CN211537424U - Stirring tank capable of mixing fully - Google Patents

Abstract

The utility model discloses a agitator tank of intensive mixing especially relates to agitator tank technical field, including a jar body, jar body includes agitator motor, main (mixing) shaft and vice (mixing) shaft, and jar internal portion upside is equipped with the transmission chamber, and jar internal portion just is located transmission chamber below and evenly is equipped with at least three stirring chamber perpendicularly, and agitator motor fixed mounting is in jar body upper end, and main (mixing) shaft rotates to be connected in the middle of the transmission intracavity portion. This kind of agitator tank of intensive mixing, it rotates through agitator motor drive main (mixing) shaft, can drive driving gear and agitator disk and rotate simultaneously, utilize driving gear and driven gear transmission like this, can drive vice (mixing) shaft and rotate, make agitator disk and puddler rotate simultaneously, can intensive mixing raw materials like this, make the efficiency of stirring improved, solve current agitator tank and be difficult to mix the back very first time and continue to mix multiple mixture and the problem that stirring efficiency is low excessively in the agitator tank.

Description

Stirring tank capable of mixing fully

Technical Field

The utility model relates to an agitator tank technical field especially relates to an agitator tank of intensive mixing.

Background

The agitator tank wide application is trades such as coating, medicine, building materials, chemical industry, pigment, resin, food, scientific research, in the chemical production operation, often can stir the mixing to industrial chemicals, and the agitator tank for the most common chemical products has the container or the device of stirring all the time, often is arranged in the stirring of chemical production material to mix. Traditional agitator tank when carrying out double-deck or multilayer stirring, it is general exactly to mix the back, takes out the mixture and mixes once more, is difficult to the very first time after mixing to continue mixing multiple mixture in the agitator tank, leads to the operation too complicated to when stirring, be difficult to the intensive mixing raw materials, make stirring efficiency hang down, can not reach user's demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a agitator tank of abundant mixing to solve current agitator tank and be difficult to mix the back very first time and continue to mix multiple mixture and the problem that stirring efficiency is low excessively in the agitator tank.

The utility model provides a technical scheme that its technical problem adopted is: a stirring tank capable of being fully mixed comprises a tank body, wherein the tank body comprises a stirring motor, a main stirring shaft and auxiliary stirring shafts, a transmission cavity is arranged at the upper side in the tank body, at least three stirring cavities are vertically and uniformly arranged in the tank body and below the transmission cavity, the stirring motor is fixedly arranged at the upper end of the tank body, the main stirring shaft is rotatably connected to the middle in the transmission cavity, the lower end of the main stirring shaft penetrates through the stirring cavities, the upper end of the main stirring shaft penetrates through the tank body and is connected with the driving end of the stirring motor, a driving gear is fixedly arranged on the outer wall of the main stirring shaft and positioned in the transmission cavity, a stirring disc is fixedly arranged on the outer wall of the main stirring shaft and positioned in each stirring cavity, the number of the auxiliary stirring shafts is two, and the two auxiliary stirring shafts are respectively rotatably connected to the, the lower end of each auxiliary stirring shaft penetrates through the stirring cavity, the upper end of each auxiliary stirring shaft is connected with a driven gear, a group of stirring rods is fixed on the outer wall of each auxiliary stirring shaft and positioned in each stirring cavity, and the stirring disc is positioned below each adjacent group of stirring rods; the left of the tank body is provided with a main pipeline, the upper end of the main pipeline is connected with a hopper, the right end of the main pipeline is vertically connected with at least three input electromagnetic valves, each input electromagnetic valve right end is connected with an input pipe, each input pipe end is penetrated through the inner part of the stirring cavity at the same side, each input pipe end is connected with a calandria, the calandria is positioned above each adjacent group of the stirring rods, the right end of the tank body is vertically and uniformly provided with at least three output electromagnetic valves, each bottom right side in the stirring cavity is penetrated and provided with an upper output pipe, the lower end of the upper output pipe is penetrated through the tank body and connected with the upper end of the adjacent output electromagnetic valve, the lower end of each output electromagnetic valve is connected with a lower output pipe, except for the last lower output pipe, the lower ends of the other, the lower output pipe is positioned below each adjacent group of the stirring rods.

Preferably, the driving gear and the driven gear are located on the same horizontal line, and the driving gear is in transmission connection with the driven gear.

As a preferred scheme, each group of the stirring rods has at least eight stirring rods, and the stirring rods of each group are uniformly distributed.

As a preferred scheme, the main pipeline is communicated with the hopper, the main pipeline is communicated with the input electromagnetic valve, the input electromagnetic valve is communicated with the input pipe, and the input pipe is communicated with the discharge pipe.

As a preferable scheme, the output electromagnetic valve is communicated with the upper output pipe, and the output electromagnetic valve is communicated with the lower output pipe.

As a preferable scheme, the input electromagnetic valves correspond to the stirring cavities one by one.

