CN204724120U - Many liquid multichannel mixing arrangement - Google Patents

Many liquid multichannel mixing arrangement Download PDF

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Publication number
CN204724120U
CN204724120U CN201520426835.3U CN201520426835U CN204724120U CN 204724120 U CN204724120 U CN 204724120U CN 201520426835 U CN201520426835 U CN 201520426835U CN 204724120 U CN204724120 U CN 204724120U
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CN
China
Prior art keywords
feed pipe
valve
piston
distributor
mixing arrangement
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Expired - Fee Related
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CN201520426835.3U
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Chinese (zh)
Inventor
赵迎辉
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Hefei Maituo New Material Technology Co Ltd
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Hefei Maituo New Material Technology Co Ltd
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Priority to CN201520426835.3U priority Critical patent/CN204724120U/en
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Abstract

The utility model relates to many liquid multichannel mixing arrangement, belong to cleaning agent production equipment field, comprise feeding device, volume control device, stirring system and discharge device successively according to fluid flow direction, feeding device comprises the first charging aperture, the second charging aperture, the 3rd charging aperture; Volume control device comprises first-class gauge and second gauge, is provided with the first distributor in feeding device, and stirring system comprises the first air pump, switch valve and agitator; Feeding device is provided with second distributor identical with the first dispensing arrangement.Mixing arrangement metering described in the utility model accurately, the charging simultaneously of each interchannel does not interfere with each other, reduce the loss caused because of systematic error, easy and simple to handle, control flexibly, production efficiency is high, equipment energy consumption is low, under the effect of the first distributor, the second distributor and volume control device, materials conversion rate improves, and the production time shortens, and is beneficial to continuous prodution.

Description

Many liquid multichannel mixing arrangement
Technical field
The utility model relates to a kind of mixing arrangement, particularly relates to many liquid multichannel mixing arrangement, belongs to cleaning agent production equipment technical field.
Background technology
General industry equipment, as pipeline, tower, container, heat exchanger, heating furnace, sealed compartment etc., or Complete Industrial Equipments, all the Chemical cleaning process such as oil removing, scale removal, rust cleaning and passivation will be carried out before operation and in maintenance, to improve product purity, avoid catalyst poisoning, to improve heat transmission equipment heat exchange efficiency, reduce energy consumption and cooling water amount.General use alkaline matter first carries out scale removal, then uses cleaning agent oil removing, then carries out acid pickling and rust removing, finally carries out passivation in the basic conditions.
Traditional there is cleaning, antirust cleaning agent belongs to traditional fine chemical product, shows as multi items, small lot aborning, be reflected in production shows as and often change and more new varieties.Cleaning agent is a kind of is main composition with surfactant and deionized water, and additional builder, corrosion inhibiter and other additive are uniformly mixed the water-soluble goods with washing ability of generation in a kettle..It has with water generation oil, the saving energy, does not endanger a series of superiority such as operator's health, decreasing pollution, protection of the environment, secure and non-combustible and cleaning cost.
At present, the reaction of producing cleaning agent mostly is liquid phase parallel connection reaction, and the main tank reactor that adopts carries out batch production.What tank reactor generally adopted is the mixing of single stirring-type, and utilize the rotation in a reservoir of dissimilar paddle, make blade and fluid interaction, fluid in a reservoir forms certain flow field to reach the object of mixing.The stirring of this form causes incorporation time relatively long because reactor volume is relatively large, and the distribution of fluid in whole reactor is still very uneven, sometimes there is flow dead in some region, cause concentration and cross drinking and distributing undesirable, direct efficiency and the product quality affecting equipment.Especially for the system of non-Newton fluid characteristic, its viscosity changed with the reaction time, and finally in non-Newton fluid characteristic, traditional hybrid mode is just difficult to the mixing and the heat-transfer effect that reach process requirements.In the production process of cleaning agent, the first mixture manufacturing intermediate of partial material, these intermediates often production quantity are relatively little, and in course of reaction, for ensureing that conversion ratio reaches maximum, each component proportion of its reactant requires strict.Not only equipment is single for traditional reactor production model, and single production production capacity is fixed, and production equipment falls behind, and the production time is relatively long, and actual converted rate differs comparatively large with theoretical value, due to batch production, its production efficiency is low, and equipment energy consumption is high.
