CN114345205A - Mixing device for electrolyte production and use method thereof - Google Patents

Abstract

The application discloses mixing arrangement for electrolyte production and application method thereof, including bearing assembly and mixing assembly, bearing assembly includes mixing box, loading board and horizontal pole, and the mixing box top is the opening setting, and loading board slidable mounting is in the mixing box inner wall, and the horizontal pole is installed in mixing box top, and mixing assembly includes electric putter, motor, first transmission shaft, a plurality of first stirring leaf, a plurality of second transmission shaft and a plurality of second stirring leaf, and electric putter installs in the horizontal pole bottom, and a plurality of second stirring leaf are installed respectively in a plurality of second transmission shaft peripheries. This scheme for the convection current is realized to the mixed electrolyte of treating of upper strata, middle level and lower floor in the mixing box, and then makes the metallic element of upper strata, middle level and lower floor driven by the convection current, and then the effectual metallic element who makes upper strata, middle level and lower floor distributes hungry comparatively evenly, and effectual enhancement mixes the effect to the mixing velocity of the mixed electrolyte of effectual accelerateing saves the churning time.

Description

Mixing device for electrolyte production and use method thereof

Technical Field

The application relates to the technical field of electrolyte production, in particular to a mixing device for electrolyte production and a using method thereof.

Background

Chemical industry, i.e. chemical industry, applies chemical methods to change the composition or structure of a substance or to synthesize new substances, and belongs to chemical production technology, i.e. chemical process, and the obtained product is called chemical product or chemical product. In modern life, chemical products can not be left at all times and places, and the chemical products are needed to serve from material life such as clothes, food, live, and walk to mental life such as culture, art and entertainment. Some chemical products play an epoch-making important role in the development history of human beings, wherein the electrolyte of the lithium battery is an important component of the battery and has great influence on the performance of the battery. In the conventional battery, the electrolyte adopts an electrolyte system using water as a solvent.

At present when mixing lithium ion battery electrolyte, drive the (mixing) shaft rotation through the motor and mix lithium salt, solvent, additive etc. and there is not the convection current basically between the electrolyte of upper strata and the lower floor's electrolyte in the mixing arrangement, and this makes the metallic element distribution between upper electrolyte and the lower floor's electrolyte produce comparatively obvious separation, and the metallic element in the electrolyte of messenger upper and lower floor distributes inhomogeneously, causes the electrolyte to mix the effect not good.

Disclosure of Invention

The present application is directed to a mixing device for producing an electrolyte and a method for using the same, which can solve the problems of the related art.

In order to achieve the above object, the present application provides a mixing device for electrolyte production, comprising a bearing component and a mixing component.

The bearing assembly comprises a mixing box, a bearing plate and a cross rod, the top of the mixing box is provided with an opening, the bearing plate is slidably mounted on the inner wall of the mixing box, and the cross rod is mounted on the top of the mixing box.

The mixing component comprises an electric push rod, a motor, a first transmission shaft, a plurality of first stirring blades, a plurality of second transmission shafts and a plurality of second stirring blades, the electric push rod is arranged at the bottom of the cross rod, the output end of the electric push rod is arranged at the top of the bearing plate, the motor is arranged at the top of the bearing plate, the first transmission shaft is rotatably arranged at the bottom of the bearing plate and is in transmission connection with the output end of the motor, the plurality of first stirring blades are uniformly arranged at the periphery of the first transmission shaft in an array manner, a plurality of clamping sleeves are arranged at the periphery of the first transmission shaft, the plurality of second transmission shafts are respectively rotatably arranged at the plurality of clamping sleeves, both ends of the plurality of second transmission shafts are respectively and slidably arranged at the side wall of the mixing box, the plurality of second transmission shafts are respectively in transmission connection with the first transmission shaft, and the plurality of second stirring blades are respectively arranged at the periphery of the plurality of second transmission shafts, the plurality of second stirring blades are respectively positioned between the two adjacent first stirring blades.

In one embodiment of the application, four supporting legs are installed at the bottom of the mixing box, and the end parts of the four supporting legs are all provided with a pressure seat.

In one embodiment of the application, a drain pipe is installed at the bottom of the mixing box, and a valve is installed on the periphery of the drain pipe.

In an embodiment of the application, the opposite side walls of the bearing plate are provided with sliding blocks, and the inner wall of the mixing box is provided with a sliding groove matched with the sliding blocks.

In an embodiment of the application, the slider end rotates and inlays and is equipped with a plurality of balls, and a plurality of ball periphery all with the spout lateral wall is inconsistent, a plurality of ball all imbeds two-thirds.

In an embodiment of the present application, a first bevel gear is installed on the periphery of the first transmission shaft, a second bevel gear is installed on the periphery of the second transmission shaft, the first bevel gear is engaged with the second bevel gear, and the first bevel gear and the second bevel gear are both located in the sleeve.

