CN215463789U - Novel high-efficient three-dimensional mixer - Google Patents

Abstract

The application discloses novel high-efficient three-dimensional machine that mixes belongs to and mixes machine technical field, and its technical scheme main points are including quick-witted case, back shaft and blending tank, and the one end of back shaft is articulated with quick-witted case, and the other end is articulated with the blending tank, be equipped with the helping of improving material mixing efficiency in the blending tank and mix the subassembly, help and mix the subassembly and include the spliced pole and help and mix the blade, the spliced pole with the interior wall connection of blending tank, help mixing blade and spliced pole fixed connection, reach the effect that improves three-dimensional machine mixing efficiency.

Description

Novel high-efficient three-dimensional mixer

Technical Field

The utility model relates to the field of mixers, in particular to a novel efficient three-dimensional mixer.

Background

The three-dimensional mixer is a mechanical device which uniformly mixes materials with different bulk densities and different particle sizes by utilizing mechanical force, gravity of two or more different materials and the like, can uniformly mix solid powdery materials, can also be used for mixing dry-wet combined materials or wet-wet combined materials, and is widely applied to the production of medicines, chemical industry, foods, health-care foods, ceramic industry, daily chemical products and the like.

The common three-dimensional mixer comprises a case, a support shaft and a mixing tank, wherein one end of the support shaft is hinged with the case, and the other end of the support shaft is hinged with the mixing tank; when the mixing tank is used, the two supporting shafts are controlled to rotate by the case, and the two supporting shafts drive the mixing tank to move in a three-dimensional manner, so that various raw materials are mixed more uniformly.

In view of the above-mentioned related technologies, the inventor believes that when the three-dimensional mixer has a small or excessive amount of material loaded in the mixing tank, although the cylinder performs a multi-directional compound operation, the material inside the mixing tank has a large amount of translation movement along the inner wall of the mixing tank, and the reverse falling body movement is small, so that the material cannot be sufficiently mixed, and thus, the existing three-dimensional mixer has a defect of low mixing efficiency.

SUMMERY OF THE UTILITY MODEL

In order to improve three-dimensional mixing machine's mixing efficiency, this application provides a novel high-efficient three-dimensional mixing machine.

The application provides a pair of novel high-efficient three-dimensional machine that mixes adopts following technical scheme:

a novel high-efficient three-dimensional machine that mixes: including quick-witted case, back shaft and blending tank, the one end and the quick-witted case of back shaft are articulated, and the other end is articulated with the blending tank, be equipped with the subassembly that mixes of helping that improves material mixing efficiency in the blending tank, help the subassembly that mixes including the spliced pole and help mixing the blade, the spliced pole is connected with the inner wall of blending tank, helps mixing blade and spliced pole fixed connection.

By adopting the technical scheme, the mixing-assisting blade is connected with the inner wall of the mixing tank through the connecting column, and the connecting column can play a role in supporting the mixing-assisting blade, so that the mixing-assisting blade can be more stably connected to the mixing tank, and the normal use of the mixing-assisting blade is not influenced; when more materials are in the mixing tank, the mixing assisting blade can play a role in stirring the materials, and the mixing assisting blade cooperates with the mixing tank to enable the materials to be mixed more fully; when the amount of the materials in the mixing tank is small, the materials can fall onto the mixing assisting blade in the overturning process, then the materials are thrown up from the mixing assisting blade again, and along with the overturning of the mixing tank, the materials are thrown up and fall for multiple times, so that the mutual flowing and diffusion among the materials are promoted, the accumulation of the materials in the mixing tank is reduced, the sliding generated when too much or too little materials are loaded in the mixing tank is improved, the materials are mixed more fully, and the mixing efficiency of the mixing machine is improved; the three-dimensional mixer can be used for mixing solid-solid materials and can also be used for mixing solid-liquid materials and liquid-liquid materials.

Preferably, a material passing channel is arranged between the mixing-assisting blade and the inner wall of the mixing tank.

