CN1063236A - Internal jet-flow vacuum homogenizing emulsifying installation - Google Patents

Abstract

The present invention relates to a kind of internal jet-flow vacuum homogenizing emulsifying installation, emulsified material dispersed phase average diameter of particles can be narrowed down to 1-2 microns.Its speedup homogenizer is positioned at vacuum emulsification pot bottom central authorities, and the upper end links to each other with interior jet emulsion reactor, and both communicate inside.The rotating shaft lower end of speedup homogenizer rotor links to each other with variable speed electric motors, particularly, and the rotating shaft that low speed is scraped the wall agitator passes vacuum emulsification jar cover and links to each other with reductor.Scrape under the acting in conjunction of wall agitator at speedup homogenizer, interior jet emulsion reactor and low speed, can make the whole emulsified material in the vacuum emulsification jar realize emulsification, homogeneous, heat transfer homogenization.

Description

Internal jet-flow vacuum homogenizing emulsifying installation

The present invention relates to a kind of internal jet-flow vacuum homogenizing emulsifying installation, belong to the special-purpose machinery of producing cream kind makeup and drug ointment.

At present, external makeup and drug ointment emulsification machinery be the batch (-type) vacuum homogeneous emulsifying machine mostly, the VTU type vacuum stirring device of producing as Japanese MIZUHO company and the VME type vacuum emulsification machine of Switzerland FRAMY company production etc.Its basic principle is to place a low speed to scrape wall agitator, a high speed agitator and a high speed homogenization device in a vacuum emulsification jar.Three's rotating shaft is nested together and forms triple formula structures of three unifications, and structure is very complicated, involves great expense, and power consumption is big.The decentralized photo average particulate diameter of emulsifying product can only reach the 2-3 micron, and wherein the equal diameters proportion of particles is lower than 80%.

Domestic self-produced mulser mainly contains two kinds: a kind of is the Counterfeit Item of above-mentioned external mulser, and its technical merit is lower than external like product, and cost is also quite expensive.Another kind is the PME semi continuous mulser of the present utility model people Xu Yongbei development, it is to put into pre-emulsion tank after earlier oil phase raw material and water raw material being heated to 95 ℃-100 ℃ respectively to stir pre-emulsification, enter the compression pump suction inlet through flowmeter again, also enter the compression pump suction inlet after while essence is pressurized through flowmeter, both squeeze into limit emulsification limit cooling in the emulsification cooler after the compression pump pressurization, once finish the emulsification operation.Its shortcoming is that emulsifying ability can not be regulated, and is not suitable for the emulsification of high-viscosity material, and can't add the thermal sensitivity medicament at low temperatures.

The purpose of this invention is to provide a kind of novel internal jet-flow vacuum homogenizing emulsifying installation, promptly broken through triple formula stirring and emulsifying principles of external routine, can overcome the above-mentioned defective that domestic PME semi continuous mulser exists simultaneously again.

For achieving the above object, the utility model is scraped wall agitator, injection fluidisation emulsion reactor, speedup homogenizer, vavuum pump, elevation mechanism, overturning mechanism, motor, reductor and variable speed electric motors, particularly etc. by oil phase raw material heating and stirring tank, water raw material heating and stirring tank, vacuum emulsification jar, low speed and is partly constituted.It replaces high-speed stirring commonly used in the external vacuum emulsification machine with interior jet emulsion reactor and speedup homogenizer and trembles device and high speed homogenization device.Its speedup homogenizer is positioned at vacuum emulsification jar inner bottom part central authorities, and the upper end links to each other with interior jet emulsion reactor, and both communicate inside, form one in the circulation strong emulsifying systems.The rotating shaft of speedup homogenizer rotor links to each other with vacuum emulsification jar variable speed electric motors, particularly outward.Low speed is scraped the wall agitator and also is positioned at the vacuum emulsification jar, and its rotating shaft passes cover and links to each other with the reductor that links to each other with motor.Like this, scrape under the acting in conjunction of wall agitator, can make the whole emulsification materials in the vacuum emulsification jar realize emulsification, homogeneous, heat transfer homogenization at speedup homogenizer, interior jet emulsion reactor and low speed.

