, the fluid in the container cannot flow into the quantifying cavity so as to accurately measure and take the fluid.
Description
Technical field
The invention relates to a kind of flowing material that is used to measure, as the quantitative cap assemblies and the proportioning device of immobilized particles, solid block, pressed powder, liquid etc.
Background technology
Convertible fluid measuring evice generally comprises batch box and container, by inverting container repeatedly, makes fluid enter into batch box and the fluid in the batch box is discharged from container.But, existing convertible fluid measuring evice to measure precision not high.
Summary of the invention
The objective of the invention is at the deficiencies in the prior art, provide a kind of and can improve the quantitative cap assemblies and the proportioning device of measuring precision.
For achieving the above object, the present invention has adopted following technical scheme:
The invention has the beneficial effects as follows: a kind of quantitative cap assemblies, comprise first lid and second lid, described first lid is used for cooperating with container, the mobile that described first lid is provided with quantitative cavity and is resetted by elastic force, described second lid is movably arranged on described first lid top, described second lid has closed state and open mode, at described closed state, described mobile is pressed on primary importance by described second lid, make described quantitative cavity be communicated with described container, and described second lid seal the uncovered portion of described quantitative cavity; In described open mode, described second lid leaves described mobile, and described mobile is reset to the second place under described resilient force, make the disconnection that is communicated with of described quantitative cavity and described container, and the uncovered portion of described quantitative cavity opens.
Further, described first lid comprises also and being used for and the fixing fixed body of described container that at described closed state, described fixed body and described mobile form has first gap that flow into described quantitative cavity for fluid from described container; In described open mode, described fixed body and described mobile form second gap, and described second gap is less than described first gap.
Further, described second gap makes in described open mode less than the size of described fluid, described second gap of described fluid impassabitity.Because second gap is less than the size of fluid, thereby when pouring out fluid, no matter which kind of angle of inclination container is in, fluid all can not flow out, and has improved the particularity of measuring.This fluid can be particulate matter, pressed powder, solid block or liquid etc.
Further, described second gap is zero.At this moment, mobile can seal valve port, and liquid can not flow to quantitative cavity from container.
Further, described fixed body has the valve port that is crossed by the valve wall, and described mobile stretches into described valve port, and described first gap and second gap form by described valve wall and mobile.
Further, the elastic component of described mobile for making by elastomeric material, described elastic component extends from described valve wall one.Because elastic component and valve wall are one-body molded, simplify the structure.
Further, described elastic force is provided by elastic component, and described mobile passes through described elastic component resilient mounting on described fixed body.
Further, described quantitative cavity is arranged at described mobile.
Further, described quantitative cavity and described mobile are one-body molded.
Further, the chamber wall of described quantitative cavity is provided with valve port, and at described closed state, described valve port leaves in described mobile; In described open mode, described mobile seals described valve port.
Further, described first lid and second lid are one-body molded.
Further, described second lid cooperates with described fixed body frictional fit, screw thread fit or pivot joint.
A kind of proportioning device comprises container and described quantitative cap assemblies with peristome, and described first lid is arranged at the peristome of described container.
The invention has the beneficial effects as follows: when measuring fluid, second lid is in closed state, and fluid can flow into quantitative cavity; When needing to discharge fluid, second lid is in open mode, and the fluid in the container can not flow into quantitative cavity again, thereby has realized accurately measuring of convection cell.
