CN218393173U - Stirring and mixing system - Google Patents

Abstract

The utility model relates to a stirring hybrid system, including main part and elevating gear, establish the mixing chamber of two intercommunications in the main part, establish on the main part bottom surface and with the discharge opening of mixing chamber intercommunication, establish the seal on elevating gear, establish two agitators on the mixing chamber and establish in the main part and with the pay-off auger of mixing chamber intercommunication, elevating gear promotes the seal and gets into the discharge opening and seal the discharge opening, the work end of two agitators stretches into respectively in two mixing chambers. The stirring hybrid system that this application disclosed realizes the intensive mixing of many powder combinations through the mixed mode of full coverage disturbance formula.

Description

Stirring and mixing system

Technical Field

The application relates to the technical field of mechanical equipment, in particular to a stirring and mixing system.

Background

The electrolyte raw materials become powdery substance after the processing of equipment such as breaker and raymond mill, then send into mixing arrangement and mix, this kind of powdery substance comprises multiple raw materials, need mix fully just can use, but the texture of powder is light, can not realize the intensive mixing of stirring mixing mode.

Disclosure of Invention

The application provides a stirring hybrid system realizes the intensive mixing of many powder combinations through the mixed mode of full coverage disturbance formula.

The above object of the present application is achieved by the following technical solutions:

the application provides a stirring hybrid system includes:

a main body and a lifting device;

two communicated mixing chambers arranged in the main body;

the discharge hole is arranged on the bottom surface of the main body and communicated with the mixing chamber;

the sealing body is arranged on the lifting device, and the lifting device pushes the sealing body to enter the discharging hole and seal the discharging hole;

the two stirrers are arranged on the mixing chamber, and the working ends of the two stirrers respectively extend into the two mixing chambers; and

the feeding auger is arranged on the main body and communicated with the mixing chamber.

In one possible implementation of the present application, the axis of the feeding auger is parallel to the axis of the mixing chamber;

the feeding auger is communicated with the mixing chamber in a plurality of positions, and the plurality of communicated positions are arranged at intervals along the axis of the feeding auger.

In one possible implementation of the present application, the agitator includes:

the stirring shaft is rotationally connected with the main body and is positioned in the mixing chamber;

the stirring arms are arranged on the stirring shaft at intervals;

the material pushing plate is arranged on the stirring arm; and

the driver is arranged on the main body and connected with the stirring shaft;

wherein, the stirring arms on the two stirring shafts are arranged in a staggered way.

In one possible implementation of the present application, two stirring shafts share one drive.

In one possible implementation manner of the present application, the method further includes:

a plurality of sampling tubes provided on the main body;

the one-way valve is connected with the sampling tube; and

and the negative pressure pipeline is sequentially connected with each one-way valve.

In a possible implementation manner of the application, the plurality of sampling pipes are arranged at intervals along the axial direction of the feeding auger.

In one possible implementation of the present application, the sampling tube is provided on the top surface of the body.

Drawings

FIG. 1 is a schematic diagram of a stirring and mixing system according to the present application.

FIG. 2 is a schematic view of the agitated mixing system of FIG. 1 as it discharges.

FIG. 3 is a schematic view of the connection between a feeding auger and a main body.

Fig. 4 is a schematic view of the connection between two stirring shafts and a driver provided by the present application.

Fig. 5 is a schematic diagram illustrating the positions of the stirring arms on two stirring shafts provided by the present application.

In the figure, 11, a main body, 12, a lifting device, 13, a discharge hole, 14, a sealing body, 21, a mixing chamber, 22, a stirrer, 23, a feeding auger, 31, a sampling pipe, 32, a one-way valve, 33, a negative pressure pipeline, 221, a stirring shaft, 222, a stirring arm, 223, a material pushing plate, 224 and a driver.

Detailed Description

The technical solution of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, a stirring and mixing system disclosed in the present application is composed of a main body 11, a lifting device 12, a sealing body 14, a mixing chamber 21, a stirrer 22, a feeding auger 23, and the like, wherein two mixing chambers 21 are provided in the main body 11, the two mixing chambers 21 are connected, that is, the cross-sectional shapes of the two mixing chambers 21 are a figure eight in the direction perpendicular to the axis of the mixing chamber 21.

A discharge hole 13 is formed on the bottom surface of the main body 11, and the discharge hole 13 is communicated with a mixing chamber 21 in the main body 11 and functions to transfer the raw materials subjected to the stirring and mixing process from the mixing chamber 21. The discharge opening 13 is closed by a sealing body 14, the sealing body 14 is mounted on a lifting device 12, and the lifting device 12 is positioned below the main body 11 and can push the sealing body 14 into the discharge opening 13 and close the discharge opening 13.

In some possible implementations, the lifting device 12 uses a hydraulic cylinder.

The number of the agitators 22 is two, the two agitators 22 are installed on the main body 11, and a working end of each agitator 22 is inserted into one mixing chamber 21 to agitate the raw material in the mixing chamber 21. The feeding auger 23 is arranged on the main body 11 and communicated with the mixing chamber 21, and is used for feeding the raw materials to be stirred and mixed into the mixing chamber 21.

The mixing chamber 21 is cylindrical and horizontally arranged, and the stirrer 22 is also horizontally arranged, so that the raw materials added into the mixing chamber 21 can be in full contact with the stirrer 22, and the raw materials on the bottom surface of the mixing chamber 21 can be continuously lifted in the high-speed and continuous rotation process of the stirrer 22, thereby realizing full mixing of all components in the raw materials.