In an embodiment of the present application, the end of the first stirring blade is in clearance fit with the inner wall of the mixing box, and the side wall of the first stirring blade is rough.

In an embodiment of this application, the mixing box is inside be provided with a plurality of the second transmission shaft complex guide way, the tip of second transmission shaft with the guide way lateral wall is clearance fit.

In an embodiment of the present application, the motor is electrically connected to a controller, and the controller is installed on the side wall of the mixing box.

The invention also provides a use method of the mixing device for electrolyte production, which comprises the following steps:

firstly, pouring electrolyte to be mixed into the mixing box from an opening of the mixing box, at the moment, the electrolyte to be mixed firstly falls onto the top of the bearing plate and further flows to the bottom of the mixing box to be collected, then, the motor is operated to drive the first transmission shaft, so that the first stirring blade rotates by taking the first transmission shaft as an axis, and further, the electrolyte to be mixed is stirred in the horizontal direction, meanwhile, the first transmission shaft drives the second transmission shaft to rotate, so that the second stirring blades rotate by taking the second transmission shaft as a center, so that the electrolyte to be mixed is stirred in the vertical direction, meanwhile, the electric push rod is operated to drive the bearing plate to do reciprocating motion on the inner wall of the mixing box, so that the first transmission shaft does reciprocating motion, so as to drive the first stirring blade to do reciprocating motion while stirring the electrolyte to be mixed, the first transmission shaft can drive the second transmission shaft to do reciprocating motion while doing reciprocating motion, and then the second stirring blade is driven to do reciprocating motion while stirring the electrolyte to be mixed.

Compared with the prior art, the beneficial effects of this application are: through the mixing device for producing the electrolyte, when in use, the electrolyte to be mixed is poured into the mixing box from the opening of the mixing box, at the moment, the electrolyte to be mixed firstly falls to the top of the bearing plate and further flows to the bottom of the mixing box to be collected, then the motor is operated to drive the first transmission shaft, so that the first stirring blades rotate by taking the first transmission shaft as the center, further the electrolyte to be mixed is stirred in the horizontal direction, further the electrolyte to be mixed flows in the horizontal direction, meanwhile, the first transmission shaft drives the second transmission shaft to rotate, further a plurality of second stirring blades rotate by taking the second transmission shaft as the center, further the electrolyte to be mixed is stirred in the vertical direction, further the electrolyte to be mixed flows in the vertical direction, when the electrolyte to be mixed flowing in the horizontal direction and the electrolyte to be mixed flowing in the vertical direction are in mutual contact, can form vortex, further enable the electrolyte to be mixed of the upper layer, the middle layer and the lower layer in the mixing box to realize convection, further enable the metal elements of the upper layer, the middle layer and the lower layer to be driven by convection, further effectively enable the metal elements of the upper layer, the middle layer and the lower layer to be distributed more evenly, effectively enhance the mixing effect, meanwhile, the electric push rod operates to drive the bearing plate to do reciprocating motion on the inner wall of the mixing box, further enable the first transmission shaft to do reciprocating motion, further drive the first stirring blade to do reciprocating motion while stirring the electrolyte to be mixed, effectively increase the stirring range of the electrolyte to be mixed, further effectively enhance the stirring of the electrolyte to be mixed, effectively accelerate the mixing speed, and the first transmission shaft can drive the second transmission shaft to do reciprocating motion while doing reciprocating motion, further drive the second stirring blade to do reciprocating motion while stirring the electrolyte to be mixed, further enlarging the stirring range of the electrolyte to be mixed, further accelerating the mixing speed of the electrolyte to be mixed and saving the stirring time.

Drawings

Fig. 1 is a schematic front sectional view of a mixing device for electrolyte production according to an embodiment of the present disclosure;

FIG. 2 is a schematic top sectional view of a mixing device for electrolyte production according to an embodiment of the present disclosure;

FIG. 3 is an enlarged view of FIG. 1 at A;

FIG. 4 is a schematic front view of a mixing device for electrolyte production according to an embodiment of the present disclosure;

fig. 5 is an isometric view of a mixing box of a mixing device for electrolyte production according to an embodiment of the present application.

In the figure: 100. a load bearing assembly; 110. a mixing box; 111. a support leg; 112. a pressure seat; 113. a liquid discharge pipe; 114. a valve; 120. a carrier plate; 121. a slider; 122. a chute; 123. a ball bearing; 130. a cross bar; 200. a mixing assembly; 210. an electric push rod; 220. a motor; 221. a controller; 230. a first drive shaft; 231. a first bevel gear; 240. a first stirring blade; 250. a second drive shaft; 251. a second bevel gear; 252. a guide groove; 260. a second stirring blade; 270. and (4) a ferrule.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1 to 5, the present application provides a mixing device for producing an electrolyte, including a bearing assembly 100 and a mixing assembly 200, wherein the bearing assembly 100 is used for containing an electrolyte to be mixed, and the mixing assembly 200 is used for stirring the electrolyte to be mixed, so as to accelerate a mixing speed of the electrolyte to be mixed.

