CN218196185U - Fluoroplastic color mixing equipment - Google Patents

Abstract

The utility model discloses a fluoroplastics colour mixture equipment, including the casing, establish the end cover on the casing, the motor is established to the lower part of casing, and the motor is connected with the bottom plate transmission of stirring intracavity, is equipped with a plurality of (mixing) shafts on the bottom plate, is equipped with a plurality of stirring arms along the direction of spiral on every (mixing) shaft. The utility model discloses a set up rotatable bottom plate and apron in the stirring intracavity to set up a plurality of (mixing) shafts between them, all set up a stirring arm on every (mixing) shaft, a drive can drive the stirring arm of a plurality of different positions department and stir in step, the whole drive structure occupation space of colour mixture equipment is little, the stirring cavity capacity is big, is convenient for promote the colour mixture efficiency of colour mixture equipment; through the spout that sets up the spiral on every (mixing) shaft to all fix the rabbling arm on the spout, every is stirring epaxial dull and stereotyped rabbling arm all can stir the material in a plurality of not equidirectionals, stirs more fully, and the material mixes more evenly, and the rabbling arm is convenient for produce and assemble, and manufacturing cost is lower.

Description

Fluoroplastic color mixing equipment

Technical Field

The utility model relates to a fluoroplastics processing technology field, in particular to fluoroplastics colour mixture equipment.

Background

The fluoroplastic generally refers to resin plastic containing fluorine atoms in the molecular structure, has excellent electrical insulation, weather resistance, oil resistance and wear resistance, and has important use value in the fields of national defense, electromechanics, metallurgy, petrochemical industry and the like.

Fluoroplastics have strong chemical stability, and the coloring problem of the fluoroplastics is always a difficult point in production. In production, the nanometer-level fluororesin particles and the pigment powder are generally mixed by a color mixing device at first and then are subjected to high-temperature coloring treatment, so whether the material mixing is sufficiently and uniformly determines the subsequent coloring quality directly. At present, colour mixture equipment kind is more, and its inside stirring vane's quantity and position setting have often decided the colour mixture effect, consequently, the colour mixture drive structure on the colour mixture equipment is mostly more loaded down with trivial details, like in the patent colour mixture equipment that publication number is CN213648209U, the stirring drive structure is complicated, and colour mixture bucket volume is less relatively, and the colour mixture yield is not high, and colour mixture manufacturing cost is higher.

Therefore, the utility model discloses further improve colour mixture equipment, on the basis of ensureing colour mixture efficiency, further simplify colour mixture equipment's structure, reduce colour mixture manufacturing cost.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the above-mentioned prior art, the utility model provides a fluoroplastics colour mixture equipment, drive simple structure, occupation space are little, and stirring cavity is capacious, and a drive can drive the mixing arm of a plurality of different positions departments and stir in step, stirs more fully, and the material mixes more evenly, and the mixing arm is convenient for produce and assemble, and manufacturing cost is lower.

In order to solve the technical problem, the utility model discloses a technical scheme who takes as follows:

a fluoroplastic color mixing device comprises a shell erected on a support, wherein an end cover is arranged at the upper end of the shell, and a stirring cavity is formed between the shell and the end cover; the lower end part of the shell is provided with a motor which is in transmission connection with a bottom plate matched with the stirring cavity and can drive the bottom plate to rotate; more than two stirring shafts extending along the Z direction are uniformly arrayed on the bottom plate, a plurality of stirring arms are uniformly arranged on each stirring shaft along the spiral direction, and one end part of each stirring arm can be fixedly arranged on one stirring shaft in a detachable manner; a discharging channel is arranged on the side wall of the lower part of the shell; and the end cover is provided with a feed channel and a water inlet.

As a further elaboration of the above technical solution:

in the above technical scheme, the end of each stirring shaft extends to the lower part of the end cover, each stirring shaft is provided with a horizontal baffle, the upper end of each baffle is provided with a cover plate, the axle center of each cover plate is provided with a rotating shaft extending along the Z direction, and the rotating shaft is rotatably connected with the end cover.

In the above technical scheme, the cover plate is in a hub-shaped structure, and a plurality of through holes matched with the stirring shafts one by one are formed in the cover plate.

In the above technical scheme, the bottom plate is of a disc-shaped structure, and the stirring shafts are uniformly arrayed on the bottom plate along the circumferential direction.

In the above technical scheme, each stirring shaft is provided with a chute extending along the spiral direction, each chute is internally provided with a plurality of sliding seats in a detachable and fixed manner, each sliding seat is internally provided with one stirring arm in a detachable and fixed manner, and each stirring arm is of a flat plate structure.

In the above technical scheme, each stirring shaft is provided with a plurality of first hole grooves on two sides of the sliding groove, and each sliding seat is provided with a plurality of second hole grooves matched with the first hole grooves.

In the technical scheme, a valve is arranged on the discharge channel; the feeding channel is provided with a hopper, and the hopper is provided with a dust guard plate in a hinged mode.