Compared with the prior art, the utility model discloses the beneficial effect who realizes: according to the stirring tank capable of fully mixing, the stirring motor drives the main stirring shaft to rotate, the driving gear and the stirring disc can be driven to rotate simultaneously, the driving gear and the driven gear are used for transmission, the auxiliary stirring shaft can be driven to rotate, the stirring disc and the stirring rod can rotate simultaneously, raw materials can be fully mixed, and the stirring efficiency is improved; through toward trunk line input raw materials, can utilize input solenoid valve in turn with the different stirring intracavity portions of raw materials input of difference, and the mixture that one of them stirring intracavity portion was mixed well can continue to mix through the stirring intracavity portion of output solenoid valve row below, need not take out the mixture earlier like this, is applicable to the multiple raw materials mixing work that has mixed well to the operation of being convenient for more.

Drawings

FIG. 1 is a general schematic view of the present invention;

FIG. 2 is a schematic view of the main stirring shaft of the present invention;

fig. 3 is a schematic view of the auxiliary stirring shaft of the present invention.

In the figure: 1-tank body, 2-transmission cavity, 3-stirring cavity, 4-stirring motor, 5-main stirring shaft, 6-driving gear, 7-stirring disk, 8-main pipeline, 9-hopper, 10-input electromagnetic valve, 11-input pipe, 12-discharge pipe, 13-upper output pipe, 14-output electromagnetic valve, 15-lower output pipe, 16-auxiliary stirring shaft, 17-driven gear and 18-stirring rod.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a stirring tank capable of being fully mixed comprises a tank body 1, wherein the tank body 1 comprises a stirring motor 4, a main stirring shaft 5 and auxiliary stirring shafts 16, a transmission cavity 2 is arranged on the upper side inside the tank body 1, at least three stirring cavities 3 are vertically and uniformly arranged inside the tank body 1 and below the transmission cavity 2, the stirring motor 4 is fixedly arranged at the upper end of the tank body 1, the main stirring shaft 5 is rotatably connected to the middle inside the transmission cavity 2, the lower end of the main stirring shaft 5 penetrates through the stirring cavities 3, the upper end of the main stirring shaft 5 penetrates through the tank body 1 to be connected with a driving end of the stirring motor 4, a driving gear 6 is fixedly arranged on the outer wall of the main stirring shaft 5 and inside the transmission cavity 2, a stirring disc 7 is fixedly arranged on the outer wall of the main stirring shaft 5 and inside each stirring cavity 3, and the auxiliary stirring shafts 16 are two in total, the two auxiliary stirring shafts 16 are respectively and rotatably connected to the left side and the right side inside the transmission cavity 2, the lower end of each auxiliary stirring shaft 16 penetrates through the stirring cavity 3, the upper end of each auxiliary stirring shaft 16 is connected with a driven gear 17, a group of stirring rods 18 are fixed on the outer wall of each auxiliary stirring shaft 16 and positioned inside each stirring cavity 3, the stirring discs 7 are positioned below each adjacent group of stirring rods 18, the driving gear 6 and the driven gear 17 are positioned on the same horizontal line, the driving gear 6 is in transmission connection with the driven gear 17, at least eight stirring rods 18 are arranged in each group, the stirring rods 18 in each group are uniformly distributed, the driving gear 6 and the stirring discs 7 can be driven to rotate simultaneously by driving the main stirring shaft 5 through the stirring motor 4, and the driving gear 6 and the driven gear 17 are utilized to drive the left auxiliary stirring shaft 16 and the right auxiliary stirring shaft 16 to rotate simultaneously, so that the stirring disc 7 and the stirring rod 18 rotate simultaneously to stir the raw materials in the stirring cavity 3, and the raw materials can be fully mixed, thereby improving the stirring efficiency.

According to the above embodiment, the left side of the tank body 1 is provided with a main pipe 8, the upper end of the main pipe 8 is connected with a hopper 9, the right end of the main pipe 8 is vertically connected with at least three input electromagnetic valves 10, the right end of each input electromagnetic valve 10 is connected with an input pipe 11, the tail end of each input pipe 11 penetrates through the inner part of the stirring cavity 3 at the same side, the tail end of each input pipe 11 is connected with a calandria 12, the calandria 12 is positioned above each adjacent group of the stirring rods 18, the right end of the tank body 1 is vertically and uniformly provided with at least three output electromagnetic valves 14, the right side of the bottom end in each stirring cavity 3 is provided with an upper output pipe 13 in a penetrating manner, the lower end of the upper output pipe 13 penetrates through the tank body 1 and is connected with the upper ends of the adjacent, the lower ends of the other lower output pipes 15 except the last lower output pipe 15 from top to bottom penetrate through the adjacent mixing cavities 3, the lower output pipes 15 are positioned below each group of adjacent mixing rods 18, the main pipe 8 is communicated with the hopper 9, the main pipe 8 is communicated with the input solenoid valves 10, the input solenoid valves 10 are communicated with the input pipes 11, the input pipes 11 are communicated with the discharge pipes 12, the output solenoid valves 14 are communicated with the upper output pipe 13, the output solenoid valves 14 are communicated with the lower output pipes 15, the input solenoid valves 10 are in one-to-one correspondence with the mixing cavities 3, raw materials can enter the main pipe 8 by inputting the raw materials into the hopper 9, at this time, the corresponding input solenoid valves 10 can be opened, and the other input solenoid valves 10 are closed, so that the raw materials can be input into the corresponding mixing cavities 3 along the input pipes 11 and the discharge pipes 12 by using the opened input solenoid valves 10, in this way, different materials can be fed into different mixing chambers 3 in batches by means of a plurality of feed solenoid valves 10.

