CN212188628U - High-viscosity material mixing device - Google Patents

Abstract

The utility model relates to a viscidity material mixing technical field provides a high viscosity material mixing arrangement, aims at that traditional mixing arrangement exists that the system architecture is unsatisfactory, can not satisfy the problem that present mixed technology demand and market required to the product quality, including installing the device shell in the frame, the device shell comprises the jar body and the cover of detachable installation, the bottom of jar body is equipped with the bin outlet, and is equipped with the blow-off valve on the bin outlet, and the inner chamber middle part of jar body is provided with circular arc lance formula rabbling mechanism and aerial fog cooling high speed rabbling mechanism, and the interior bottom of jar body is equipped with the homogeneity mechanism; the aerial fog cooling high-speed stirring mechanism comprises a high-speed stirring main shaft, the upper end of the high-speed stirring main shaft penetrates through the supporting bearing seat and then is installed at the output end of the stirring motor I, and the lower end of the high-speed stirring main shaft is fixedly sleeved with a plurality of dispersion discs. The utility model discloses be particularly useful for the high-efficient mixture of high viscosity liquid, solid material, have higher social use value and application prospect.

Description

High-viscosity material mixing device

Technical Field

The utility model relates to a viscidity material mixes technical field, concretely relates to high viscosity material mixing arrangement.

Background

When materials with certain viscosity such as chemical emulsion, liquid additive, toothpaste, cream cosmetics, medicine cream and the like are manufactured, the liquid materials and the solid materials are kneaded, dissolved, homogenized, refined, emulsified and ground, and thus the final finished paste is obtained.

The traditional mixing device only mixes the raw materials in the mixing device through matching one tank body with 1-3 sets of stirring systems, and the mixing mechanism system has certain defects and cannot meet the requirements of the current latest mixing process and the high product quality in the market. Although conventional mixing can be realized, the mixing system has the following defects due to the imperfect structure:

1. the structure of the mixing system is not ideal, and the elliptical or butterfly-shaped end socket tank body structure adopted by the mixing tank body matched with the mixing system has the defects of serious product material storage (such as large material viscosity, large consistency, high solid content, large specific gravity and poor liquidity), so that the tank body is easy to material, the material needs to be discharged by manual assistance, the cleaning time is longer, more waste is caused, and secondary operation possibly causes pollution to a finished product in the process of improper manual assistance operation;

2. the mixing system has a single structure, cannot realize the optimal mixing and homogenizing effects, cannot meet the market demand and the latest process demand, cannot improve the mixing working efficiency, and has lower production efficiency;

3. because the mixing needs high-speed rotation, high-speed rotation produces the friction heat, and the more sensitive material of heat sensitivity can influence the quality of material because of high temperature is rotten or burnt solidification, and high temperature can shorten the life of sealing member simultaneously.

To this end, we propose a high viscosity material mixing device.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a high viscosity material mixing arrangement has overcome the not enough of prior art, reasonable in design, and compact structure aims at traditional mixed high viscosity material device to have that system architecture is unsatisfactory, can not satisfy present up-to-date mixed technology demand and market to the problem of product quality requirement.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

a high-viscosity material mixing device comprises a device shell arranged on a rack, wherein the device shell consists of a tank body and a tank cover which are detachably arranged, the bottom of the tank body is provided with a discharge port, a discharge valve is arranged on the discharge port, the middle part of an inner cavity of the tank body is provided with an arc spear type stirring mechanism and an aerosol cooling high-speed stirring mechanism, and the inner bottom of the tank body is provided with a homogenizing mechanism;

