CN216125471U

CN216125471U - Multi-level powder emulsification tank

Info

Publication number: CN216125471U
Application number: CN202121428722.9U
Authority: CN
Inventors: 喻晓; 陈伟; 喻新堂; 黄邦华
Original assignee: Jiangxi Province Sankang Health Co ltd
Current assignee: Jiangxi Province Sankang Health Co ltd
Priority date: 2021-06-26
Filing date: 2021-06-26
Publication date: 2022-03-25
Anticipated expiration: 2031-06-26

Abstract

The utility model provides a multi-level powder emulsifying tank which comprises a fixed cylinder, a heat-insulating cylinder, a heated cylinder, a heat-insulating plate and an emulsifying mechanism, wherein the heat-insulating cylinder is arranged on the inner wall of the fixed cylinder in a matched manner, the heated cylinder is sleeved at the top of the heat-insulating cylinder, the heat-insulating plate is fixed at the top of the inner wall of the heated cylinder, and the emulsifying mechanism is arranged on the fixed cylinder and the heated cylinder. According to the utility model, the stirring blocks on the fixed plate rotate in the gaps between the mixing blocks at the bottom of the rotating disc, raw materials can be stirred, sheared, rubbed, extruded and the like in the mixing blocks and the stirring blocks, and the two raw materials are quickly and uniformly emulsified, so that the emulsifying device has the advantages of uniform emulsification and high emulsifying efficiency.

Description

Multi-level powder emulsification tank

Technical Field

The utility model relates to the technical field of emulsification, in particular to a multi-level powder emulsification tank.

Background

Emulsification is the action of uniformly dispersing one liquid in another liquid which is not mutually soluble in a way of extremely tiny droplets to form emulsion;

the emulsifying tank is equipment for emulsifying two liquids, and the conventional liquid health-care products are usually emulsified by using the emulsifying tank;

at present, the emulsification tank is generally through the motor high speed stirring raw materials, makes the raw materials produce huge centrifugal force, and two kinds of raw materials mix the emulsification together, owing to only can singly play the effect of stirring the raw materials, can't cut the raw materials, smash, effect such as extrusion, friction, have the emulsification inefficiency, emulsify uneven problem, consequently need provide one kind and can cut the raw materials, smash, extrude, friction and stirring effect, make the even emulsification tank of raw materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of low emulsification efficiency, uneven emulsification and the like in the prior art because the prior art can only play a role of stirring raw materials singly and cannot perform the functions of shearing, crushing, extruding, rubbing and the like on the raw materials, thereby providing a multi-layer powder emulsification tank.

In order to achieve the purpose, the utility model adopts the following technical scheme: a multi-level powder emulsifying tank comprises a fixed cylinder, a heat-insulating cylinder, a heated cylinder, a heat-insulating plate and an emulsifying mechanism, wherein the heat-insulating cylinder is arranged on the inner wall of the fixed cylinder in a matched manner, the heated cylinder is sleeved at the top of the heat-insulating cylinder, the heat-insulating plate is fixed at the top of the inner wall of the heated cylinder, and the emulsifying mechanisms are arranged on the fixed cylinder and the heated cylinder; the top of heated board and solid fixed cylinder runs through and is fixed with the inlet pipe, and the bottom of solid fixed cylinder, a heat preservation section of thick bamboo and a heated section of thick bamboo runs through and is fixed with the discharging pipe, and one side of solid fixed cylinder and a heat preservation section of thick bamboo runs through and is fixed with steam inlet pipe, and the opposite side of solid fixed cylinder and a heat preservation section of thick bamboo runs through and is fixed with the steam outlet pipe.

Further preferred, emulsification mechanism includes sealed bearing, servo motor, alternating current motor, rolling disc, pivot, helical blade, fixed plate and stirring piece, and two sealed bearings run through respectively and fix the top and the bottom at a heated section of thick bamboo, and the top of a heated section of thick bamboo is fixed with alternating current motor through branch, and the power take off end of alternating current motor bottom passes sealed bearing and fixes the top at the rolling disc, and the bottom of a fixed section of thick bamboo is fixed with servo motor through branch, the power take off end pivot at servo motor top passes sealed bearing and fixes the bottom at the fixed plate, is fixed with helical blade in the pivot, and the top of fixed plate is fixed with a plurality of stirring piece.

Preferably, the bottom of the rotating disc is integrally provided with a plurality of mixing blocks, the middle of the bottom of the rotating disc is integrally provided with a convex disc, and the mixing blocks are arranged in a circle of seven circles to surround the periphery of the convex disc.