The utility model has the advantages that: (1). the dispersion particle average diameter of emulsifying product can be contracted to the 1-2 micron, and wherein the equal diameters proportion of particles is greater than 90%; (2). emulsifying ability can be regulated according to different emulsification product requirements; (3). can under suitable temperature, it be added in the emulsification goods according to the different requirements of essence and medicament, especially do not influence the interpolation of thermal sensitivity medicament; (4). equipment manufacturing cost is low, and power consumption has only the 1/3-1/4 of external like product.

The utility model is described in further detail below in conjunction with drawings and Examples

Fig. 1 is the formation schematic diagram of jetting stream vacuum emulsifier unit in the utility model.

Fig. 2 is the structural representation of speedup homogenizer of the present utility model.

Fig. 3 is the cutaway view of Fig. 2 along A-A.

Fig. 4 is the structural representation of interior jet emulsion reactor of the present utility model.

Fig. 5 is the schematic diagram of the lateral opening flow distribution plate of interior jet emulsion reactor.

Fig. 6 is the connection diagram of speedup homogenizer and interior jet emulsion reactor.

As shown in Figure 1, speedup homogenizer 3 is fixed on vacuum emulsification jar 1 inner bottom part central authorities, and its upper end links to each other with interior jet emulsion reactor 4, and the bottom links to each other with tank body variable speed electric motors, particularly 7 outward.Low speed is scraped wall agitator 2 and is shaped as frame, and its edge is fixed with scraper plate 25, and its rotating shaft passes cover 11 and links to each other with the reductor 6 that is driven by the motor 5 that is installed in crossbeam 13 central authorities.The two ends of crossbeam 13 are separately fixed on the piston head of the oil cylinder 14 that is positioned at vacuum emulsification jar 1 left and right sides, and it constitutes elevation mechanism with oil cylinder 14, oil tank 15, oil pump 16, oil return valve 17.The cooling jacket 22 that vacuum emulsification jar 1 tank body has one deck to be connected as a single entity with it outward, water intaking valve 23 are positioned at its below, left side, and outlet valve 24 is positioned at its top, right side.Whole vacuum emulsification jar 1 is placed on the frame by two rotating shaft 21a, 21b of tank body coolant jacket 22, and its shaft 21b links to each other with overturning mechanism 10.After emulsification finishes, start oil pump 16, piston in the oil cylinder 14 rises, and jack-up crossbeam 13 can be scraped wall agitator 2 with cover 11 and low speed and lift in the lump, restarts overturning mechanism 10, just vacuum emulsification jar 1 interior finished product can be poured out.After oil return valve 17 was opened, the oil in the oil cylinder 14 was pushed back in the oil tank 15 by the gravity of crossbeam 13, cover 11 etc., and cover 11 and low speed are scraped wall agitator 2 can get back to original position.

Still see Fig. 1, oil phase raw material heating and stirring tank 8 and water raw material heating and stirring tank 9 are respectively applied for heat fused oil phase raw material and water raw material.Two kinds of raw materials all enter in the vacuum emulsification jar 1 by the filter on the cover 11 18 after heat fused.Vavuum pump 12 links to each other with another filter 19 on the cover 11 by vacuum-breaking valve 20.Like this, start vavuum pump 12, air in the jar can be extracted out.When emulsification finishes when needing vacuum breaker, only need cut off vavuum pump 12, open vacuum-breaking valve 20, air just can enter in the vacuum emulsification jar 1.

As shown in Figure 2, speedup homogenizer 3 is made of three parts such as stator 26, rotor 27, impact teeth 28.Stator 26 is the cylinder of a hollow, and rotor 27 is positioned at it.Impact teeth 28 is by on the equidistant inwall that is fixed on stator 26 of screw, and is relative with rotor 27.The number of teeth of rotor 26 can be between 20-100, and its rotating shaft is stretched out outside the vacuum emulsification jar 1 and linked to each other with variable speed electric motors, particularly 7.The number of teeth of impact teeth 28 is then between 20-40.Charging aperture 30 and discharging opening 31 all are positioned at the one side that the stator 26 of speedup homogenizer 3 is connected with jet emulsion reactor 4, are separated by baffle plate 32 between the two, to prevent that feed backs in the discharging opening 31 are to charging aperture 30.Baffle plate 32 is connected as a single entity with the inwall of stator 26, and relative with rotor 27, and distance between the two for the ease of charging, is welded with a metal short tube 41 outside the charging aperture 30 between the 0.05-1 millimeter.

