CN204563978U - Birotor pipeline-type emulsifying machine - Google Patents
Birotor pipeline-type emulsifying machine Download PDFInfo
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- CN204563978U CN204563978U CN201520229451.2U CN201520229451U CN204563978U CN 204563978 U CN204563978 U CN 204563978U CN 201520229451 U CN201520229451 U CN 201520229451U CN 204563978 U CN204563978 U CN 204563978U
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Abstract
The utility model discloses birotor pipeline-type emulsifying machine, comprise housing, housing is provided with inner chamber, the inner chamber of housing is provided with left rotor and son of turning right, left rotor comprises left card, and the right flank of left card is circumferentially with the 1st helical teeth and the 3rd helical teeth, and the 1st helical teeth is positioned at the radial outside of the 3rd helical teeth; Right-hand rotation attached bag draws together right card, the left side of right card is circumferentially with the 2nd helical teeth, 2nd helical teeth is towards left side, be the 2nd teeth groove between adjacent 2nd helical teeth, the 1st helical teeth after left rotor is combined with right-hand rotation sub-buckle, the 3rd helical teeth are oblique identical with the 2nd helical teeth, 2nd helical teeth between the 1st helical teeth and the radial direction of the 3rd helical teeth, the direction of rotation of left rotor and the oblique contrary of the 1st helical teeth, the direction of rotation of son of turning right and the 2nd helical teeth oblique identical; Left rotor is provided with feed-throughs; Inner chamber is divided into left chamber and right chamber by left card, and left chamber is provided with charging aperture, and right chamber is provided with discharging opening.The utility model emulsify well, novel structure.
Description
Technical field
The utility model relates to a kind of mulser, particularly relates to a kind of pipeline-type emulsifying machine for wet media processing.
Background technology
Pipeline-type emulsifying machine is in the industrial production for the conventional machinery of product emulsification, homogeneous and dispersion, can be used for high degree of dispersion and the rapid refinement of immobilized particles of multi-phase fluid, is widely used in the fields such as food, medicine, chemical industry.Pipeline-type emulsifying machine in reality industrial practice is that the stators and rotators relative motion that is engaged by antithesis drives material impacting, shears to reach emulsification, the object of homogeneous and dispersion.Be characterized in that treating capacity is large, can on-line continuous produce, particle size distribution range is narrow.For the good material of mobility, do not need delivery pump additionally to provide transmitting power, therefore be widely used in the industrial production.
Affect the relative motion linear velocity that one of key factor of mulser emulsifying effectiveness is stator, rotor, improved the linear velocity of rotor by speed change and converter plant in reality industrial practice, but be subject to the bottleneck restriction of rotor machining precision and rolling, lubrication and seal member performance, the manufacturing cost increasing substantially linear velocity is very high.The linear velocity utilizing two-spool backwards rotation to improve relative motion is a more satisfactory solution.Also have birotor pattern to occur in existing patented technology, but the feed mode of its complexity to determine its production cost higher, thus counteract linear velocity and improve the benefit brought.Therefore never commercially promote.
Summary of the invention
Technical problem to be solved in the utility model is: provide a kind of emulsify well, the birotor pipeline-type emulsifying machine of novel structure.
The technical solution of the utility model is: birotor pipeline-type emulsifying machine, comprise housing, housing is provided with inner chamber, the inner chamber of housing is provided with left rotor and son of turning right, and left rotor comprises left card, and the right flank of left card is circumferentially with the 1st helical teeth and the 3rd helical teeth, 1st helical teeth is positioned at the radial outside of the 3rd helical teeth, 1st helical teeth and the 3rd helical teeth, all towards right side, are the 1st teeth groove between adjacent 1st helical teeth, are the 3rd teeth groove between adjacent 3rd helical teeth; Right-hand rotation attached bag draws together right card, the left side of right card is circumferentially with the 2nd helical teeth, 2nd helical teeth is towards left side, be the 2nd teeth groove between adjacent 2nd helical teeth, the 1st helical teeth after left rotor is combined with right-hand rotation sub-buckle, the 3rd helical teeth are oblique identical with the 2nd helical teeth, 2nd helical teeth between the 1st helical teeth and the radial direction of the 3rd helical teeth, the direction of rotation of left rotor and the oblique contrary of the 1st helical teeth, the direction of rotation of son of turning right and the 2nd helical teeth oblique identical; Left rotor circumference is equidistantly provided with the feed-throughs of more than 2, and feed-throughs is positioned at the radially inner side of the 3rd helical teeth after left rotor and the conjunction of right-hand rotation sub-buckle; Inner chamber is divided into left chamber and right chamber by left card, and left chamber is feed cavity, and right chamber is discharging chamber, and left chamber is provided with charging aperture, and right chamber is provided with discharging opening.
