CN112642313A

CN112642313A - Small-size extrinsic cycle formula emulsion machine

Info

Publication number: CN112642313A
Application number: CN202011618984.1A
Authority: CN
Inventors: 张盛雄; 钱永平
Original assignee: Wuxi Yikai Automation Technology Co ltd
Current assignee: Wuxi Yikai Automation Technology Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-04-13

Abstract

The invention discloses a small external circulation type emulsifying machine which comprises a workbench, wherein a pretreatment tank is arranged in the workbench and is connected with a homogenizing assembly arranged outside the workbench, an outlet of the homogenizing assembly is connected with the emulsifying tank outside the workbench, an operation interface capable of monitoring the state of each assembly is further arranged on the upper surface of the workbench, a stirring impeller in the pretreatment tank is connected with a first motor extending out of the upper surface of the workbench, a stirring paddle is arranged in the emulsifying tank and is connected with a second motor arranged on the upper surface of an emulsifying tank cover body, a third motor connected with a first rotating shaft in the homogenizing assembly is arranged on the side wall of the homogenizing assembly, all three motors are connected to a controller, and the controller is connected with the operation interface. The homogeneity subassembly still is equipped with the homogeneity cooling intermediate layer including the broken induced impeller that can carry out pivoted pectination tooth impeller and in the pectination tooth impeller under the drive of first pivot, along the direction of delivery of homogeneity subassembly before the broken induced impeller, and the discharge gate is connected to the homogeneity cooling intermediate layer. By adopting the technical scheme of the invention, the emulsification efficiency can be improved.

Description

Small-size extrinsic cycle formula emulsion machine

Technical Field

The invention relates to an emulsifying machine, in particular to a small external circulation type emulsifying machine.

Background

The existing emulsifying machine is generally designed in a large scale mode, and is provided with an emulsifying tank, a pretreatment tank, a stirring tank and the like, wherein the number of the pretreatment tanks is at least 2-3, the number of the adopted materials is more than 2, the number of the adopted pretreatment tanks is more than 2, but the pretreatment mode is not necessarily the same due to different material properties in the pretreatment process, and if the materials which do not need to be pretreated are adopted at the same time, higher production cost is generated due to the same adoption of the pretreatment tanks.

Further, after the pretreatment is completed, some materials are viscous and some materials are sparse, while a large-sized stirring paddle is generally adopted in the stirring tank, so that the best stirring effect cannot be achieved for the mixing of the materials, and if the emulsification is directly carried out in the emulsification tank, the emulsification uniformity is low on the premise of the same time condition, and the emulsification stirring needs a longer time to achieve the same emulsification effect.

Furthermore, the existing emulsifying machine adopts a cover lifting design, more workers are adopted for cover lifting, and the production efficiency is reduced.

Furthermore, the stirring paddle of the existing emulsifying machine is also matched with a wall scraping plate, but the wall scraping plate can only scrape the wall in one direction and cannot scrape the wall in two directions.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the problems that the existing emulsifying machine is large in size, cannot be suitable for a space with a small area, and is uneven in material mixing, low in cover turning efficiency and only capable of one-way wall scraping.

The technical scheme is as follows: in order to solve the problems, the invention adopts the following technical scheme:

a small-sized external circulation type emulsifying machine comprises a workbench, a pretreatment tank is arranged in the workbench, the pretreatment tank is connected with a homogenizing component arranged outside the workbench, the outlet of the homogenizing component is connected with an emulsifying tank outside the workbench, the bottom discharge port of the emulsifying tank is connected with the homogenizing component, the upper surface of the workbench is also provided with an operation interface capable of controlling the state of each component, a stirring impeller in the pretreatment tank is connected with a first motor extending out of the upper surface of the workbench, a stirring paddle is arranged in the emulsifying tank and connected with a second motor arranged on the upper surface of an emulsifying tank cover body, the side wall of the homogenizing component is provided with a third motor connected with a first rotating shaft in the homogenizing component, the three motors are all connected to a controller, the controller is connected with the operation interface, the homogenizing component comprises a comb-tooth impeller capable of rotating under the driving of the first rotating shaft and a crushing induction impeller in the comb-tooth impeller, and the conveying direction of the homogenizing component is, a homogeneous cooling interlayer is arranged in front of the crushing induction impeller and connected with a discharge hole.

