CN109499405A - The emulsification mechanism of liposome - Google Patents

Abstract

The invention discloses the emulsification mechanisms of the liposome in emulsifying device field, including emulsion pot and blender, emulsion pot includes shell and liner, the bottom of liner is equipped with spline, and shell includes connecting cylinder and support base, and support base includes internal portioning layer and outer jacket, the bottom of internal portioning layer is equipped with through-hole, spline platform is equipped between internal portioning layer and outer jacket, spline platform is circumferential integrally formed with multiple interrays positioned at internal portioning layer and outer jacket, and the top of spoke has by moving magnet；Connecting cylinder is connected to the top of support base, vertically communicated annular gap is equipped in connecting cylinder side wall, blender is connected to the top of connecting cylinder, blender includes agitating shaft, the bottom end of blender is equipped with the driving member for protruding into annular gap, and driving member and stirring axis connection, driving member are opposite with the rotation direction of agitating shaft, driving member bottom end also is provided with active magnet, opposite with active magnet top polarity by moving magnet bottom end polarity.The present invention can improve the low problem of present level stirring and emulsifying technology emulsifying power.

Description

The emulsification mechanism of liposome

Technical field

The present invention relates to emulsifying device fields, and in particular to a kind of emulsification mechanism of liposome.

Background technique

Liposome (liposome) is a kind of artificial membrane.In water in phospholipid molecule hydrophilic head insertion water, liposome is dredged Air is stretched in water tail portion, and the spherical liposomes of the double-deck rouge molecule are formed after agitation, and 25~1000nm of diameter is differed.Liposome is available In transgenosis or prepare drug, using liposome can and the characteristics of cell membrane fusion, drug is sent into cell interior biology Definition: when amphiphatic molecule such as phosphatide and sphingolipid are scattered in water phase, the hydrophobic tail of molecule is tended to flock together, and avoids water Phase, and hydrophilic head is exposed to water phase, forms the vesicle with bilayer structure, referred to as liposome.

The processing of liposome is usually that moisture is added simultaneously in lipid phase high-speed stirred, forms butterfat under mixing Shape, as emulsion process.Existing emulsifying manner mainly has ultrasonic water bath, homogenizer, probe sonication and high-speed stirred, the most frequently used Be high-speed stirred, its main cost is relatively lower, using more commonly.But high-speed stirred is mainly the stirring of macroscopic view, and by It is limited to the factors such as the mechanical strength performance of power of motor, stirring structure, so that emulsifying effectiveness and efficiency are relatively poor.

Summary of the invention

It is low to improve present level stirring and emulsifying technology emulsifying power the invention is intended to provide the emulsification mechanism of liposome Problem.

In order to achieve the above objectives, basic technology scheme of the invention is as follows: the emulsification mechanism of liposome, including emulsion pot and Blender, emulsion pot include shell and liner, and the exterior bottom of liner is equipped with spline, and shell includes connecting cylinder and support base, Support base includes internal portioning layer and outer jacket, is equipped with screw thread, the bottom of internal portioning layer on the apical lateral wall of internal portioning layer and outer jacket Equipped with through-hole corresponding with spline, spline platform is equipped between internal portioning layer and outer jacket, the lower part of spline platform is circumferentially radial Integrally formed with the spoke of multiple arcs, between internal portioning layer and outer jacket, the top of each spoke is equipped with passively spoke Magnet；Connecting cylinder is detachably connected on the top of support base, is equipped with vertically communicated annular gap, blender in connecting cylinder side wall It is detachably connected on the top of connecting cylinder, blender includes agitating shaft, and the bottom end of blender is equipped with the transmission for protruding into annular gap Part, driving member and stirring axis connection, the rotation direction of driving member and the rotation direction of agitating shaft are on the contrary, driving member bottom end also is provided with Active magnet, it is opposite with active magnet top polarity by moving magnet bottom end polarity.