As improvement, the radially outward edge of each feed-throughs is provided with 1 corresponding material retaining hood, and material retaining hood is positioned at the opposite location of feed-throughs direction of advance, and described material retaining hood is positioned at the left surface of left card.
Above-mentioned material retaining hood is spherical shell, and the opening of spherical shell is towards feed-throughs.
As improvement, the left side of the right side of the 1st helical teeth, the right side of the 3rd helical teeth, the 2nd helical teeth, the surface of the 1st teeth groove, the surface of the 3rd teeth groove, the surface of the 2nd teeth groove, and the card between the 1st helical teeth and the 3rd helical teeth is all provided with pit, or be provided with annular knurl line.
The diameter angle a of the oblique and left card of above-mentioned 1st helical teeth, the 3rd helical teeth is 45
0, the diameter angle b of the oblique and right card of the 2nd helical teeth is 45
0.
Technique effect of the present utility model is: the inner chamber of the utility model housing is provided with left rotor and son of turning right, the right flank of left rotor is circumferentially with radial direction two toothrow of the 1st helical teeth and the 3rd helical teeth, sub left surface of turning right is circumferentially with the 2nd helical teeth, left rotor and right-hand rotation sub-buckle are combined, 1st helical teeth, the 3rd helical teeth are oblique identical with the 2nd helical teeth, 2nd helical teeth is between the 1st helical teeth and the radial direction of the 3rd helical teeth, the direction of rotation of left rotor and the oblique contrary of the 1st helical teeth, the direction of rotation of son of turning right and the oblique identical of the 2nd helical teeth.When left rotor and right working rotor, the 1st helical teeth that left rotor is provided with and the power that the 3rd helical teeth radially moves to material, when material radially moves, at sub the 2nd helical teeth be provided with of turning right under the effect of material radial inward motoricity, the speed that material moves outwardly will reduce, make material stop can be longer in the 1st helical teeth, time between the 3rd helical teeth and the 2nd helical teeth, make material pulverize more abundant under the common extruding of the 1st helical teeth, the 3rd helical teeth and the 2nd helical teeth, shearing, head-on collision acting in conjunction.In addition, the rotation direction of left rotor is contrary with the rotation direction of son of turning right, and make the linear velocity of the relative 2nd helical teeth relative motion of the 1st helical teeth, the 3rd helical teeth larger, the rotor pattern crushing effect comparing existing mulser is better.
The utility model left rotor is provided with feed-throughs, the radially outward edge of feed-throughs is provided with 1 corresponding material retaining hood, material retaining hood is positioned at the opposite location of feed-throughs direction of advance, when left rotor rotates, material enters feed cavity by charging aperture, under the effect of material retaining hood, material enters the chamber between left rotor and right-hand rotation by feed-throughs, the material being positioned at chamber under centrifugal effect radial motion to the 1st helical teeth, pulverize between 3rd helical teeth and the 2nd helical teeth, material after pulverizing is at centrifugal and the 1st helical teeth, to enter the 1st under the effect that 3rd helical teeth is common between helical teeth and inner walls and enter discharging chamber, material after pulverizing discharges housing by discharging chamber by discharging opening.Therefore, simply, charging is effective, and novel structure for feed-throughs of the present utility model and corresponding material retaining hood structure, and especially material retaining hood adopts spherical shell, and charging effect is better.
