CN2806365Y - Transverse powder-feeding type quantitative milk powder feed device - Google Patents
Transverse powder-feeding type quantitative milk powder feed device Download PDFInfo
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- CN2806365Y CN2806365Y CN 200520007684 CN200520007684U CN2806365Y CN 2806365 Y CN2806365 Y CN 2806365Y CN 200520007684 CN200520007684 CN 200520007684 CN 200520007684 U CN200520007684 U CN 200520007684U CN 2806365 Y CN2806365 Y CN 2806365Y
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- powder
- baffle plate
- little lattice
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- milk
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Abstract
The utility model relates to a transverse powder-feeding type quantitative milk powder feeding device, which is a quantitative milk powder feeding device. At an outlet of a milk powder store storing container, the transverse powder-feeding type quantitative milk powder feeding device is composed of a powder inlet baffle plate, a powder storing small grid and a powder outlet baffle plate. The powder inlet baffle plate corresponds to and is mutually fixed with the powder outlet baffle plate, and one end of the powder inlet baffle plate is provided with an opening. An opening is arranged at the position that has a certain distance transversally away a baffle plate powder inlet on the powder outlet baffle plate. A powder-feeding lattice is positioned between the powder inlet baffle plate and the powder outlet baffle plate, and can transversally move between the baffle plate powder inlet and a baffle plate powder outlet. When milk power is taken out, the powder-feeding lattice is moved, so that the powder inlet of the powder-feeding lattice is positioned at the baffle plate powder inlet position; the milk power enters the powder storing small grid by the action of gravity, so that the powder-feeding lattice transversally moves towards the direction of the baffle plate powder outlet. In the process of moving, a small grid powder inlet of the powder storing small grid is firstly covered by the powder inlet baffle plate, and then, a small grid powder outlet of the powder storing small grid reaches to the baffle plate powder outlet, so that the small grid powder inlet is closed and the small grid powder outlet is opened; at the time, the milk power in the powder storing small grid can be obtained from the baffle plate powder outlet.
Description
Technical field:
The utility model relates to a kind of weigh feeder of milk powder, and it is the required milk powder of fixed supply quickly and easily, and makes milk powder be easy to preserve, and is difficult for contaminated.
Background technology:
Present known milk powder component all employing amounts that reconstitutes are floated the mode of directly measuring, and take all at every turn and need open the milk powder reservoir vessel, and milk powder is made moist, and float with the hand amount of taking and directly measure milk powder, contact milk powder easily and pollute.
Summary of the invention:
Float and take inconvenience in order to overcome existing milk powder amount, make milk powder pollute the deficiency of making moist easily, the utility model provides a kind of and is fixed on the milk powder reservoir vessel, makes milk powder at an a kind of milk powder weight feed device of conveniently taking and preserving under than the osed top environment.
The technical scheme that the utility model technical solution problem is taked is: form a horizontal powder allocation formula milk powder weight feed device in the outlet of milk powder reservoir vessel by advancing powder baffle plate, the little lattice of storage powder, powder delivery baffle plate.Open Side Down to set the milk powder reservoir vessel, advances the relative powder delivery baffle plate of powder baffle plate and interfix, and advances the outlet that the powder baffle plate hides the milk powder reservoir vessel in the above, and the powder delivery baffle plate is below advancing the powder baffle plate or the side.In a side of advancing the powder baffle plate one opening (to call the baffle plate powder inlet in the following text) is arranged.The inner chamber that is communicated with the milk powder reservoir vessel above the baffle plate powder inlet, below be connected with the cavity that advances between powder baffle plate, powder delivery baffle plane.On the powder delivery baffle plate, an opening (to call the baffle plate meal outlet in the following text) is being arranged from baffle plate powder inlet a distance laterally.The one side of baffle plate meal outlet is connected with the cavity that advances between powder baffle plate, powder delivery baffle plane, and another side communicates with the external world.Advance between powder baffle plate, the powder delivery baffle plate by a powder allocation grid of being made up of the little lattice of one or more storage powder, the little lattice of storage powder are neatly regularly arranged in the powder allocation grid.Cavity in the little lattice of all storage powder has a side opening unified upwards (to call little lattice powder inlet in the following text), is opened on top (to call powder allocation grid powder inlet in the following text) of powder allocation grid, towards advancing powder baffle plate side.Cavity in the little lattice of all storage powder has a side opening (to call little lattice meal outlet in the following text) unified to following or side in addition, is opened on the following or side (to call powder allocation grid meal outlet in the following text) of powder allocation grid, towards the powder delivery baffle plate.All the other several face closures of the little lattice of storage powder.The powder allocation grid is advancing between powder baffle plate, the powder delivery baffle plate, and can be between baffle plate powder inlet and baffle plate meal outlet side travel.In moving process, powder allocation grid powder inlet is close to and is closely advanced the powder baffle surface, and powder allocation grid meal outlet is close to nearly powder delivery baffle surface.