Through the design scheme who increases the homogeneity subassembly, can emulsify in the emulsification jar and carry out better material breakage before, realize the more even mixture of viscous material and sparse material, improve subsequent emulsification effect.

The controller only realizes information such as state acquisition of each motor to judge whether to go to the next step, so the controller can realize the operation by adopting a simple 89C51 singlechip.

Further, the first rotating shaft of the homogenizing assembly is arranged along the horizontal direction.

One of the core technologies, through the design mode, the mixing of materials is completed in the horizontal direction, if the mode of up-in and down-out is adopted, the mixing of the materials is incomplete, and if the mode of down-in and up-out is adopted, although the mixing of the materials is complete, the requirement is that the content of the materials in the homogenizing assembly is kept above an outlet, so that the prior process is required to have higher energy consumption for conveying, or the homogenizing assembly has higher conveying energy consumption, so the corresponding production energy consumption can be improved, and by adopting the horizontal design, the comb-tooth impeller and the crushing induction impeller in the comb-tooth impeller can be matched with each other, so that the better uniform mixing can be realized, and the production energy consumption can not be improved.

Furthermore, the homogeneous cooling interlayer is a homogeneous liquid cooling interlayer which is arranged outside the wall surface of the conveying channel behind the comb-shaped tooth impeller along the conveying direction of the homogeneous assembly and can cool the conveying channel.

The liquid can adopt cold water or cold oil, and through setting up the homogeneity liquid cooling intermediate layer, can cool down the mixture in the transfer passage, improves in subsequent emulsification effect.

Furthermore, the number of the discharge ports of the homogenizing assembly is at least two, one of the discharge ports is connected to the inlet of the emulsifying tank through an external circulating pipe, and the other discharge port is used as a discharge port and is vacant.

The bin outlet sets up in the lower surface of homogeneity subassembly, and the purpose of design lies in can accomplishing the back in once emulsification, and the evacuation homogeneity subassembly prevents the pollution to other materials of next emulsification.

Furthermore, the feed inlet of homogeneity subassembly is two at least, and one of them feed inlet is connected the import of preliminary treatment jar, and another feed inlet is connected the feeder hopper.

Through the design of feeder hopper, can directly add through the hopper with the material that need not carry out the preliminary treatment, improve production efficiency.

Furthermore, the comb-tooth impeller is a ring gear extending along the axial direction, wood comb-shaped teeth are uniformly distributed on the ring gear, a crushing induction impeller is arranged on the inner wall of the ring gear, and the crushing induction impeller is a comb-tooth impeller fixedly connected with the inner wall of the ring gear and extending along the radial direction of the ring gear.

By adopting the design, the crushing induction impeller enables the mixed materials to form spiral vortex, and the materials forming the spiral vortex are further crushed and mixed by the comb-shaped teeth under the matching of the comb-shaped teeth impeller, so that the integral mixing uniformity is improved.

Furthermore, a comb-shaped prism which can be matched with the comb-shaped tooth impeller and is fixed on the inner wall of the homogenizing assembly and has smaller density relative to the wooden comb-shaped teeth is arranged at the periphery of the comb-shaped tooth impeller.

Through the speed difference of the fixed comb-shaped prism and the comb-shaped tooth impeller, the mixed materials are ground at the gap to form more uniform mixed materials, so that the emulsification effect of the mixture in the next step is improved.

Further, the workstation includes the base and sets up the cabinet body on the base, and the base is the rectangle, and the cabinet body is along the length direction and the width direction of base and all reserves the work interval, reserves the node of work interval from the width direction, and the cabinet body is inside sunken to be set up along base length direction's first wall and personally submit the second wall at 120 contained angles with first wall.

Through this kind of design, staff can operate all parts on whole workstation simultaneously when facing first wall and second wall contained angle.

Further, the emulsification tank is arranged on the wall surface of an included angle area formed by the combination of the first wall surface and the second wall surface.

Through this kind of design, improved the integrated level of emulsification jar, small-size emulsification jar just in time is accomodate down in the region of first wall and the contained angle that the second wall formed like this.