In the above technical scheme, the end cover is provided with more than one water inlet, and the plurality of water inlets are arranged right above the cover plate.

In the above technical scheme, the lower end of the support is provided with a plurality of universal wheels.

Compared with the prior art, the beneficial effects of the utility model reside in that: the rotatable bottom plate and the rotatable cover plate are arranged in the stirring cavity, the stirring shafts are arranged between the bottom plate and the cover plate, each stirring shaft is provided with one stirring arm, and one stirring arm can drive the stirring arms at different positions to stir synchronously; through the spout that sets up the spiral on every (mixing) shaft to all fix the rabbling arm on the spout, every is stirring epaxial dull and stereotyped rabbling arm all can stir the material in a plurality of not equidirectionals, stirs more fully, and the material mixes more evenly, and the rabbling arm is convenient for produce and assemble, and manufacturing cost is lower.

Drawings

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

FIG. 2 is a schematic view of the structure of the stirring shaft in this embodiment;

FIG. 3 is a schematic structural diagram of the cover plate in the present embodiment;

fig. 4 is a schematic structural view of the stirring arm in this embodiment.

In the figure: 10. a support; 11. a universal wheel; 20. a housing; 30. an end cap; 40. a motor; 50. a base plate; 60. a stirring shaft; 61. a baffle plate; 62. a chute; 63. a slide base; 601. a first hole groove; 602. a second hole groove; 70. a stirring arm; 80. a discharge channel; 81. a valve; 90. a feed channel; 91. a hopper; 92. a dust guard; 100. a water inlet; 110. a cover plate; 111. A rotating shaft; 112. and a through hole.

Detailed Description

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

The embodiments described by referring to the drawings are exemplary and intended to be illustrative of the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the present application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated in a particular orientation, and thus are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and encompass, for example, both fixed and removable connections or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be. In this application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

As shown in fig. 1 to 4, a fluoroplastic color mixing device comprises a housing 20 mounted on a support 10, an end cap 30 is provided at an upper end of the housing 20, and a stirring chamber is formed between the housing 20 and the end cap 30; the lower end part of the shell 20 is provided with a motor 40, and the motor 40 is in transmission connection with a bottom plate 50 which is matched with the stirring cavity and can drive the bottom plate to rotate; more than two stirring shafts 60 extending along the Z direction are uniformly arrayed on the bottom plate 50, a plurality of stirring arms 70 are uniformly arranged on each stirring shaft 60 along the spiral direction, and one end part of each stirring arm 70 can be detachably and fixedly arranged on one stirring shaft 60; a discharging channel 80 is arranged on the side wall of the lower part of the shell 20; the end cap 30 is provided with a feed channel 90 and a water inlet 100.

Furthermore, the end of each stirring shaft 60 extends to the lower part of the end cover 30, a horizontal baffle 61 is arranged on each stirring shaft 60, a cover plate 110 is erected at the upper end of each baffle 61, a rotating shaft 111 extending along the Z direction is installed at the axis of the cover plate 110, and the rotating shaft 111 is rotatably connected with the end cover 30.

Furthermore, the cover plate is of a hub-shaped structure, and a plurality of through holes 112 which are matched with the stirring shafts one by one are formed in the cover plate.

During stirring, the motor 40 drives the bottom plate 50 to drive the plurality of rotating shafts 60 thereon to rotate, the upper ends of the plurality of rotating shafts 60 penetrate through the through holes 112, the baffle 61 abuts against the lower end of the cover plate 110 and is restrained by the baffle, and the rotating shafts 60 cannot expand outwards, so that the stirring arm 70 is prevented from being thrown on the inner wall of the shell 20 to influence the stirring effect.

In this embodiment, the material and water flow through 112 into the stir chamber is facilitated. When the stirring cavity is cleaned, the dust-proof plate 92 is closed, cleaning water flows into the stirring cavity through the water inlet 100 and the through hole 112, the motor 40 is started, and the stirring arm 70 throws water flow onto the inner wall of the shell 20, so that the purpose of cleaning the stirring cavity and the stirring arm 70 is achieved; the cover plate 110 may also be removed separately to further clean the cover plate 110.

In this embodiment, the diameter of the cover plate 110 is smaller than the inner diameter of the housing 20, which facilitates the smooth rotation of the cover plate 110 during the stirring process and facilitates the rapid passage of the material particles, powder and water into the stirring chamber.

In use, the end caps may be provided with scrapers which are movable in the Z-direction during the cleaning phase, one end of which is adapted to bear against the housing 20 and the other end of which passes through the end cap 30 and extends to the outside thereof. In the cleaning process, the scraper moves up and down to scrape the inner wall of the shell, and the cleaning efficiency can be improved by matching with water flow.

Further, the bottom plate 50 is a disc-shaped structure, and a plurality of stirring shafts 60 are uniformly arrayed on the bottom plate 50 along the circumferential direction.