When taking milk powder, mobile powder allocation grid makes powder allocation grid powder inlet be positioned at baffle plate powder inlet place, and makes milk powder weight feed device upright (outlet of milk powder reservoir vessel is downward).At this moment, the little lattice powder inlet of the little lattice of storage powder is open, and little lattice meal outlet is closed, and milk powder is in action of gravity enters the little lattice of storage powder.Advancing between powder baffle plate and the powder delivery baffle plate, making the powder allocation grid to baffle plate meal outlet direction side travel (can fixedly advance powder baffle plate and powder delivery baffle plate storage powder grid is moved, also can fix storage powder grid and make into that powder baffle plate and powder delivery baffle plate move simultaneously).In moving process, the little lattice powder inlet of the little lattice of storage powder is advanced earlier the powder baffle plate and is hidden, and the little lattice meal outlet of the little lattice of this storage powder arrives the baffle plate meal outlet afterwards, and little lattice powder inlet is closed, and little lattice meal outlet is open.Then can obtain the milk powder that stores up in the little lattice of powder from the baffle plate meal outlet this moment.The milk powder amount of gained is by the size of the little lattice of storage powder and the quantity decision of crossing the little lattice of storage powder of baffle plate meal outlet.
The beneficial effects of the utility model: only needing increases by a milk powder weigh feeder simple in structure on the milk powder reservoir vessel, can make milk powder conveniently supplying with and store under the fully enclosed environment relatively, reduces the chance that milk powder makes moist and pollutes.
Description of drawings:
Fig. 1 is first embodiment of the present utility model, and among Fig. 1, the powder allocation grid is positioned under the baffle plate powder inlet;
Fig. 2 is among Fig. 1 embodiment, the state of powder allocation grid when baffle plate meal outlet direction moves;
Fig. 3 is among Fig. 1 embodiment, and the powder allocation grid is positioned at the state on the baffle plate meal outlet;
Fig. 4 is second embodiment of the present utility model, and among Fig. 4, the powder allocation grid is positioned under the baffle plate powder inlet;
Fig. 5 is among Fig. 4 embodiment, and the powder allocation grid is positioned at the state on the baffle plate meal outlet;
Fig. 6 is the 3rd embodiment of the present utility model, and among Fig. 6, the powder allocation grid is positioned under the baffle plate powder inlet;
Fig. 7 is among Fig. 6 embodiment, and the powder allocation grid is positioned at the state on the baffle plate meal outlet;
Fig. 8 is the 4th embodiment of the present utility model, its powder allocation grid is fixed, advance the powder baffle plate, the powder delivery baffle plate then is connected on the central fixed shaft, and can cylindrical center's line be that mid point rotates, among Fig. 8, enter the left side that the powder baffle plate is positioned at the powder allocation grid, little lattice powder inlet is open, the powder delivery baffle plate be positioned at the powder allocation grid below, little lattice meal outlet is closed;
Fig. 9 is among Fig. 8 embodiment, enters the top that the powder baffle plate is positioned at the powder allocation grid, and little lattice powder inlet is closed, and the powder delivery baffle plate is positioned at the right side of powder allocation grid, and little lattice meal outlet is open;
Figure 10 is the 5th embodiment of the present utility model;
Figure 11 is the 6th embodiment of the present utility model;
Figure 12 is the 7th embodiment of the present utility model;
In the drawings 1, advance the powder baffle plate, 2, the powder delivery baffle plate, 3, the powder allocation grid, 4, storage powder little lattice, 5, the powder allocation baffle plate, 6, the baffle plate powder inlet, 7, baffle plate meal outlet, 8, powder allocation grid powder inlet, 9, powder allocation grid meal outlet, 10, little lattice powder inlet, 11, little lattice meal outlet, 12, Ji Fentai, 13, Ji Fentai outlet, 14, rotating wheel disk, 15, central fixed shaft, 16, the milk powder reservoir vessel.