the aerosol cooling high-speed stirring mechanism comprises a high-speed stirring main shaft arranged in an inner cavity of the tank body, the upper end of the high-speed stirring main shaft penetrates through a supporting bearing seat and then is installed at the output end of a stirring motor I, a plurality of dispersion discs are fixedly sleeved at the lower end of the high-speed stirring main shaft, an aerosol cooling annular nozzle, a lower supporting bearing, a self-lubricating dry friction mechanical seal, a mechanical seal seat and an outer seal sleeve are sequentially arranged between the lower part of the supporting bearing seat and the high-speed stirring main shaft from top to bottom, the upper end of the aerosol cooling annular nozzle penetrates through the supporting bearing seat and then is connected with a pressure and flow regulating assembly, and the pressure;

the homogenizing mechanism comprises a homogenizing main shaft, a rotor and a stator which are arranged at the lower part of the inner cavity of the tank body, one end of the homogenizing main shaft is arranged at the output end of the homogenizing motor through a supporting seat of the homogenizing mechanism, the homogenizing motor is installed on the bottom wall of the tank body, the other end of the homogenizing main shaft is connected with the rotor, the rotor is of a conical bevel gear structure, the stator is of an inverted cone structure, the rotor is matched with the stator, a sealed cavity containing shell is arranged between the rotor and the homogenizing mechanism supporting seat, a round platform homogenizing cavity is arranged in the middle of the sealed cavity containing shell, the stator is fixedly connected with the sealed cavity containing shell, a feed inlet for material entering is formed in the circumferential direction of the sealed cavity containing shell, a cold water inlet and a cold water outlet are formed in the homogenizing mechanism supporting seat, the cold water outlet is communicated with the outer circulation condensing jacket water tank through a water outlet pipeline, a cooling circulating pump is arranged in the outer circulation condensing jacket water tank, and.

Further, circular arc lance formula rabbling mechanism is including rotating to insert the stirring main shaft of establishing on the cover, and the upper end of stirring main shaft is installed on the output of agitator motor II, and agitator motor II is installed on the roof of cover, and the lower extreme of stirring main shaft extends to the inner chamber of the jar body and installs the circular lance frame stirring rake, and circular lance frame stirring rake is W type structure, it has movable edge scraping scraper to articulate on the paddle of circular lance frame stirring rake, the stirring main shaft is located one section upper portion of jar internal chamber and still overlaps and be equipped with the material and push down flap fretwork oar.

Furthermore, a heat exchange gas exhaust damping muffler is also arranged on the supporting bearing seat.

Further, circular arc lance formula rabbling mechanism and homogeneity mechanism all set up on the central axis of jar body inner chamber.

Further, the high-speed stirring mechanism of aerial fog cooling is equipped with two sets, and symmetrical respectively sets up in the both sides of jar body inner chamber, and the high-speed stirring main shaft and a plurality of dispersion impeller in two sets of aerial fog cooling high-speed stirring mechanism all have the difference in height.

Furthermore, a homogenizing mechanism bearing is sleeved on one section of the homogenizing main shaft, which is positioned at the lower part of the sealed cavity shell.

(III) advantageous effects

The embodiment of the utility model provides a high viscosity material mixing arrangement possesses following beneficial effect:

1. the utility model discloses mix high-efficient, homogeneity, ensure that the material mixes the dead angle, and jar body bottom can not the knot material, takes away the friction heat that produces after high-speed operation through aerial fog cooling, has reduced high-speed axle running temperature, has solved the unsatisfactory problem of mixing that common equipment high-speed mixing operation produced.

2. The utility model discloses the heat transfer of having avoided the friction to produce is for the stirring rake and scrape the wall oar surface and lead to scorching the material, avoids partial heat sensitivity product to be rotten or burnt solidification because of the high temperature, has guaranteed product quality, has prolonged the life of device.

Drawings

The above features, technical characteristics, advantages and modes of realisation of a high-viscosity material mixing device will be further described in the following, in a clearly understandable manner, with reference to the accompanying drawings, which illustrate preferred embodiments.