Referring to fig. 1, 2, 3, 4 and 5, the bearing assembly 100 includes a mixing box 110, a bearing plate 120 and a cross bar 130, the mixing box 110 is used for containing an electrolyte to be mixed, in a specific implementation, a drain pipe 113 is installed at the bottom of the mixing box 110 through a flange, the mixed electrolyte in the mixing box 110 is conveniently discharged through the drain pipe 113, a valve 114 is installed at the periphery of the drain pipe 113, the valve 114 is used for controlling the flow or stop of the mixed electrolyte in the drain pipe 113, the top of the mixing box 110 is provided with an opening, in a specific implementation, four support legs 111 are installed at the bottom of the mixing box 110 by using screws, the support legs 111 are used for supporting the mixing box 110, the ground clearance of the mixing box 110 is increased, the mixing box 110 is prevented from being damaged by a ground with heavy moisture, the service life of the mixing box 110 is effectively prolonged, pressure-bearing seats 112 are welded to the ends of the four support legs 111, the pressure seat 112 is used for increasing the contact area between the support legs 111 and the ground, so as to enhance the stability of the support legs 111, so as to effectively enhance the stability of the mixing box 110, and is used for adding the electrolyte to be mixed into the mixing box 110, the bearing plate 120 is slidably mounted on the inner wall of the mixing box 110, in specific implementation, the opposite side walls of the bearing plate 120 are both provided with the sliding blocks 121, the inner wall of the mixing box 110 is provided with the sliding grooves 122 matched with the sliding blocks 121, the sliding grooves 122 are used for guiding and limiting the sliding blocks 121, so as to guide and limit the bearing plate 120 in sliding, in specific implementation, the end portions of the sliding blocks 121 are rotatably embedded with a plurality of balls 123, the peripheries of the balls 123 are all abutted against the side walls of the sliding grooves 122, the balls 123 are used for reducing the contact surface connection between the sliding blocks 121 and the sliding grooves 122, so as to facilitate the sliding of the bearing plate 120, the plurality of the balls 123 are all embedded into two thirds, so as to avoid the balls 123 from falling off, thereby facilitating the sliding of the carrier plate 120, and the cross bar 130 is mounted on the top of the mixing box 110 using screws.

Referring to fig. 1, 2, 3, 4 and 5, the mixing assembly 200 includes an electric push rod 210, a motor 220, a first transmission shaft 230, a plurality of first stirring blades 240, a plurality of second transmission shafts 250 and a plurality of second stirring blades 260, the electric push rod 210 is mounted at the bottom of the cross bar 130 by screws, an output end of the electric push rod 210 is mounted at the top of the supporting plate 120 by screws, in an embodiment, the electric push rod 210 operates to drive the supporting plate 120 to slide on the side wall of the chute 122, the motor 220 is mounted at the top of the supporting plate 120 by screws, the first transmission shaft 230 is rotatably mounted at the bottom of the supporting plate 120, the first transmission shaft 230 is in transmission connection with the output end of the motor 220, the plurality of first stirring blades 240 are mounted at the periphery of the first transmission shaft 230 in an array manner, in an embodiment, the motor 220 rotates to drive the first transmission shaft 230 to rotate, thereby driving the first stirring blades 240 to rotate, and further stir the electrolyte to be mixed in the mixing tank 110 in a horizontal direction, when the mixing speed of the electrolyte to be mixed is accelerated, in specific implementation, the end part of the first stirring blade 240 is in clearance fit with the inner wall of the mixing box 110, so that the stirring dead angle is effectively reduced, further, the electrolyte to be mixed is stirred more comprehensively and starvedly, further, the electrolyte to be mixed is mixed, the side wall of the first stirring blade 240 is arranged in a rough surface mode, the friction force between the first stirring blade 240 and the electrolyte to be mixed is effectively increased, further, the electrolyte is in strong collision when in contact with the first stirring blade 240, further, the transmission of the electrolyte is increased, and the mixing of the electrolyte to be mixed is facilitated;