As shown in Figure 4, interior jet emulsion reactor 4 is made up of housing 33, discharging cap 34 and some order reactions unit.Except that afterbody, every order reaction unit all is to be connected in sequence by a lateral opening flow distribution plate 35, conveyor screw 36, a hollow isocon 37.The afterbody reaction member then is made up of a lateral opening flow distribution plate 35 and a hollow flow distribution plate 39.In an interior jet emulsion reactor 4 6-99 order reaction unit can be arranged, its quantity is decided on demand.

As shown in Figure 5, lateral opening flow distribution plate 35 be by a circular metal plate four of its peripheral equidistant incisions, bending is cut open part then, makes it to meet at right angles with plectane itself to make.Like this, on the periphery of lateral opening flow distribution plate with regard to 4 runners of equidistant formation.

Hollow isocon 37 is " cap shape ", has the circular metal plate of a circular hole and a metal circular tube to be welded by a centre, referring to Fig. 4.Four sweeps welding on it and lateral opening flow distribution plate 35 peripheries like this, just form a cavity between the two, and conveyor screw 36 promptly is positioned at it.Its end welds mutually with lateral opening flow distribution plate 35, and the other end inserts in the hollow shunting 37.Also have four tap holes 39 along same circumference is equidistant on the tube wall of hollow isocon 37,38 of mesopore flow distribution plates are the circular metal plates that there is a circular hole at a middle part.

Housing 33 main parts of interior jet emulsion reactor 4 are a metal circular tube, and the diameter of its charging one end is less with respect to main part, adapt with the discharging opening 31 of speedup homogenizer 3.It is near also having opened four discharge openings 40 along same circumference is equidistant on discharging cap 34 1 end tube walls.The discharging calotte is one at an end of interior jet emulsion reactor discharging with housing 33 welderings.

As shown in Figure 6, an end of interior jet emulsion reactor 4 chargings is welded on the discharging opening 31 of speedup homogenizer 3, and both communicate inside, form one in the circulation strong emulsifying systems.The rotor 27 of speedup homogenizer 3 makes charging aperture 30 places be negative pressure state with 750-3500 rev/min speed fast rotational, emulsified material is sucked and improves its flow velocity rapidly.In 1/50 second, the flow velocity of emulsified material can be by 0 anxious 18 meter per seconds that increase to.Swiftly flowing fluid runs into impact teeth 28 therebetween along with the rotation of rotor 27 washes away to discharging opening 31, just produces powerful impact and shearing force, makes the particle of decentralized photo in the emulsion broken rapidly.Simultaneously because the viscosity viscous flow character of liquid makes it and rotor 27 blades between produce speed difference, produced new shearing force so again, the diameter of dispersion particle is further reduced.

Just be divided into the central authorities that 4 road runners from lateral opening flow distribution plate 35 flow to hollow isocon 37 after pouring injection fluidized reactor 4 by the high-velocity fluid of speedup homogenizer 3, under the effect of conveyor screw 36, fluid rotates motion, and divide 4 road tap hole 39 directive subordinate reaction members from hollow isocon 37, this moment, high-velocity fluid was cut 16 times.The rest may be inferred, and after fluid was through 5 order reaction unit, the number of times that is cut had reached 1048576 times.Fluid constantly produces high velocity impact and local outburst effect here in addition, has further increased emulsion strength.After emulsified material is gone out interior jet emulsion reactor 4, through the stirring that low speed is scraped wall agitator 2, can enter the charging aperture 30 of speedup homogenizer 3 again once more, like this, just form an emulsion process that moves in circles, can make emulsified material decentralized photo average particulate diameter be reduced to the 1-2 micron.