The specific embodiment:
Fig. 1, Fig. 2, Fig. 3 are first embodiment of the present utility model, and in Fig. 1, Fig. 2, Fig. 3, milk powder reservoir vessel (16) is a rectangular box, and Open Side Down.Advance powder baffle plate (1), powder allocation grid (3), powder delivery baffle plate (2) Ji Fentai (12) in milk powder reservoir vessel (16) outlet installation from top to bottom.Enter the be rectangle outlet left side of tabular covering milk powder reservoir vessel (16) of powder baffle plate (1).Outlet in milk powder reservoir vessel (16), the right side of advancing powder baffle plate (1) has an opening to claim baffle plate powder inlet (6).Powder delivery baffle plate (2) be rectangle be placed in powder baffle plate (1) into below, and advance powder baffle plate (1) plane parallel and separated by a distance, and the right side retaining that is positioned at milk powder reservoir vessel (16) outlet is below baffle plate powder inlet (6).The left side of powder delivery baffle plate (2) has an outlet to claim baffle plate meal outlet (7).Like this, the sidewall that advances powder baffle plate (1) plane, powder delivery baffle plate (2) plane and milk powder reservoir vessel (16) surrounds the bar shaped cavity of a cuboid, link to each other above the baffle plate powder inlet (6) with in the milk powder reservoir vessel (16), link to each other with this bar shaped cavity below, link to each other with this bar shaped cavity above the baffle plate meal outlet (7), link to each other with Ji Fentai (12) below.Powder allocation grid (3) is positioned at the into cavity between the powder baffle plate (1) and powder delivery baffle plate (2).Powder allocation grid (3) is a cuboid, and the powder allocation baffle plate (5) of the equidistant arranged rectangular shape that is parallel to each other is divided into several storage little lattice of powder (4).The opening that all little lattice of storage powder (4) make progress is that little lattice powder inlet (10) is formed powder allocation grid powder inlet (8).All downward openings of the little lattice of storage powder (4) are that little lattice meal outlet (11) is formed powder allocation grid meal outlet (9).Powder allocation grid (3) but in elongated cavity side travel, moved and in, powder allocation grid powder inlet (8) is close to into powder baffle plate (1), powder allocation grid meal outlet (9) is close to powder delivery baffle plate (2).In Fig. 1, powder allocation grid (3) be positioned at baffle plate powder inlet (6) below, at this moment, all little lattice powder inlets (10) are open, all little lattice meal outlets (11) are closed.Fig. 2 is among Fig. 1 embodiment, the state of powder allocation grid (3) when baffle plate meal outlet (7) direction (left) is mobile, at this moment, powder allocation grid (3) the left side little lattice of storage powder (4) partly arrive above the baffle plate meal outlet (7), little lattice powder inlet (10) is closed, little lattice meal outlet (11) is open, the little lattice of storage powder (4) of part are positioned between baffle plate meal outlet (7) and the baffle plate powder inlet (6) in the middle of the powder allocation grid (3), little lattice powder inlet (10), little lattice meal outlet (11) is all closed, powder allocation grid (3) right side is partly stored up the little lattice of powder (4) and is positioned at below the baffle plate powder inlet (6), little lattice powder inlet (10) is open, and little lattice meal outlet (11) is closed.Fig. 3 is among Fig. 1 embodiment, and the powder allocation grid is positioned at the state above the baffle plate meal outlet (7), and at this moment, all little lattice powder inlets (10) are closed, and all little lattice meal outlets (11) are open.When taking milk powder, make milk powder weight feed device upright (outlet of milk powder reservoir vessel (16) is downward), mobile powder allocation grid (3), powder allocation grid powder inlet (8) is positioned at below the baffle plate powder inlet (6), milk powder is advancing between powder baffle plate (1) and the powder delivery baffle plate (2) to baffle plate meal outlet (7) direction side travel powder allocation grid (3) in action of gravity enters the storage little lattice of powder (4).In moving process, the little lattice powder inlet (10) of the storage little lattice of powder (4) is advanced earlier powder baffle plate (1) and is hidden, the little lattice meal outlet (11) of the little lattice of this storage powder (4) arrives baffle plate meal outlet (7) afterwards, at this moment, little lattice powder inlet (10) is closed, little lattice meal outlet (11) is open, and the milk powder in the little lattice of storage powder is fallen on the Ji Fentai (12) in action of gravity.
