CN205672854U - A kind of chemical experiment material mixing device - Google Patents
A kind of chemical experiment material mixing device Download PDFInfo
- Publication number
- CN205672854U CN205672854U CN201620503879.6U CN201620503879U CN205672854U CN 205672854 U CN205672854 U CN 205672854U CN 201620503879 U CN201620503879 U CN 201620503879U CN 205672854 U CN205672854 U CN 205672854U
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- China
- Prior art keywords
- motor
- rotary shaft
- feeding box
- discharging opening
- material feeding
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Abstract
The utility model discloses a kind of chemical experiment material mixing device, including the first material feeding box and the second material feeding box, first material feeding box and the second material feeding box promote different experiment materials to enter in blending bin by different motor control the first slide blocks and the second slide block with certain speed ratio, it is provided with disintegrating area and stirring area in blending bin, after pulverizing and stirring, experiment material enters receiving flask, required for experiment.The utility model is by controlling the rotating speed of the first motor and the second motor, first slide block and the second slide block are mixed than by different experiment materials according to certain driving velocity, realize the accurate proportioning of experiment material, mixed-precision is high, reduce the time of experimenter's experiments of measuring material, improve conventional efficient.
Description
Technical field
The utility model belongs to high school chemical experiment field, is specifically related to a kind of chemical experiment material mixing device.
Background technology
Chemistry is the subject based on experiment, and the formation of chemistry all be unable to do without experiment with development, through the study in junior middle school,
Student has had the understanding on basis to this subject of chemistry, but for the chemistry learning of senior middle school, partial students is also at one's wits' end.Student
When study, not only need to be grasped the content on textbook, in addition it is also necessary to utilize chemical experiment to form chemical concept, understand and consolidationization
Gain knowledge.During chemical experiment, it is often necessary to kinds of experiments material is mixed, existing chemical experiment material
Mixing arrangement structure is complicated and relatively costly, and general school uses artificial stirring, but so stirs chemical experiment material
Mix not fully or stir uneven, causing mixed effect not good, and being difficult to realize to different during mixing
Experiment material carries out accurate proportioning.
Utility model content
For the deficiency overcoming above-mentioned prior art to exist, the utility model proposes a kind of chemical experiment material mixing dress
Put, can be by controlling the rotating speed of the first motor and the second motor so that the driving velocity of the first slide block and the second slide block is different,
And then different experiment materials can be entered in blending bin according to certain ratio, and by pulverizing and stirring in blending bin
Mix, after being sufficiently mixed, complete the preparation of chemical experiment.
For achieving the above object, the technical solution adopted in the utility model is as follows:
A kind of chemical experiment material mixing device, including experiment base and blending bin, described experiment base is provided with first
Support bar and the second support bar, described first support bar fixedly mounts the first motor, and described second support bar fixedly mounts
Second motor, described first motor connects the first power transmission shaft, and described second motor connects second driving shaft, described first power transmission shaft
Being threaded connection the first slide block, described second driving shaft is threaded connection the second slide block, and described first slide block is arranged on
One material feeding box, described second slide block is arranged on the second material feeding box, and described first material feeding box is provided with the first charging aperture, and described second enters
Hopper is provided with the second charging aperture, and the outer surface of the first power transmission shaft and second driving shaft is provided with flexible package shell, described first charging
Case and the equal horizontal positioned of the second material feeding box, the lower end of the first material feeding box is provided with the first discharging opening, and the lower end of the second material feeding box is provided with
Second discharging opening, the lower end of described first discharging opening and the second discharging opening is provided with blending bin, the first discharging opening and the second discharging opening
It is merged into the 3rd charging aperture at the top of blending bin, in described blending bin, be provided with the first rotary shaft and the second rotary shaft, described
One rotary shaft and the second rotary shaft are provided with cutting piece, and the cutting piece of described first rotary shaft and the cutting piece of the second rotary shaft are handed over
Wrong arrangement, the lower end of the second rotary shaft is provided with the first deflector, and described first deflector tilts to install, the lower end of the first deflector
Being provided with the 3rd rotary shaft, described 3rd rotary shaft is provided with the first paddle, and the lower end of the 3rd rotary shaft is provided with the second deflector,
Described second deflector tilts to install, and the bottom of described blending bin is provided with the 3rd discharging opening, and blending bin is under the 3rd discharging opening
End connects receiving flask, and described receiving flask is provided with switch valve in the 3rd discharge outlet, and the bottom surface of receiving flask is provided with liquid outlet.