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

FIG. 2 is a schematic structural view of a middle arc spear type stirring mechanism of the present invention;

FIG. 3 is a schematic structural view of the high-speed stirring mechanism for cooling the gas mist of the present invention;

fig. 4 is a partial enlarged view of fig. 3 according to the present invention;

fig. 5 is a top view of the dispersion plate of the present invention;

fig. 6 is a schematic structural view of the homogenizing mechanism of the present invention;

fig. 7 is a top view of a rotor according to the present invention;

fig. 8 is a top view of the stator of the present invention.

In the figure: a tank body 1;

a tank cover 2;

a circular arc spear type stirring mechanism 3; 3.1 of a stirring main shaft; a circular lance frame stirring paddle 3.2; a movable edge scraper 3.3; pressing the material downwards by a hinge hollowed-out paddle 3.4;

an aerial fog cooling high-speed stirring mechanism 4; 4.1 of a high-speed stirring main shaft; a bearing block 4.2; 4.3 of a stirring motor; a dispersion disc 4.4; an aerosol cooling annular nozzle 4.5; a lower support bearing 4.6; self-lubricating dry friction mechanical seal 4.7; a mechanical seal seat 4.8; an outer sealing sleeve 4.9; a pressure and flow regulating assembly 4.10; the heat exchange gas is discharged out of the damping muffler 4.11;

a homogenizing mechanism 5; a homogenizing main shaft 5.1; a rotor 5.2; a stator 5.3; a homogenizing mechanism supporting seat 5.4; a homogenizing motor 5.5; a sealed cavity shell 5.6; a feed port 5.7; a water outlet pipeline 5.8; an external circulation condensation jacket water tank 5.9; homogenizing mechanism bearing 5.10.

Detailed Description

The invention will be further described with reference to the following figures 1-8 and examples:

a high-viscosity material mixing device comprises a device shell arranged on a rack, wherein the device shell consists of a tank body 1 and a tank cover 2 which are detachably arranged, the bottom of the tank body 1 is provided with a discharge hole, a discharge valve is arranged on the discharge hole, the middle part of an inner cavity of the tank body 1 is provided with an arc spear type stirring mechanism 3 and an air mist cooling high-speed stirring mechanism 4, and the inner bottom of the tank body 1 is provided with a homogenizing mechanism 5;

in this embodiment, as shown in fig. 3-5, the aerosol cooling high-speed stirring mechanism 4 includes a high-speed stirring main shaft 4.1 disposed in the inner cavity of the tank body 1, the upper end of the high-speed stirring main shaft 4.1 passes through a supporting bearing seat 4.2 and is then mounted on the output end of the stirring motor i 4.3, the lower end of the high-speed stirring main shaft 4.1 is fixedly sleeved with a plurality of dispersion discs 4.4, an aerosol cooling annular nozzle 4.5, a lower supporting bearing 4.6, a self-lubricating dry friction mechanical seal 4.7, a mechanical seal seat 4.8 and an outer seal sleeve 4.9 are sequentially disposed from top to bottom between the lower part of the supporting bearing seat 4.2 and the high-speed stirring main shaft 4.1, the upper end of the aerosol cooling annular nozzle 4.5 passes through the supporting bearing seat 4.2 and is then connected with a pressure and flow regulating assembly 4.10, and the pressure and flow regulating assembly;

in this embodiment, high-speed stirring main shaft 4.1 carries out high-speed rotation under agitator motor I4.3's drive, drive a plurality of dispersion discs 4.4 high-speed rotations, dissolve the radial dispersion of material at a high speed, simultaneously cooling water is through pressure and flow control subassembly 4.10 regulation back, cool down the cooling to high-speed stirring main shaft 4.1 through aerial fog cooling annular nozzle 4.5, high-speed stirring main shaft 4.1 running temperature has been reduced, solve the problem that old-fashioned vacuum paste machine high-speed mixing operation produced, avoid partial lotion because of high temperature rotten or burnt solidification, the product quality is guaranteed, the service life of device has been prolonged.