Fig. 4, Fig. 5 are second embodiment of the present utility model, and in Fig. 4, Fig. 5, milk powder reservoir vessel (16) is the cylinder tank shape, and Open Side Down.At opening part, advance powder baffle plate (1), powder allocation grid (3), powder delivery baffle plate (2), Ji Fentai (12) settle from top to bottom be combined into cylindric.Advancing powder baffle plate (1), powder delivery baffle plate (2), Ji Fentai (12) is to be the quadrant spline structure at center with the cylinder center line, and be parallel to each other and be fixed in from top to bottom on the central fixed shaft (15), the sidewall that advances powder baffle plate (1) plane, powder delivery baffle plate (2) plane and milk powder reservoir vessel (16) surrounds the cavity of a fan-shaped cylinder shape.Advancing powder baffle plate (1) is that the center is fan-shaped covering at milk powder reservoir vessel (16) outlet front end with the cylinder center line, it is baffle plate powder inlet (6) that there is a sector notch on its right side, link to each other with milk powder reservoir vessel (16) inner chamber above it, link to each other with the cavity that advances powder baffle plate (1) plane, the interplanar fan-shaped cylinder shape of powder delivery baffle plate (2) below it.Powder delivery baffle plate (2) is that the center is the fan-shaped into following right side of powder baffle plate (1) that is positioned at the cylinder center line, at the front end of powder delivery baffle plate (2) sector notch being arranged is baffle plate meal outlet (7), link to each other with the cavity that advances powder baffle plate (1) plane, the interplanar fan-shaped cylinder shape of powder delivery baffle plate (2) above it, link to each other with cavity on the Ji Fentai (12) below.Powder allocation grid (3) is positioned between the plane of into powder baffle plate (1) and powder delivery baffle plate (2).Powder allocation grid (3) is to be the fan-shaped cylinder at center with the cylinder center line, is connected in that central fixed shaft (15) goes up and can is that rotate at the center with the cylinder center line, and the height of powder allocation grid (3) is about the into distance on powder baffle plate (1) plane to powder delivery baffle plate (2) plane.It is radial evenly distributed that the powder allocation baffle plate (5) of some oblongs is with the cylinder center line that the center is, powder allocation grid (3) is divided equally into the little lattice of storage powder (4) of several little fan-shaped cylinder shapes, the storage little lattice of powder (4) up/down perforation, upside is a little lattice powder inlet (10), downside is a little lattice meal outlet (11).Among Fig. 4 powder allocation grid (3) be positioned at powder baffle plate (1) right side into baffle plate powder inlet (6) below, at this moment, the little lattice powder inlet (10) of all storage little lattice of powder (4) is open, little lattice meal outlet (11) is closed.Fig. 5 is among Fig. 4 embodiment, the powder allocation grid around central fixed shaft left (cw) turn to the state of the leftmost side, at this moment, powder allocation grid (3) is positioned at above the baffle plate meal outlet (7), the little lattice powder inlet (10) of all storage little lattice of powder (4) is closed, and little lattice meal outlet (11) is open.
Fig. 6, Fig. 7 are the 3rd embodiment of the present utility model, it is roughly the same greatly with second embodiment, the little lattice of storage powder (4) that different is in the powder allocation grid (3) are face closure down, little lattice meal outlet (11) is open at the lateral wall of powder allocation grid (3), powder delivery baffle plate (2) blocks lateral surface at little lattice meal outlet (11) with the circular arc platy structure, baffle plate meal outlet (7) is positioned at the left side of powder delivery baffle plate (2), and Ji Fentai (12) is positioned at the outside of baffle plate meal outlet (7).Among Fig. 6, powder allocation grid (3) be positioned at baffle plate powder inlet (6) below.At this moment, the little lattice powder inlet (10) of all storage little lattice of powder (4) is open, and little lattice meal outlet (11) is closed.Fig. 7 is among Fig. 6 embodiment, powder allocation grid (3) around central fixed shaft left (cw) turn to the state of the leftmost side.At this moment, the little lattice powder inlet (10) of all storage little lattice of powder (4) is closed, and little lattice meal outlet (11) is open.
