CN211936620U

CN211936620U - Flow-assisting mixing device

Info

Publication number: CN211936620U
Application number: CN202020049378.1U
Authority: CN
Inventors: 蒋连福; 董文英
Original assignee: Nanjing Beige Electronic Technology Co ltd
Current assignee: Nanjing Beige Electronic Technology Co ltd
Priority date: 2020-01-10
Filing date: 2020-01-10
Publication date: 2020-11-17
Anticipated expiration: 2030-01-10

Abstract

The utility model discloses a flow aid mixing device includes: the mixing device comprises a mixing bin, a mixing assembly inserted in the mixing bin, a feeding port fixedly arranged on the mixing bin, and four groups of flow aiding assemblies arranged on the inner wall of the mixing bin; the mixing bin is a cylindrical mixing bin, the feeding port is communicated with the mixing bin, and the intervals of every two adjacent flow aiding assemblies in the four flow aiding assemblies are the same; the four groups of flow aiding assemblies are four groups of same units, and each group of same units comprises a flow aiding rotating shaft which is rotatably connected with the mixing bin and flow aiding plates which are arranged on two sides of the flow aiding rotating shaft. The utility model discloses design the same class of doing all can of four group structures in mixing the storehouse and flow the subassembly, when mixing the paddle and drive the mixture and flow, start and flow the subassembly and carry out the class of doing all can to the mixture for the mixture receives the drive of multiunit drive power, and then increases the velocity of flow of mixture, and then improves mixing efficiency.

Description

Flow-assisting mixing device

Technical Field

The utility model relates to a mixing arrangement specifically is a flow aid mixing arrangement.

Background

Mixing, meaning blending, and bringing together. Such as: mixing water and alcohol also refers to a unit operation in which two or more materials are dispersed with each other to a certain degree of homogeneity by mechanical or fluid dynamic means.

Generally refers to an operation of mechanically dispersing two or more materials into each other to achieve a homogeneous state. To accelerate heat transfer, mass transfer, and chemical reactions (e.g., nitration, sulfonation, saponification, etc.). Also used to promote physical changes and make many mixtures, such as solutions, emulsions, suspensions, mixtures, etc. It may be carried out in a mixer or the like.

However, in the existing mixing device, the basic design drives the mixture body for the mixing paddle to mix, and the solitary mixing paddle is mixing the mixture body, because solitary power drive, when the mixing paddle drives the mixture body and flows, the mobile rotating speed of the mixture body is lower, therefore makes the mixture body mix the efficiency under the circumstances of the solitary power drive lower.

Mix the utility model contents

Utility model purpose: a flow-aid mixing device is provided to solve the above problems of the prior art.

The technical scheme is as follows: a flow-aiding mixing device comprising:

the mixing device comprises a mixing bin, a mixing assembly inserted in the mixing bin, a feeding port fixedly arranged on the mixing bin, and four groups of flow aiding assemblies arranged on the inner wall of the mixing bin; the mixing bin is a cylindrical mixing bin, the feeding port is communicated with the mixing bin, and the intervals of every two adjacent flow aiding assemblies in the four flow aiding assemblies are the same;

the four groups of flow aiding assemblies are four groups of same units, and each group of same units comprises a flow aiding rotating shaft which is rotatably connected with the mixing bin and flow aiding plates which are arranged on two sides of the flow aiding rotating shaft.

In a further embodiment, the four sets of flow aid assemblies form four separate sets of flow aid bins, the flow aid bins are in communication with the mixing bin, and the flow aid bins are divided into a flow aid inlet and a flow aid outlet; the turning direction of the flow aiding rotating shaft is the same as that of the mixing assembly, the flow aiding inlet and the flow aiding outlet are designed, the flow aiding plate is driven to rotate through the flow aiding rotating shaft mainly in order to enable part of the mixture to enter from the flow aiding inlet, the flow aiding plate is driven to rotate through the flow aiding rotating shaft, the flow velocity of the mixture is increased, the mixture flows out through the flow aiding outlet, the rest of the mixture in the mixing bin is driven to increase the flow velocity, and the mixing efficiency is improved.

In a further embodiment, a flow assisting motor is arranged at the end part of the flow assisting rotating shaft, the flow assisting rotating shaft penetrates through the flow assisting bin and is communicated with the flow assisting motor, and the flow assisting motor is designed to mainly drive the flow assisting rotating shaft to rotate so as to complete the rotation of the flow assisting rotating shaft driving the flow assisting plate and further complete the acceleration effect on the mixture.