The principle of this programme is: when practical application, emulsion pot is stirred for containing liposome and providing stirring and emulsifying space Device is used to carry out the liposome in emulsion pot high-speed stirred emulsification, and the liner of emulsion pot is as the appearance for directly containing liposome Device, connectivity port of the spline as liner, shell is as the external support of emulsion pot, isolation and protection structure.Connecting cylinder is used In connection blender and support base, lower support structure of the support base as shell, internal portioning layer is as the protection knot on the outside of liner The support construction of structure and when not in use liner, outer jacket as the emulsification outermost protection structure of pot bottom, through-hole as it is interior every Connectivity port on layer, support and power transmission part of the spline platform as liner cooperate with the spline on liner, spoke conduct Power transmission part uniformly drives the rotation of spline platform from circumferential, and then drives liner rotation, the gap between internal portioning layer and outer jacket Activity space as spoke.Agitating shaft is stirred emulsification to liposome for protruding into emulsion pot, and driving member will be for that will stir The dynamic branch of axis passes to spoke, active magnet and is transmitted by moving magnet as the connection structure and power of driving member and spoke Structure.Agitating shaft protrudes into rotation in emulsion pot and is stirred emulsification to liposome when use, while driving spoke by driving member Rotation, spoke drive spline platform to circumferentially rotate, and spline platform drives liner to rotate by spline, the rotation direction and stirring of liner The rotation direction of axis relatively rotates on the contrary, to exist between liner and agitating shaft, so that the agitation to liposome is more violent, The emulsifying power of liposome is higher.

The advantages of this programme, is: 1, using the side of the emulsion pot liner and agitating shaft backwards rotation simultaneously that contain liposome Formula, so that the liposome held in liner, by more violent, quick, high frequency impact, liposome can be emulsified faster Molding；2, liner rotation is driven by the power of circumferential transmission simultaneously using internal shell with dissection, so that the operating of liner It is more steady；3, liner is driven using the structure connection of magnetic absorption, liner can be lifted up in connection procedure, reduces liner With the contact area of internal portioning layer, so that the rotation of liner is more smooth, in-house abrasion is smaller.

Further, blender includes end cap, and the top middle portion of end cap is equipped with motor, agitating shaft be located at end cap lower section and with electricity The output axis connection of machine, cover internal are equipped with cavity, central gear are fixed on the agitating shaft in cavity, central gear Outside is engaged with transmission gear, and transmission gear ring is engaged on the outside of transmission gear, and the shaft of transmission gear is fixed on the upper of cavity Between lower wall, the bottom of end cap is equipped with annular through groove corresponding with transmission gear ring, and driving member is the bottom wall for being fixed on transmission gear ring On multiple drive rods for being uniformly distributed circumferentially, the quantity of drive rod and the quantity of spoke are identical.As preferred end cap both conduct The support construction of agitating shaft and motor is also used as the lid of emulsion pot, and motor is as power source, central gear, transmission gear, biography The meshing relation and positional structure of movable tooth circle make the rotation direction for being driven gear ring and central gear on the contrary, transmission gear ring is as biography The actuator and motion profile stopper of moving part, drive rod and spoke adsorb connection by active magnet, by moving magnet.In this way may be used The shunting of motor output power is easily realized, and the power shunted is the opposite rotatory force of two rotation directions, convenient for simultaneously Drive agitating shaft and liner reversely rotated.

Further, connecting cylinder includes that the inner sleeve being screwed with internal portioning layer top and outer jacket top are screwed Outer sleeve.As the preferred cavity for forming annular between inner sleeve and outer sleeve in this way docking and turn convenient for spoke and drive rod Dynamic, the dress that structure split type in this way is more convenient for dismounting progress liner takes, and can take out the liposome that liner obtains emulsification from bottom, It is also convenient for dismounting, maintenance and the replacement of components.

Further, inner sleeve is threaded in the end cap bottom end on the inside of annular through groove, and it is logical that outer sleeve is threaded in annular End cap bottom end on the outside of slot, inner sleeve top and bottom end thread rotary orientation are on the contrary, the thread rotary orientation of outer sleeve top and bottom end also phase Instead.As the cavity for forming annular between preferred inner sleeve and outer sleeve passing through and circumferentially rotating convenient for drive rod, screw thread rotation To setting generate opposite torsion between movement so that connecting cylinder top and the rotating dress of bottom end take, can avoid the disassembly of one end The synchronous of the other end is caused to loosen.

Further, the side wall top surface inclination setting of liner, the inner wall of the high-end and internal portioning layer of top surface offset.As preferably this Sample is arranged so that better tightness between the top and internal portioning layer of liner, can avoid liposome between the two to a certain degree It is leaked in gap, such setting also helps the liposome scraping after the emulsification that will be attached on internal portioning layer and collects.