Fig. 8, Fig. 9 are the 4th embodiment of the present utility model, it is close with second embodiment, the powder allocation grid (3) that different is among this embodiment is fixed in central fixed shaft (15) and goes up motionless, advance powder baffle plate (1), powder delivery baffle plate (2) then is connected on the central fixed shaft (15), and can rotate around cylindrical center.Among Fig. 8, powder allocation grid (3) is fixing, advances powder baffle plate (1) and powder delivery baffle plate (2) interconnects, and (cw) forwards the leftmost side to left.At this moment, enter the left side that powder baffle plate (1) is positioned at powder allocation grid (3), all little lattice powder inlets (10) are open, powder delivery baffle plate (2) be positioned at powder allocation grid (3) below, block little lattice meal outlet (11), all little lattice meal outlets (11) are closed.Fig. 9 is among Fig. 8 embodiment, advance powder baffle plate (1) and powder delivery baffle plate (2) around central fixed shaft (15) to the right (conter clockwise) turn to the state of the rightmost side, at this moment, enter the top that powder baffle plate (1) is positioned at powder allocation grid (3), block little lattice powder inlet (10), all little lattice powder inlets (10) are closed, and powder delivery baffle plate (2) is positioned at the right side of powder allocation grid (3), and all little lattice meal outlets (11) are open.
Figure 10 is the 5th embodiment of the present utility model, and in Figure 10, milk powder reservoir vessel (16) is inverted, and present embodiment is a cylinder, is positioned at milk powder reservoir vessel (16) exit.The axis of present embodiment overlaps with milk powder jar axis.Advance powder baffle plate (1) and be the outlet of discoideus covering in milk powder reservoir vessel (16), it is baffle plate powder inlet (6) that there is an opening on its right side.Powder delivery baffle plate (2) is discoideus covering below advancing powder baffle plate (1), and with advance the parallel placement separated by a distance of powder baffle plate (1), it is baffle plate meal outlet (7) that there is an opening its front side.The sidewall that advances powder baffle plate (1) plane, powder delivery baffle plane and milk powder reservoir vessel (16) cylindrical shape volume face surrounds the box-like space of a circle.It is rotating wheel disk (14) that its central interior has a cylinder, and it is that the center is connected on the central fixed shaft (15) with the axis, and can rotate around the axis.The cylinder in the middle of rotating wheel disk (14) periphery wall is divided into the box-like space of circle and the space of the ring bodies around it.It is radial evenly distributed that the powder allocation baffle plate (5) of tens of oblongs with the axis is that the center is, be fixed on the rotating wheel disk (14), and can rotate with rotating wheel disk (14), powder allocation baffle plate (5) is divided equally into the little fan-shaped cylinder of dozens of to the space of ring bodies and promptly stores up the little lattice of powder (4).When taking milk powder, clickwise rotating wheel disk (14), making it drive powder allocation baffle plate (5) rotates, milk powder enters in the storage little lattice of powder (4) from baffle plate powder inlet (1) because of action of gravity, along with moving of powder allocation retaining (5), the little lattice powder inlet (10) of the storage little lattice of powder (4) is advanced earlier powder baffle plate (1) and is hidden, the little lattice meal outlet (11) of the little lattice of this storage powder (4) is crossed powder delivery baffle plate (2) afterwards, arrive baffle plate meal outlet (7), little lattice meal outlet (11) is open, and the milk powder in the storage little lattice of powder (4) falls into Ji Fentai (12) because of the effect of gravity.
Figure 11 is the 6th embodiment of the present utility model, it is roughly similar with the 5th embodiment, what it was different is, the rounded platy structure of powder allocation baffle plate (5) is fixed on the rotating wheel disk (14), advances powder baffle plate (1), powder delivery baffle plate (2) and is the curved surface coiled one annular arrangement pipe that links to each other.In Figure 11, annular arrangement pipe horizontal positioned, it is baffle plate powder inlet (6) that there is the opening of connection milk powder reservoir vessel (a 16) inner chamber that makes progress and annular arrangement pipe tube chamber its upper right side.It is baffle plate meal outlet (7) that there is an opening that is communicated with annular arrangement pipe tube chamber and Ji Fentai (12) epicoele the front lower place of annular arrangement pipe, with the axis to be that the center is radial evenly distributed for the powder allocation baffle plate (5) of a circle surplus in the of 20, be fixed on the rotating wheel disk (14), and can rotate with rotating wheel disk (14).A storage little lattice of powder (4) surplus powder allocation baffle plate (5) is divided equally into 20 to the tube chamber of annular arrangement pipe.