Description of drawings
Fig. 1 is the three-dimensional exploded view of proportioning device first specific embodiment;
Fig. 2 be second lid when closed state, the structural representation of first embodiment;
Fig. 3 be second lid when open mode, the structural representation of first embodiment;
Fig. 4 to Fig. 8 is the structural representation that the whole fluid of reflection first embodiment is measured process;
Fig. 9 is the three-dimensional exploded view of proportioning device second specific embodiment;
Figure 10 be second lid when closed state, the structural representation of second embodiment;
Figure 11 be second lid when open mode, the structural representation of second embodiment;
Figure 12 is the three-dimensional exploded view of proportioning device the 3rd specific embodiment;
Figure 13 be second lid when closed state, the structural representation of the 3rd embodiment;
Figure 14 be second lid when open mode, the structural representation of the 3rd embodiment;
Figure 15 is the three-dimensional exploded view of proportioning device the 4th specific embodiment;
Figure 16 be second lid when closed state, the structural representation of the 4th embodiment;
Figure 17 be second lid when open mode, the structural representation of the 4th embodiment;
Figure 18 is the three-dimensional exploded view of proportioning device the 5th specific embodiment;
Figure 19 be second lid when closed state, the structural representation of the 5th embodiment;
Figure 20 be second lid when open mode, the structural representation of the 5th embodiment;
Figure 21 is the three-dimensional exploded view of proportioning device the 6th specific embodiment;
Figure 22 be second lid when closed state, the structural representation of the 6th embodiment;
Figure 23 be second lid when open mode, the structural representation of the 6th embodiment;
Figure 24 is the three-dimensional exploded view of proportioning device the 7th specific embodiment;
Figure 25 be second lid when closed state, the structural representation of the 7th embodiment (inversion);
Figure 26 be second lid when closed state, the structural representation of the 7th embodiment (just putting);
Figure 27 be second lid when open mode, the structural representation of the 7th embodiment.
The specific embodiment
In conjunction with the accompanying drawings the present invention is described in further detail below by the specific embodiment.
To shown in Figure 8, the present embodiment proportioning device comprises container 1 and quantitative cap assemblies 2 as Fig. 1.Container 1 has peristome 11, and quantitatively cap assemblies 2 is arranged on this peristome 11.
Quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.First lid 3 comprises fixed body 31, mobile 32 and quantitative cavity 33.The valve port 312 that fixed body 31 has edge 311 and runs through up and down, this valve port 312 is crossed by valve wall 313.Mobile 32 has elasticity, and it can produce deformation when being subjected to external force, can recover deformation and reset when external force is cancelled, and this mobile 32 extends from the valve wall 313 cantilever-shaped one of this valve port, and this mobile has thimble 321.Quantitatively cavity 33 is one-body molded with this mobile 32, and this quantitative cavity 33 has uncovered 331, and this uncovered 331 towards second lid 4.
During assembling, fixed body 31 is packed in the opening of container 11, and the end face that is placed on this peristome 11 is put at the edge 311 of fixed body; By the cooperation of first screw thread 41 and second screw thread 12, second lid 4 detachably is installed in the peristome 11 of container, this second lid 4 covers first lid 3.
Proportioning device has positive seated position and upside down position, when positive seated position, and the peristome of container and quantitatively uncovered of cavity vertically up or tilt up; When upside down position, the peristome of container and quantitatively uncovered of cavity vertically down or tilt down.
When normality, proportioning device is in positive seated position, and second lid 4 presses uncovered 331 of the quantitative cavity of thimble 321, the second lids 4 sealing of mobile, forms first gap of passing through for fluid 34 between the valve wall 313 of mobile 32 and valve port.In the time of need measuring fluid, at first, proportioning device is turned to upside down position, second lid 4 still is pressed in the mobile 32, and the fluid by gravity in the container flows into quantitative cavity 33 by first gap 34; Then, proportioning device is turned to positive seated position, in the switching process, the fluid of the scheduled volume quantitative cavity 33 of packing into, and unnecessary fluid Returning container 1; Then, take off second lid 4, mobile 32 recovers deformation and upwards resets and upspring, and the gap between mobile 32 and the valve wall 313 is reduced, and will quantitative cavity 33 jack-up of fluid be housed; At last, the inclination proportioning device is discharged the fluid in the quantitative cavity from uncovered 331.The uncovered portion that this second lid seals quantitative cavity prevents proportioning device when upside down position, and fluid 5 is discharged from quantitative cavity, and this sealing can be second lid and uncovered direct contact, also can be that second lid and uncovered portion have the gap.