In a further embodiment, the mixing assembly includes fixed mounting and is in mix the hybrid motor on the storehouse, with the coaxial pivoted drive gear group of hybrid motor is pegged graft the mixed pivot of drive gear group cup joints what mix the pivot just inlayed mix the bearing in the mixed storehouse, fixed mounting is in mix the epaxial multiunit bracing piece of commentaries on classics, and the wire-wrap the mixed paddle of multiunit bracing piece it has the input shaft to peg graft on the hybrid motor, and the design mixing assembly is mainly in order to drive the rotation of compound body, and then makes the compound body accomplish and mix.

In a further embodiment, the mixing paddle is a helical paddle, and the mixing paddle is designed as a helical paddle, mainly to make the mixing body drive more stable.

In a further embodiment, the transmission gear set comprises an input gear sleeved on the input shaft and an output gear meshed with the input gear; the output gear cup joints mix the pivot, designs the rotational gear subassembly, mainly in order to carry out the drive effect to mixing shaft, and then accomplishes the mixed effect to the mixture body.

Has the advantages that: the utility model discloses a flow aid mixing device designs the same class of flow aid subassembly of four group's structures in mixing the storehouse, when mixing the paddle and driving the mixture and flow, starts the class of flow aid subassembly and carries out the class of flow aid to the mixture for the mixture receives the drive of multiunit drive power, and then increases the velocity of flow of mixture, and then improves mixing efficiency.

Drawings

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

Fig. 2 is a schematic cross-sectional view of the present invention.

Fig. 3 is a schematic diagram of the mixing assembly of the present invention.

Fig. 4 is a schematic view of a flow assist assembly of the present invention.

The reference signs are: mixing bin 1, flow assisting component 11, flow assisting plate 111, flow assisting rotating shaft 112, flow assisting motor 12, feeding port 2, mixing component 3, mixing motor 31, mixing bearing 32, mixing rotating shaft 33, support rod 34 and mixing paddle 35.

Detailed Description

Through the research and analysis of the applicant, the reason that this problem (current mixing assembly mixing efficiency is lower) appears lies in, however among the present mixing arrangement, basic design drives the mixture for mixing the paddle leaf and mixes, and solitary mixing paddle leaf is mixing the mixture, because solitary power drive, mixing the paddle leaf when driving the mixture and flowing, the mobile rotational speed of mixture is lower, consequently makes the mixture lower at the mixing efficiency under the power drive condition alone, and the utility model discloses design the same class subassembly of flow aiding of four group structures in mixing the storehouse, when mixing paddle leaf drive the mixture and flowing, start the class subassembly of flow aiding and carry out the class of flow aiding to the mixture for the mixture receives the drive of multiunit drive power, and then increases the velocity of flow of mixture, and then improves mixing efficiency.

A flow-aiding mixing device comprising: mixing bin 1, flow assisting component 11, flow assisting plate 111, flow assisting rotating shaft 112, flow assisting motor 12, feeding port 2, mixing component 3, mixing motor 31, mixing bearing 32, mixing rotating shaft 33, support rod 34 and mixing paddle 35.

The mixing device comprises a mixing bin 1, a mixing component 3, a feeding port 2, four groups of flow aiding components 11, a cylindrical mixing bin 1, a feeding port 2 and the mixing bin 1, wherein the mixing bin 1 is internally inserted with the mixing component 3, the end part of the mixing bin 1 is provided with the feeding port 2, the inner wall of the mixing bin 1 is provided with the four groups of flow aiding components 11, the feeding port 2 is communicated with the mixing bin 1, and the intervals of every two adjacent groups of flow aiding components 11 in the four groups of;

the four groups of flow aiding assemblies 11 are four groups of same units, each group of same units comprises a flow aiding rotating shaft 112 which is rotatably connected with the mixing bin 1, and flow aiding plates 111 which are arranged on two sides of the flow aiding rotating shaft 112.

The four groups of flow aiding components 11 form four independent flow aiding bins, the flow aiding bins are communicated with the mixing bin 1, and the flow aiding bins are divided into flow aiding inlets and flow aiding outlets; the turning direction of the flow assisting rotating shaft 112 is the same as that of the mixing component 3, and a flow assisting inlet and a flow assisting outlet are designed, so that part of the mixture can enter from the flow assisting inlet, the flow assisting plate 111 is driven to rotate through the flow assisting rotating shaft 112, the flow rate of the mixture is increased, the mixture flows out through the flow assisting outlet, the rest of the mixture in the mixing bin 1 is driven to increase the flow rate, and the mixing efficiency is improved.