Utility model content
The deficiency that the utility model exists for prior art, provide many liquid multichannel mixing arrangement, concrete technical scheme is as follows:
Many liquid multichannel mixing arrangement, feeding device, volume control device, stirring system and discharge device is comprised successively according to fluid flow direction, feeding device comprises the first charging aperture, the first inlet valve, the second charging aperture, the second inlet valve, the 3rd charging aperture and the 3rd inlet valve, first charging aperture is connected with the first inlet valve, second charging aperture is connected with the second inlet valve, and the 3rd charging aperture is connected with the 3rd inlet valve; Volume control device comprises first-class gauge and second gauge, and second gauge is connected with the 3rd inlet valve; The first distributor is provided with in feeding device, first distributor comprises the first feed pipe, the second feed pipe, the first discharge pipe, the first drainage tube and the second drainage tube, one end of first feed pipe is connected with the first inlet valve, the other end of the first feed pipe is provided with the first threeway, first feed pipe is communicated with by the first threeway with the second drainage tube with the first discharge pipe, the first feed pipe between the first drainage tube and the second drainage tube is provided with the graduated globe valve of band; One end of second feed pipe is connected with the second inlet valve, and one end of the first discharge pipe is connected with first-class gauge; First distributor is provided with graduated, the transparent circular cylindrical cavity of band, be communicated with by the first drainage tube between one end of cavity and the first feed pipe, the other end of the second feed pipe is provided with the second threeway, second threeway is connected with the other end of cavity, and the second feed pipe is connected by the second threeway with the second drainage tube; Inside cavity is provided with cylindrical first piston, cylindrical second piston and connecting rod, and be fixedly connected with by connecting rod between first piston and the second piston, the second its centre is provided with manhole, is provided with annular block between the second piston and cavity; Stirring system comprises the first air pump, switch valve and agitator, the first air pump connecting valve valve; Feeding device is provided with second distributor identical with the first dispensing arrangement, second distributor is provided with the 3rd feed pipe, the 4th feed pipe and the second discharge pipe, 3rd feed pipe is connected with second gauge, 4th feed pipe is connected with switch valve, and the second discharge pipe is connected with agitator.
As the improvement of technique scheme, described stirring system is provided with the second air pump, and the second air pump is connected with agitator.
As the improvement of technique scheme, described volume control device is provided with the 3rd flowmeter and the 4th flowmeter, discharge device is provided with the first discharge gate, the first blow-off valve, the second discharge gate, the second blow-off valve and the 3rd threeway, connected by the first blow-off valve between first discharge gate and the 3rd flowmeter, connected by the second blow-off valve between second discharge gate and the 4th flowmeter, the 3rd flowmeter and the 4th flowmeter are connected by the 3rd threeway with between the second air pump.
As the improvement of technique scheme, described many liquid multichannel mixing arrangement is provided with emptier, and emptier comprises emptying pipe and exhaust-valve, and exhaust-valve is arranged between emptying pipe and the 3rd flowmeter.
As the improvement of technique scheme, described stirring system is provided with Pressure gauge, and Pressure gauge is arranged between the second air pump and the 3rd threeway.
As the improvement of technique scheme, the internal diameter of described first drainage tube is less than the internal diameter of the first feed pipe.
As the improvement of technique scheme, the radius of described second piston is the internal diameter that the length of the 1/2nd, second piston of first piston radius is greater than the second drainage tube.
Technique scheme is by the charging simultaneously of the first charging aperture, the second charging aperture and the 3rd charging aperture, and under the control of volume control device, each component metering accurately, does not interfere with each other, reduces the loss caused because of systematic error; Each component, under the automatic adjustment of the first distributor and the second distributor, is in optimum mixture ratio between each component all the time; And each component materials reaching optimum mixture ratio completes the premixed of each component in the flowing of discharge pipe, not only ensures to be in optimal conditions in agitator course of reaction, the conversion ratio reacted is made to reach maximization; And the reaction time shortens, be conducive to continuous prodution.Regulated the flow of each component in described mixing arrangement again by volume control device, ensure the continuity of course of reaction further, avoid the generation of intermittent reaction, equipment energy consumption is low.Discharge device is provided with the first discharge gate and the second discharge gate, shortens the discharge time, enhances productivity.Accurately, each interchannel does not interfere with each other, and reduces the loss caused because of systematic error in many liquid multichannel mixing arrangement described in the utility model metering, easy and simple to handle, the production time is short, control is flexible, production efficiency is high, equipment energy consumption is low.