By adopting the technical scheme, the material passing channel is formed between the mixing-assisting blade and the inner wall of the mixing tank, and compared with the condition that the side wall of the mixing-assisting blade is attached to the inner wall of the mixing tank, the material passing channel is arranged, so that the accumulation of materials on the mixing-assisting blade can be reduced, the materials can pass through the material passing channel in the movement process, the materials are mixed more fully, and the mixing efficiency of the mixer is improved; the arrangement of the material passing channel is also convenient for cleaning the three-dimensional mixer.

Preferably, the included angle between the axial line of the mixing-assisting blade (42) in the length direction and the axial line of the mixing tank (3) is 5-75 degrees or 105-175 degrees, and the included angle between the axial line of the mixing-assisting blade (42) in the width direction and the inner wall of the mixing tank (3) is 15-165 degrees.

By adopting the technical scheme, when the mixing tank rotates, the rotation is carried out around the axis of the mixing tank more, a certain included angle is formed between the axis of the mixing-assisting blade in the length direction and the axis of the mixing tank, when the included angle is 5 degrees or 175 degrees, the materials are thrown up for many times, when the included angle is 75-105 degrees, the contact area between the mixing-assisting blade and the materials is small, the materials are not favorably thrown up along the movement direction of the mixing tank, the mixing efficiency is poor, therefore along with the movement of the mixing tank, when the included angle is 5-75 degrees or 105 degrees and 175 degrees, the relative movement between the materials can be enhanced through the movement combination of the mixing-assisting blade and the mixing tank, the mixing of the materials is enhanced, and the mixing efficiency of the mixer is improved; the certain contained angle is formed between helping the axis of mixing blade width direction and the blending tank inner wall, mix the effect and improve gradually along with the increase of contained angle when the contained angle is 15-90, mix the effect and reduce gradually along with the increase of contained angle when the contained angle is 90, help the length direction and the material direction of motion of mixing the blade perpendicular, help mixing the blade and can provide certain removal resistance for the material, reduce the interior material slip of blending tank, and this moment with the area of contact of material the biggest, can be with more materials from helping mixing the blade and throw, make the material mix more abundant.

Preferably, the length of the mixing-assistant blade is 0.1-0.8 times of the length of the tank body of the mixing tank, and the width of the mixing-assistant blade is 20-300 mm.

By adopting the technical scheme, the size of the mixing-assisting blades can be set according to the size of the mixing tank, and when the length of the mixing-assisting blades is 0.1 time of the length of the tank body of the mixing tank, a plurality of rows of mixing-assisting blades can be connected in the mixing tank so as to enhance the stirring effect of the mixing-assisting blades on materials; when the length of the mixing-assisting blade is 0.8 times of the length of the tank body of the mixing tank, the contact area of the mixing-assisting blade and the materials is increased as much as possible on the premise that the mixing-assisting blade does not occupy too large volume in the mixing tank, and the mixing effect on the materials is enhanced; according to the size of the mixing tank, the width of the mixing assisting blade can be set to be 20-300mm, and in the range, the mixing assisting blade can reduce the occupation of the inner space of the mixing tank and ensure the normal use of the mixing tank while improving the material mixing effect.

Preferably, the mounting height of the mixing-assistant blade is 20-350 mm.

Through adopting above-mentioned technical scheme, help the adjustable of the mounting height who mixes the blade, can increase and help the distance of mixing blade and blending tank jar mouth for in the material can get into the blending tank from the feed inlet smoothly, the reduction is to the hindrance of material, also makes the material pour in the blending tank smoothly after intensive mixing, makes the feeding and the ejection of compact of blending tank more convenient.

Preferably, the number of the mixing-assistant blades is 2-30.

Through adopting above-mentioned technical scheme, the quantity that helps mixes the blade can set up according to the size of blending tank volume, can be applicable to the barrel of equidimension not, extensive suitability has, in addition, the quantity that helps mixes the blade is under the condition that does not influence the blending tank volume, the increase helps the contact area that the quantity that mixes the blade can increase and help mixing blade and material, make the mixture of material more abundant, but help mixing the blade and set up too much and can reduce the volume of placing the material in the blending tank, consequently help mixing the blade and set up to 2-30 when can effectively improve mixing efficiency, do not influence the normal use of blending tank.