For this proportioning device, quantitatively cavity 33 and mobile 32 are one-body molded; Fluid can be particulate matter, as pill, sugar-pill, chocolate, chewing gum etc.Second lid 4 has closed state and open mode, and when closed state, second lid 4 is pressed in the mobile 32, makes and forms first gap 34 between the valve wall of mobile 32 and fixed body valve port; When open mode, second lid leaves first lid and mobile, and mobile recovers deformation and upwards resets, and and this valve wall between form second gap 35.This second gap 35 is less than first gap 34, and this second gap can be zero, and promptly the shape of mobile size and valve port fit like a glove; This second gap also can be non-vanishing.When fluid was particulate matter or powder etc., second gap can make this second gap of this fluid impassabitity less than the size of this particle or powder.
To shown in Figure 11, it is second specific embodiment of proportioning device as Fig. 9.Proportioning device comprises container 1 and quantitative cap assemblies 2.Container 1 has peristome 11.
Quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.First lid 3 comprises fixed body 31, mobile 32, quantitative cavity 33 and elastic component 36.Fixed body 31 is put the peristome that is placed on container by edge 311, and fixed body 31 has the valve port 312 that is crossed by valve wall 313.Mobile 32 is articulated on the valve wall 313 of fixed body by rotating shaft, and mobile 32 can be rotated up and down by relative fixed body 31.Quantitatively cavity 33 is one-body molded with mobile 32, and quantitatively uncovered 331 of cavity towards second lid 4.The valve wall comprises annular perisporium 314 and is integrally formed at first wall extension 315 and second wall extension 316 in this perisporium, and valve port 312 is formed between first wall extension 315, second wall extension 316 and the perisporium 314, and mobile 32 is articulated on this perisporium 314.First wall extension 315 tilts to extend upward, and second wall extension 316 is positioned at first wall extension below.One end of elastic component is pressed on second wall extension, and the other end withstands mobile, this elastic component such as spring.Mobile 32 can be provided with thimble 321.
When closed state, the end of mobile can be positioned at the below of the end of first wall extension; When open mode, the end of mobile can be concordant with the end of first wall extension, certainly, also can reduce the position relation in gap for other.
Quantitative cavity can have one or more, thereby can hold the fluid of scheduled volume.This fluid can be particulate matter.Second lid is when closed state transforms to open mode, and elastic component utilizes elastic force with the quantitative cavity jack-up that makes progress.The process of measuring of this proportioning device can be with reference to first embodiment.
To shown in Figure 14, it is the 3rd specific embodiment of proportioning device as Figure 12.Proportioning device comprises container 1 and quantitative cap assemblies 2.Container 1 has peristome 11, and quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.
During assembling, middle cover put be placed on the peristome that covers at container; Enclosing cover Gai Zaizhong is covered and enclosing cover is threaded with this peristome; Second cover cap is covered outside.After assembling, first valve port and second valve port align, and second lid presses the moving part of middle cover.
When closed state, the push rod 41 of second lid 4 compresses moving part 382, makes and forms first gap of passing through for fluid 34 between the valve wall 313 of the moving part 382 and second valve port; When second lid upwards turned to open mode, second lid left mobile, and mobile recovers deformation and upwards resets, and the gap between moving part and the valve wall reduces.
The all relative container of the fixed part of enclosing cover and middle cover is fixed, and it constitutes the aforementioned fixation body.The moving part of middle cover constitutes aforesaid mobile.Second lid has thimble, and when closed state, this thimble is pressed in the end of mobile.
For this embodiment, enclosing cover is used for middle cover is fixed on the peristome of container, when middle cover self can be implemented in the location and installation of peristome, enclosing cover can be set.
