CN216419272U - Use great material mixing mechanism of apparent density difference - Google Patents

Abstract

The utility model discloses an use great material mixing mechanism of apparent density difference, its structure includes: the utility model discloses an application main shaft pole and spiral shell area paddle cooperate, through main shaft pole rotary machine linkage spiral shell area paddle be applied to the bulk density and differ great multiple material mixture, mixing efficiency is high, the homogeneity is good; the helical ribbon paddle is designed according to the characteristics of materials, the materials in the hopper bell cylinder are lifted according to the design angle in the using process, and all the materials in the cylinder can be effectively mixed without dead angles by matching with the supporting rib plates; the helical ribbon blades and the hopper bell cylinder are manufactured in a one-to-one matching way, so that the gaps between the helical ribbon ring pieces, the blade arc wing plates and the hopper bell cylinder are uniform and in a reasonable range; the arc-edge toothed sheet sawtooth-shaped blanking port is formed in the surface of the helical ribbon paddle, so that the phenomenon that materials stick to the wall due to overlarge extrusion force between the materials in the hopper bell cylinder and the inner wall of the hopper bell cylinder in the lifting process can be avoided.

Description

Use great material mixing mechanism of apparent density difference

Technical Field

The utility model relates to an use great material mixing mechanism of apparent density difference belongs to the mechanical equipment field.

Background

The blendor is a plurality of feed box grooves of common use and pipeline make holistic unloading mix and form the equal proportion cooperation operation effect, let the mixture of general homogeneous material all have suitable effect to granule product and fluid product etc. guarantee traditional mixing material's simple and easy operating performance and general availability factor, the public shortcoming of treating the optimization of prior art has:

the tank body and the hopper tank of the conventional mixed material are easy to cause large mixing of coarse and fine particle mixed materials due to density difference when an integral propeller and a shaft lever are thrown, and the mixed materials after equal-proportion blanking have more residual pure fluid of solid-state wall adhesion, so that subsequent bonding solidification blocks are subjected to continuous output sedimentation and blockage to influence the mixing quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an use great material mixing mechanism of apparent density difference to the jar body and the funnel jar groove of solving conventional mixing material cause the thickness granule compounding to mix great because density difference when holistic screw and axostylus axostyle cause a surrounding to throw easily, and the compounding after the equal proportion unloading remains the pure fluid volume of solid-state wall of gluing many, leads to subsequent bonding solidification piece to receive to take output to subside the jam and influence the problem of mixing quality.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a material mixing mechanism applying large difference of loose-packed density structurally comprises: the spiral belt type bucket comprises a main shaft rod, three support rib plates, spiral belt blades and a hopper bell cylinder, wherein the spiral belt blades are arranged inside the hopper bell cylinder, the axes of the spiral belt blades are collinear, the three support rib plates are inserted and embedded below the bottom of the main shaft rod, the support rib plates are welded with the insides of the spiral belt blades and are perpendicular to each other, the main shaft rod is inserted and embedded inside the hopper bell cylinder, the axes of the main shaft rod are collinear, each spiral belt blade is provided with an arc blade tooth pattern sheet, a spiral belt ring sheet and a blade arc wing plate, the spiral belt ring sheets are tightly attached to the top surfaces of the blade arc wing plates and are positioned on the same spiral arc surface, the arc blade tooth pattern sheets are more than two and are welded into a whole around the axes of the spiral belt ring sheets, and the spiral belt ring sheets are arranged inside the hopper bell cylinder, and the axes of the spiral belt ring sheets are collinear.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the utility model, the main shaft pole comprises axle cone cap, sleeve, pivot pole, axle connecting rod, axle cone cap nestification is under telescopic bottom and the axle center collineation, axle connecting rod inserts and inlays on the top of pivot pole and be in same vertical on-line, the pivot pole inserts and inlays on telescopic top and the axle center collineation.

As the utility model discloses a further improvement, the hopper bell section of thick bamboo is the compound clock tube structure of awl barrel cap seat for the bottom, and it is high-efficient to make things convenient for the density of funnel formula unloading to close up the mixed material, promotes the linkage operation effect of homogeneity pressure equipment.

As a further improvement of the utility model, the arc edge tooth pattern piece is the tooth pattern blade structure of wide arc tooth's socket continuous arrangement, makes things convenient for the cooperation of arc tooth's socket to scrape brush gyration cockscomb structure blanking mouth work high efficiency.

As a further improvement, the spiral belt ring piece is a spiral blade rotating propeller rack structure with a narrow upper width and a spiral lower width, so that the operation of homogeneous mixing scraping and brushing of the cutting materials is efficient due to the fact that the annular high-low density difference is settled.

As a further improvement, the paddle arc wing plate is a batten strip structure of a narrow upper wide conch track liner type, and the stable adaptation operation effect of a propeller frame formed by shaving materials through convenient low-level laminating spiral sedimentation is achieved.