Accompanying drawing explanation
Fig. 1 is many liquid multichannel mixing arrangement structural representation described in the utility model;
Fig. 2 is the first dispensing arrangement schematic diagram described in the utility model.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
As shown in Figure 1, Fig. 1 is many liquid multichannel mixing arrangement structural representation described in the utility model.Described many liquid multichannel mixing arrangement, feeding device, volume control device, stirring system and discharge device is comprised successively according to fluid flow direction, wherein feeding device comprises the first charging aperture 10, second charging aperture 12 and the 3rd charging aperture 14, first charging aperture 10 is provided with the first inlet valve 11 and controls the first charging aperture 10 charging, second charging aperture 12 is provided with the second inlet valve 13 and controls the second charging aperture 12 charging, and the 3rd charging aperture 14 is provided with the 3rd inlet valve 15 and controls the 3rd charging aperture 14 charging.Volume control device comprises first-class gauge 20, second gauge 21, the 3rd flowmeter 22 and the 4th flowmeter 23, and second gauge 21 is connected with the 3rd inlet valve 15.
The first distributor 60 is provided with in feeding device, first charging aperture 10 pumps into fluid A, and the second charging aperture 12 pumps into fluid B, and fluid A and fluid B is under the first distributor 60 acts on, the mixing ratio of fluid A and fluid B can be controlled the level in the best, and carry out premixed.As shown in Figure 2, Fig. 2 is the first dispensing arrangement schematic diagram described in the utility model.First distributor 60 comprises the first feed pipe 61, second feed pipe 62, first discharge pipe 63, first drainage tube 64, second drainage tube 65, is with graduated globe valve 66, one end of first feed pipe 61 is connected with the first inlet valve 11, the other end of the first feed pipe 61 is provided with the first threeway 61a, first feed pipe 61 is communicated with by the first threeway 61a with the second drainage tube 65 with the first discharge pipe 63, and the first feed pipe 61 between the first drainage tube 64 and the second drainage tube 65 is provided with globe valve 66; One end of second feed pipe 62 is connected with the second inlet valve 13, and one end of the first discharge pipe 63 is connected with first-class gauge 20.First distributor 60 is provided with graduated, the transparent circular cylindrical cavity 67 of band, and be communicated with by the first drainage tube 64 between one end of cavity 67 and the first feed pipe 61, the internal diameter of the first drainage tube 64 is less than the internal diameter of the first feed pipe 61.The other end of the second feed pipe 62 is provided with the second threeway 62a, and the second threeway 62a is connected with the other end of cavity 67, and the second feed pipe 62 is connected by the second threeway 62a with the second drainage tube 65.Cylindrical first piston 68 and cylindrical second piston 69 is provided with in cavity 67, be fixedly connected with by connecting rod 610 between first piston 68 and the second piston 69, second piston 69 central authorities are provided with manhole 69a, the radius of the second piston 69 is internal diameters that the length of the 1/2nd, second piston 69 of first piston 68 radius is greater than the second drainage tube 65.Annular block 611 is provided with between the second piston 69 and cavity 67.