As optimization, the side of receiving flask is provided with inlet, and described inlet connects feed tube, and described feed tube connects storage
Liquid case, described feed tube is provided with water pump, and described liquid reserve tank is provided with scale.
As optimization, described first rotary shaft connects the 3rd motor, and the second rotary shaft connects the 4th motor.
As optimization, described 3rd rotary shaft connects the 5th motor.
As optimization, described 3rd motor, the 4th motor and the 5th motor are arranged on the outer wall of blending bin.
As optimization, the lower end of described receiving flask connects shaft, and described shaft is provided with the second paddle, shaft
Connecting the 6th motor, described 6th motor is connected with experiment base by the 3rd support bar.
The beneficial effects of the utility model:
1st, the utility model is by controlling the rotating speed of the first motor and the second motor so that the first slide block and the second slide block are pressed
Mix than by different experiment materials according to certain driving velocity, it is achieved the accurate proportioning of experiment material, mixed-precision
Height, reduces the time of experimenter's experiments of measuring material, improves conventional efficient.
2nd, remain in the thread gaps of the first power transmission shaft and second driving shaft in order to avoid testing material, in the first transmission
The outer surface of axle and second driving shaft is provided with flexible package shell, when the first slide block and the second slide block slide to discharging opening, and Soft Roll
Casing is compressed, and when the first slide block and the second slide block slide to charging aperture, flexible package shell stretches, and can be effectively prevented from
Experiment material remains in thread gaps, improves the service life of the first power transmission shaft and second driving shaft, cost-effective.
3rd, it is provided with cutting piece in blending bin of the present utility model, cuts piece interlaced arrangement, improve the essence of experiment crushing material
Degree, improves conventional efficient, reduces the workload of experimenter.
4th, it is provided with stirring vane in blending bin of the present utility model, the experiment material crushing can be stirred, keep away
Exempt to use artificial stirring, improve conventional efficient.
5th, it also is provided with stirring vane in collecting pipe of the present utility model, increase stirring number of times, improve mixed-precision.
6th, the side of collecting pipe of the present utility model is provided with feed tube, when needs are by the granule materials mixing and liquid material
When mixing, the switch of water pump can be opened, liquid material be imported in receiving flask, simultaneously stirring by stirring vane
Mix, make granule materials and liquid material sufficiently mix, the mixing of solid and liquid can be realized, be provided with in liquid reserve tank simultaneously
Scale, can liquid volume mix, it is achieved accurately mix as required.
Brief description
In order to be illustrated more clearly that the utility model embodiment or technical scheme of the prior art, below will be to embodiment
Or the accompanying drawing of required use is briefly described in description of the prior art, it should be apparent that, the accompanying drawing in describing below is only
It is some embodiments of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work
Under, other accompanying drawing can also be obtained according to these accompanying drawings;
Accompanying drawing 1 is the general illustration of the utility model structure.
In figure: the 1st, test base;2nd, the first support bar;3rd, the second support bar;4th, the first motor;5th, the second motor;6th,
One power transmission shaft;7th, second driving shaft;8th, the first slide block;9th, the second slide block;10th, the first material feeding box;11st, the second material feeding box;12nd,
One charging aperture;13rd, the second charging aperture;14th, flexible package shell;15th, the first discharging opening;16th, the second discharging opening;17th, blending bin;
18th, the 3rd charging aperture;19th, the first rotary shaft;20th, the second rotary shaft;21st, piece is cut;22nd, the first deflector;23rd, the 3rd rotates
Axle;24th, the first paddle;25th, the second deflector;26th, the 3rd discharging opening;27th, receiving flask;28th, switch valve;29th, shaft;
30th, the second paddle;31st, inlet;32nd, feed tube;33rd, liquid reserve tank;34th, water pump;35th, liquid outlet;41st, the 6th motor;42、
3rd support bar;43rd, the 3rd motor;44th, the 4th motor;45th, the 5th motor.
Detailed description of the invention
In conjunction with the drawings and specific embodiments, the utility model is described in further detail.Should be understood that these embodiments are only used for
The utility model is described rather than limits scope of the present utility model.In addition, it is to be understood that reading the utility model instruction
Content after, the utility model can be made various changes or modifications by those skilled in the art, and these equivalent form of values fall equally
In the application appended claims limited range.