The utility model in the right side of the 1st helical teeth, the right side of the 3rd helical teeth, the left side of the 2nd helical teeth, the surface of the 1st teeth groove, the surface of the 3rd teeth groove, the surface of the 2nd teeth groove, and the 1st card between helical teeth and the 3rd helical teeth be all provided with pit, or be provided with annular knurl line.Object makes the right side of the 1st helical teeth, the right side of the 3rd helical teeth, the left side of the 2nd helical teeth, the surface of the 1st teeth groove, the surface of the 3rd teeth groove, the surface of the 2nd teeth groove, and the 1st card between helical teeth and the 3rd helical teeth form matsurface, make material stop when the 1st helical teeth, region between the 3rd helical teeth and the 2nd helical teeth, increase the disturbance of material, comminuting matter is more abundant.
The diameter angle a of the oblique and left card of the utility model the 1st helical teeth, the 3rd helical teeth is 45
0, the diameter angle b of the oblique and right card of the 2nd helical teeth is 45
0, object is: the 1st helical teeth, the 3rd helical teeth and the 2nd helical teeth make the radial motion of material and shear material to reach the oblique angle of best fit.
The utility model is in birotor emulsification pattern, and between left rotor and housing, nonocclusive fit clearance separates feed cavity and discharging chamber, the layout of complete machine is optimized, greatly reduces production cost.The utility model utilizes the pressure differential between feed cavity and discharging chamber oppositely to go here and there chamber to prevent material, and partial material can be made repeatedly to shear to increase emulsifying effectiveness.The utility model uses two rotor backwards rotation of occlusion mutually, by the angle of change dish between cog teeth groove, can realize the reverse flow of a rotor banding animal material, realize the mutual head-on collision of material in narrow zone, to increase emulsifying effectiveness.Because existing rotor mulser uses in a large number in production practices, the utility model does not require the accessories such as more high performance rolling, sealing, namely can complete manufacture and the installation of whole parts with domestic current technology, make the utility model technology become the fabrication scheme of a practicable.
Relative to the dispersed ultrafine such as high pressure homogenizer, sand mill emulsifying device, the utility model is not the ideal equipment of a dispersed ultrafine emulsification.But manufacture that can be lower and maintenance cost, obtain more careful shearing, emulsification, homogeneous and dispersion effect than the pipeline-type emulsifying machine of prior art.During pre-treatment for dispersed ultrafine emulsification, can reduce time and the energy consumption of dispersed ultrafine emulsification further, market prospects are very wide.
Accompanying drawing explanation
1, Fig. 1 is the utility model structural representation.
2, Fig. 2 is the front view that the utility model left rotor and right-hand rotation sub-buckle are combined.
3, Fig. 3 is the rearview that the utility model left rotor and right-hand rotation sub-buckle are combined.
4, Fig. 4 is the utility model spherical shell front view.
5, Fig. 5 is that the C-C of Fig. 4 is to sectional view.
6, Fig. 6 is the utility model spherical shell left view.
7, Fig. 7 is the utility model spherical shell right view.
8, Fig. 8 is the utility model spherical shell top view.
9, Fig. 9 is the utility model left rotor front view.
10, Figure 10 is the utility model left rotor rearview.
11, Figure 11 is that the utility model is turned right sub-front view.
12, Figure 12 is that the utility model is turned right sub-rearview.
13, Figure 13 is the utility model the 1st helical teeth and teeth groove, the 3rd helical teeth and teeth groove thereof, and between the 1st helical teeth and the 3rd helical teeth, card is provided with the left rotor front view of pit.
14, Figure 14 is the sub-front view of right-hand rotation that the left side of the utility model the 2nd helical teeth and teeth groove thereof are provided with pit.
In figure, 1, left card, 2, right card, 3, feed-throughs, 4, the 3rd helical teeth, 5, right motor, the 6, the 1st helical teeth, the 7, the 2nd helical teeth, 8, left axle, 9, right axle, 10, discharging opening, 11, charging aperture, 12, housing, 13, left chamber, 14, right chamber, 15, material retaining hood, 16, left motor, 17, left axis hole, 18, pit, the 19, the 1st teeth groove, 20, the 3rd teeth groove, the 21, the 2nd teeth groove, 22, right axis hole.
