CN211134278U - A colloid mill for seasoning homogeneity - Google Patents

Abstract

A colloid mill for homogenizing seasonings comprises a colloid mill support horizontally arranged on the ground, servo motors and colloid mill bodies symmetrically arranged on the upper surface of the colloid mill support and positioned at two ends, and a feeding shell fixedly connected to the colloid mill body, wherein an iron removal device is arranged in the feeding shell; the deironing device includes that the rigid coupling keeps off the ring on the inside conical surface of material loading casing, install the feed bin down on keeping off the ring, the screen cloth of setting on the feed bin under and the magnet subassembly of installation in the feed bin down, the feed bin is inside cavity and upper end open-ended back taper down, the magnet subassembly includes the magnet piece of rigid coupling feed bin inside diapire under, the cover is established at the outside spacer sleeve of magnet piece and becomes holistic bolt with magnet piece and spacer rigid coupling, the magnet piece is round platform shape and its lower surface rigid coupling under on the feed bin diapire, the bolt passes the spacer sleeve top downwards and with magnet piece threaded connection, a plurality of feed openings have been seted up on the feed bin is close to the global of bottom down. The utility model has the advantages of automatically removing iron impurities in the materials.

Description

A colloid mill for seasoning homogeneity

Technical Field

The utility model belongs to the technical field of the technique of equipment of milling and specifically relates to a colloid mill for seasoning homogeneity is related to.

Background

In the current food production process, a colloid mill is usually used for milling beans such as cowpeas or seasonings to form colloid, so that the edible taste is improved. The parts of the colloid mill contacting with the materials are all made of high-strength stainless steel, and have good corrosion resistance and wear resistance, so that the processed materials are pollution-free, sanitary and pure.

The existing colloid mill structure, chinese patent with patent publication number CN206139321U, it discloses a refine colloid mill, including rotating the motor, colloid mill body and material loading casing, the axis of rotation that rotates the motor is vertical upwards to be placed, there is colloid mill body at the rotation motor upper surface rigid coupling, colloid mill body side is equipped with the material discharge pipeline, material discharge pipeline inside is linked together with colloid mill body is inside, the rigid coupling has the material loading casing on the colloid mill body, be equipped with the feed back pipeline perpendicularly on the material discharge pipeline, the feed back pipeline top is put on material loading casing upper shed, be equipped with the feed back pump station on the feed back pipeline, the last one end of keeping away from colloid mill body of material discharge pipeline is equipped with first ball valve.

The above prior art solutions have the following drawbacks: because beans materials such as cowpea, soybean and the like and materials such as seasoning possibly contain iron impurities, if use above-mentioned patent to grind the material into the colloid, the less iron impurities of granule can directly fall into the colloid after milling without milling, influence the edible of food, and the great iron impurities of granule gets into this internal grinding of colloid mill, can damage the colloid mill body, makes equipment damage.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a colloid mill for seasoning homogeneity, which has the advantage of automatically eliminating iron impurities in the material.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a colloid mill for homogenizing seasonings comprises a colloid mill support horizontally arranged on the ground, servo motors and a colloid mill body which are symmetrically arranged on the upper surface of the colloid mill support and located at two ends, and a feeding shell fixedly connected to the colloid mill body, wherein the feeding shell is funnel-shaped, and an iron removal device is arranged inside the feeding shell;

the deironing device includes that the rigid coupling keeps off on the inside conical surface of material loading shell ring, installs lower feed bin, the screen cloth of setting on keeping off the ring under and installs the magnet subassembly in the feed bin down, the feed bin is inside cavity and upper end open-ended back taper down, the magnet subassembly includes the rigid coupling is in magnet piece, cover on the inside diapire of feed bin down establish the outside spacer sleeve of magnet piece and become holistic bolt with magnet piece and spacer sleeve rigid coupling, the magnet piece is round platform shape and its lower surface rigid coupling under on the feed bin diapire, the bolt pass the spacer sleeve top downwards and with magnet piece threaded connection, a plurality of feed openings have been seted up on the global that the feed bin is close to the bottom down.

Through adopting the above technical scheme, the deironing device that this application set up, in the use, the screen cloth that sets up in the material loading casing can filter the bold impurity in the material earlier and smash the material of caking in the material, make its can be better fall into the lower feed bin of screen cloth below in, under the effect of inhaling the iron subassembly, the iron impurity in the material can adsorb on the outside spacer sleeve of magnet piece, the feed opening that the material that does not contain iron impurity can be seted up through the feed bin lower extreme falls into this internal grinding of colloid mill, thereby the rejection of iron impurity has been realized, iron impurity damage colloid mill body has been avoided, or influence food quality.