In emulsion process, control the rotating speed and the emulsification activity duration of the rotor 27 of speedup homogenizer 3, can change the power of the utility model emulsifying ability effectively.Like this, the utility model just can apply to the production of different emulsifying products.

Claims (9)

1, internal jet-flow vacuum homogenizing emulsifying installation, comprise that oil phase raw material heating and stirring tank, water raw material heating and stirring tank, vacuum emulsification jar, low speed scrapes parts such as wall agitator, vavuum pump, elevation mechanism, overturning mechanism, motor, reductor and variable speed electric motors, particularly, it is characterized in that it also comprises a speedup homogenizer 3 and an interior jet emulsion reactor 4; Speedup homogenizer 3 is positioned at vacuum emulsification jar 1 inner bottom part central authorities, and its upper end links to each other with interior jet emulsion reactor 4, and both communicate inside, and its lower end then links to each other with variable speed electric motors, particularly 7; The rotating shaft that low speed is scraped wall agitator 2 passes cover 11 and links to each other with reductor 6.

2, internal jet-flow vacuum homogenizing emulsifying installation according to claim 1, it is characterized in that speedup homogenizer 3 is made of three parts such as stator 26, rotor 27, impact teeth 28, stator 26 is the cylinder of a hollow, rotor 27 is positioned at it, its rotating shaft is stretched out outside the stator 26, impact teeth 28 is equidistant to be distributed on the inwall of stator 26, relative with rotor 27.

3, as internal jet-flow vacuum homogenizing emulsifying installation as described in the claim 2, the number of teeth of rotor 27 that it is characterized in that homogeneous speed increaser 3 is between 20-100, and the number of teeth of impact teeth 28 is between 20-40.

4, as internal jet-flow vacuum homogenizing emulsifying installation as described in claim 2 or 3, it is characterized in that having charging aperture 30 and discharging opening 31 on the stator 26 of speedup homogenizer 3, separate by the baffle plate 32 that is positioned on stator 26 inwalls between the two, baffle plate 32 is relative with rotor 27, and distance between the two is between the 0.05-1 millimeter.

5, internal jet-flow vacuum homogenizing emulsifying installation according to claim 1, jet emulsion reactor 4 is made up of housing 33, discharging cap 34 and some order reactions unit in it is characterized in that, and the progression of reaction member is as required between 6-99.

6, as internal jet-flow vacuum homogenizing emulsifying installation as described in the claim 5, the housing 33 of jet emulsion reactor 4 is a metal circular tube in it is characterized in that, the diameter of its charging one end is less corresponding to housing 33 main parts, adapt with the discharging opening 31 of speedup homogenizer 3, it also has 4 discharge openings 40 along same circumference near on the tube wall of discharging cap 34.

7, as internal jet-flow vacuum homogenizing emulsifying installation as described in the claim 5, the afterbody reaction member of jet emulsion reactor 4 is made up of lateral opening flow distribution plate 35 and hollow flow distribution plate 38 in it is characterized in that, and all the other reaction members at different levels all are to be connected in sequence by lateral opening flow distribution plate 35, conveyor screw 36, hollow isocon 37, conveyor screw 36 1 ends are welded on the lateral opening flow distribution plate 35, and the other end inserts in the hollow isocon 37.

8,, it is characterized in that lateral opening flow distribution plate 35 has 4 fritters to be converted into plate body itself to become 90 °, just form 4 runners like this on the periphery of lateral opening flow distribution plate 35 along its periphery is equidistant as internal jet-flow vacuum homogenizing emulsifying installation as described in the claim 7.

9, as internal jet-flow vacuum homogenizing emulsifying installation as described in the claim 7, it is characterized in that hollow isocon 37 is " cap shape ", there are the circular metal plate of a circular hole and a metal short tube to be welded by a middle part, its same circumference in tube wall upper edge is equidistant to have four tap holes 39, and mesopore flow distribution plate 38 is circular metal plates that there is a circular hole at a middle part.

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