A kind of chemical experiment material mixing device, including experiment base 1 and blending bin 17, described experiment base 1 is provided with
First support bar 2 and the second support bar 3, described first support bar 2 fixedly mounts the first motor 4, on described second support bar 3
Fixedly mounting the second motor 5, described first motor 4 connects the first power transmission shaft 6, and described second motor 5 connects second driving shaft 7,
Described first power transmission shaft 6 is threaded connection the first slide block 8, and described second driving shaft 7 is threaded connection the second slide block 9, institute
Stating the first slide block 8 and being arranged on the first material feeding box 10, described second slide block 9 is arranged on the second material feeding box 11, described first material feeding box
10 are provided with the first charging aperture 12, and described second material feeding box 11 is provided with the second charging aperture 13, the first power transmission shaft 6 and second driving shaft 7
Outer surface be provided with flexible package shell 14, described first material feeding box 10 and the equal horizontal positioned of the second material feeding box 11, the first material feeding box
The lower end of 10 is provided with the first discharging opening 15, and the lower end of the second material feeding box 11 is provided with the second discharging opening 16, described first discharging opening 15
It is provided with blending bin 17 with the lower end of the second discharging opening 16.
As shown in Figure 1, during chemical experiment prepares, it is often necessary to different experiment materials is mixed, this
Utility model is provided with the first charging aperture 12 and the second charging aperture 13, and different experiment materials is passed through the first charging aperture by experimenter
12 and second charging aperture 13 be respectively put in the first material feeding box 10 and the second material feeding box 11, mixed according to required experiment material
Composition and division in a proportion example, regulates the rotating speed of the first motor 4 and the second motor 5 so that the rotating ratio and first of the first motor 4 and the second motor 5
The mixed proportion of the experiment material in the experiment material in material feeding box 10 and the second material feeding box 11 is identical, and the first motor 4 drives the
One power transmission shaft 6 rotates, and the second motor 5 drives second driving shaft 7 to rotate so that the first slide block 8 and the second slide block 9 are according to certain
Speed moves to the first discharging opening 15 and the second discharging opening 16 respectively than promotion experiment material, it is achieved accurately joining of experiment material
Ratio, remains in the thread gaps of the first power transmission shaft 6 and second driving shaft 7, in the first transmission in order to avoid testing material simultaneously
The outer surface of axle 6 and second driving shaft 7 is provided with flexible package shell 14, when the first slide block 8 and the second slide block 9 slide to discharging opening
When, flexible package shell 14 is compressed, and when the first slide block 8 and the second slide block 9 slide to charging aperture, flexible package shell 14 is stretched
Exhibition, can be effectively prevented from experiment material and remain in thread gaps, improve the use longevity of the first power transmission shaft 6 and second driving shaft 7
Life, cost-effective.
As shown in Figure 1, described first discharging opening 15 and the second discharging opening 16 are merged into the 3rd at the top of blending bin 17
Charging aperture 18, mixed experiment material enters in blending bin 17 by the 3rd charging aperture 18, is provided with in described blending bin 17
First rotary shaft 19 and the second rotary shaft 20, described first rotary shaft 19 and the second rotary shaft 20 are provided with cutting piece 21, described
First rotary shaft 19 connects the 3rd motor 43, and the second rotary shaft 20 connects the 4th motor 44, the 3rd motor 43 and the 4th motor 44
The first rotary shaft 19 and the second rotary shaft 20 is driven to rotate respectively, the cutting piece 21 in the first rotary shaft 19 and the second rotary shaft 20
Also rotate with, experiment material is carried out cutting and grinding, the cutting piece 21 of the first rotary shaft 19 and the cutting of the second rotary shaft 20
Piece 21 is staggered, and improves the precision of experiment crushing material, improves conventional efficient, reduces the workload of experimenter.
As shown in Figure 1, the lower end of described second rotary shaft 20 is provided with the first deflector 22, and described first deflector 22 inclines
Tiltedly installing, the lower end of the first deflector 22 is provided with the 3rd rotary shaft 23, and described 3rd rotary shaft 23 is provided with the first paddle 24,
Described 3rd rotary shaft 23 connects the 5th motor 45, and described 3rd motor the 43rd, the 4th motor 44 and the 5th motor 45 are arranged on mixed
On the outer wall of mould assembling 17, the experiment material after cutting and grinding is imported to stirring area by the first deflector 22, by the 5th motor 45
Drive the 3rd rotary shaft 23 to rotate, and then drive the first paddle 24 to rotate so that the mixed material after pulverizing is uniform fully
Ground mixing, it is to avoid use artificial stirring, improve conventional efficient.