The utility model discloses further set up to: the upper end opening part rigid coupling of feed bin has the outside chimb that extends of level down, the chimb can be taken and establish keep off the ring upper surface, taking of screen cloth is in on the chimb.

Through adopting above-mentioned technical scheme, the chimb that sets up can make the feed bin take on keeping off the ring to the screen cloth can be pressed on the chimb, convenient better iron nature impurity in getting rid of the material.

The utility model discloses further set up to: the lower surface of the screen is fixedly connected with a plurality of cylindrical rods, the cylindrical rods are distributed along the circumferential direction of the screen, and the convex edge and the baffle ring are provided with insertion holes corresponding to the cylindrical rods.

Through adopting above-mentioned technical scheme, the cylinder pole that sets up can fix a position screen cloth and feed bin, makes things convenient for the screw to twist on keeping off the ring to can prevent that colloid mill from milling the in-process, position between them changes, makes the material that does not screen fall into colloid mill this internal grinding, causes the damage of equipment.

The utility model discloses further set up to: the upper surface of screen cloth and be provided with a plurality of screws along circumference, the screw passes downwards the screen cloth with the chimb with keep off ring threaded connection, keep off and set up corresponding screw hole on the ring.

Through adopting above-mentioned technical scheme, the screw that sets up can subtract screen cloth, feed bin and fender ring connection and become a whole, and at the in-process that the colloid mill milled, because servo motor's vibrations cause breaking away from of screen cloth and feed bin down, the messenger does not fall into colloid mill this internal grinding through the material of screen cloth screening and magnet piece absorption, causes the damage of equipment.

The utility model discloses further set up to: the lower end of the isolation sleeve is fixedly connected with a collecting tank, and the collecting tank is annular and is provided with an opening at the upper end.

Through adopting above-mentioned technical scheme, the collecting vat can be collected and the iron nature impurity of absorption is sheathe in the isolation, prevents scattered the losing and falls down on the feed bin, increases the intensity of labour that the staff cleared up and cleans.

The utility model discloses further set up to: an arc-shaped baffle is inserted into an opening at the upper end of the feeding shell.

Through adopting above-mentioned technical scheme, cowl pegs graft and sets up in the opening part of material loading casing for block, avoid beans material to pour the in-process in the material loading casing and drop.

The utility model discloses further set up to: one side of the arc-shaped baffle plate, which is close to the feeding shell, is fixedly provided with a sliding sleeve which is matched with the opening of the feeding shell in an inserting manner.

Through adopting above-mentioned technical scheme, the sliding sleeve is pegged graft with the opening part of material loading casing, and the sliding sleeve can slide at the opening part of material loading casing to change the position of sliding sleeve, conveniently follow a plurality of positions to material loading in the material loading casing.

To sum up, the utility model discloses a beneficial technological effect does:

1. according to the iron removal device, in the using process, the screen arranged in the feeding shell can filter out large impurities in materials and break materials caked in the materials to enable the large impurities to fall into the feeding bin, under the action of the iron absorption assembly, the iron impurities in the materials can be adsorbed on the isolating sleeve outside the magnet block, the materials without the iron impurities can fall into the colloid mill body through the feeding port formed in the lower end of the feeding bin to be milled, so that the iron impurities are removed, the colloid mill body is prevented from being damaged by the iron impurities, or the food quality is prevented from being influenced;

2. the collecting tank can collect the iron impurities adsorbed on the isolating sleeve, so that scattered impurities are prevented from falling on the discharging bin, and the labor intensity of cleaning and sweeping of workers is increased;

3. utilize sliding connection between sliding sleeve and the material loading casing opening part, be convenient for adjust cowl's position, conveniently pour beans material and seasoning into in the material loading casing from a plurality of positions.

Drawings

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

FIG. 2 is a schematic view embodying a sliding sleeve;

FIG. 3 is a schematic structural diagram of an iron removal device;

FIG. 4 is an exploded schematic view of an embodiment of an iron removal apparatus;

FIG. 5 is a schematic representation of a collection tank.