Further, the bottom end of agitating shaft is fixed with inclined axle sleeve, and the axis of axle sleeve intersects with the axis of agitating shaft, axle sleeve Interior to be coaxially equipped with transmission shaft, the bottom end of transmission shaft is fixed with the stirring-head towards liner bottom wall and side wall intersection, transmission shaft Top be fixed with driven wheel of differential, agitating shaft is equipped with the drive bevel gear engaged with driven wheel of differential.As preferably in this way Agitating shaft drives the whole axis around agitating shaft of transmission shaft to rotate by axle sleeve, and drive bevel gear and driven wheel of differential drive and be driven Axis rotation, and then more comprehensive agitation can be carried out to the liposome in liner by stirring-head, it especially can be to positioned at liner The liposome of side wall and side wall and bottom wall intersection is effectively stirred, so that emulsifying effectiveness is more preferable, further increases emulsification effect Rate.

Further, balance scraper plate is cased on transmission shaft, balance scraper plate and stirring-head are symmetricly set on left and right the two of agitating shaft Side, balance side of the scraper plate far from agitating shaft are contacted with the internal portioning layer above liner.As preferred balance scraper plate one side conduct The structure that stirring-head weight is balanced on agitating shaft, on the other hand as to the liposome being attached on internal portioning layer and inner sleeve inner wall The structure scraped will be attached in internal portioning layer and inner sleeve during following axis rotation of the transmission shaft around agitating shaft Liposome on wall scrapes to be continued to be stirred emulsification in the liner for being pushed through lower section, be further conducive to raising emulsifying effectiveness and Emulsifying power.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the embodiment of the present invention；

Fig. 2 be the embodiment of the present invention as shown in figure 1 A-A to cross-sectional view.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description include: motor 1, central gear 2, end cap 3, agitating shaft 4, drive bevel gear 5, Driven wheel of differential 6, casing 7, plate body 8, axle sleeve 9, transmission shaft 10, liner 11, internal portioning layer 12, spoke 13, outer jacket 14, spline platform 15, stirring-head 16, by moving magnet 17, annular gap 18, active magnet 19, drive rod 20, inner sleeve 21, outer sleeve 22, transmission Gear ring 23, transmission gear 24.

Embodiment is basic as shown in attached drawing 1, Fig. 2: the emulsification mechanism of liposome, including emulsion pot and blender, emulsion pot Including shell and liner 11, the exterior bottom of liner 11 is equipped with spline.Shell includes connecting cylinder and support base, and support base includes Screw thread, the bottom of internal portioning layer 12 are equipped on the apical lateral wall of internal portioning layer 12 and outer jacket 14, internal portioning layer 12 and outer jacket 14 Equipped with through-hole corresponding with spline.Spline platform 15 is equipped between internal portioning layer 12 and outer jacket 14, the lower part of spline platform 15 is circumferential Radial integrated molding there are six the identical spoke 13 of size of arc, spoke 13 be located at internal portioning layer 12 and outer jacket 14 it Between, the top of each spoke 13 is embedded with by moving magnet 17.Connecting cylinder is detachably connected on the top of support base, connecting cylinder packet The outer sleeve 22 for including the inner sleeve 21 being screwed with 12 top of internal portioning layer, being screwed with 14 top of outer jacket, inner sleeve 21 Vertically communicated annular gap 18 is formed between outer sleeve 22.

Blender is detachably connected on the top of connecting cylinder, and blender includes end cap 3, and the top middle portion of end cap 3 is equipped with electricity Machine 1, the output shaft of motor 1 vertically pass through end cap 3 and are welded with agitating shaft 4.Cavity is equipped with inside end cap 3, in cavity Key connection has central gear 2 on agitating shaft 4, and the outside of central gear 2 is engaged with transmission gear 24, and the outside of transmission gear 24 is nibbled Conjunction has transmission gear ring 23, and transmission gear ring 23 is rotatably connected in cavity, and cavity sidewalls can be specifically processed as to cylindrical shape, cavity Internal diameter with transmission the outer diameter of gear ring 23 it is identical so that transmission gear ring 23 by cavity sidewalls limit and guiding only can be in situ Rotation.The shaft of transmission gear 24 is embedded between the upper and lower wall of cavity, and the cavity upper wall in 24 outside of transmission gear is downward Connecting column is convexed to form, the bottom end of connecting column is equipped with back-off, and cavity bottom is equipped with the connecting hole through end cap, is buckled to across connection Hole is buckled in the connection that the upper and lower wall of cavity is realized in end cap bottom end, and it is logical that the bottom of end cap 3 offers annular corresponding with transmission gear ring 23 Slot.The bottom end of blender is equipped with the driving member for protruding into annular gap 18, and driving member is connect with agitating shaft 4, and driving member is integrated into Six drive rods 20 that type is uniformly distributed circumferentially on the bottom wall of transmission gear ring 23.By central gear 2, transmission gear 24, It is driven gear ring 23 to connect driving member and the interval of agitating shaft 4, central gear 2, transmission gear 24 are driven power between gear ring 23 Transmitting so that the rotation direction of spoke 13 and the rotation direction of agitating shaft 4 on the contrary, driving member bottom end is also embedded with active magnet 19, It is opposite with 19 bottom end polarity of active magnet by 17 top polarity of moving magnet.