As shown in Figure 1, the lower end of described 3rd rotary shaft 23 is provided with the second deflector 25, and described second deflector 25 inclines
Tiltedly installing, the bottom of described blending bin 17 is provided with the 3rd discharging opening 26, and blending bin 17 connects in the lower end of the 3rd discharging opening 26 receives
Collection bottle 27, described receiving flask 27 is provided with switch valve 28 at the 3rd discharging opening 26s, and opening switch valve 28 can make to stir
Mixed material flows to receiving flask 27, and the bottom surface of receiving flask 27 is provided with liquid outlet 35.
As optimization, the side of receiving flask 27 is provided with inlet 31, and described inlet 31 connects feed tube 32, described feed liquor
Pipe 32 connects liquid reserve tank 33, and described feed tube 32 is provided with water pump 34, and described liquid reserve tank 33 is provided with scale.When needs will mix
Granule materials and liquid material when mixing, the switch of water pump 34 can be opened, liquid material is led in liquid reserve tank 33
Enter in receiving flask 27, in liquid reserve tank 33, be provided with scale, can liquid volume mix as required, it is achieved accurately mix.
As optimization, the lower end of receiving flask 27 connects shaft 29, and described shaft 29 is provided with the second paddle 30, institute
Stating shaft 29 and connecting the 6th motor 41, described 6th motor 41 is connected with experiment base 1 by the 3rd support bar 42.Collecting
The second paddle 30 is set up so that mixed material and liquid material stirring are more full and uniform in bottle 27.
Experiment material after stirring uses in order to next step experimental implementation.
Embodiment 1:
A kind of chemical experiment material mixing device, including experiment base 1 and blending bin 17, described experiment base 1 is provided with
First support bar 2 and the second support bar 3, described first support bar 2 fixedly mounts the first motor 4, on described second support bar 3
Fixedly mounting the second motor 5, described first motor 4 connects the first power transmission shaft 6, and described second motor 5 connects second driving shaft 7,
Described first power transmission shaft 6 is threaded connection the first slide block 8, and described second driving shaft 7 is threaded connection the second slide block 9, institute
Stating the first slide block 8 and being arranged on the first material feeding box 10, described second slide block 9 is arranged on the second material feeding box 11, described first material feeding box
10 are provided with the first charging aperture 12, and described second material feeding box 11 is provided with the second charging aperture 13, the first power transmission shaft 6 and second driving shaft 7
Outer surface be provided with flexible package shell 14, described first material feeding box 10 and the equal horizontal positioned of the second material feeding box 11, the first material feeding box
The lower end of 10 is provided with the first discharging opening 15, and the lower end of the second material feeding box 11 is provided with the second discharging opening 16, described first discharging opening 15
It is provided with blending bin 17 with the lower end of the second discharging opening 16.
First discharging opening 15 and the second discharging opening 16 are merged into the 3rd charging aperture 18, described mixing at the top of blending bin 17
Being provided with the first rotary shaft 19 and the second rotary shaft 20 in case 17, described first rotary shaft 19 and the second rotary shaft 20 are provided with cutting
Piece 21, described first rotary shaft 19 connects the 3rd motor 43, and the second rotary shaft 20 connects the 4th motor 44, described first rotary shaft
The cutting piece 21 of 19 is staggered with the cutting piece 21 of the second rotary shaft 20, and the lower end of the second rotary shaft 20 is provided with the first deflector
22, described first deflector 22 tilts to install, and the lower end of the first deflector 22 is provided with the 3rd rotary shaft 23, described 3rd rotary shaft
23 are provided with the first paddle 24, and described 3rd rotary shaft 23 connects the 5th motor 45, described 3rd motor the 43rd, the 4th motor 44
Being arranged on the outer wall of blending bin 17 with the 5th motor 45, the lower end of the 3rd rotary shaft 23 is provided with the second deflector 25, and described
Two deflectors 25 tilt to install, and the bottom of described blending bin 17 is provided with the 3rd discharging opening 26, and blending bin 17 is at the 3rd discharging opening 26
Lower end connect receiving flask 27, described receiving flask 27 is provided with switch valve 28 at the 3rd discharging opening 26s, on the bottom surface of receiving flask 27
It is provided with liquid outlet 35.