Detailed description of the invention
Describe in detail below in conjunction with drawings and Examples:
As shown in Fig. 1 to Figure 14, the utility model birotor pipeline-type emulsifying machine, comprise housing 12, housing 12 is provided with inner chamber, the inner chamber of housing 12 is provided with left rotor and son of turning right, left rotor comprises left card 1, the right flank of left card 1 is circumferentially with the 1st helical teeth 6 and the 3rd helical teeth 4, namely the 1st helical teeth 6 and the 3rd helical teeth 4 lay respectively on two concentric circles of left card 1, 1st helical teeth 6 is positioned at the radial outside of the 3rd helical teeth 4, the center of left card 1 is provided with left axis hole 17, left axis hole 17 is provided with keyway, left axle 8 passes left axis hole 17 and fixes with key, left axle 8 is connected by the output shaft of shaft coupling with left motor 16.1st helical teeth 6 and the 3rd helical teeth 4, all towards right side, are the 1st teeth groove 19 between adjacent 1st helical teeth 6, are the 3rd teeth groove 20 between adjacent 3rd helical teeth 4.Right-hand rotation attached bag draws together right card 2, the left side of right card 2 is circumferentially with the 2nd helical teeth 7,2nd helical teeth 7 is towards left side, be the 2nd teeth groove 21 between adjacent 2nd helical teeth 7, the present embodiment the 1st helical teeth 6, the 3rd helical teeth 4 and the 2nd helical teeth 7 are 16 teeth, and the center of right card 2 is provided with right axis hole 22, and right axis hole 22 is provided with keyway, right axle 9 passes right axis hole 22 and fixes with key, and right axle 9 is connected by the output shaft of shaft coupling with right motor 5.The 1st helical teeth 6 after left rotor is combined with right-hand rotation sub-buckle, the 3rd helical teeth 4 are oblique identical with the 2nd helical teeth 7,2nd helical teeth 7 is between the 1st helical teeth 6 and the radial direction of the 3rd helical teeth 4, the direction of rotation of left rotor and the oblique contrary of the 1st helical teeth 6, the direction of rotation of son of turning right and the oblique identical of the 2nd helical teeth 7; Left rotor circumference is equidistantly provided with the feed-throughs 3 of more than 2, feed-throughs 3 be positioned at left rotor and right-hand rotation sub-buckle be combined after the inner side of the 3rd helical teeth 4; Inner chamber is divided into left chamber 13 and right chamber 14 by left card 1, and left chamber 13 is feed cavity, and right chamber 14 is discharging chamber, and left chamber 13 is provided with charging aperture 11, and the periphery in right chamber 14 is provided with discharging opening 10.The radially outward edge of each feed-throughs 3 is provided with 1 corresponding material retaining hood 15, and material retaining hood 15 is positioned at the opposite location of feed-throughs 3 direction of advance, and described material retaining hood 15 is positioned at the left surface of left card 1.Material retaining hood 15 is spherical shell, and the spherical shell of the present embodiment is the spherical shell of 1/4th, and the opening of 1/4th spherical shells is towards feed-throughs 3, and the centre of sphere of this 1/4th spherical shell and the card center of circle of feed-throughs 3 coincide.The left side of the right side of the 1st helical teeth 6, the right side of the 3rd helical teeth 4, the 2nd helical teeth 7, the surface of the 1st teeth groove 19, the surface of the 3rd teeth groove 20, the surface of the 2nd teeth groove 21, and the 1st card between helical teeth 6 and the 1st helical teeth 4 be all provided with pit 18, or be provided with annular knurl line.The diameter angle a of the oblique and left card 1 of the 1st helical teeth 6, the 3rd helical teeth 4 is 45
0, the diameter angle b of the oblique and right card 2 of the 2nd helical teeth 7 is 45
0.
The unspecified content of the utility model is prior art, and those skilled in the art can obtain inspiration from the present embodiment and prior art, carries out distortion and obtains other embodiment.Therefore, protection domain of the present utility model should be determined according to the protection domain of claim.