In the figure, 1, a servo motor; 2. a colloid mill support; 3. a colloid mill body; 4. feeding a shell; 41. an arc-shaped baffle plate; 42. a sliding sleeve; 5. a deironing device; 51. a baffle ring; 511. a threaded hole; 512. a jack; 52. screening a screen; 521. a screw; 522. a cylindrical rod; 53. discharging a bin; 531. a convex edge; 532. a feeding port; 54. a magnet assembly; 541. a magnet block; 542. an isolation sleeve; 5421. collecting tank; 543. and (4) bolts.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a colloid mill for seasoning homogeneity, including servo motor 1, colloid mill support 2, colloid mill body 3, material loading casing 4 and deironing device 5, colloid mill support 2 level sets up subaerial, servo motor 1 and the upper surface at colloid mill support 2 are installed to colloid mill body 3 symmetry, internal interconnect between servo motor 1 and the colloid mill body 3, material loading casing 4 installs on colloid mill body 3, make the material can fall into colloid mill body 3 inside through material loading casing 4 and mill, deironing device 5 is installed in material loading casing 4. During the use, in the staff poured the material into material loading casing 4, through deironing device 5's screening, the material falls into 3 inside mills of colloid mill body and is the gelatineous.

Referring to fig. 1 and 2, material loading casing 4 is hopper-shaped, and its opening is circular, and material loading casing 4 opening part plug-in connection has cowl 41 for avoid material loading in-process material to drop, cowl 41 is close to one side of material loading casing 4 and is fixed with the sliding sleeve 42 with material loading casing 4 opening part plug-in fit, and sliding sleeve 42 cross section is the U type. During the use, sliding sleeve 42 can drive cowl 41 and slide at material loading casing 4 opening part to adjust cowl 41's position, be convenient for pour the material into to material loading casing 4 from a plurality of positions.

Referring to fig. 3 and 4, the iron removing device 5 includes a baffle ring 51, a screen 52, a lower bin 53 and an iron absorption assembly 54, the baffle ring 51 is fixed on the conical surface inside the feeding shell 4, the lower bin 53 is installed on the baffle ring 51, the screen 52 is arranged above the lower bin 53, the iron absorption assembly 54 is arranged in the lower bin 53, the screen 52 can filter out large impurities in the materials and can break the agglomerated materials, the lower bin 53 is hollow and inverted, the upper end of the lower bin is provided with an opening, an outward extending flange 531 is horizontally and fixedly connected to the upper end opening of the lower bin 53, the flange 531 can be lapped on the baffle ring 51, so that the lower bin 53 is installed inside the feeding shell 4, and the screen 52 is arranged inside the feeding shell 4 and can be lapped on the upper surface of the flange 531.

Further, a screw 521 fixedly connecting the screen 52, the feed bin 53 and the baffle ring 51 into a whole is arranged on the upper surface of the screen 52, the screw 521 sequentially penetrates through the screen 52, the feed bin 53 and the baffle ring 51 from top to bottom, the screw 521 is in threaded connection with the baffle ring 51, a threaded hole 511 is arranged on the baffle ring 51, and a plurality of screws 521 are arranged on the circumferential direction of the screen 52; the lower surface of the screen 52 is fixedly connected with a plurality of cylindrical rods 522 in the circumferential direction, the convex edge 531 of the blanking bin 53 and the baffle ring 51 are provided with insertion holes 512 corresponding to the cylindrical rods 522, when the blanking bin 53 and the screen 52 are installed, the blanking bin 53 is firstly lapped on the baffle ring 51, the baffle ring 51 corresponds to the insertion holes 512 arranged on the blanking bin 53, then the cylindrical rods 522 on the lower surface of the screen 52 are correspondingly inserted into the insertion holes 512, and finally, the screws 521 penetrate through the screen 52 and the blanking bin 53 and are screwed on the baffle ring 51, so that the blanking bin 53 and the screen 52 are fixed.

Referring to fig. 4 and 5, the magnet assembly 54 includes a magnet block 541, an isolation sleeve 542 and a fixing member, the magnet block 541 is in a circular truncated cone shape, the lower surface of the magnet block 541 is fixedly connected to the bottom wall inside the lower bin 53, the isolation sleeve 542 is sleeved outside the magnet block 541, the fixing member is arranged at the upper end of the isolation sleeve 542, the isolation sleeve 542 is fixed on the magnet block 541, the fixing member is a bolt 543, which can penetrate through the isolation sleeve 542 from top to bottom to be connected to the magnet block 541 by a thread, and the isolation sleeve 542 can prevent the iron impurities in the material from being directly adsorbed on the magnet block 541, so that the time for cleaning the iron impurities is saved; a feed opening 532 is arranged on the circumferential surface of the feed bin 53 close to the lower end, so that the rejected materials fall into the colloid mill body 3 below for milling.

