CN218012347U - Stirring structure for processing sticky materials - Google Patents

Abstract

The utility model provides a stirring structure for processing viscous materials, which comprises a supporting shaft, a stirring frame and a stirring disc; the stirring disc is fixedly arranged at the bottom end of the supporting shaft, and the stirring frame is fixed on the supporting shaft and is positioned above the stirring disc; the stirring frame comprises a plurality of stirring rods, one ends of the stirring rods, which are far away from the supporting shaft, are bent downwards and are positioned on the outer side of the stirring disc, and the stirring rods are distributed in a circumferential array around the axis of the supporting shaft; the section of the stirring rod is of a square structure, and one edge angle of the section is arranged towards the tangential direction of the array circumferential track of the stirring rod; the stirring device has a novel structure, and can effectively enlarge the stirring range, thereby accelerating the material mixing efficiency; moreover, the stirring component is provided with a part which is convenient for the material to flow in a manner of following the rotating direction, so that the resistance in the stirring process is weakened, and the stirring efficiency is improved.

Description

Stirring structure for processing sticky materials

Technical Field

The utility model relates to a stirring structure field, more specifically relates to a processing of glutinous thick material is with stirring structure.

Background

The seam beautifying agent is a filling agent used at the splicing position of the plates, can play a role in beautifying, and a dispersion machine is required to be used for mixing materials in the processing process of the seam beautifying agent; the core of the dispersion machine is the stirring structure of the dispersion machine, the most common stirring structure of the existing dispersion machine is a supporting shaft and a stirring disc fixed at the bottom end of the supporting shaft, a plurality of blades are arranged at the edge of the stirring disc, and objects are fully stirred by the supporting shaft and the stirring disc which rotate at a high speed, so that the materials are mixed;

although this kind of stirring structure can mix the material, because the stirring scope is less, needs longer time just can accomplish the stirring, needs more power consumptive and time long, and machining efficiency remains to be improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the technical problem to be solved by the utility model is to provide a stirring structure for processing viscous materials, which has novel structure and can effectively enlarge the stirring range, thereby accelerating the material mixing efficiency; moreover, the stirring component of the stirring device is provided with a part which is convenient for the material to flow along the rotating direction, thereby weakening the resistance in the stirring process and improving the stirring efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a stirring structure for processing viscous materials, which comprises a supporting shaft, a stirring frame and a stirring disc; the stirring disc is fixedly arranged at the bottom end of the supporting shaft, and the stirring frame is fixed on the supporting shaft and is positioned above the stirring disc; the stirring frame comprises a plurality of stirring rods, one ends of the stirring rods, far away from the supporting shaft, are bent downwards and are positioned on the outer side of the stirring disc, and the stirring rods are distributed in a circumferential array around the axis of the supporting shaft; the section of the stirring rod is of a square structure, and one edge angle of the section is arranged towards the tangential direction of the array circumferential track of the stirring rod.

In the preferred technical scheme of the utility model, the stirring frame comprises a sleeve and a plurality of stirring rods; the inner diameter of the sleeve is matched with the diameter of the supporting shaft, and the sleeve is fixed on the outer wall of the supporting shaft; many puddlers are fixed at telescopic outer wall, many puddlers are the circumference array around telescopic axis and distribute.

In the preferred technical scheme of the utility model, the outer wall of the supporting shaft is fixedly provided with the supporting ring, the diameter of the supporting ring is smaller than the outer diameter of the sleeve, and the bottom surface of the sleeve is propped against the top surface of the supporting ring; the outer wall of the supporting ring is fixedly provided with a plurality of convex blocks, the convex blocks are distributed in a circumferential array around the axis of the supporting ring, and the bottom surface of the sleeve abuts against the top surfaces of the convex blocks.

In the preferred technical scheme of the utility model, the stirring disc comprises a frustum and a plurality of stirring blades; the top surface of frustum and the bottom fixed connection of back shaft, the lateral wall bottom of frustum is located to the polylith stirring leaf, and polylith stirring leaf is the circumference array around the axis of frustum and distributes.

In the preferred technical proposal of the utility model, the stirring blades are arranged obliquely; the lower side of the stirring blade is provided with an arch part, and the higher side of the stirring blade is provided with a concave part, so that the cross section of the stirring blade is of a wavy structure.

The beneficial effects of the utility model are that:

the utility model provides a stirring structure for processing sticky materials, which has a novel structure, and is provided with a stirring disc and a stirring frame simultaneously, so that the materials at the center of the bottom can be stirred, the materials at the outer side can be driven, the stirring range can be effectively expanded, and the material mixing efficiency is accelerated; and, many puddlers that set up on the agitator, the cross-section of puddler are square column structure, and one of them edges and corners of cross-section sets up towards the tangential direction of the array circumference orbit of puddler, mean that the puddler is equipped with sharp-pointed narrowing position along rotatory direction, forms cutting effect to the material at rotatory in-process, the position that can be convenient for the material flow to weaken the resistance of stirring in-process, improve stirring efficiency.