Further, the base is provided with a corner lacking form in which a right angle formed by a lengthwise side and a widthwise side of the base is directed in a direction in which the first wall surface and the second wall surface face.

If the angle is a right angle, when the staff works alternately on each side, the feet of the staff can collide the corners to damage the staff, and the angle-lacking form is adopted, so that the staff can be well avoided

Furthermore, an operation interface is arranged on the upper surface of the cabinet body corresponding to the wall surface in the length direction of the cabinet body combined with the second wall surface.

Through this kind of design, can the staff when towards operation interface, can contact the lid of emulsification tank simultaneously, improve the convenient degree of operation.

Furthermore, an electric control cabinet for placing a controller is arranged at the extending position of the cabinet body combined with the second wall surface in the length direction.

Further, the emulsification tank comprises a tank body and a second rotating shaft arranged on one side of an opening of the tank body, a cover body which can rotate around the second rotating shaft and can cover the tank body in a lateral direction is arranged on the second rotating shaft, the lower surface of the joint of the cover body and the second rotating shaft is connected with the top end of a hydraulic rod, and the bottom end of the hydraulic rod is arranged on the side face of the tank body.

Through this kind of design, the lid is different from ordinary elevation structure, and what adopt is the flip structure, and the flip structure is compared in elevation structure subassembly still less, can save a large amount of equipment spaces, especially high space, through the cooperation of hydraulic stem, can be more laborsaving the flip lid.

Furthermore, a through hole is formed in the cover body, the third rotating shaft penetrates through the cover body to be connected with a stirring paddle arranged in the tank body, and the part of the third rotating shaft, which is exposed out of the cover body, is connected with a second motor positioned on the upper surface of the cover body.

Further, the stirring paddle is a V-shaped stirring paddle.

Furthermore, the axial symmetry center of the V-shaped stirring paddle is connected with a third rotating shaft, the outer side surface of each edge of the V-shaped stirring paddle is provided with a protruding axial wall scraping plate mounting seat extending along the length direction of each edge, and a bidirectional wall scraping plate is mounted on the wall scraping plate mounting seat.

The mounting end of the shaft type wall scraping plate mounting seat is also provided with a limiting part for preventing the bidirectional wall scraping plate from being excessively turned over, so that the wall scraping of the inner wall of the tank body can be realized in a limiting interval.

Furthermore, the middle part of the wall scraping plate mounting seat is provided with a bulge larger than the axial diameter, the inner wall of the mounting hole of the bidirectional wall scraping plate is provided with a clamping groove matched with the bulge, and the protruding height of the bulge is larger than the recessed depth of the clamping groove.

Through interference fit's mode, can improve the stability after the two-way wall scraping plate installation.

Furthermore, the two ends of the V-shaped stirring paddle are also provided with extending parts along the height direction of the tank body, and the outer surfaces of the extending parts are also provided with a wall scraping plate mounting seat and a bidirectional wall scraping plate matched with the wall scraping plate mounting seat.

The bottom of the tank body is provided with an inclined plane, so that a V-shaped stirring paddle is adopted, and the inner wall of the tank body in the vertical direction can be scraped through the extending part.

Further, the bidirectional wall scraping plate comprises a nesting part capable of being nested on the wall scraping plate mounting seat, and the bidirectional wall scraping plate is integrally formed with the nesting part, the cross section of the bidirectional wall scraping plate is trapezoidal, and the nesting part is provided with a mounting hole.

Through the trapezoidal design of cross-section, can be better with the laminating of jar internal wall.

Has the advantages that: compared with the prior art, the invention has the advantages that:

by adopting the technical scheme of the invention, the emulsification efficiency and the final emulsification effect can be improved.