Claims (5)
1. birotor pipeline-type emulsifying machine, comprise housing (12), housing (12) is provided with inner chamber, it is characterized in that: the inner chamber of housing (12) is provided with left rotor and son of turning right, left rotor comprises left card (1), the right flank of left card (1) is circumferentially with the 1st helical teeth (6) and the 3rd helical teeth (4), 1st helical teeth (6) is positioned at the radial outside of the 3rd helical teeth (4), 1st helical teeth (6) and the 3rd helical teeth (4) are all towards right side, being the 1st teeth groove (19) between adjacent 1st helical teeth (6), is the 3rd teeth groove (20) between adjacent 3rd helical teeth (4); Right-hand rotation attached bag draws together right card (2), the left side of right card (2) is circumferentially with the 2nd helical teeth (7), 2nd helical teeth (7) is towards left side, be the 2nd teeth groove (21) between adjacent 2nd helical teeth (7), the 1st helical teeth (6) after left rotor is combined with right-hand rotation sub-buckle, the 3rd helical teeth (4) are oblique identical with the 2nd helical teeth (7), 2nd helical teeth (7) is positioned between the radial direction of the 1st helical teeth (6) and the 3rd helical teeth (4), the direction of rotation of left rotor and the oblique contrary of the 1st helical teeth (6), the direction of rotation of son of turning right and the oblique identical of the 2nd helical teeth (7); Left rotor circumference is equidistantly provided with the feed-throughs (3) of more than 2, and feed-throughs (3) is positioned at the radially inner side of the 3rd helical teeth (4) after left rotor and the conjunction of right-hand rotation sub-buckle; Inner chamber is divided into left chamber (13) and right chamber (14) by left card (1), and left chamber (13) are feed cavity, and right chamber (14) are discharging chamber, and left chamber (13) are provided with charging aperture (11), and right chamber (14) are provided with discharging opening (10).
2. birotor pipeline-type emulsifying machine according to claim 1, it is characterized in that: the radially outward edge of each feed-throughs (3) is provided with 1 corresponding material retaining hood (15), material retaining hood (15) is positioned at the opposite location of feed-throughs (3) direction of advance, and described material retaining hood (15) is positioned at the left surface of left card (1).
3. birotor pipeline-type emulsifying machine according to claim 1, it is characterized in that: material retaining hood (15) is spherical shell, the opening of spherical shell is towards feed-throughs (3).
4. birotor pipeline-type emulsifying machine according to claim 1,2 or 3, it is characterized in that: the left side of the right side of the 1st helical teeth (6), the right side of the 3rd helical teeth (4), the 2nd helical teeth (7), the surface of the 1st teeth groove (19), the surface of the 3rd teeth groove (20), the surface of the 2nd teeth groove (21), and the 1st card between helical teeth (6) and the 3rd helical teeth (4) be all provided with pit (18), or be provided with annular knurl line.
5. birotor pipeline-type emulsifying machine according to claim 4, is characterized in that: the diameter angle a of the oblique and left card (1) of the 1st helical teeth (6), the 3rd helical teeth (4) is 45
0, the diameter angle b of the oblique and right card (2) of the 2nd helical teeth (7) is 45
0.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520229451.2U CN204563978U (en) | 2015-04-16 | 2015-04-16 | Birotor pipeline-type emulsifying machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201520229451.2U CN204563978U (en) | 2015-04-16 | 2015-04-16 | Birotor pipeline-type emulsifying machine |
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CN201520229451.2U Expired - Fee Related CN204563978U (en) | 2015-04-16 | 2015-04-16 | Birotor pipeline-type emulsifying machine |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104801218A (en) * | 2015-04-16 | 2015-07-29 | 刘金辉 | Double-rotor pipeline type emulsifying machine |
CN107029575A (en) * | 2017-05-25 | 2017-08-11 | 天津宜诺医药工业设计有限公司 | High shear Homogenizing pump and powder or graininess medicinal material dissolution extraction element |
RU2757743C1 (en) * | 2021-01-18 | 2021-10-21 | федеральное государственное бюджетное образовательное учреждение высшего образования "Кемеровский государственный университет" (КемГУ) | Dispersant |
-
2015
- 2015-04-16 CN CN201520229451.2U patent/CN204563978U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104801218A (en) * | 2015-04-16 | 2015-07-29 | 刘金辉 | Double-rotor pipeline type emulsifying machine |
CN107029575A (en) * | 2017-05-25 | 2017-08-11 | 天津宜诺医药工业设计有限公司 | High shear Homogenizing pump and powder or graininess medicinal material dissolution extraction element |
RU2757743C1 (en) * | 2021-01-18 | 2021-10-21 | федеральное государственное бюджетное образовательное учреждение высшего образования "Кемеровский государственный университет" (КемГУ) | Dispersant |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150819 Termination date: 20160416 |