Inner sleeve 21 is threaded in 3 bottom end of end cap on the inside of annular through groove, and outer sleeve 22 is threaded in annular through groove 3 bottom end of end cap in outside, 21 top of inner sleeve and bottom end thread rotary orientation on the contrary, outer sleeve 22 top and bottom end thread rotary orientation On the contrary.The side wall top surface inclination of liner 11 is arranged, and the inner wall of the high-end and internal portioning layer 12 of top surface offsets.

The bottom end of agitating shaft 4 is welded with inclined axle sleeve 9, and the axis of the axis and agitating shaft 4 of axle sleeve 9 intersects at a point, Coaxially it is equipped with transmission shaft 10 in axle sleeve 9, the bottom end of transmission shaft 10 is welded with stirring towards 11 bottom wall of liner and side wall intersection Mix first 16, the top key connection of transmission shaft 10 has driven wheel of differential 6, and there is key connection on agitating shaft 4 engages with driven wheel of differential 6 Drive bevel gear 5.Balance scraper plate is cased on transmission shaft 10, balance scraper plate includes plate body 8 and casing 7, and casing 7 is set in transmission shaft On 10, and the low side of casing 7 offsets with the high-end of axle sleeve 9, balance scraper plate and stirring-head 16 be symmetricly set on agitating shaft 4 a left side, Right two sides, the plate body 8 for balancing scraper plate are contacted far from the side of agitating shaft 4 with the internal portioning layer 12 of 11 top of liner.

Specific implementation process is as follows: emulsion pot being placed on workbench or desktop when use, by end cap 3 from connecting cylinder It removes, the liposome for needing to emulsify processing is imported in liner 11, at this time by moving magnet 17 and active magnet along screw thread rotation There are spacing distance, spoke 13 and spline platforms 15 to fall on outer jacket 14 between 19, and liner 11 is fallen on internal portioning layer 12.Then again End cap 3 is threadedly attached to connecting cylinder upper end, at this time active magnet 19 with by moving magnet 17 adsorb connect, by spoke 13, Spline platform 15 is lifted up, and spline platform 15 is inserted into the spline on liner 11, and liner 11 is jacked up upwards by spline platform 15, liner 11 bottom is detached from internal portioning layer 12.It is powered to motor 1 and starts operating, motor 1 drives agitating shaft 4 to rotate, 9 driving transmission of stirring Axis 10 is rotated around the axis of agitating shaft 4, while driving transmission shaft 10 certainly by the transmission of drive bevel gear 5, driven wheel of differential 6 Turn, transmission shaft 10 drives stirring-head 16 to carry out high-speed stirred to the liposome in liner 11 and is allowed to emulsify.2 band of central gear simultaneously Nutating gear 24 rotates, and since the shaft of transmission gear 24 is embedded in cavity and transmission gear 24 is only capable of rotation, passes Moving gear 24 drives transmission 23 rotation of gear ring, and the pivot center for being driven gear ring 23 is identical as central gear 2, and transmission gear ring 23 rotates So that drive rod 20 follows rotation, drive rod 20 drives spoke 13 to rotate by active magnet 19 with by the absorption of moving magnet 17, Six rotations of spoke 13 drive spline platform 15 to rotate from circumferential clocking of turbine, and spline platform 15 is connect in drive by the spline with spline Gallbladder 11 rotate, the rotation direction of liner 11 rotated with transmission shaft 10 around agitating shaft 4 it is contrary, thus liposome at the same by The stirring of the rotator inertia and stirring-head 16 of liner 11, so that liposome is by more high frequency, adequately impact stirring, so that rouge The emulsifying effectiveness of plastid is more preferable, can reach the emulsification degree of needs faster, and emulsifying power is higher.Transmission shaft 10 is around agitating shaft The plate body 8 of synchronous drive balance scraper plate follows rotation during 4 rotations, will splash during the rotation of plate body 8 for balancing scraper plate Penetrate and be adhered to internal portioning layer 12, the liposome on inner sleeve 21 scrapes in liner 11 and whipping process is added so that liner 11 is added Liposome adequately stirred, and be conducive to emulsification liposome fully enter in liner 11 convenient for all take out, reduce Residual of the liposome in emulsion pot after emulsification.After emulsification by by outer jacket 14, internal portioning layer 12 from connecting cylinder It removes, the whole taking-up from below of liner 11 can all be taken out convenient for the liposome after emulsifying.