The end part of the flow assisting rotating shaft 112 is provided with a flow assisting motor 12, the flow assisting rotating shaft 112 penetrates through the flow assisting bin and is communicated with the flow assisting motor 12, and the flow assisting motor 12 is designed to mainly drive the flow assisting rotating shaft 112 to rotate so as to complete the rotation of the flow assisting rotating shaft 112 to drive the flow assisting plate 111 to rotate, thereby completing the acceleration effect on the mixture.

The mixing component 3 comprises a mixing motor 31 fixedly arranged on the mixing bin 1, a transmission gear set coaxially rotating with the mixing motor 31, a mixing rotating shaft 33 inserted with the transmission gear set, a mixing bearing 32 sleeved with the mixing rotating shaft 33 and embedded in the mixing bin 1, a plurality of groups of support rods 34 fixedly arranged on the mixing rotating shaft 33, and a mixing paddle 35 wound with the plurality of groups of support rods 34, wherein an input shaft is inserted on the mixing motor 31, the mixing component 3 is designed to mainly drive the rotation of a mixed body so as to complete the mixing of the mixed body, the mixing component 3 is operated by the mixing motor 31 so as to drive the input shaft to rotate, and then drives an input gear sleeved with the input shaft to rotate, and then drives an output gear meshed with the input gear to rotate, and then drives the mixing rotating shaft 33 inserted with the output gear to rotate, and then the support rod 34 fixedly connected with the mixing rotating shaft 33 is driven to rotate, and further the mixing paddle 35 wound on the support rod 34 is driven to rotate.

The mixing paddle 35 is a spiral paddle, and the mixing paddle 35 is designed as a spiral paddle, so that the driving of the mixture is more stable.

The transmission gear set comprises an input gear sleeved with the input shaft and an output gear meshed with the input gear; the output gear cup joints mix pivot 33, designs the rotating gear subassembly, mainly in order to carry out the drive effect to mixing shaft, and then accomplishes the mixed effect to the mixture body.

Description of the working principle: when the mixture needs to be mixed, the mixture is poured into the mixing bin 1 from the feeding port 2, then the mixing motor 31 works to drive the input shaft to rotate, then the input gear sleeved with the input shaft is driven to rotate, then the output gear meshed with the input gear is driven to rotate, then the mixing rotating shaft 33 inserted with the output gear is driven to rotate, then the supporting rod 34 fixedly connected with the mixing rotating shaft 33 is driven to rotate, then the mixing paddle 35 wound on the supporting rod 34 is driven to rotate, then the mixing paddle blade is driven to flow, then the mixing effect of the mixture is completed, when the mixture needs to increase the flow rate, the flow assisting component 11 is started, then the flow assisting motor 12 drives the flow assisting rotating shaft 112 to rotate, then the flow assisting plate 111 is driven to rotate, at this time, the flow assisting inlet enters the flow assisting bin to flow assisting mixture, the mixture will flow along with helping the class board 111 this moment, and then increases the partial mixture that gets into in the class storehouse of helping by helping class board 111 and accelerates, accomplishes the back with higher speed, gets into the partial mixture in the class storehouse of helping class this moment and will flow into to mix in the storehouse 1 by helping the class export, and then drives the mixture in mixing the storehouse 1 and flow with higher speed, and then reach the effect of flash mixed mixture.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims

1. A flow-aiding mixing device, comprising:

2. A flow-aiding mixing apparatus as claimed in claim 1 wherein: the four groups of flow aiding components form four independent flow aiding bins, the flow aiding bins are communicated with the mixing bin, and the flow aiding bins are divided into flow aiding inlets and flow aiding outlets; the turning direction of the flow-aiding rotating shaft is the same as that of the mixing assembly.

3. A flow-aiding mixing apparatus as claimed in claim 2 wherein: and a flow aiding motor is arranged at the end part of the flow aiding rotating shaft, and the flow aiding rotating shaft penetrates through the flow aiding bin and is communicated with the flow aiding motor.

4. A flow-aiding mixing apparatus as claimed in claim 1 wherein: the mixing assembly comprises a mixing motor fixedly mounted on the mixing bin, a transmission gear set coaxially rotating with the mixing motor and inserted into a mixing rotating shaft of the transmission gear set, a mixing bearing sleeved on the mixing rotating shaft and embedded in the mixing bin, a plurality of groups of support rods fixedly mounted on the mixing rotating shaft and mixing blades wound on the plurality of groups of support rods, wherein an input shaft is inserted into the mixing motor.

5. A flow-aiding mixing apparatus according to claim 4 wherein: the mixing paddle is a helical paddle.

6. A flow-aiding mixing apparatus according to claim 4 wherein: the transmission gear set comprises an input gear sleeved with the input shaft and an output gear meshed with the input gear; the output gear is sleeved with the mixing rotating shaft.