Drawings

Fig. 1 is a schematic view of a first perspective three-dimensional structure of a stirring structure for processing viscous materials provided in an embodiment of the present invention;

fig. 2 is a schematic diagram of a second perspective three-dimensional structure of a stirring structure for processing viscous materials according to an embodiment of the present invention;

fig. 3 is a bottom view of a stirring structure for processing viscous materials according to an embodiment of the present invention;

fig. 4 is a sectional view of an axial direction of a stirring structure for processing viscous materials according to an embodiment of the present invention;

fig. 5 is a partial enlarged view of a stirring structure for processing viscous materials according to an embodiment of the present invention.

In the figure:

100. a support shaft; 110. a ring; 120. a bump;

200. a stirring frame; 210. a stirring rod; 220 a sleeve;

300. a stirring plate; 310. a frustum; 320. stirring blades; 321. an arching portion; 322. a lower recess.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 3, an embodiment of the present invention discloses a stirring structure for processing viscous materials, which includes a supporting shaft 100, a stirring frame 200, and a stirring plate 300; the stirring disc 300 is fixedly arranged at the bottom end of the supporting shaft 100, and the stirring frame 200 is fixed on the supporting shaft 100 and positioned above the stirring disc 300; the stirring frame 200 comprises a plurality of stirring rods 210, one end of each stirring rod 210, which is far away from the supporting shaft 100, is bent downwards and is positioned on the outer side of the stirring disc 300, and the plurality of stirring rods 210 are distributed in a circumferential array around the axis of the supporting shaft 100; the cross section of the stirring rod 210 is a square structure, and one of the corners of the cross section is arranged towards the tangential direction of the array circumferential track of the stirring rod 210.

The stirring structure for processing the sticky materials is novel in structure, and the stirring disc and the stirring frame are arranged, so that the materials at the center of the bottom can be stirred, the materials at the outer side can be driven, the stirring range can be effectively expanded, and the material mixing efficiency is accelerated; and, many puddlers that set up on the agitator, the cross-section of puddler are square column structure, and one of them edges and corners in cross-section sets up towards the tangential direction of the array circumference orbit of puddler, mean that the puddler is equipped with sharp-pointed narrowing position along rotatory direction, forms cutting effect to the material at rotatory in-process, the position that can be convenient for the material flows to weaken the resistance of stirring in-process, improve stirring efficiency.

Further, the mixing frame 200 includes a sleeve 220, a plurality of mixing rods 210; the inner diameter of the sleeve 220 is matched with the diameter of the support shaft 100, the sleeve 220 is fixed on the outer wall of the support shaft 100, the mixing frame is matched with the support shaft, and the support shaft and the mixing frame can be independently processed and produced and then combined; the stirring rods 210 are fixed on the outer wall of the sleeve 220, and the stirring rods 210 are distributed in a circumferential array around the axis of the sleeve 220; the design of many puddlers can effectively enlarge the stirring scope to improve compounding effect and quality.

Furthermore, the sleeve is welded and fixed on the outer wall of the supporting shaft, and after the stirring frame is sleeved on the supporting shaft through the sleeve, the sleeve and the supporting shaft can be reinforced through welding, so that the connection between the stirring frame and the supporting shaft is further enhanced; it should be noted that, because this stirring structure is used for sticky material processing, this reduces tiny hole site as far as possible, does not just adopt the mode of bolt fastening, adopts the mode of welded fastening to can further strengthen the joint strength.

Further, the top welded fastening of puddler is at telescopic outer wall, or puddler and sleeve be integrated into one piece structure, guarantees the structural strength at puddler and muffjoint position, prevents the fracture at stirring in-process connection position for effectively stir sticky material.

Further, a supporting ring 110 is fixedly arranged on the outer wall of the supporting shaft 100, the diameter of the supporting ring 110 is smaller than the outer diameter of the sleeve 220, and the bottom surface of the sleeve 220 abuts against the top surface of the supporting ring 110; the outer wall of the supporting ring 110 is fixedly provided with a plurality of bumps 120, the bumps 120 are distributed in a circumferential array around the axis of the supporting ring 110, and the bottom surface of the sleeve 220 abuts against the top surfaces of the bumps 120; the supporting position is limited by the supporting ring and the bump, so that the sleeve can reach the required height after moving downwards to abut against the supporting ring, and then welding and fixing are carried out.