To shown in Figure 17, it is the 4th specific embodiment of proportioning device as Figure 15.This proportioning device comprises container 1 and quantitative cap assemblies 2.Container 1 has peristome 11.Quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.First lid 3 comprises quantitative cavity 33, mobile 32 and elastic component 36, and this quantitative cavity 33 has at the bottom of the chamber 332 and chamber wall 333, laterally runs through this chamber wall 333 and is formed with valve port 312, and this chamber wall is put the peristome that is placed on container.First lid 3 also comprises enclosing cover 37, and this enclosing cover 37 covers the peristome and the quantitative cavity of container, and this enclosing cover is threaded with this peristome and should be pressed on this peristome by quantitative cavity.Quantitatively the part of cavity 33 is the installation cavitys 39 that are used to install elastic component, and elastic component 36 is placed in this installation cavity 39, and mobile's 32 resilient mountings are on this elastic component 36.Second lid 4 is articulated on this enclosing cover 37 by rotating shaft, and second lid can be rotated up and down relative to first lid.Second lid has thimble 41.
When closed state, second cover cap presses mobile 32 on first lid and by thimble 41, the valve port 312 of quantitative cavity leaves in mobile, and elastic component 36 is compressed, container can be communicated with quantitative cavity by this valve port, makes the fluid in the container can flow into this quantitative cavity; When second lid upwards turned to open mode, elastic component 36 recovered deformation and upwards resets, and this valve port 312 is blocked by mobile 32, makes container and the quantitatively disconnection of the connection between the cavity.At this moment, can the fluid in the quantitative cavity 33 be discharged by the whole proportioning device that tilts.During normality, second lid 4 is in closed state.
To shown in Figure 20, it is the 5th specific embodiment of proportioning device as Figure 18.Proportioning device comprises container 1 and quantitative cap assemblies 2.Container 1 has peristome 11.Quantitatively cap assemblies 2 comprises that first lid 3 and second lid, 4, the first lids comprise fixed body 31, mobile 32, quantitative cavity 33 and elastic component 36.Fixed body 31 comprises enclosing cover 37 and middle cover 38, middle cover 38 stretches into container and the peristome that is placed on container is put at its edge, enclosing cover 37 entangle this peristome and with this peristome screw thread fit, and enclosing cover and middle cover form the valve port 312 that runs through up and down, this valve port is crossed by valve wall 313, and promptly the part valve wall is located at enclosing cover and another part valve wall is located at middle cover.Cover during the end of mobile 32 is put and is placed on and pushed down, this mobile can be rotated up and down around this end by enclosing cover.Quantitatively cavity 33 is one-body molded with this mobile 32, this quantitative cavity 33 has second uncovered 333 that is positioned at first uncovered 332 of top and is positioned at sidepiece, this first uncovered portion is towards second lid, and this first uncovered portion is used for flowing out for fluid, and this second uncovered portion is used for fluid and flows into.Elastic component 36 cantilever-shaped being installed in this cover, and this elastic component 36 is positioned at below and this mobile of resilient mounting of this mobile.Second lid 4 is articulated on the enclosing cover 37 by rotating shaft.
When closed state, second cover cap is on first lid and press mobile, elastic component is compressed and produces deformation, form first gap of passing through for fluid 34 between mobile and the valve wall, be that the interior fluid of container can pass through this first gap, flow into quantitative cavity 33 through second uncovered 333, and second lid seals this first uncovered 332 and prevent that fluid from flowing out quantitative cavity 33; When second lid 4 upwards turns to open mode, second lid leaves mobile, elastic component 36 recovers deformation and pops up, mobile 32 that jack-up is wholely set and quantitative cavity 33, make the gap smaller between mobile and the valve wall, make the gap vanishing as this valve port 312 of mobile's complete closed.
For valve port, it is crossed by the valve wall, and the valve wall can be divided into a plurality of parts and be located at a plurality of separate elements (as enclosing cover and middle cover), and the valve wall also can only be located at unitary element.Elastic component can be shell fragment, also can replace with spring, or other recovers the structure of deformation when producing deformation and outer upright cancelling when stressed.