Figure 12 is the 7th embodiment of the present utility model, it is roughly similar with the 5th embodiment, the little lattice of storage powder (4) of different is this embodiment are cylindrical cavity, it above it little lattice powder inlet (10), be little lattice meal outlet (11) below, to be positioned at rotating wheel disk (14) equidistantly evenly distributed near the periphery wall place for the storage little lattice of powder (4) surplus in the of ten.
The utility model is pressed riding position, the shape difference of its baffle plate and is stored up the difference of the form of the little lattice of powder, quantity etc., and more embodiment can be arranged, and does not enumerate one by one here.
Claims (4)
1, a kind of milk powder weigh feeder, exit at the milk powder reservoir vessel, advance the powder baffle plate, the little lattice of storage powder, the powder delivery baffle plate is settled in proper order, it is characterized in that: Open Side Down to set the milk powder reservoir vessel, advancing the relative powder delivery baffle plate of powder baffle plate interfixes, advance the outlet of powder baffle plate covering at the milk powder reservoir vessel, the powder delivery baffle plate is below advancing the powder baffle plate or the side, there is an opening to claim the baffle plate powder inlet in a side of advancing the powder baffle plate, on the powder delivery baffle plate, laterally there is being an opening to claim the baffle plate meal outlet from baffle plate powder inlet a distance, advance the powder baffle plate, by a powder allocation grid of being made up of the little lattice of one or more storage powder, the powder allocation grid can move around between baffle plate powder inlet and baffle plate meal outlet between the powder delivery baffle plate.
2, milk powder weight feed device according to claim 1 is characterized in that: Open Side Down to set the milk powder reservoir vessel, is communicated with the outlet of milk powder reservoir vessel above the baffle plate powder inlet, below be connected with the cavity that advances between powder baffle plate, powder delivery baffle plane; Baffle plate meal outlet one side is connected with the cavity that advances between powder baffle plate, powder delivery baffle plane, another side be interlinked to the outside.
3, milk powder weight feed device according to claim 1, it is characterized in that: the powder allocation grid is made up of the little lattice of one or several storage powder, the little lattice of storage powder are neatly regularly arranged in the powder allocation grid, cavity in the little lattice of all storage powder has a side opening upwards unified, be opened on the powder allocation grid above, towards advancing powder baffle plate side, the cavity in the little lattice of storage powder has a side opening downwards unified or to the side in addition, be opened on the another side of powder allocation grid, towards the powder delivery baffle plate.
4, milk powder weight feed device according to claim 1, it is characterized in that: the powder allocation grid can advance side travel between powder baffle plate and the powder delivery baffle plate, from the baffle plate powder inlet to the process that baffle plate meal outlet direction moves, the little lattice powder inlet of the little lattice of storage powder in the powder allocation grid is advanced earlier the powder baffle plate and is hidden, the little lattice powder delivery eloquence of the little lattice of this storage powder arrives the baffle plate meal outlet afterwards, when mobile, powder allocation grid powder inlet is close to and is closely advanced the powder baffle surface, and powder allocation grid meal outlet is close to nearly powder delivery baffle surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520007684 CN2806365Y (en) | 2005-03-12 | 2005-03-12 | Transverse powder-feeding type quantitative milk powder feed device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200520007684 CN2806365Y (en) | 2005-03-12 | 2005-03-12 | Transverse powder-feeding type quantitative milk powder feed device |
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CN2806365Y true CN2806365Y (en) | 2006-08-16 |
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Application Number | Title | Priority Date | Filing Date |
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CN 200520007684 Expired - Fee Related CN2806365Y (en) | 2005-03-12 | 2005-03-12 | Transverse powder-feeding type quantitative milk powder feed device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105292790A (en) * | 2015-11-17 | 2016-02-03 | 林振明 | Quantitative storing and taking device for powdery and granular objects |
CN105996847A (en) * | 2016-07-28 | 2016-10-12 | 代桂艳 | Pull tube type continuous salt control tank |
-
2005
- 2005-03-12 CN CN 200520007684 patent/CN2806365Y/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105292790A (en) * | 2015-11-17 | 2016-02-03 | 林振明 | Quantitative storing and taking device for powdery and granular objects |
CN105996847A (en) * | 2016-07-28 | 2016-10-12 | 代桂艳 | Pull tube type continuous salt control tank |
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