Drawings

FIG. 1 is a schematic perspective view of an emulsifier of the present invention;

FIG. 2 is a schematic side view of the emulsion machine of the present invention;

FIG. 3 is a schematic view of the working principle of the emulsifying machine of the present invention;

FIG. 4 is a schematic structural diagram of a homogenizing assembly according to the present invention;

FIG. 5 is a schematic structural view of the wall scraping plate mounting base of the present invention;

fig. 6 is a schematic structural view of a bi-directional screed plate of the present invention.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

As shown in fig. 1 to 4, a small-sized external circulation type emulsifying machine, which comprises a workbench, a pretreatment tank 1 is arranged in the workbench, the pretreatment tank 1 is connected with a homogenizing assembly 2 arranged outside the workbench, an outlet of the homogenizing assembly 2 is connected with an emulsifying tank outside the workbench, a bottom discharge port of the emulsifying tank is connected with the homogenizing assembly 2, the upper surface of the workbench is further provided with an operation interface 3 capable of controlling the state of each assembly, a stirring impeller in the pretreatment tank 1 is connected with a first motor 4 extending out of the upper surface of the workbench, a stirring paddle 5 is arranged in the emulsifying tank, the stirring paddle 5 is connected with a second motor 7 arranged on the upper surface of a cover body 6 of the emulsifying tank, the side wall of the homogenizing assembly 2 is provided with a third motor 9 connected with a first rotating shaft 8 in the homogenizing assembly 2, the three motors are all connected to a controller (not shown), the controller is connected with the operation interface 3, the homogenizing assembly 2 comprises a comb-shaped impeller 10 capable of rotating under the driving of the first rotating shaft 8 and a crushing inducing guide vane The wheel 11, along the direction of delivery of homogeneity subassembly 2, still be equipped with homogeneity cooling intermediate layer 12 before broken induction impeller 11, homogeneity cooling intermediate layer 12 connects the discharge gate.

The first axis of rotation of the homogenizing assembly 2 is arranged in horizontal direction. The first rotating shaft extends along the length direction of the homogenizing assembly, so that the homogenizing assembly is also arranged in the horizontal direction.

The homogeneous cooling interlayer 12 is a homogeneous liquid cooling interlayer 12 which is arranged outside the wall surface of the conveying channel in front of the comb-shaped tooth impeller 10 along the conveying direction of the homogeneous assembly 2 and can cool the conveying channel.

Liquid can adopt cold water or cold oil, through setting up the homogeneity liquid cooling intermediate layer, can cool down the mixture in the transfer passage, improves its effect in follow-up stirring and emulsification.

The homogenizing assembly 2 has at least two discharge ports, one of which is connected to the inlet of the emulsifying tank through an external circulation pipe 14, and the other discharge port is vacant as a discharge port 15.

The homogenizing assembly 2 has at least two feeding ports, one of which is connected with the inlet of the pretreatment tank 1, and the other is connected with the feed hopper 16.

The comb-teeth impeller 10 is a ring gear extending along the axial direction, wood comb-teeth 17 are uniformly distributed on the ring gear, a crushing induction impeller 11 is arranged on the inner wall of the ring gear, and the crushing induction impeller 11 is a comb-teeth impeller fixedly connected with the inner wall of the ring gear and extending along the radial direction of the ring gear.

The periphery of the comb-shaped tooth impeller is also provided with comb-shaped prisms 18 which can be matched with the comb-shaped tooth impeller and are fixed on the inner wall of the homogenizing component and are smaller than the wood comb-shaped teeth 17.

Example 2

As shown in fig. 1 to 3, the workbench includes a base 19 and a cabinet 20 disposed on the base, the base 19 is rectangular, a working space 21 is reserved in the cabinet 20 along the length direction and the width direction of the base 19, a node of the working space is reserved in the width direction, and the cabinet 20 is inwardly recessed to form a first wall surface 22 along the length direction of the base 19 and a second wall surface 23 forming an included angle of 120 degrees with the first wall surface 22.

The emulsification tank is arranged on the wall surface of the included angle area formed by the combination of the first wall surface 22 and the second wall surface 23.

The base 19 is provided with a cut-out form in which the first wall surface 22 and the second wall surface 23 face the right angle formed by the lengthwise side and the widthwise side of the base 19.

An operation interface 3 is provided on the upper surface of the cabinet corresponding to the wall surface of the cabinet 20 in the longitudinal direction to which the second wall surface 23 is joined.

An electric control cabinet 24 for placing a controller is arranged at the extension of the cabinet body 20 combined with the second wall surface 23 in the length direction.