Referring to fig. 3, as an embodiment of the stirring and mixing system provided by the application, the axis of the feeding auger 23 is parallel to the axis of the mixing chamber 21, and a plurality of communication positions of the feeding auger 23 and the mixing chamber 21 are provided, and the communication positions are arranged at intervals along the axis of the feeding auger 23.

Can be at the pay-off in-process like this, make the raw materials can be even in unrestrained mixing chamber 21, can make the raw materials carry out more abundant mixing, pay-off auger 23 can also realize a lot of pay-off of single stirring in-process simultaneously for the raw materials can be mixed more abundant.

Referring to fig. 1 and 4, as an embodiment of the stirring and mixing system provided by the application, the stirrer 22 comprises a stirring shaft 221, stirring arms 222, a material pushing plate 223, a driver 224, and the like, wherein both ends of the stirring shaft 221 are rotatably connected to the main body 11 and located in the mixing chamber 21, and the plurality of stirring arms 222 are spaced on the stirring shaft 221 and can rotate along with the rotation of the stirring shaft 221. The material pushing plate 223 is fixed on the stirring arm 222 and is used for pushing the raw material in the mixing chamber 21 to move, and the stirring arms 222 on the two stirring shafts 221 are arranged in a staggered manner, as shown in fig. 5. The driver 224 is installed on the main body 11 and connected to the stirring shaft 221 for driving the stirring shaft 221 to rotate at a high speed.

In some possible implementations, the driver 224 consists of a motor and a reducer connected to the motor, the reducer being connected to the stirring shaft 221.

In some possible implementations, the rotation directions of the two stirring shafts 221 are opposite.

Further, the two stirring shafts 221 share one driver 224.

Referring to fig. 4, as an embodiment of the stirring and mixing system provided by the application, a plurality of sampling pipes 31, check valves 32 and negative pressure pipes 33 are further added, the sampling pipes 31 are provided on the main body 11, each sampling pipe 31 is connected to one check valve 32, and one negative pressure pipe 33 is provided and sequentially connected to each check valve 32.

The sampling pipe 31, the one-way valve 32 and the negative pressure pipeline 33 are used for sampling the raw materials in the stirring and mixing process, the obtained samples are used for detecting the content of each component in the raw materials, and one or more components with insufficient content are supplemented according to the detection result.

The check valves 32 are electronic valves, all the check valves 32 are connected to a switch, and when the switch is pressed, the check valves 32 are opened, and when the switch is released, the check valves 32 are closed.

During sampling, the sampling tank is connected to the negative pressure pipe 33 and to the air pump, and the check valve 32 is opened. When the air pump pumps the gas in the sampling tank, the gas (containing the raw material) in the mixing chamber 21 flows into the sampling tank through the negative pressure pipe 33. And after sampling is finished, closing the check valve 32 and the air pump, and conveying the sample in the sampling box to a laboratory for detection or carrying out quick detection on the spot.

Furthermore, a plurality of sampling pipes 31 are arranged at intervals along the axial direction of the feeding auger 23, so that sampling can be carried out from all places in the mixing chamber 21, and more real samples can be obtained.

Further, the sampling tube 31 is provided on the top surface of the body 11, because the content of the raw material in the gas is minimized, the gas containing the raw material can be rapidly extracted and transferred into the sampling box by means of the flowing air.

The embodiments of the present invention are all preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, 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. An agitating mixing system, comprising:

a main body (11) and a lifting device (12);

two communicating mixing chambers (21) provided in the main body (11);

a discharge hole (13) provided on the bottom surface of the main body (11) and communicating with the mixing chamber (21);

the sealing body (14) is arranged on the lifting device (12), and the lifting device (12) pushes the sealing body (14) to enter the discharging hole (13) and seal the discharging hole (13);

the two stirrers (22) are arranged on the mixing chamber (21), and the working ends of the two stirrers (22) respectively extend into the two mixing chambers (21); and

and the feeding auger (23) is arranged on the main body (11) and is communicated with the mixing chamber (21).

2. The mixing and stirring system according to claim 1, wherein the axis of the feeding auger (23) is parallel to the axis of the mixing chamber (21);

the feeding packing auger (23) and the mixing chamber (21) are communicated at a plurality of positions, and the plurality of communicated positions are arranged at intervals along the axis of the feeding packing auger (23).

3. The stirring and mixing system according to claim 2, characterized in that the stirrer (22) comprises:

a stirring shaft (221) rotatably connected to the main body (11) and located in the mixing chamber (21);

a plurality of stirring arms (222) which are arranged on the stirring shaft (221) at intervals;

a pusher plate (223) provided on the stirring arm (222); and

a driver (224) arranged on the main body (11) and connected with the stirring shaft (221);

wherein the stirring arms (222) on the two stirring shafts (221) are arranged in a staggered way.

4. The stirring mixing system according to claim 3, characterized in that two stirring shafts (221) share one drive (224).

5. The blending and mixing system of any of claims 1-4, further comprising:

a plurality of sampling tubes (31) provided on the main body (11);

a check valve (32) connected to the sampling tube (31); and

a negative pressure pipeline (33) connected with each one-way valve (32) in sequence.

6. The mixing and stirring system of claim 5, wherein the sampling pipes (31) are arranged at intervals along the axial direction of the feeding auger (23).

7. Stirring and mixing system according to claim 5, wherein the sampling tube (31) is provided on the top surface of the body (11).

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