In the embodiment, as shown in fig. 6-8, the homogenizing mechanism 5 includes a homogenizing main shaft 5.1, a rotor 5.2 and a stator 5.3, which are disposed at the lower part of the inner cavity of the tank 1, one end of the homogenizing main shaft 5.1 is mounted at the output end of the homogenizing motor 5.5 through a homogenizing mechanism supporting seat 5.4, the homogenizing motor 5.5 is mounted at the bottom wall of the tank 1, the other end of the homogenizing main shaft 5.1 is connected with the rotor 5.2, the rotor 5.2 is of a conical bevel gear structure, the stator 5.3 is of an inverted cone structure, the rotor 5.2 is adapted to the stator 5.3, a sealed cavity housing 5.6 is disposed between the rotor 5.2 and the homogenizing mechanism supporting seat 5.4, a circular truncated cone shaped homogenizing cavity is disposed at the middle part of the sealed cavity housing, the stator 5.3 is fixedly connected with the sealed cavity housing 5.6, a feed inlet 5.7 for material to enter is disposed at the circumference of the sealed cavity housing 5.6, a cold water inlet and a cold water outlet are disposed on the homogenizing mechanism supporting seat 5.4, and, the cooling circulating pump is arranged in the external circulation condensation jacket water tank 5.9, a cold water inlet is connected with the input end of the cooling circulating pump through a water inlet pipeline, the cold water inlet is communicated with an external water source through the water inlet pipeline, the water outlet pipeline 5.8 and the cooling circulating pump, the circulating pump is started, cold water is circularly input into the sealed cavity housing 5.6 to cool the homogenizing main shaft 5.1, friction heat generated after high-speed operation is taken away through circulating cooling, the operation temperature of the homogenizing main shaft 5.1 is reduced, and the cooling effect is guaranteed.

It can be understood that, in this embodiment, the input and output cold water are pure water, which ensures the cleanness of the device.

In this embodiment, homogeneity motor 5.5 starts, and homogeneity main shaft 5.1 drives rotor 5.2 and rotates, and the material gets into and is the axial umbelliform blowout by stator 5.3 through the junction of rotor 5.2 and stator 5.3 from feed inlet 5.7, mixes high-efficiently, homogeneity, and makes jar body 1 bottom can not the caking material.

In this embodiment, as shown in fig. 2, the circular arc spear type stirring mechanism 3 includes a stirring main shaft 3.1 rotatably inserted on the tank cover 2, the upper end of the stirring main shaft 3.1 is installed on the output end of the stirring motor ii, the stirring motor ii is installed on the top wall of the tank cover 2, the lower end of the stirring main shaft 3.1 extends to the inner cavity of the tank body 1 and is installed with a circular spear frame stirring paddle 3.2, the circular spear frame stirring paddle 3.2 is of a W-shaped structure, a movable edge scraping knife 3.3 is hinged on a blade of the circular spear frame stirring paddle 3.2, the upper part of the stirring main shaft 3.1 at one section of the inner cavity of the tank body 1 is further sleeved with a material downward-pressing flap hollowed-out paddle 3.4 to prevent the material from climbing along the stirring main shaft 3.1 in a funnel;

in this embodiment, stirring motor II starts, drives stirring main shaft 3.1 and rotates, combines the circle lance frame stirring rake 3.2 that sets up on the stirring main shaft 3.1 to carry out the efficient stirring to the material, and cooperation activity edge scraping scraper 3.3's setting promotes jar wall material heat exchange, drives the interior material of jar and does not have the dead angle stirring.

In this embodiment, as shown in fig. 4, the supporting bearing seat 4.2 is further provided with a heat exchange gas exhaust damping muffler 4.11, and the heat exchange gas exhaust damping muffler 11 performs gas flow exchange to guide frictional heat exchange exhaust, thereby ensuring product quality and prolonging the service life of the device.

In this embodiment, as shown in fig. 1, circular arc lance formula rabbling mechanism 3 and homogeneity mechanism 5 all set up on the central axis of jar body 1 inner chamber, ensure that jar body 1 interior material realizes no dead angle stirring homogeneity effect under circular arc lance formula rabbling mechanism 3 and homogeneity mechanism 5's effect.