To shown in Figure 23, it is the 6th specific embodiment of proportioning device as Figure 21.Proportioning device comprises container 1 and quantitative cap assemblies 2, and container 1 has peristome 11.Quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.First lid 3 comprises fixed body 31, mobile 32, quantitative cavity 33 and elastic component 36.Fixed body 31 covers this peristome 11 and is threaded with this peristome, and this fixed body 31 has the valve port 312 that is crossed by valve wall 313.Mobile 32 has the edge.Quantitatively cavity 33 is one-body molded with mobile 32, and this quantitative cavity 33 has uncovered 331, and this uncovered 331 towards second lid 4.Elastic component 36 entangles this quantitative cavity 33, and this elastic component 36 has the shell fragment 361 of a plurality of cantilever-shaped oblique extensions, and each shell fragment 361 is held the edge 322 of this mobile.Fixed body 31 covers quantitative cavity 33, and valve port 312 aligns with uncovered 331.Second lid 4 is articulated on the fixed body by rotating shaft.
When closed state, second lid 4 presses the edge 322 of mobile, and shell fragment 361 is compressed and produces deformation, forms first gap 34 between the valve wall of the edge of mobile and valve port; When second lid upwards turned to open mode, shell fragment 361 recovered deformation and pops up and reset, upwards jack-up mobile 32 and quantitatively cavity 33, and the gap smaller between the edge of mobile and the valve wall is blocked this valve port fully as this mobile.
To shown in Figure 27, it is the 7th specific embodiment of the quantitative cap assemblies of the present invention as Figure 24.This proportioning device comprises container 1 and quantitative cap assemblies 2.Container 1 has peristome 11.Quantitatively cap assemblies 2 is installed in the peristome 11 of container 1.Quantitatively cap assemblies 2 comprises first lid 3 and second lid 4.First lid 3 comprises fixed body 31, mobile 32 and quantitative cavity 33.Fixed body 31 entangle container 1 peristome 11 and with these peristome 11 screws thread fit.Fixed body 31 has the valve port 312 that is crossed by valve wall 313, and mobile 32 has elasticity, and this mobile 32 is positioned at this valve port 312 and from valve wall 313 cantilever-shaped extending, forms first gap of passing through for fluid 34 between this mobile 32 and the valve wall 313.Quantitatively cavity 33 is one-body molded with mobile 32, and quantitatively uncovered 331 of cavity towards second lid 4.
For present embodiment, first lid and second lid are one-body molded, and promptly mobile, fixed body, quantitative cavity and second lid are one-body molded.
For quantitative cap assemblies, it comprises first lid and second lid, first lid is used for cooperating with container, the mobile that first lid is provided with quantitative cavity and is resetted by elastic force, second lid is movably set in first lid, and second lid has closed state and open mode, at closed state, mobile is pressed on primary importance by second lid, makes quantitative cavity be communicated with described container, and second lid seals the uncovered portion of quantitative cavity; In open mode, second lid leaves described mobile, and mobile is reset to the second place under elastic force, make the disconnection that is communicated with of quantitative cavity and described container, and uncovered portion opens.Uncovered of quantitative cavity can be towards second lid.When closed state, second lid seals uncovered portion and be used to prevent that fluid from flowing out in quantitative cavity, and this sealing can be that direct contact is realized sealing, also can be the form with gap.Uncovered portion opens and is meant that fluid can be outside uncovered portion flows to quantitative cavity.Elastic force can be provided by the elasticity of mobile self, also can be provided by the independent elastic component that is provided with.Mobile can be one-body molded with quantitative cavity, also can be two phases independently element be connected and fixed by attaching parts, make mobile and quantitatively cavity can be synchronized with the movement.Second lid detachably is arranged at first lid, as second lid can be with the first lid frictional fit, articulate cooperation, bayonet fitting etc.This quantitative cap assemblies can be made separately and be used with different container in use, also can be directly and container constitute a proportioning device.
First lid can comprise fixed body, and fixed body has the valve port that is crossed by the valve wall, when closed state, forms first gap that can supply fluid to pass through between mobile and the valve wall; When open mode, form second gap that can not supply fluid to pass through between mobile and the valve wall, this second gap can be zero (being that mobile blocks valve port fully), also can be non-vanishing.The valve wall can be provided by single element, also can be provided by a plurality of elements.