Claims (7)

1. the emulsification mechanism of liposome, it is characterised in that: including emulsion pot and blender, emulsion pot includes shell and liner, interior The exterior bottom of gallbladder is equipped with spline, and shell includes connecting cylinder and support base, and support base includes internal portioning layer and outer jacket, internal portioning layer Be equipped with screw thread on the apical lateral wall of outer jacket, the bottom of internal portioning layer is equipped with through-hole corresponding with spline, internal portioning layer and Spline platform, the circumferentially radial spoke integrally formed with multiple arcs in the lower part of spline platform, spoke bits are equipped between outer jacket Between internal portioning layer and outer jacket, the top of each spoke is equipped with by moving magnet；Connecting cylinder is detachably connected on support base Top, connecting cylinder side wall is interior to be equipped with vertically communicated annular gap, and blender is detachably connected on the top of connecting cylinder, blender Including agitating shaft, the bottom end of blender is equipped with the driving member for protruding into annular gap, driving member and stirring axis connection, and driving member turns The rotation direction of dynamic direction and agitating shaft is on the contrary, driving member bottom end also is provided with active magnet, by moving magnet bottom end polarity and actively Magnet top polarity is opposite.

2. the emulsification mechanism of liposome according to claim 1, it is characterised in that: blender includes end cap, the top of end cap End middle part is equipped with motor, and agitating shaft is located at below end cap and the output axis connection with motor, and cover internal is equipped with cavity, is located at sky It is fixed with central gear on intracavitary agitating shaft, transmission gear, the outside engagement of transmission gear are engaged on the outside of central gear There is transmission gear ring, the shaft of transmission gear is fixed between the upper lower wall of cavity, and the bottom of end cap is equipped with corresponding with transmission gear ring Annular through groove, driving member is multiple drive rods for being uniformly distributed circumferentially on the bottom wall for be fixed on transmission gear ring, drive rod Quantity is identical as the quantity of spoke.

3. the emulsification mechanism of liposome according to claim 2, it is characterised in that: the connecting cylinder includes and internal portioning layer top The outer sleeve holding the inner sleeve being screwed, being screwed with outer jacket top.

4. the emulsification mechanism of liposome according to claim 3, it is characterised in that: inner sleeve is threaded in annular through groove The end cap bottom end of inside, outer sleeve are threaded in the end cap bottom end on the outside of annular through groove, inner sleeve top and the rotation of bottom end screw thread To on the contrary, the thread rotary orientation of outer sleeve top and bottom end is also opposite.

5. the emulsification mechanism of liposome according to claim 4, it is characterised in that: the side wall top surface inclination of the liner is set It sets, the inner wall of the high-end and internal portioning layer of top surface offsets.

6. the emulsification mechanism of liposome according to claim 5, it is characterised in that: the bottom end of the agitating shaft, which is fixed with, inclines Oblique axle sleeve, the axis of axle sleeve intersect with the axis of agitating shaft, and transmission shaft is coaxially equipped in axle sleeve, and the bottom end of transmission shaft is fixed There is the stirring-head towards liner bottom wall and side wall intersection, the top of transmission shaft is fixed with driven wheel of differential, and agitating shaft is equipped with The drive bevel gear engaged with driven wheel of differential.

7. the emulsification mechanism of liposome according to claim 6, it is characterised in that: be cased with balance scraper plate on transmission shaft, put down Weighing apparatus scraper plate and stirring-head are symmetricly set on the arranged on left and right sides of agitating shaft, balance above side and liner of the scraper plate far from agitating shaft Internal portioning layer contact.