Example 3

As shown in fig. 1 to 3, the emulsification tank includes a tank body 25 and a second rotating shaft 26 disposed on one side of an opening of the tank body 25, a cover body 6 capable of rotating around the second rotating shaft 26 and laterally covering the tank body 25 is disposed on the second rotating shaft 26, a top end of a hydraulic rod 27 is connected to a lower surface of a joint of the cover body 6 and the second rotating shaft 26, and a bottom end of the hydraulic rod 27 is disposed on a side surface of the tank body 25.

The cover body 6 is provided with a through hole, the third rotating shaft 28 penetrates through the cover body 6 to be connected with the stirring paddle 5 arranged in the tank body 25, and the part of the third rotating shaft 28, which is exposed out of the cover body 6, is connected with the second motor 7 positioned on the upper surface of the cover body 6.

The stirring paddle 5 is a V-shaped stirring paddle.

Example 4

As shown in fig. 5 and 6, the third rotating shaft 28 is connected to the axisymmetric center of the V-shaped stirring blade of the emulsification tank, the outer side surface of each side of the V-shaped stirring blade is provided with a protruding shaft-shaped wall scraping plate mounting seat 29 extending along the length direction of each side, and a bidirectional wall scraping plate 30 is mounted on the wall scraping plate mounting seat 29.

The mounting end of the shaft type wall scraping plate mounting seat is also provided with a limiting part 31 for preventing the bidirectional wall scraping plate from being excessively turned over, so that the wall scraping of the inner wall of the tank body can be realized in a limiting interval.

The middle part of the scraper mounting seat 29 is provided with a bulge 32 with a diameter larger than the axial diameter, the inner wall of a mounting hole 33 of the bidirectional scraper is provided with a clamping groove (not shown) capable of being matched with the bulge, and the protruding height of the bulge 32 is larger than the recessed depth of the clamping groove.

The both ends of V type stirring rake still are equipped with along jar extension of body direction of height, and the surface of extension also is equipped with the two-way wall scraping plate of scraping the wallboard mount pad and with scraping wallboard mount pad complex.

The bidirectional wall scraping plate comprises a nesting part capable of being nested on the wall scraping plate mounting seat, and a bidirectional wall scraping plate 30 which is integrally formed with the nesting part and has a trapezoidal cross section, wherein the nesting part is provided with a mounting hole 33.

Claims

1. A small-size extrinsic cycle formula emulsion machine which characterized in that: comprises a workbench, a pretreatment tank is arranged in the workbench, the pretreatment tank is connected with a homogenizing assembly arranged outside the workbench, the outlet of the homogenizing assembly is connected with an emulsifying tank outside the workbench, the bottom discharge port of the emulsifying tank is connected with the homogenizing assembly, the upper surface of the workbench is also provided with an operation interface capable of controlling the state of each assembly, a stirring impeller in the pretreatment tank is connected with a first motor extending out of the upper surface of the workbench, a stirring paddle is arranged in the emulsifying tank and connected with a second motor arranged on the upper surface of an emulsifying tank cover body, the side wall of the homogenizing assembly is provided with a third motor connected with a first rotating shaft in the homogenizing assembly, the three motors are all connected with a controller, the controller is connected with the operation interface, the homogenizing assembly comprises a comb-tooth impeller capable of rotating under the drive of the first rotating shaft and a crushing inducing impeller in the comb-tooth impeller, and a homogenizing cooling interlayer is arranged in front of the crushing inducing impeller along the conveying direction of the homogenizing, the homogeneous cooling interlayer is connected with the discharge hole.

2. The small external circulation type emulsifying machine according to claim 1, wherein: the first rotating shaft of the homogenizing assembly is arranged along the horizontal direction.

3. The small external circulation type emulsifying machine according to claim 1, wherein: the homogeneous cooling interlayer is a homogeneous liquid cooling interlayer which is arranged outside the wall surface of the conveying channel behind the comb-shaped tooth impeller along the conveying direction of the homogeneous assembly and can cool the conveying channel.

4. The small external circulation type emulsifying machine according to claim 1, wherein: the homogenizing assembly has at least two material outlets, one of which is connected to the inlet of the emulsifying tank via an external circulating pipe, and the other material outlet is vacant as the material outlet.

5. The small external circulation type emulsifying machine according to claim 1, wherein: the feed inlet of homogeneity subassembly is two at least, and one of them feed inlet is connected the import of preliminary treatment jar, and another feed inlet is connected the feeder hopper.