As the further improvement of the utility model, the equipment is very effective to the mixture of the big tungsten powder of density and the little carbon black of density, and the metal powder that corresponds multiple big or small particle size mixes for example the little iron powder of density mixes with the big nickel powder of density, the little magnesium powder of density mixes etc. all is the splendid processing effect of the great and adaptation homogeneous mixing material of apparent density difference.

Advantageous effects

The utility model relates to an use great material mixing mechanism of apparent density difference, the staff revolutes with the axicon cap in step through the even hack lever top plug-in shaft motor butt joint gyration axostylus axostyle linkage sleeve at the main shaft pole to pull the support gusset and drive the big tungsten powder of density and the little carbon black mixed operation of density that spiral shell area paddle arc sword insection piece becomes the apparent density difference along spiral shell area ring piece and paddle arc aerofoil in the hopper bell jar, thereby reach the density difference adjustment of material mixing mechanism and the rigorous compounding operational effect of the finish machining of laminating.

The utility model discloses the advantage that can reach after the operation has:

the main shaft rod is matched with the helical ribbon blade, and the helical ribbon blade is linked through the main shaft rod rotating machinery and applied to mixing of various materials with large apparent density difference, so that the mixing efficiency is high and the uniformity is good; the helical ribbon paddle is designed according to the characteristics of materials, the materials in the hopper bell cylinder are lifted according to the design angle in the using process, and all the materials in the cylinder can be effectively mixed without dead angles by matching with the supporting rib plates; the helical ribbon blades and the hopper bell cylinder are manufactured in a one-to-one matching way, so that the gaps between the helical ribbon ring pieces, the blade arc wing plates and the hopper bell cylinder are uniform and in a reasonable range; the arc-edge toothed sheet sawtooth-shaped blanking port is formed in the surface of the helical ribbon blade, so that the situation that materials in the hopper bell cylinder are stuck to the wall due to overlarge extrusion force with the inner wall of the hopper bell cylinder in the lifting process can be avoided; the hopper bell cylinder is made of a wear-resistant material through polishing, so that the flowability of the material in the hopper bell cylinder is improved, and the material adhesion is reduced.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is the utility model discloses an applied bulk density difference great material mixing mechanism's section structure sketch map.

Fig. 2 is a detailed overlooking structure schematic diagram of the material mixing mechanism with a large difference in apparent density.

Fig. 3 is a schematic view of the three-dimensional structure of the working state of the spindle rod of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the ribbon blade operating state of the present invention.

Description of reference numerals: the device comprises a main shaft rod-1, a support rib plate-2, a helical ribbon blade-3, a hopper bell cylinder-4, a shaft cone cap-11, a sleeve-12, a rotating shaft rod-13, a shaft connecting frame rod-14, a curved blade insection sheet-31, a helical ribbon ring sheet-32 and a blade curved wing plate-33.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The first embodiment is as follows:

referring to fig. 1-4, the present invention provides a material mixing mechanism with a large difference in bulk density, which comprises: the structure comprises a main shaft rod 1, a support rib plate 2, a helical ribbon blade 3 and a hopper bell cylinder 4, wherein the helical ribbon blade 3 is arranged in the hopper bell cylinder 4, the axes of the helical ribbon blade 3 are collinear, the support rib plate 2 is provided with three support rib plates which are all inserted and embedded under the bottom of the main shaft rod 1, the support rib plates 2 are welded with the interiors of the helical ribbon blade 3 and are perpendicular to each other, the main shaft rod 1 is inserted and embedded in the hopper bell cylinder 4, the axes of the main shaft rod 1 are collinear, the helical ribbon blade 3 is provided with more than two arc blade tooth patterns 31, a helical ribbon ring plate 32 and a blade arc wing plate 33, the helical ribbon ring plate 32 is tightly attached to the top surface of the blade arc wing plate 33 and is positioned on the same helical arc surface, the arc blade tooth patterns 31 are provided with more than two arc blade tooth patterns and are welded into a whole around the axes of the helical ribbon ring plate 32, the helical ribbon ring plate 32 is arranged in the hopper bell cylinder 4, the axes of the hopper bell cylinder 4 is a composite bell cylinder structure with a conical barrel cap base at the bottom, the funnel type blanking collection mixed material density is convenient to achieve, the linkage operation effect of homogeneous press-fitting is improved, the arc-edge toothed sheet 31 is of a toothed cutter blade structure with wide arc-shaped tooth grooves arranged continuously, the arc-shaped tooth grooves are convenient to cooperate with scraping and brushing of a rotary sawtooth-shaped blanking opening to work efficiently, the spiral belt ring sheet 32 is of a blade rotary propeller frame structure with a spiral shape and a narrow lower part and a wide upper part, the circular high-low density difference settlement cutting material homogeneous mixing scraping and brushing operation is convenient to achieve, the paddle arc wing plate 33 is of a batten structure with a narrow lower part and a wide upper part and a sea spiral lining track, and the stable adaptation operation effect of forming a propeller frame through low-position laminating spiral settlement shaving is convenient.