Preferably, the outer side of the fixing plate is integrally provided with a plurality of fixing rods, the fixing rods surround the outer side of the fixing plate, and the stirring block is arranged in a circle and eight circles and surrounds the tops of the fixing plate and the fixing rods.

Further preferably, the distance between the stirring block and the mixing block is kept consistent, the eight-circle stirring block and the seven-circle mixing block are spaced and surround between the rotating disc and the fixing plate, the size of the seven-circle mixing block is smaller as the seven-circle mixing block is closer to the convex disc, and the helical blade is positioned right below the fixing plate.

Further preferably, the fixed plate is positioned right below the rotating disc, the heights of the mixing block and the convex disc protruding out of the bottom of the rotating disc are kept consistent, and the horizontal vertical distance between the mixing block and the fixed plate is kept consistent with the distance between the stirring block and the fixed plate.

Further preferably, the distance between the fixed cylinder and the heated cylinder is kept consistent, the distance between the fixed cylinder and the heated cylinder is larger than the thickness of the heat-insulating cylinder, and one of the sealing bearings penetrates through the bottoms of the fixed cylinder, the heat-insulating cylinder and the heated cylinder.

Further preferably, the screw cap is sleeved on the equal screw thread of one end of the inlet pipe, the outlet pipe, the steam inlet pipe and the steam outlet pipe, the heat-insulating cylinder and the heat-insulating plate are made of bakelite, the heat conductivity coefficient is less than 0.2, and the thickness of the heat-insulating cylinder and the thickness of the heat-insulating plate are kept consistent.

The utility model has the beneficial effects that: stirring piece on the fixed plate is in the rotation in clearance between the mixing piece of rolling disc bottom, the raw materials can stir the raw materials at mixing piece and stirring piece, cut, the friction, effect such as extrusion, with the quick even emulsification of two kinds of raw materials, and the interval between mixing piece and the stirring piece is very little, the emulsification efficiency and the effect of increase raw materials that can be further, it is even to have the emulsification, the efficient advantage of emulsification, fixed plate and rolling disc antiport, make mixing piece and stirring piece pivoted direction inconsistent, the relative speed of mixing piece and stirring piece is very big, further make the raw materials at the quick even emulsification of mixing piece and stirring piece, it is efficient to have the emulsification, the even advantage of emulsification.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a rotating disk of the present invention;

FIG. 3 is a schematic view of the structure of the rotary disk of the present invention;

FIG. 4 is a schematic view of the distribution of the stirring bar of the present invention.

In the figure: the device comprises a fixed cylinder 1, a heat insulation cylinder 2, a heated cylinder 3, a heat insulation plate 4, a sealing bearing 5, a servo motor 6, an alternating current motor 7, a feeding pipe 8, a discharging pipe 9, a steam inlet pipe 10, a steam outlet pipe 11, a rotating disc 12, a rotating shaft 13, a spiral blade 14, a fixed plate 15 and a stirring block 16.

Detailed Description

Referring to fig. 1-4, a multi-level powder emulsifying tank comprises a fixed cylinder 1, a heat-insulating cylinder 2, a heated cylinder 3, a heat-insulating plate 4 and an emulsifying mechanism, wherein the heat-insulating cylinder 2 is arranged on the inner wall of the fixed cylinder 1 in a matched manner, the heated cylinder 3 is sleeved at the top of the heat-insulating cylinder 2, the heat-insulating plate 4 is fixed at the top of the inner wall of the heated cylinder 3, and the emulsifying mechanisms are arranged on the fixed cylinder 1 and the heated cylinder 3; the top of heated board 4 and solid fixed cylinder 1 runs through and is fixed with inlet pipe 8, and solid fixed cylinder 1, a heat preservation section of thick bamboo 2 run through with the bottom of a heated section of thick bamboo 3 and be fixed with discharging pipe 9, and one side of solid fixed cylinder 1 and a heat preservation section of thick bamboo 2 runs through and is fixed with steam and advances pipe 10, and the opposite side of solid fixed cylinder 1 and a heat preservation section of thick bamboo 2 runs through and is fixed with steam exit tube 11.

Preferably, the interval between a fixed section of thick bamboo 1 and the section of thick bamboo 3 that is heated keeps unanimous, and the interval between a fixed section of thick bamboo 1 and the section of thick bamboo 3 that is heated is greater than the thickness of a section of thick bamboo 2 that keeps warm, and one of them sealed bearing 5 runs through a fixed section of thick bamboo 1, a section of thick bamboo 2 and the bottom of the section of thick bamboo 3 that is heated, can fill steam between a section of thick bamboo 2 and the fixed section of thick bamboo 1 that keeps warm, and steam can heat a section of thick bamboo 3 that is heated, makes the even quick being heated of a heating cylinder 3.