6. The small external circulation type emulsifying machine according to any one of claims 1 to 4, wherein: the comb-tooth impeller is a ring gear extending along the axial direction, wood comb-tooth teeth are uniformly distributed on the ring gear, a crushing induction impeller is arranged on the inner wall of the ring gear, and the crushing induction impeller is a comb-tooth impeller fixedly connected with the inner wall of the ring gear and extending along the radial direction of the ring gear.

7. The small external circulation type emulsifying machine according to claim 6, wherein: the periphery of the comb-shaped tooth impeller is also provided with a comb-shaped prism which can be matched with the comb-shaped tooth impeller and is fixed on the inner wall of the homogenizing assembly and has smaller density relative to the comb-shaped teeth.

8. The small external circulation type emulsifying machine according to claim 1, wherein: the workstation includes the base and sets up the cabinet body on the base, and the base is the rectangle, and the cabinet body is along the length direction and the width direction of base and all reserves the work interval, from the node that the work interval was reserved to the width direction, and the cabinet body is inwards sunken to be set up and is personally submitted the second wall at 120 contained angles along base length direction's first wall and with first wall.

9. The small external circulation type emulsifying machine according to claim 8, wherein: the emulsification tank is arranged on the wall surface of an included angle area formed by the combination of the first wall surface and the second wall surface.

10. The small external circulation type emulsifying machine according to claim 8, wherein: the base is provided with a notch angle form in the direction of the first wall surface and the second wall surface, wherein the right angle formed by the length direction side and the width direction side of the base is arranged in the notch angle form.

11. The small external circulation type emulsifying machine according to claim 8, wherein: an operation interface is arranged on the upper surface of the cabinet body corresponding to the wall surface in the length direction of the cabinet body combined with the second wall surface.

12. The small external circulation type emulsifying machine according to claim 8, wherein: and an electric control cabinet for placing a controller is arranged at the extending position of the cabinet body combined with the second wall surface in the length direction.

13. The small external circulation type emulsifying machine according to claim 1, wherein: the emulsification tank comprises a tank body and a second rotating shaft arranged on one side of an opening of the tank body, a cover body which can rotate around the second rotating shaft and cover the tank body in a side direction is arranged on the second rotating shaft, the lower surface of the joint of the cover body and the second rotating shaft is connected with the top end of a hydraulic rod, and the bottom end of the hydraulic rod is arranged on the side face of the tank body.

14. The small external circulation type emulsifying machine according to claim 13, wherein: the cover body is provided with a through hole, the third rotating shaft penetrates through the cover body to be connected with a stirring paddle arranged in the tank body, and the part of the third rotating shaft, which is exposed out of the cover body, is connected with a second motor positioned on the upper surface of the cover body.

15. The small external circulation type emulsifying machine according to claim 14, wherein: the stirring paddle is a V-shaped stirring paddle.

16. The small external circulation type emulsifying machine according to claim 15, wherein: the third rotating shaft is connected to the axisymmetric center of the V-shaped stirring paddle, a protruding axial wall scraping plate mounting seat extending along the length direction of each side is arranged on the outer side surface of each side of the V-shaped stirring paddle, and a bidirectional wall scraping plate is mounted on the wall scraping plate mounting seat.

17. The small external circulation type emulsifying machine according to claim 16, wherein: the middle part of the wall scraping plate mounting seat is provided with a bulge larger than the axial diameter, the inner wall of a mounting hole of the bidirectional wall scraping plate is provided with a clamping groove matched with the bulge, and the protruding height of the bulge is larger than the recessed depth of the clamping groove.

18. The small external circulation type emulsifying machine according to claim 16, wherein: the both ends of V type stirring rake still are equipped with along jar extension of body direction of height, and the surface of extension also is equipped with the two-way wall scraping plate of scraping the wallboard mount pad and with scraping wallboard mount pad complex.

19. The small external circulation type emulsifying machine according to any one of claims 16 to 18, wherein: the bidirectional wall scraping plate comprises a nesting part which can be nested on the wall scraping plate mounting seat, and a bidirectional wall scraping plate with a trapezoidal cross section which is integrally formed with the nesting part, wherein the nesting part is provided with a mounting hole.