Preferably, the mixing-assisting blade is a mixing-assisting blade made of a material matched with the material of the mixing tank, and the mixing-assisting blade is made of one of 304/316/316L stainless steel, glass lining, nylon and polytetrafluoroethylene polymer material.

By adopting the technical scheme, the material of the mixing-assisting blade is matched with the material of the mixing tank, so that the material and the mixing-assisting blade do not generate chemical reaction, and the loss of the material is reduced; the mixing-assisting blade is made of 304/316/316L stainless steel, glass lining, nylon and polytetrafluoroethylene high polymer materials, and the materials are free of falling off, can reduce pollution to materials and can meet the requirements of clean production.

In summary, the present application has the following beneficial effects:

1. the material moves along with the mixing tank, and the mixing assisting blade can play a role in stirring the material, so that the material is more fully mixed; the materials in motion fall onto the mixing assisting blade and are thrown up again under the action of the mixing tank, so that the mutual flowing and diffusion of the materials can be promoted, the accumulation of the materials in the mixing tank is reduced, the sliding generated when too much or too little materials are filled in the mixing tank is improved, and the mixing efficiency of the mixer is improved;

2. the mixing-assisting blades with different specifications and quantities can be arranged according to different volumes of the mixing tank, so that the mixing-assisting blade has wide applicability; the material passing channel is arranged between the mixing assisting blade and the inner wall of the mixing tank, so that dead angles formed between the mixing assisting blade and the inner wall of the mixing tank can be reduced, the accumulation of materials is reduced, and the mixing machine is convenient to clean.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is a schematic view of a partial cross-sectional structure intended to show the interior of a mixing tank.

Fig. 3 is a schematic view, partly in section, intended to show a mixing-aid blade.

Description of reference numerals:

1. a chassis; 2. a support shaft; 3. a mixing tank; 31. a material passing channel; 4. a mixing-aid component; 41. connecting columns; 42. and (4) a mixing assisting blade.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The application discloses novel high-efficient three-dimensional machine that mixes, as shown in fig. 1, including quick-witted case 1, back shaft 2 and blending tank 3, one side and quick-witted case 1 of back shaft 2 are articulated, and the opposite side is articulated with blending tank 3. When the mixer works, the supporting shaft 2 is driven to rotate through the case 1, and the supporting shaft 2 drives the mixing tank 3 to rotate in multiple directions, so that materials are fully mixed.

As shown in fig. 2, be equipped with in the blending tank 3 and be used for improving the material mixing efficiency and help mixing subassembly 4, help mixing subassembly 4 including spliced pole 41 and help mixing blade 42, the one end of spliced pole 41 and the inner wall fixed connection of blending tank 3, the contained angle between spliced pole 41 and the blending tank 3 inner wall is set for according to the installation angle who helps mixing blade 42, spliced pole 41 is provided with a plurality ofly.

As shown in fig. 2, the mixing-assisting blades 42 are rectangular, two sides of the mixing-assisting blades 42 in the width direction are respectively and fixedly connected with the two connecting columns 41, the width of the mixing-assisting blades 42 is smaller than the length of the connecting columns 41, so that a material passing channel 31 is formed between the mixing-assisting blades 42 and the inner wall of the mixing tank 3, 2-30 mixing-assisting blades 42 are arranged, and a plurality of mixing-assisting blades 42 are connected to the inner wall of the mixing tank 3 at equal intervals; the mixing-assisting blade 42 is made of a material matched with the material of the mixing tank 3, wherein the mixing-assisting blade 42 is made of one of 304/316/316L stainless steel, glass lining, nylon and polytetrafluoroethylene polymer material.

As shown in fig. 2, the length of the mixing-assistant blade 42 is 0.1-0.8 times of the length of the mixing tank 3, the width is 20-300mm, and one or more circles of mixing-assistant blades 42 can be arranged in the mixing tank 3 according to the size of the mixing tank 3 and the length of the mixing-assistant blade 42, wherein one circle is taken as an example in the present application; when the length of the mixing-assistant blade 42 is too small, the contact area between the mixing-assistant blade 42 and the material is too small, and the mixing efficiency of the material cannot be obviously improved, when the length of the mixing-assistant blade 42 is too large, the mixing-assistant blade 42 can influence the feeding and discharging of the material, and the length of the mixing-assistant blade 42 in fig. 2 is 0.4 times of the length of the tank body of the mixing tank 3; in order to reduce the influence of the installation position of the mixing-assistant blade 42 on the feeding and discharging of the mixing tank 3, the installation height of the mixing-assistant blade is 20-350 mm.