In this embodiment, as shown in fig. 1, the high-speed stirring mechanism 4 for aerial fog cooling is provided with two sets, and is symmetrically arranged on both sides of the inner cavity of the tank body 1 respectively, and the high-speed stirring main shaft 4.1 and the plurality of dispersion discs 4.4 in the two sets of high-speed stirring mechanism 4 for aerial fog cooling all have height differences, so as to ensure that the materials in the tank body 1 are dissolved at a high speed and are radially dispersed, and the high-speed stirring main shaft 4.1 and the plurality of dispersion discs 4.4 have height differences, so that the radial dispersion capability of the materials is improved, and the mixing effect is.

In this embodiment, as shown in fig. 6, a section of the homogenizing main shaft 5.1 located at the lower portion of the sealed cavity housing 5.6 is sequentially sleeved with bearings 5.10 sleeved with the homogenizing mechanism from top to bottom, so that on one hand, the sealing effect can be effectively ensured, on the other hand, friction can be reduced, and the mixing efficiency can be improved.

The utility model discloses based on above-mentioned high viscosity material mixing arrangement processes the concrete step of high viscosity material as follows:

step one, opening the tank cover 2, feeding high-viscosity materials, and combining the tank cover 2 and the tank body 1 to close and seal after feeding is finished;

step two, switching on a power supply, wherein a stirring main shaft 3.1 of the circular arc spear type stirring mechanism 3 is matched with a circular spear frame stirring paddle 3.2 to drive the material in the tank body 1 to be stirred in a circumferential main mode, and a movable edge scraping knife 3.3 hinged to a blade 3.2 of the circular spear frame stirring paddle promotes the material heat exchange of the tank wall to drive the material in the tank to be stirred without dead angles;

thirdly, the high-speed stirring main shaft 4.1 of the two sets of aerial fog cooling high-speed stirring mechanisms 4 drives the plurality of dispersion discs 4.4 to rotate at a high speed, materials are dissolved at a high speed and are dispersed radially, cooling water cools the high-speed stirring main shaft 4.1 through an aerial fog cooling annular nozzle 4.5, and the cooling water discharges a damping silencer 4.11 through heat exchange gas to exchange air flow and guide friction heat exchange to discharge;

fourthly, the material at the bottom of the tank body 1 enters a feeding hole 5.7 which is arranged on the circumference of a sealed cavity shell 5.6 in the homogenizing mechanism 5, the material is sprayed out in an umbrella shape upwards through the high-speed rotation of a rotor 5.2 by matching the conical bevel gear structure of the rotor 5.2 with the inverted cone structure of a stator 5.3, and a cold water inlet and a return outlet cool the rotor 5.2 by circulating water under the drive of a circulating pump;

and step five, after the high-viscosity materials are mixed, opening a discharge valve, and discharging the high-viscosity materials through a discharge hole.

According to the high-viscosity material mixing device and the method for processing the high-viscosity material based on the high-viscosity material mixing device, the high-efficiency and homogeneous mixing is realized, the dead angle of material mixing is ensured, the material can not be formed at the bottom of the tank body, the friction heat generated after high-speed operation is taken away through aerial fog cooling, the high-speed shaft operation temperature is reduced, and the problem of unsatisfactory mixing generated by high-speed mixing operation of common equipment is solved; the problem that the heat generated by friction is transferred to the stirring paddle and the surface of the wall scraping paddle to cause scorching of materials is avoided, the phenomenon that part of thermosensitive products are deteriorated or scorched and solidified due to high temperature is avoided, the product quality is ensured, and the service life of the device is prolonged.

The embodiment of the present invention discloses a preferred embodiment, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention according to the above embodiment, and make different extensions and changes, but do not depart from the spirit of the present invention, all of which are within the protection scope of the present invention.