Further, each stirring shaft 60 is provided with a sliding groove 62 extending along the spiral direction, a plurality of sliding seats 63 are detachably and fixedly arranged in each sliding groove 62, each sliding seat 63 is detachably and fixedly provided with one stirring arm 70, and each stirring arm 70 is of a flat plate structure.

Further, a plurality of first hole grooves 601 are formed in the two sides of the sliding groove 62 on each stirring shaft 60, and a plurality of second hole grooves 602 matched with the first hole grooves 601 are formed in each sliding base 63.

During assembly, the sliding bases 63 are inserted into the sliding grooves 62 and pushed to slide, and the locking members are inserted through the second positioning hole grooves 602 and the first positioning hole grooves 601, so that each sliding base 63 (the stirring arm 70) is fixed to the stirring shaft 60.

Further, a valve 81 is arranged on the discharge channel 80; the feeding channel 90 is provided with a hopper 91, and the hopper 91 is provided with a dust guard 92 in a hinged manner.

Further, the end cover 30 is provided with more than one water inlet 100, and the plurality of water inlets 100 are arranged right above the cover plate 110.

Further, a plurality of universal wheels 11 are arranged at the lower end of the support 10.

When the device works, materials enter the stirring cavity through the feeding channel 90, the motor 40 is started, the driving bottom plate 50 drives the stirring shafts 60 to rotate, and each stirring arm 70 synchronously rotates at the periphery of one stirring shaft 60 to fully mix and stir the fluoroplastic particles and the pigment powder in the stirring cavity; after completion the material is discharged through the discharge passage 80. Finally, the water inlet 100 is communicated with the water pipe, the motor 40 is started, the stirring arm 70 is used for spraying water flow onto the inner wall of the stirring cavity, and pigment powder and fluoroplastic particles remained on the inner wall are cleaned.

The utility model discloses a set up rotatable bottom plate and apron in the stirring intracavity to set up a plurality of (mixing) shafts between them, all set up a stirring arm on every (mixing) shaft, a drive can drive the stirring arm of a plurality of different positions department and stir in step, the whole drive structure occupation space of colour mixture equipment is little, the stirring cavity capacity is big, is convenient for promote the colour mixture efficiency of colour mixture equipment; through the spout that sets up the spiral on every (mixing) shaft to all fix the rabbling arm on the spout, every is stirring epaxial dull and stereotyped rabbling arm all can stir the material in a plurality of not equidirectionals, stirs more fully, and the material mixes more evenly, and the rabbling arm is convenient for produce and assemble, and manufacturing cost is lower.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (9)

1. A fluoroplastic color mixing device is characterized by comprising a shell erected on a support, wherein an end cover is arranged at the upper end of the shell, and a stirring cavity is formed between the shell and the end cover; the lower end part of the shell is provided with a motor which is in transmission connection with a bottom plate matched with the stirring cavity and can drive the bottom plate to rotate; more than two stirring shafts extending along the Z direction are uniformly arrayed on the bottom plate, a plurality of stirring arms are uniformly arranged on each stirring shaft along the spiral direction, and one end part of each stirring arm can be fixedly arranged on one stirring shaft in a detachable manner; a discharging channel is arranged on the side wall of the lower part of the shell; and the end cover is provided with a feed channel and a water inlet.

2. A fluoroplastic color mixing apparatus according to claim 1 wherein each of the mixing shafts has an end extending below the end cap, each of the mixing shafts has a horizontal baffle plate, a cover plate is mounted on the upper ends of the plurality of baffle plates, and a rotating shaft extending in the Z direction is mounted on the center of the cover plate and is rotatably connected to the end cap.

3. A fluoroplastics color mixing apparatus according to claim 2, wherein the cover plate is of a hub-shaped configuration and is provided with a plurality of through holes adapted to the mixing shafts.

4. A fluoroplastic color mixing apparatus according to claim 2 wherein said base plate is of disc-like configuration and a plurality of said mixing shafts are circumferentially and uniformly arrayed on said base plate.

5. A fluoroplastic mixing color device according to claim 2 wherein each of said mixing shafts is provided with a chute extending in a spiral direction, each of said chutes is provided with a plurality of slide seats detachably fixed therein, each of said slide seats is provided with a corresponding one of said mixing arms detachably fixed thereon, and each of said mixing arms is of a flat plate structure.

6. A fluoroplastic mixing apparatus according to claim 5 wherein each of said agitator shafts is provided with first slots on either side of said chute and each of said carriages is provided with second slots adapted to said first slots.

7. A fluoroplastic mixing color device according to any one of claims 1-6 wherein a valve is provided on the discharge channel; the last hopper that is equipped with of feedstock channel is equipped with on the hopper and articulates there is the dust guard.

8. A fluoroplastic mixing apparatus according to any one of claims 2 to 6 wherein the end cap is provided with more than one inlet, and a plurality of said inlets are provided directly above the cover plate.

9. A fluoroplastic mixing apparatus according to any one of claims 1 to 6 wherein the lower end of the support is provided with a plurality of universal wheels.

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