The included angle between the axial line of the mixing-assisting blade 42 in the length direction and the axial line of the mixing tank 3 is 5-75 degrees or 105-175 degrees, and the included angle between the axial line of the mixing-assisting blade 42 in the width direction and the inner wall of the mixing tank 3 is 15-165 degrees; as shown in fig. 2, when the included angle between the axis of the mixing-assistant blade 42 in the length direction and the axis of the mixing tank 3 is 5 °, the included angle between the axis of the mixing-assistant blade 42 in the width direction and the inner wall of the mixing tank 3 is 90 °, when the mixing tank 3 rotates along the axis, the contact area between the material and the mixing-assistant blade 42 is large, and the mixing efficiency of the material can be improved to a large extent; as shown in fig. 3, when the included angle between the axis of the mixing-assistant blade 42 in the length direction and the axis of the mixing tank 3 is 75 °, the included angle between the axis of the mixing-assistant blade 42 in the width direction and the inner wall of the mixing tank 3 is 15 °, the contact area between the material and the mixing-assistant blade 42 is small, and the mixing efficiency of the material can only be improved to a certain extent.

The application process is as follows: when the mixer works, the supporting shaft 2 is driven to rotate by the case 1, the rotating direction of the supporting shaft 2 is controlled by the case 1, the supporting shaft 2 drives the mixing tank 3 to rotate, and the mixing tank 3 rotates to enable materials in the mixing tank 3 to move in multiple ways such as translation, rotation and overturning; when the materials in the mixing tank 3 are more, the mixing-assisting blades 42 connected in the mixing tank 3 play a role in stirring the materials at the same time, and the mixing-assisting blades 42 cooperate with the mixing tank 3 to enable the materials to be mixed more fully; when the material is less in blending tank 3, the material can drop to helping on mixing blade 42 at the in-process of upset, then the material is thrown from helping mixing blade 42 once more, along with the upset of blending tank 3, the material is shed many times for the material is mixed more fully, avoids the material to pile up, and reduces the translation motion of material along the 3 inner walls of blending tank, makes the material in blending tank 3 mix more fully.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a novel high-efficient three-dimensional machine that mixes, includes quick-witted case (1), back shaft (2) and blending tank (3), and the one end of back shaft (2) is articulated with quick-witted case (1), and the other end is articulated with blending tank (3), its characterized in that: be equipped with in blending tank (3) and help mixing subassembly (4) that improve material mixing efficiency, help mixing subassembly (4) including spliced pole (41) and help mixing blade (42), spliced pole (41) and the interior wall connection of blending tank (3), help mixing blade (42) and spliced pole (41) fixed connection.

2. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: a material passing channel (31) is arranged between the mixing-assisting blade (42) and the inner wall of the mixing tank (3).

3. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: the included angle between the axial line of the mixing-assisting blade (42) in the length direction and the axial line of the mixing tank (3) is 5-75 degrees or 105-175 degrees, and the included angle between the axial line of the mixing-assisting blade (42) in the width direction and the inner wall of the mixing tank (3) is 15-165 degrees.

4. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: the length of the mixing-assistant blade (42) is 0.1-0.8 time of the length of the mixing tank (3), and the width of the mixing-assistant blade (42) is 20-300 mm.

5. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: the mounting height of the mixing-assistant blade (42) is 20-350 mm.

6. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: the number of the mixing-assistant blades (42) is 2-30.

7. The novel efficient three-dimensional mixing machine as claimed in claim 1, wherein: the mixing assisting blade (42) is made of a material matched with the material of the mixing tank (3), and the mixing assisting blade (42) is made of one of 304/316/316L stainless steel, glass lining, nylon and polytetrafluoroethylene polymer materials.

Images