Claims (6)

1. The utility model provides a high viscosity material mixing arrangement, is including installing the device shell in the frame, and the device shell comprises the jar body and the cover of detachable installation, its characterized in that: the bottom of the tank body is provided with a discharge port, the discharge port is provided with a discharge valve, the middle part of the inner cavity of the tank body is provided with an arc spear type stirring mechanism and an aerosol cooling high-speed stirring mechanism, and the inner bottom of the tank body is provided with a homogenizing mechanism;

the aerosol cooling high-speed stirring mechanism comprises a high-speed stirring main shaft arranged in an inner cavity of the tank body, the upper end of the high-speed stirring main shaft penetrates through a supporting bearing seat and then is installed at the output end of a stirring motor I, a plurality of dispersion discs are fixedly sleeved at the lower end of the high-speed stirring main shaft, an aerosol cooling annular nozzle, a lower supporting bearing, a self-lubricating dry friction mechanical seal, a mechanical seal seat and an outer seal sleeve are sequentially arranged between the lower part of the supporting bearing seat and the high-speed stirring main shaft from top to bottom, the upper end of the aerosol cooling annular nozzle penetrates through the supporting bearing seat and then is connected with a pressure and flow regulating assembly, and the pressure;

the homogenizing mechanism comprises a homogenizing main shaft, a rotor and a stator which are arranged at the lower part of the inner cavity of the tank body, one end of the homogenizing main shaft is arranged at the output end of the homogenizing motor through a supporting seat of the homogenizing mechanism, the homogenizing motor is installed on the bottom wall of the tank body, the other end of the homogenizing main shaft is connected with the rotor, the rotor is of a conical bevel gear structure, the stator is of an inverted cone structure, the rotor is matched with the stator, a sealed cavity containing shell is arranged between the rotor and the homogenizing mechanism supporting seat, a round platform homogenizing cavity is arranged in the middle of the sealed cavity containing shell, the stator is fixedly connected with the sealed cavity containing shell, a feed inlet for material entering is formed in the circumferential direction of the sealed cavity containing shell, a cold water inlet and a cold water outlet are formed in the homogenizing mechanism supporting seat, the cold water outlet is communicated with the outer circulation condensing jacket water tank through a water outlet pipeline, a cooling circulating pump is arranged in the outer circulation condensing jacket water tank, and.

2. A high viscosity material mixing apparatus as defined in claim 1, wherein: circular arc lance formula rabbling mechanism is including rotating to insert the stirring main shaft of establishing on the cover, and the upper end of stirring main shaft is installed on the output of agitator motor II, and agitator motor II is installed on the roof of cover, and the lower extreme of stirring main shaft extends to the inner chamber of the jar body and installs circle lance frame stirring rake, and circle lance frame stirring rake is W type structure, it has the activity to shovel limit scraper to articulate on the paddle of circle lance frame stirring rake, the stirring main shaft is located one section upper portion of jar internal chamber still the cover and is equipped with the material and pushes down flap fretwork oar.

3. A high viscosity material mixing apparatus as defined in claim 1, wherein: and the supporting bearing seat is also provided with a heat exchange gas discharge damping muffler.

4. A high viscosity material mixing apparatus as defined in claim 1, wherein: circular arc lance formula rabbling mechanism and homogeneity mechanism all set up on the central axis of jar body inner chamber.

5. A high viscosity material mixing apparatus as defined in claim 1, wherein: high-speed rabbling mechanism of aerial fog cooling is equipped with two sets, and the symmetry sets up in the both sides of jar internal chamber respectively, and high-speed stirring main shaft and a plurality of dispersion impeller in two sets of aerial fog cooling high-speed rabbling mechanisms all have the difference in height.

6. A high viscosity material mixing apparatus as defined in claim 1, wherein: and a homogenizing mechanism bearing is sleeved on one section of the homogenizing main shaft, which is positioned at the lower part of the sealed cavity shell.

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