Preferably, the equal screw thread of one end of inlet pipe 8, discharging pipe 9, steam inlet pipe 10 and steam outlet pipe 11 has cup jointed the screw cap, and a heat preservation section of thick bamboo 2 and heated board 4 are the bakelite material, and coefficient of heat conductivity is less than 0.2, and the thickness of a heat preservation section of thick bamboo 2 and heated board 4 keeps unanimous, and a heat preservation section of thick bamboo 2 and heated board 4 have fine thermal-insulated ability, reduces the thermal loss in a fixed section of thick bamboo 1 inside, makes the raw materials fine being heated and keeping warm in being heated section of thick bamboo 3.

In this embodiment, emulsification mechanism includes sealed bearing 5, servo motor 6, alternating current motor 7, rolling disc 12, pivot 13, helical blade 14, fixed plate 15 and stirring piece 16, two sealed bearing 5 run through respectively to be fixed at the top and the bottom of a heated section of thick bamboo 3, the top of a heated section of thick bamboo 3 is fixed with alternating current motor 7 through branch, the power take off end of alternating current motor 7 bottom passes sealed bearing 5 and fixes the top at rolling disc 12, the bottom of a fixed section of thick bamboo 1 is fixed with servo motor 6 through branch, the power take off end pivot 13 at servo motor 6 top passes sealed bearing 5 and fixes the bottom at fixed plate 15, be fixed with helical blade 14 on the pivot 13, the top of fixed plate 15 is fixed with a plurality of stirring piece 16.

Preferably, the bottom integration of rolling disc 12 is provided with a plurality of and mixes the piece, the centre integration of rolling disc 12 bottom is provided with the protruding dish, it is equipped with seven circles altogether and encircles the periphery at the protruding dish to mix the piece round, mix piece and protruding dish integration setting on rolling disc 12, rolling disc 12 is whole directly to be processed into the shape of mixing piece and protruding dish with the bottom of rolling disc 12 through cutting digit control machine tool, the messenger need not follow-up process welding, it is very firm that the piece is mixed, protruding dish and rolling disc 12 integration set up the structure, long service life has, the convenient advantage of manufacturing.

Preferably, the outside integration of fixed plate 15 is provided with a plurality of dead levers, and the dead lever encircles in the outside of

fixed plate

15, and 16 rounds of stirring piece are equipped with eight circles altogether and encircle at the top of fixed plate 15 and dead lever, and dead lever and fixed plate 15 integration set up, can directly fix plate 15 and become the dead lever through the cutting process in the periphery, make dead lever and fixed plate 15 whole as an organic whole need not fixed mounting work, also can make dead lever and fixed plate 15 structure very firm.

Preferably, the distance between the stirring block 16 and the mixing block is kept consistent, eight circles of stirring blocks 16 and seven circles of mixing blocks are spaced and surround between the rotating disc 12 and the fixing plate 15, the size of the seven circles of mixing blocks is smaller as the seven circles of mixing blocks are closer to the convex disc, the spiral blade 14 is positioned right below the fixing plate 15, and the stirring block 16 rotates rapidly at the gap of the mixing blocks, so that raw materials are sheared, rubbed, extruded, crushed and stirred between the stirring block 16 and the mixing blocks, and the raw materials are emulsified uniformly and rapidly.

Preferably, the fixed plate 15 is located right below the rotating disc 12, the height of the mixing block and the height of the convex disc protruding out of the bottom of the rotating disc 12 are kept consistent, the horizontal vertical distance between the mixing block and the fixed plate 15 is kept consistent with the distance between the stirring block 16 and the fixed plate 15, and the fixed plate 15 and the rotating direction are opposite, so that the relative rotating speed between the stirring block 16 and the mixing block is very high, and the raw materials are quickly emulsified and uniformly between the stirring block 16 and the mixing block.

Wherein, the helical blade 14 can roll the raw material from bottom to top, so that the raw material continuously flows to the rotating disc 12 from bottom to top, and the raw material is quickly and uniformly emulsified on the rotating disc 12;

wherein, the sealed bearing 5 is used for connecting the rotating shaft 13 and the fixed cylinder 1;

wherein, the screw cap can be dismantled on inlet pipe 8, discharging pipe 9, the steam advances pipe 10 and steam exit tube 11, and the screw cap plugs up the mouth of pipe of inlet pipe 8, discharging pipe 9, steam advance pipe 10 and steam exit tube 11.