Further, there is the collecting vat 5421 of collecting ferroic impurity at the lower extreme rigid coupling of separation sleeve 542, and collecting vat 5421 is cyclic annular, and after the work of milling was accomplished, the staff will descend feed bin 53 to take out the back, twist off bolt 543, then upwards take off from magnet piece 541 with separation sleeve 542, then adsorb ferroic impurity on separation sleeve 542 and can fall into in collecting vat 5421, prevent to scatter in feed bin 53 down, cause inconvenience for the sweeping of staff.

The implementation principle of the embodiment is as follows: after the colloid mill body 3 finishes the milling work, a worker firstly removes the screws 521 fixed on the periphery of the upper surface of the screen 52, then takes the screen 52 and the blanking bin 53 out of the feeding shell 4 in sequence, and after taking out, firstly cleans large impurities on the screen 52; immediately, twist off the bolt 543 of feed bin 53 internal fixation on magnet piece 541, upwards take out feed bin 53 down with spacer 542, break away from magnet piece 541's in-process gradually at spacer 542, because the reduction of magnet piece 541 suction, adsorb iron impurity on spacer 542 and can fall into collection groove 5421 gradually, until the staff all takes out feed bin 53 down with spacer 542, spacer 542 surface adsorption's iron impurity can all fall into collection groove 5421 in, then the staff clears up the iron impurity in the collection groove 5421, to the iron impurity of losing in feed bin 53, the staff is clearing up.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a colloid mill for seasoning homogeneity, sets up at colloid mill support (2) subaerial, symmetry setting at colloid mill support (2) upper surface and be located servo motor (1) and colloid mill body (3) and rigid coupling feed housing (4) on colloid mill body (3) at both ends, its characterized in that: the feeding shell (4) is funnel-shaped, and an iron removal device (5) is arranged inside the feeding shell (4);

the iron removing device (5) comprises a baffle ring (51) fixedly connected on the inner conical surface of the feeding shell (4), a lower storage bin (53) arranged on the baffle ring (51), a screen (52) arranged on the lower storage bin (53) and an iron absorbing component (54) arranged in the lower storage bin (53), the lower storage bin (53) is hollow and inverted cone-shaped with an open upper end, the iron-absorbing component (54) comprises a magnet block (541) fixedly connected to the inner bottom wall of the lower storage bin (53), an isolating sleeve (542) sleeved outside the magnet block (541) and a bolt (543) fixedly connecting the magnet block (541) and the isolating sleeve (542) into a whole, the magnet block (541) is in a shape of a circular truncated cone, the lower surface of the magnet block is fixedly connected to the bottom wall of the lower storage bin (53), the bolt (543) downwards passes through the top of the isolation sleeve (542) and is in threaded connection with the magnet block (541), and a plurality of feed openings (532) are formed on the circumferential surface of the feed bin (53) close to the bottom end.

2. A colloid mill for the homogenization of flavors according to claim 1, wherein: lower feed bin (53)'s upper end opening part rigid coupling has outside chimb (531) of extending of level, chimb (531) can be taken and establish keep off ring (51) upper surface, taking of screen cloth (52) is in on chimb (531).

3. A colloid mill for the homogenization of flavors according to claim 1, wherein: the lower surface of the screen (52) is fixedly connected with a plurality of cylindrical rods (522), the cylindrical rods (522) are distributed along the circumferential direction of the screen (52), and inserting holes (512) corresponding to the cylindrical rods (522) are formed in the convex edge (531) and the baffle ring (51).

4. A colloid mill for the homogenization of flavors according to claim 1, wherein: the upper surface of the screen (52) is provided with a plurality of screws (521) along the circumferential direction, the screws (521) downwards penetrate through the screen (52) and the convex edge (531) to be in threaded connection with the baffle ring (51), and the baffle ring (51) is provided with corresponding threaded holes (511).

5. A colloid mill for the homogenization of flavors according to claim 1, wherein: the lower end of the isolation sleeve (542) is fixedly connected with a collecting groove (5421), and the collecting groove (5421) is annular and has an opening at the upper end.

6. A colloid mill for the homogenization of flavors according to claim 1, wherein: an arc-shaped baffle (41) is inserted into an opening at the upper end of the feeding shell (4).

7. A colloid mill for the homogenization of flavors according to claim 6, wherein: one side of the arc-shaped baffle plate (41) close to the feeding shell (4) is fixedly provided with a sliding sleeve (42) which is in plug-in fit with the opening of the feeding shell (4).

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