After the raw materials are mixed in one of the stirring chambers 3, the corresponding output solenoid valve 14 can be opened, and the other output solenoid valves 14 are closed, so that the mixed materials in one of the stirring chambers 3 can be continuously mixed in the stirring chamber 3 below the lower output pipe 15 along the upper output pipe 13 and the output solenoid valve 14, and after the raw materials are mixed in the last stirring chamber 3 from top to bottom, the lower output pipe 15 below the last output solenoid valve 14 from top to bottom can be utilized, the mixed materials in the last stirring chamber 3 from top to bottom are discharged out of the tank body 1, so that the mixed materials do not need to be taken out first, the material mixing tank is suitable for mixing of various mixed raw materials, and the operation is more convenient.

The working principle is as follows: firstly, through input raw materials in the hopper 9, can make the raw materials get into trunk line 8, at this moment, can open corresponding input solenoid valve 10, other input solenoid valves 10 are closed, then can utilize the input solenoid valve 10 of opening to input the raw materials along the corresponding stirring chamber 3 inside of input tube 11 and calandria 12 input, like this can be in turn with the different stirring chamber 3 inside of different raw materials input through a plurality of input solenoid valves 10, rotate through agitator motor 4 drive main (mixing) shaft 5 afterwards, can drive driving gear 6 and agitator disk 7 and rotate simultaneously, utilize driving gear 6 and driven gear 17 transmission like this, can drive two vice (mixing) shafts 16 and rotate simultaneously about driving, make agitator disk 7 and puddler 18 rotate simultaneously and stir the raw materials in the stirring chamber 3, carry out the inside stirring mixed work of a plurality of stirring chambers 3 simultaneously.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a agitator tank of abundant mixture, includes a jar body, jar body is including agitator motor, main (mixing) shaft and vice (mixing) shaft, its characterized in that:

the upper side of the inner part of the tank body is provided with a transmission cavity, at least three stirring cavities are vertically and uniformly arranged in the tank body and below the transmission cavity, the stirring motor is fixedly arranged at the upper end of the tank body, the main stirring shaft is rotatably connected in the middle of the inner part of the transmission cavity, the lower end of the main stirring shaft penetrates through the stirring cavity, the upper end of the main stirring shaft penetrates through the tank body and is connected with the driving end of the stirring motor, the outer wall of the main stirring shaft is fixedly provided with a driving gear in the transmission cavity, the outer wall of the main stirring shaft is fixedly provided with a stirring disc in each stirring cavity, the number of the auxiliary stirring shafts is two, the two auxiliary stirring shafts are respectively rotatably connected with the left side and the right side of the inner part of the transmission cavity, the lower end of the auxiliary stirring shaft penetrates through, a group of stirring rods is fixed on the outer wall of the auxiliary stirring shaft and positioned in each stirring cavity, and the stirring disc is positioned below each adjacent group of stirring rods; the left of the tank body is provided with a main pipeline, the upper end of the main pipeline is connected with a hopper, the right end of the main pipeline is vertically connected with at least three input electromagnetic valves, each input electromagnetic valve right end is connected with an input pipe, each input pipe end is penetrated through the inner part of the stirring cavity at the same side, each input pipe end is connected with a calandria, the calandria is positioned above each adjacent group of the stirring rods, the right end of the tank body is vertically and uniformly provided with at least three output electromagnetic valves, each bottom right side in the stirring cavity is penetrated and provided with an upper output pipe, the lower end of the upper output pipe is penetrated through the tank body and connected with the upper end of the adjacent output electromagnetic valve, the lower end of each output electromagnetic valve is connected with a lower output pipe, except for the last lower output pipe, the lower ends of the other, the lower output pipe is positioned below each adjacent group of the stirring rods.

2. A substantially miscible blender jar as claimed in claim 1, wherein: the driving gear and the driven gear are located on the same horizontal line, and the driving gear is in transmission connection with the driven gear.

3. A substantially miscible blender jar as claimed in claim 1, wherein: each group of the stirring rods is provided with at least eight stirring rods, and the stirring rods of each group are uniformly distributed.

4. A substantially miscible blender jar as claimed in claim 1, wherein: the main pipeline is communicated with the hopper, the main pipeline is communicated with the input electromagnetic valve, the input electromagnetic valve is communicated with the input pipe, and the input pipe is communicated with the discharge pipe.

5. A substantially miscible blender jar as claimed in claim 1, wherein: the output electromagnetic valve is communicated with the upper output pipe, and the output electromagnetic valve is communicated with the lower output pipe.

6. A substantially miscible blender jar as claimed in claim 1, wherein: the input electromagnetic valves correspond to the stirring cavities one by one.

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