After fluid A enters the first feed pipe 61, wherein segment fluid flow A enters cavity 67 from the first drainage tube 64, after fluid B enters the second feed pipe 62, wherein segment fluid flow B enters cavity 67 from through hole 69a, and the second piston 69 controls the flow that fluid B flows into the second drainage tube 65.When flow velocity or the pressure increase of fluid A in the first feed pipe 61, pressure increase in the part cavity 67 be connected with the first drainage tube 64, first piston 68 and the second piston 69 move to the second feed pipe 62 direction, under the second piston 69 barrier effect, the fluid B flowed in the second drainage tube 65 reduces, the impulsive force that second piston 69 is subject to fluid B increases, and part cavity 67 volume be connected with the second feed pipe 62 is compressed, the pressure increase of the fluid B in the part cavity 67 be connected with the second feed pipe 62, therefore the second piston 69 and first piston 68 are pushed and move to the first drainage tube 64 direction, until first piston about 68 pressure balance, otherwise, when flow velocity or the pressure reduction of fluid A in the first feed pipe 61, in the part cavity 67 be connected with the first drainage tube 64, pressure reduces, first piston 68 and the second piston 69 move to the first drainage tube 64 direction, under the second piston 69 acts on, the fluid B flowed in the second drainage tube 65 increases, the impulsive force that second piston 69 is subject to fluid B reduces, and part cavity 67 volume that the second feed pipe 62 is connected increases, in the part cavity 67 be connected with the second feed pipe 62, pressure reduces, first piston 68 and the second piston 69 move to the second feed pipe 62 direction, until first piston about 68 pressure balance.
When first piston 68 both sides pressure balance, the flow of the first feed pipe 61 inner fluid A depends on the aperture of globe valve 66, in second feed pipe 62, the flow of fluid B depends on the displacement size of the second piston 69, because the displacement of the second piston 69 drives first piston 68 displacement, first piston 68 shift value is read by cavity 67 high scale, therefore can by the ratio value between design cavity 67 high scale reading and globe valve 66 high scale reading, to reach in the first feed pipe 61 in fluid A and the second feed pipe 62 optimum mixture ratio between fluid B.And reach the premixed that the fluid A of optimum mixture ratio and fluid B completes component in the flowing of the first discharge pipe 63.
Mixed fluid A and fluid B inputs under the control of first-class gauge 20 in stirring system, and stirring system is provided with the power that the first air pump 30, first air pump 30 provides the rear fluid transport of mixing.First air pump 30 connecting valve valve 31.Described stirring system is provided with agitator 32, and the stirring volume of agitator 32 is little, and mixing speed is fast, and frequency is high.Described feeding device is provided with second distributor 70 identical with the first distributor 60 structure, second distributor 70 is provided with the 3rd feed pipe 71, the 4th feed pipe 72 and the second discharge pipe 73,3rd feed pipe 71 is connected with second gauge 21,4th feed pipe 72 is connected with switch valve 31, and the second discharge pipe 73 is connected with agitator 32.
3rd charging aperture 14 pumps into fluid C, and fluid C and mixed fluid A and fluid B, under the effect of the second distributor 70, reaches optimum mixture ratio; And reach the premixed that the fluid A of optimum mixture ratio, fluid B and fluid C complete component in the flowing of the second discharge pipe 73.Fluid A after premixed, fluid B and fluid C fully stir, mix under the effect of agitator 32.
Described stirring system is provided with the second air pump 33, second air pump 33 and is connected with agitator 32, and the fluid after mixing transfers to discharge device under the effect of the second air pump 33.Between the second air pump 33 and discharge device, arrange Pressure gauge 34, Pressure gauge 34 is used for monitoring pipe fluid pressure, guarantees to produce and normally carries out.
Described discharge device is provided with the first discharge gate 40, first blow-off valve 41, second discharge gate 42, second blow-off valve 43 and the 3rd threeway 44, connected by the first blow-off valve 41 between first discharge gate 40 and the 3rd flowmeter 22, connected by the second blow-off valve 43 between second discharge gate 42 and the 4th flowmeter 23, the 3rd flowmeter 22 and being connected by the 3rd threeway 44 between the 4th flowmeter 23 with the second air pump 33.
When the fluid A after premixed, fluid B and fluid C are under agitator 32 stirs, product D is obtained after mixing, owing to there is air in pipeline between agitator 32 and discharge device, be unfavorable for that product D discharges, therefore emptier set up by described many liquid multichannel mixing arrangement, emptier comprises emptying pipe 50 and exhaust-valve 51, is connected between emptying pipe 50 and the 3rd flowmeter 22 by exhaust-valve 51.When exhaust-valve 51 is opened, air in pipeline discharges under the effect of the second air pump 33, after air is drained, close exhaust-valve 51, open the first blow-off valve 41 or the second blow-off valve 43, under the control of the 3rd flowmeter 22 and the 4th flowmeter 23, by adjusting the aperture of the first blow-off valve 41 or the second blow-off valve 43, control the flow of product D, complete consecutive production.