Embodiment 2:
A kind of chemical experiment material mixing device, including experiment base 1 and blending bin 17, described experiment base 1 is provided with
First support bar 2 and the second support bar 3, described first support bar 2 fixedly mounts the first motor 4, on described second support bar 3
Fixedly mounting the second motor 5, described first motor 4 connects the first power transmission shaft 6, and described second motor 5 connects second driving shaft 7,
Described first power transmission shaft 6 is threaded connection the first slide block 8, and described second driving shaft 7 is threaded connection the second slide block 9, institute
Stating the first slide block 8 and being arranged on the first material feeding box 10, described second slide block 9 is arranged on the second material feeding box 11, described first material feeding box
10 are provided with the first charging aperture 12, and described second material feeding box 11 is provided with the second charging aperture 13, the first power transmission shaft 6 and second driving shaft 7
Outer surface be provided with flexible package shell 14, described first material feeding box 10 and the equal horizontal positioned of the second material feeding box 11, the first material feeding box
The lower end of 10 is provided with the first discharging opening 15, and the lower end of the second material feeding box 11 is provided with the second discharging opening 16, described first discharging opening 15
It is provided with blending bin 17 with the lower end of the second discharging opening 16.
First discharging opening 15 and the second discharging opening 16 are merged into the 3rd charging aperture 18, described mixing at the top of blending bin 17
Being provided with the first rotary shaft 19 and the second rotary shaft 20 in case 17, described first rotary shaft 19 and the second rotary shaft 20 are provided with cutting
Piece 21, described first rotary shaft 19 connects the 3rd motor 43, and the second rotary shaft 20 connects the 4th motor 44, described first rotary shaft
The cutting piece 21 of 19 is staggered with the cutting piece 21 of the second rotary shaft 20, and the lower end of the second rotary shaft 20 is provided with the first deflector
22, described first deflector 22 tilts to install, and the lower end of the first deflector 22 is provided with the 3rd rotary shaft 23, described 3rd rotary shaft
23 are provided with the first paddle 24, and described 3rd rotary shaft 23 connects the 5th motor 45, described 3rd motor the 43rd, the 4th motor 44
Being arranged on the outer wall of blending bin 17 with the 5th motor 45, the lower end of the 3rd rotary shaft 23 is provided with the second deflector 25, and described
Two deflectors 25 tilt to install, and the bottom of described blending bin 17 is provided with the 3rd discharging opening 26, and blending bin 17 is at the 3rd discharging opening 26
Lower end connect receiving flask 27, described receiving flask 27 is provided with switch valve 28 at the 3rd discharging opening 26s, and the lower end of receiving flask 27 is even
Connecing shaft 29, described shaft 29 is provided with the second paddle 30, and described shaft 29 connects the 6th motor 41, and the described 6th
Motor 41 is connected with experiment base 1 by the 3rd support bar 42.
The side of receiving flask 27 is provided with inlet 31, and described inlet 31 connects feed tube 32, and described feed tube 32 connects
Liquid reserve tank 33, described feed tube 32 is provided with water pump 34, and described liquid reserve tank 33 is provided with scale, and the bottom surface of receiving flask 27 is provided with
Liquid outlet 35.
Claims (6)
1. a chemical experiment material mixing device, including experiment base (1) and blending bin (17), it is characterised in that: described reality
Test base (1) and be provided with the first support bar (2) and the second support bar (3), described first support bar (2) upper fixed installation the first electricity
Machine (4), described second support bar (3) upper fixed installation the second motor (5), described first motor (4) connects the first power transmission shaft
(6), described second motor (5) connects second driving shaft (7), and described first power transmission shaft (6) is threaded connection the first slide block
(8), described second driving shaft (7) is threaded connection the second slide block (9), and described first slide block (8) is arranged on the first material feeding box
(10), described second slide block (9) is arranged on the second material feeding box (11), and described first material feeding box (10) is provided with the first charging aperture
(12), described second material feeding box (11) is provided with the second charging aperture (13), the appearance of the first power transmission shaft (6) and second driving shaft (7)
Face is provided with flexible package shell (14), described first material feeding box (10) and the equal horizontal positioned of the second material feeding box (11), the first material feeding box
(10) lower end is provided with the first discharging opening (15), and the lower end of the second material feeding box (11) is provided with the second discharging opening (16), and described first
The lower end of discharging opening (15) and the second discharging opening (16) is provided with blending bin (17), the first discharging opening (15) and the second discharging opening (16)
It is merged into the 3rd charging aperture (18) at the top of blending bin (17), in described blending bin (17), be provided with the first rotary shaft (19) and
Two rotary shafts (20), described first rotary shaft (19) and the second rotary shaft (20) are provided with cutting piece (21), described first rotation
The cutting piece (21) of axle (19) is staggered with the cutting piece (21) of the second rotary shaft (20), and the lower end of the second rotary shaft (20) sets
Having the first deflector (22), described first deflector (22) tilts to install, and the lower end of the first deflector (22) is provided with the 3rd rotation
Axle (23), described 3rd rotary shaft (23) is provided with the first paddle (24), and the lower end of the 3rd rotary shaft (23) is provided with second and leads
Stream plate (25), described second deflector (25) tilts to install, and the bottom of described blending bin (17) is provided with the 3rd discharging opening (26), mixed
Mould assembling (17) connects receiving flask (27) in the lower end of the 3rd discharging opening (26), and described receiving flask (27) is at the 3rd discharging opening (26) place
Being provided with switch valve (28), the bottom surface of receiving flask (27) is provided with liquid outlet (35).