When the device is used, two raw materials are injected into a heated cylinder 3 through a feeding pipe 8, steam is injected through a steam inlet pipe 10 and is discharged through a steam outlet pipe 11, then the power supply of a servo motor 6 and an alternating current motor 7 is switched on, the alternating current motor 7 drives a rotating disc 12 to rotate anticlockwise at a high speed, the servo motor 6 drives a rotating shaft 13 to rotate clockwise at a high speed, the rotating shaft 13 drives a spiral blade 14, a fixing plate 15 and a stirring block 16 to synchronously rotate clockwise at a high speed, the stirring block 16 rotates at a mixing block gap at the bottom of the rotating disc 12, the spiral blade 14 can roll the raw materials from bottom to top, so that the raw materials continuously flow to the rotating disc 12 from bottom to top, the raw materials are sheared, rubbed, extruded, crushed and stirred by the stirring block 16 and the mixing block on the rotating disc 12, the two raw materials are mixed and emulsified together, and the emulsified raw materials are discharged through a discharging pipe.

Claims

1. A multi-level powder emulsification tank is characterized by comprising:

the heat insulation device comprises a fixed cylinder (1), wherein a heat insulation cylinder (2) is arranged on the inner wall of the fixed cylinder (1) in a matched mode, a heated cylinder (3) is sleeved on the top of the heat insulation cylinder (2), and a heat insulation plate (4) is fixed on the top of the inner wall of the heated cylinder (3);

the emulsifying mechanism is arranged on the fixed cylinder (1) and the heated cylinder (3);

the top of heated board (4) and solid fixed cylinder (1) is run through and is fixed with inlet pipe (8), and solid fixed cylinder (1), a heat preservation section of thick bamboo (2) and the bottom of being heated section of thick bamboo (3) are run through and are fixed with discharging pipe (9), and one side of solid fixed cylinder (1) and a heat preservation section of thick bamboo (2) is run through and is fixed with steam and advances pipe (10), and the opposite side of solid fixed cylinder (1) and a heat preservation section of thick bamboo (2) is run through and is fixed with steam exit tube (11).

2. The multi-level powder emulsifying tank of claim 1, wherein the emulsifying mechanism comprises sealing bearings (5), a servo motor (6), an AC motor (7), a rotating disk (12), a rotating shaft (13), helical blades (14), a fixing plate (15) and a stirring block (16), the two sealing bearings (5) are respectively fixed on the top and the bottom of a heated cylinder (3) in a penetrating manner, the AC motor (7) is fixed on the top of the heated cylinder (3) through a supporting rod, the power output end of the bottom of the AC motor (7) is fixed on the top of the rotating disk (12) through the sealing bearings (5), the servo motor (6) is fixed on the bottom of the fixing cylinder (1) through a supporting rod, the rotating shaft (13) of the power output end of the top of the servo motor (6) is fixed on the bottom of the fixing plate (15) through the sealing bearings (5), and the helical blades (14) are fixed on the rotating shaft (13), the top of the fixed plate (15) is fixed with a plurality of stirring blocks (16).

3. The multi-layered powder emulsifying tank of claim 2, wherein the bottom of the rotating disk (12) is integrally provided with a plurality of mixing blocks, and the middle of the bottom of the rotating disk (12) is integrally provided with a convex disk.

4. The multi-layered powder emulsifying tank of claim 2, wherein the fixing plates (15) are integrally provided with a plurality of fixing rods around the fixing plates (15).

5. The multi-layered powder emulsification tank as claimed in claim 4, wherein the mixing blocks (16) are uniformly spaced from each other, and eight circles of mixing blocks (16) and seven circles of mixing blocks are spaced around the rotating disk (12) and the fixed plate (15).

6. The multi-layered powder emulsifying tank of claim 3, wherein the fixing plate (15) is located right under the rotating disk (12), and the heights of the mixing block and the convex disk protruding from the bottom of the rotating disk (12) are kept consistent.

7. The multi-level powder emulsifying tank of claim 1, wherein the distance between the fixed cylinder (1) and the heated cylinder (3) is kept consistent, and the distance between the fixed cylinder (1) and the heated cylinder (3) is larger than the thickness of the heat-insulating cylinder (2).

8. The multi-level powder emulsifying tank of claim 1, wherein one end of the feed pipe (8), the discharge pipe (9), the steam inlet pipe (10) and the steam outlet pipe (11) is in threaded sleeve connection with a threaded cover, and the heat-insulating cylinder (2) and the heat-insulating plate (4) are made of bakelite.