Referring to fig. 3, the spindle shaft 1 is composed of a spindle cone cap 11, a sleeve 12, a spindle shaft 13, and a shaft connecting rod 14, the spindle cone cap 11 is nested below the bottom of the sleeve 12, and the axes of the spindle cone cap and the sleeve are collinear, the shaft connecting rod 14 is nested on the top of the spindle shaft 13 and is located on the same vertical line, and the spindle shaft 13 is nested on the top of the sleeve 12, and the axes of the spindle shaft are collinear.

The working process is as follows: a worker inserts a shaft motor butting rotation shaft rod 13 on the top of a shaft connecting frame rod 14 of a main shaft rod 1 to link a sleeve 12 and a shaft cone cap 11 to synchronously revolve, so that a traction support rib plate 2 drives a helical band blade 3 arc blade tooth pattern piece 31 to form mixed operation of large-density tungsten powder and small-density carbon black with large loose density difference along a helical band ring piece 32 and a blade arc wing plate 33 in a hopper bell cylinder 4, and the effects of density difference adjustment and laminating precise fine machining mixed material operation of a material mixing mechanism are achieved.

The utility model utilizes the mutual combination of the above components to achieve the purpose that the main shaft rod 1 is matched with the helical ribbon paddle 3, and the helical ribbon paddle 3 is linked through the rotary machinery of the main shaft rod 1 to be applied to the mixing of various materials with large apparent density difference, so that the mixing efficiency is high and the uniformity is good; the helical ribbon paddle 3 is designed according to the characteristics of materials, the materials in the hopper bell cylinder 4 are lifted according to the designed angle in the using process, and all the materials in the cylinder can be effectively mixed without dead angles by matching with the supporting rib plates 2; the helical ribbon blades 3 and the hopper bell cylinder 4 are manufactured in a one-to-one matching way, so that the gaps between the helical ribbon ring pieces 32, the blade arc wing plates 33 and the hopper bell cylinder 4 are uniform and in a reasonable range; the surface of the helical ribbon blade 3 is provided with the serrated blanking port with the arc-edge serrated sheet 31, so that the material in the hopper bell cylinder 4 can be prevented from being adhered to the wall due to overlarge extrusion force with the inner wall of the hopper bell cylinder 4 in the lifting process; the hopper bell cylinder 4 is made of a wear-resistant material through polishing, the flowability of the material in the hopper bell cylinder 4 is improved, and the material adhesion is reduced, so that the problems that the thick and thin particle mixed material is doped greatly due to the fact that the density difference of an integral propeller and a shaft lever during circumferential swinging is caused easily in a tank body and a hopper tank of a conventional mixed material, and the mixed material after equal-proportion blanking is large in residual pure fluid of a solid sticky wall, so that subsequent bonded and solidified blocks are subjected to continuous output sedimentation and blockage to influence the mixing quality are solved.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (6)

1. A material mixing mechanism applying large difference of loose-packed density structurally comprises: main shaft pole (1), support gusset (2), spiral shell area paddle (3), hopper bell jar (4), its characterized in that:

the helical ribbon paddles (3) are arranged inside the hopper bell cylinder (4), three support rib plates (2) are arranged and are inserted and embedded below the bottom of the main shaft rod (1), the support rib plates (2) are welded with the inside of the helical ribbon paddles (3) together, and the main shaft rod (1) is inserted and embedded inside the hopper bell cylinder (4);

the helical ribbon blade (3) is provided with an arc blade tooth pattern piece (31), a helical ribbon ring piece (32) and a blade arc wing plate (33);

the spiral belt ring pieces (32) are tightly attached to the top surfaces of the arc wing plates (33) of the blades, more than two arc blade tooth strips (31) are arranged and welded into a whole around the axis of the spiral belt ring pieces (32), and the spiral belt ring pieces (32) are installed inside the hopper bell cylinder (4).

2. The mixing mechanism of claim 1, further comprising: the spindle rod (1) comprises a spindle cone cap (11), a sleeve (12), a rotating shaft rod (13) and a shaft connecting frame rod (14), wherein the spindle cone cap (11) is nested below the bottom of the sleeve (12), the shaft connecting frame rod (14) is inserted and embedded in the top of the rotating shaft rod (13), and the rotating shaft rod (13) is inserted and embedded in the top of the sleeve (12).

3. The mixing mechanism of claim 1, further comprising: the hopper bell cylinder (4) is of a composite bell cylinder structure with a conical barrel cap seat at the bottom.

4. The mixing mechanism of claim 1, further comprising: the arc-edge corrugated blade (31) is of a corrugated blade structure with wide arc-shaped tooth sockets continuously arranged.

5. The mixing mechanism of claim 1, further comprising: the spiral belt ring piece (32) is of a blade propeller rack structure with a narrow lower part and a spiral upper part.

6. The mixing mechanism of claim 1, further comprising: the blade arc wing plate (33) is of a sea snail track liner type batten structure with a narrow lower part and a wide upper part.

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