2. a kind of chemical experiment material mixing device according to claim 1, it is characterised in that: the side of receiving flask (27)
Being provided with inlet (31), described inlet (31) connects feed tube (32), and described feed tube (32) connects liquid reserve tank (33), described
Feed tube (32) is provided with water pump (34), and described liquid reserve tank (33) is provided with scale.
3. a kind of chemical experiment material mixing device according to claim 1, it is characterised in that: described first rotary shaft
(19) connecting the 3rd motor (43), the second rotary shaft (20) connects the 4th motor (44).
4. a kind of chemical experiment material mixing device according to claim 3, it is characterised in that: described 3rd rotary shaft
(23) the 5th motor (45) is connected.
5. a kind of chemical experiment material mixing device according to claim 4, it is characterised in that: described 3rd motor
(43), the 4th motor (44) and the 5th motor (45) are arranged on the outer wall of blending bin (17).
6. a kind of chemical experiment material mixing device according to claim 1, it is characterised in that: described receiving flask (27)
Lower end connects shaft (29), and described shaft (29) is provided with the second paddle (30), and shaft (29) connects the 6th motor
(41), described 6th motor (41) is connected with experiment base (1) by the 3rd support bar (42).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620503879.6U CN205672854U (en) | 2016-05-27 | 2016-05-27 | A kind of chemical experiment material mixing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620503879.6U CN205672854U (en) | 2016-05-27 | 2016-05-27 | A kind of chemical experiment material mixing device |
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CN205672854U true CN205672854U (en) | 2016-11-09 |
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ID=57437676
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CN201620503879.6U Expired - Fee Related CN205672854U (en) | 2016-05-27 | 2016-05-27 | A kind of chemical experiment material mixing device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107812477A (en) * | 2017-12-05 | 2018-03-20 | 江西正宇生物科技有限公司 | A kind of Feed Manufacturing mixing arrangement for being easy to control ratio |
CN108251641A (en) * | 2016-12-18 | 2018-07-06 | 吴彬 | A kind of rare earth oxide extraction equipment |
CN108970156A (en) * | 2018-06-08 | 2018-12-11 | 覃庆冬 | A kind of Pneumatic drying device convenient for feeding and being more energy-saving and environmentally friendly |
CN115196570A (en) * | 2022-07-13 | 2022-10-18 | 北方工业大学 | Magnetic stirring type sustainable packaging container with self-matching function |
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2016
- 2016-05-27 CN CN201620503879.6U patent/CN205672854U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108251641A (en) * | 2016-12-18 | 2018-07-06 | 吴彬 | A kind of rare earth oxide extraction equipment |
CN107812477A (en) * | 2017-12-05 | 2018-03-20 | 江西正宇生物科技有限公司 | A kind of Feed Manufacturing mixing arrangement for being easy to control ratio |
CN108970156A (en) * | 2018-06-08 | 2018-12-11 | 覃庆冬 | A kind of Pneumatic drying device convenient for feeding and being more energy-saving and environmentally friendly |
CN108970156B (en) * | 2018-06-08 | 2021-05-14 | 清远泰盛生物科技有限公司 | Air flow drying device convenient to feeding and more energy-concerving and environment-protective |
CN115196570A (en) * | 2022-07-13 | 2022-10-18 | 北方工业大学 | Magnetic stirring type sustainable packaging container with self-matching function |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161109 Termination date: 20190527 |
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CF01 | Termination of patent right due to non-payment of annual fee |