Furthermore, the convex ring and the stirring rod are of an integrated structure, so that the structural strength of the convex ring is ensured, and effective bearing is performed; the design of a plurality of bumps can increase the contact area with the sleeve so as to facilitate the subsequent welding reinforcement.

Furthermore, as shown in fig. 4, the bottom surface of the sleeve may be concavely provided with a sinking groove corresponding to the protruding ring and the protruding block, the depth of the sinking groove is smaller than the thickness of the protruding ring, and the protruding ring and the protruding block may be clamped into the sinking groove at the bottom of the sleeve, so that the sleeve and the protruding ring are effectively clamped, further enhancing the fit, and effectively driving the stirring frame to rotate; furthermore, the bottom of the sleeve is clamped with the convex ring and the convex block, and then the bottom of the sleeve is reinforced by welding.

Furthermore, the top of the sleeve is of a narrowing structure, the outer diameter of the narrowing part is 1-2 mm larger than the inner diameter of the sleeve, and a step surface is effectively prevented from being formed at the top of the sleeve, so that material residues are reduced.

Further, the number of the stirring rods is preferably 4, so that the stirring range can be expanded, and the materials can be effectively stirred.

Further, the stirring plate 300 includes a frustum 310 and a plurality of stirring blades 320; the top surface of frustum 310 and the bottom fixed connection of back shaft 100, the lateral wall bottom of frustum 310 is located to polylith stirring leaf 320, and polylith stirring leaf 320 is circumference array distribution around the axis of frustum 310, and the accessible polylith stirring leaf enlarges the stirring range, puts to carry out effectual stirring to the material in bottom central point for the material intensive mixing.

Further, as shown in fig. 5, the stirring vanes 320 are disposed obliquely; the lower one side of stirring leaf 320 slope is equipped with hunch-up portion 321, and the higher one side of slope is equipped with concave part 322 down for the cross-section of stirring leaf is wavy structure, and this structural design can comply with the direction of rotation of agitator disk, both can effectively stir the material, also can reduce the rotation resistance, improves and stirs efficiency.

Furthermore, the supporting shaft, the frustum and the stirring blade are of an integrated structure, so that the structural strength of the whole structure can be ensured, and the damage of the joint can be effectively prevented.

While the invention has been described with reference to preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. The present invention is not intended to be limited to the specific embodiments disclosed herein, and other embodiments that are within the scope of the present invention are intended to be within the claims of this application.

Claims (5)

1. The utility model provides a processing of glutinous thick material is with stirring structure which characterized in that:

comprises a supporting shaft, a stirring frame and a stirring disc;

the stirring disc is fixedly arranged at the bottom end of the supporting shaft, and the stirring frame is fixed on the supporting shaft and is positioned above the stirring disc;

the stirring frame comprises a plurality of stirring rods, one ends of the stirring rods, far away from the supporting shaft, are bent downwards and are positioned on the outer side of the stirring disc, and the stirring rods are distributed in a circumferential array around the axis of the supporting shaft;

the section of the stirring rod is of a square structure, and one of the edges of the section is arranged towards the tangential direction of the array circumferential track of the stirring rod.

2. The stirring structure for processing the viscous material as claimed in claim 1, wherein:

the stirring frame comprises a sleeve and a plurality of stirring rods;

the inner diameter of the sleeve is matched with the diameter of the supporting shaft, and the sleeve is fixed on the outer wall of the supporting shaft;

the stirring rods are fixed on the outer wall of the sleeve and distributed in a circumferential array around the axis of the sleeve.

3. The stirring structure for processing the viscous material as claimed in claim 2, wherein:

the outer wall of the supporting shaft is fixedly provided with a supporting ring, the diameter of the supporting ring is smaller than the outer diameter of the sleeve, and the bottom surface of the sleeve abuts against the top surface of the supporting ring;

the outer wall of the supporting ring is fixedly provided with a plurality of convex blocks, the convex blocks are distributed in a circumferential array around the axis of the supporting ring, and the bottom surface of the sleeve abuts against the top surfaces of the convex blocks.

4. The stirring structure for processing the viscous material as claimed in claim 1, wherein:

the stirring disc comprises a frustum and a plurality of stirring blades;

the top surface of frustum and the bottom fixed connection of back shaft, the lateral wall bottom of frustum is located to the polylith stirring leaf, and polylith stirring leaf is the circumference array around the axis of frustum and distributes.

5. The stirring structure for processing the viscous material as claimed in claim 4, wherein:

the stirring blades are obliquely arranged;

the lower side of the stirring blade is provided with an arch part, and the higher side of the stirring blade is provided with a concave part, so that the section of the stirring blade is of a wavy structure.

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