Above content be in conjunction with concrete embodiment to further describing that the present invention did, can not assert that concrete enforcement of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.
Claims (12)
1. quantitative cap assemblies, it is characterized in that: comprise first lid and second lid, described first lid is used for cooperating with container, the mobile that described first lid is provided with quantitative cavity and is resetted by elastic force, described second lid is movably arranged on described first lid top, described second lid has closed state and open mode, at described closed state, described mobile is pressed on primary importance by described second lid, make described quantitative cavity be communicated with described container, and described second lid seal the uncovered portion of described quantitative cavity; In described open mode, described second lid leaves described mobile, and described mobile is reset to the second place under described resilient force, make the disconnection that is communicated with of described quantitative cavity and described container, and the uncovered portion of described quantitative cavity opens.
2. quantitative cap assemblies as claimed in claim 1, it is characterized in that: described first lid also comprises and being used for and the fixing fixed body of described container, at described closed state, described fixed body and described mobile form has first gap that flow into described quantitative cavity for fluid from described container; In described open mode, described fixed body and described mobile form second gap, and described second gap is less than described first gap.
3. quantitative cap assemblies as claimed in claim 2 is characterized in that: described second gap makes in described open mode less than the size of described fluid, described second gap of described fluid impassabitity.
4. quantitative cap assemblies as claimed in claim 3 is characterized in that: described second gap is zero.
5. quantitative cap assemblies as claimed in claim 3 is characterized in that: described fixed body has the valve port that is crossed by the valve wall, and described mobile stretches into described valve port, and described first gap and second gap form by described valve wall and mobile.
6. quantitative cap assemblies as claimed in claim 5 is characterized in that: the elastic component of described mobile for being made by elastomeric material, described elastic component extends from described valve wall one.
7. quantitative cap assemblies as claimed in claim 5 is characterized in that: described elastic force is provided by elastic component, and described mobile passes through described elastic component resilient mounting on described fixed body.
8. quantitative cap assemblies as claimed in claim 2 is characterized in that: described quantitative cavity is arranged at described mobile.
9. quantitative cap assemblies as claimed in claim 8 is characterized in that: described quantitative cavity and described mobile are one-body molded.
10. quantitative cap assemblies as claimed in claim 1 is characterized in that: the chamber wall of described quantitative cavity is provided with valve port, and at described closed state, described valve port leaves in described mobile; In described open mode, described mobile seals described valve port.
11. quantitative cap assemblies as claimed in claim 1 is characterized in that: described first lid and second lid are one-body molded.
12. a proportioning device comprises the container with peristome, it is characterized in that: also comprise any described quantitative cap assemblies among the claim 1-11, described first lid is arranged at the peristome of described container.
Priority Applications (1)
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CN 201010600702 CN102020053A (en) | 2010-12-22 | 2010-12-22 | Quantifying cover component and quantifying device |
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CN 201010600702 CN102020053A (en) | 2010-12-22 | 2010-12-22 | Quantifying cover component and quantifying device |
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CN201410724853.XA Division CN104477494A (en) | 2010-12-22 | 2010-12-22 | Quantitative cap unit and quantitative device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108341280A (en) * | 2018-03-01 | 2018-07-31 | 广东方制药有限公司 | A kind of anti-blocking Chinese medicinal granule metering device |
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JPH11208702A (en) * | 1998-01-28 | 1999-08-03 | Yoshino Kogyosho Co Ltd | Tablet container |
CN201135381Y (en) * | 2008-01-07 | 2008-10-22 | 赵英 | Material container capable of being quantificationally used |
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JPH11193051A (en) * | 1997-12-26 | 1999-07-21 | Yoshino Kogyosho Co Ltd | Tablet container |
JPH11208703A (en) * | 1998-01-28 | 1999-08-03 | Yoshino Kogyosho Co Ltd | Tablet container |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN108341280A (en) * | 2018-03-01 | 2018-07-31 | 广东方制药有限公司 | A kind of anti-blocking Chinese medicinal granule metering device |
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Application publication date: 20110420 |