Described many liquid multichannel mixing arrangement operating procedure:
1) the first inlet valve 11 and the second inlet valve 13, is opened, first charging aperture 10 pumps into fluid A and the second charging aperture 12 pumps into fluid B, simultaneously according to the aperture of the data point reuse globe valve 66 calculated, fluid A and fluid B is under the adjustment of the first distributor 60, between fluid A and fluid B, ratio reaches optimum mixture ratio, and reaches the premixed that the fluid A of optimum mixture ratio and fluid B completes component in the flowing of the first discharge pipe 63.
2), open fluid C that the 3rd inlet valve 15 and switch valve the 31, three charging aperture 14 pump under the control of second gauge 21, input in the second distributor 70; Under the effect of the first air pump 30, the fluid A after premixed and fluid B inputs in the second distributor 70, and first-class gauge 20 controls the flow of the fluid A after premixed and fluid B.Fluid A and fluid B and fluid C is under the adjustment of the second distributor 70, fluid A, between fluid B and fluid C, ratio reaches optimum mixture ratio, and reaches the further mixing that fluid A, the fluid B of optimum mixture ratio and fluid C complete each component in the flowing of the second discharge pipe 73.
3) fluid A, fluid B and fluid C, after premixed, under the effect of agitator 32, fully to stir, mixing, obtain product D.
4), open exhaust-valve 51, the air in pipeline discharges under the effect of the second air pump 33.
5), ducted air drained after, close exhaust-valve 51, open the first blow-off valve 41 or the second blow-off valve 43, under the control of the 3rd flowmeter 22 and the 4th flowmeter 23, by adjusting the aperture of the first blow-off valve 41 or the second blow-off valve 43, control the flow of product D, product D discharges from the first discharge gate 40 or the second discharge gate 42.Consecutive production is completed under the adjustment of volume control device, the first distributor 60 and the second distributor 70.
In the above-described embodiments, the first charging aperture 10, second charging aperture 12 and the charging simultaneously of the 3rd charging aperture 14, under the control of volume control device, each component metering accurately, does not interfere with each other, reduces the loss caused because of systematic error; Each component, under the automatic adjustment of the first distributor 60 and the second distributor 70, is in optimum mixture ratio between each component in described mixing arrangement all the time; And each component materials reaching optimum mixture ratio completes the premixed of each component in the flowing at discharge pipe place, not only ensure to be in optimal conditions in agitator 32 course of reaction, make the conversion ratio reacted reach maximization; And the reaction time shortens, be conducive to continuous prodution.Regulated the flow of each component in described mixing arrangement again by volume control device, ensure the continuity of course of reaction further, avoid the generation of intermittent reaction, equipment energy consumption is low.Discharge device is provided with the first discharge gate 40 and the second discharge gate 42, shortens the discharge time, enhances productivity.Accurately, each interchannel does not interfere with each other, and reduces the loss caused because of systematic error in many liquid multichannel mixing arrangement described in the utility model metering, easy and simple to handle, the production time is short, control is flexible, production efficiency is high, equipment energy consumption is low.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. more than liquid multichannel mixing arrangement, feeding device, volume control device, stirring system and discharge device is comprised successively according to fluid flow direction, it is characterized in that: described feeding device comprises the first charging aperture (10), the first inlet valve (11), the second charging aperture (12), the second inlet valve (13), the 3rd charging aperture (14) and the 3rd inlet valve (15), first charging aperture (10) is connected with the first inlet valve (11), second charging aperture (12) is connected with the second inlet valve (13), and the 3rd charging aperture (14) is connected with the 3rd inlet valve (15), described volume control device comprises first-class gauge (20) and second gauge (21), and second gauge (21) is connected with the 3rd inlet valve (15), the first distributor (60) is provided with in described feeding device, first distributor (60) comprises the first feed pipe (61), second feed pipe (62), first discharge pipe (63), first drainage tube (64) and the second drainage tube (65), one end of first feed pipe (61) is connected with the first inlet valve (11), the other end of the first feed pipe (61) is provided with the first threeway (61a), first feed pipe (61) is communicated with by the first threeway (61a) with the second drainage tube (65) with the first discharge pipe (63), the first feed pipe (61) between first drainage tube (64) and the second drainage tube (65) is provided with the graduated globe valve of band (66), one end of described second feed pipe (62) is connected with the second inlet valve (13), and one end of the first discharge pipe (63) is connected with first-class gauge (20), described first distributor (60) is provided with graduated, the transparent circular cylindrical cavity (67) of band, be communicated with by the first drainage tube (64) between one end of cavity (67) and the first feed pipe (61), the other end of the second feed pipe (62) is provided with the second threeway (62a), second threeway (62a) is connected with the other end of cavity (67), and the second feed pipe (62) is connected by the second threeway (62a) with the second drainage tube (65), described cavity (67) inside is provided with cylindrical first piston (68), cylindrical second piston (69) and connecting rod (610), be fixedly connected with by connecting rod (610) between first piston (68) and the second piston (69), second piston (69) central authorities are provided with manhole (69a), are provided with annular block (611) between the second piston (69) and cavity (67), described stirring system comprises the first air pump (30), switch valve (31) and agitator (32), the first air pump (30) connecting valve valve (31), described feeding device is provided with second distributor (70) identical with the first distributor (60) structure, second distributor (70) is provided with the 3rd feed pipe (71), the 4th feed pipe (72) and the second discharge pipe (73), 3rd feed pipe (71) is connected with second gauge (21), 4th feed pipe (72) is connected with switch valve (31), and the second discharge pipe (73) is connected with agitator (32).
2. many liquid multichannel mixing arrangement according to claim 1, it is characterized in that: described stirring system is provided with the second air pump (33), the second air pump (33) is connected with agitator (32).
3. many liquid multichannel mixing arrangement according to claim 2, it is characterized in that: described volume control device is provided with the 3rd flowmeter (22) and the 4th flowmeter (23), described discharge device is provided with the first discharge gate (40), first blow-off valve (41), second discharge gate (42), second blow-off valve (43) and the 3rd threeway (44), connected by the first blow-off valve (41) between first discharge gate (40) and the 3rd flowmeter (22), connected by the second blow-off valve (43) between second discharge gate (42) and the 4th flowmeter (23), 3rd flowmeter (22) and the 4th flowmeter (23) are connected by the 3rd threeway (44) with between the second air pump (33).
4. many liquid multichannel mixing arrangement according to claim 3, it is characterized in that: described many liquid multichannel mixing arrangement is provided with emptier, emptier comprises emptying pipe (50) and exhaust-valve (51), and exhaust-valve (51) is arranged between emptying pipe (50) and the 3rd flowmeter (22).
5. many liquid multichannel mixing arrangement according to claim 3, is characterized in that: described stirring system is provided with Pressure gauge (34), Pressure gauge (34) is arranged between the second air pump (33) and the 3rd threeway (44).
6. many liquid multichannel mixing arrangement according to claim 1, is characterized in that: the internal diameter of described first drainage tube (64) is less than the internal diameter of the first feed pipe (61).
7. many liquid multichannel mixing arrangement according to claim 1, is characterized in that: the radius of described second piston (69) is the internal diameter that the length of the 1/2nd, second piston (69) of first piston (68) radius is greater than the second drainage tube (65).
CN201520426835.3U 2015-06-19 2015-06-19 Many liquid multichannel mixing arrangement Expired - Fee Related CN204724120U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104959069A (en) * 2015-06-19 2015-10-07 合肥迈拓新材料技术有限公司 Multi-liquid and multi-channel mixing device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104959069A (en) * 2015-06-19 2015-10-07 合肥迈拓新材料技术有限公司 Multi-liquid and multi-channel mixing device
CN104959069B (en) * 2015-06-19 2017-06-23 合肥迈拓新材料技术有限公司 Many liquid multichannel mixing arrangements

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