the periphery of the first transmission shaft 230 is provided with a plurality of cutting sleeves 270, the plurality of second transmission shafts 250 are respectively rotatably mounted on the plurality of cutting sleeves 270, two ends of the plurality of second transmission shafts 250 are slidably mounted on the side wall of the mixing box 110, in specific implementation, the mixing box 110 is internally provided with guide grooves 252 matched with the plurality of second transmission shafts 250, the end parts of the second transmission shafts 250 are in clearance fit with the side wall of the guide grooves 252, the guide grooves 252 are used for guiding and limiting the second transmission shafts 250, so that the second transmission shafts 250 can reciprocate while rotating, the plurality of second transmission shafts 250 are in transmission connection with the first transmission shaft 230, in specific implementation, the periphery of the first transmission shaft 230 is provided with a first bevel gear 231, the periphery of the second transmission shafts 250 is provided with a second bevel gear 251, the first bevel gear 231 is engaged with the second bevel gear 251, and the first bevel gear 231 and the second bevel gear 251 are both positioned in the cutting sleeves 270, in specific implementation, the first transmission shaft 230 rotates to drive the second bevel gear 251 to rotate through the first bevel gear 231, so as to drive the second transmission shaft 250 to rotate, the cutting sleeve 270 is used for limiting the second transmission shaft 250 and facilitating the rotation of the second transmission shaft 250, the plurality of second stirring blades 260 are respectively installed at the periphery of the plurality of second transmission shafts 250 by using screws, the plurality of second stirring blades 260 are respectively positioned between two adjacent first stirring blades 240, when the second transmission shaft 250 rotates, the second stirring blades 260 are driven to rotate, so as to stir the electrolyte to be mixed in the vertical direction, when the electrolyte flowing in the vertical direction contacts with the electrolyte flowing in the horizontal direction, a vortex occurs, so that the electrolytes in the upper layer, the middle layer and the lower layer in the mixing box 110 contact with each other, so as to allow the electrolyte to be mixed to convect, in specific implementation, the motor 220 is electrically connected with the controller 221, the controller 221 is mounted on the side wall of the mixing box 110 by using screws, and the controller 221 is set as an overload protector for automatically stopping the operation of the motor 220 in time, so that the motor 220 is prevented from being damaged due to the fact that the motor 220 is overloaded, and the service life of the motor 220 is effectively prolonged.

The invention also provides a use method of the mixing device for electrolyte production, which comprises the following steps:

firstly, the electrolyte to be mixed is poured into the mixing box 110 from the opening of the mixing box 110, at this time, the electrolyte to be mixed firstly falls onto the top of the bearing plate 120, and further flows to the bottom of the mixing box 110 to be collected, then the motor 220 is operated to drive the first transmission shaft 230, so that the first stirring blade 240 rotates by taking the first transmission shaft 230 as an axis, and further the electrolyte to be mixed is stirred in the horizontal direction, meanwhile, the first transmission shaft 230 drives the second transmission shaft 250 to rotate, so that the second stirring blades 260 rotate by taking the second transmission shaft 250 as a center, and further the electrolyte to be mixed is stirred in the vertical direction, meanwhile, the electric push rod 210 is operated to drive the bearing plate 120 to reciprocate on the inner wall of the mixing box 110, so that the first transmission shaft 230 reciprocates, and further drives the first stirring blade 240 to reciprocate while the electrolyte to be mixed is stirred, the first transmission shaft 230 reciprocates while driving the second transmission shaft 250 to reciprocate, and further drives the second stirring blade 260 to reciprocate while stirring the electrolyte to be mixed.

Specifically, this mixing arrangement is used in electrolyte production's theory of operation: when the electrolytic bath mixer is used, electrolyte to be mixed is poured into the mixing box 110 from the opening of the mixing box 110, at this time, the electrolyte to be mixed firstly falls to the top of the bearing plate 120, and further flows to the bottom of the mixing box 110 to be collected, at this time, the first stirring blade 240 and the second stirring blade 260 are both positioned in the electrolyte to be mixed, then the motor 220 is operated to drive the first transmission shaft 230 to rotate, so that the first stirring blade 240 rotates around the first transmission shaft 230, and further the electrolyte to be mixed is stirred in the horizontal direction, and further the electrolyte to be mixed flows in the horizontal direction, meanwhile, the first transmission shaft 230 drives the second transmission shaft 250 to rotate through mutual meshing of the first bevel gear 231 and the second bevel gear 251, so that the plurality of second stirring blades 260 rotate around the second transmission shaft 250, and further the electrolyte to be mixed is stirred in the vertical direction, and further the electrolyte to be mixed flows in the vertical direction, when the electrolyte to be mixed flowing in the horizontal direction and the electrolyte to be mixed flowing in the vertical direction contact with each other, a vortex is formed, so that the electrolyte to be mixed in the upper layer, the middle layer and the lower layer in the mixing box 110 is convected, and further, the metal elements in the upper layer, the middle layer and the lower layer are driven by convection, so that the metal elements in the upper layer, the middle layer and the lower layer are distributed more uniformly, and the mixing effect is effectively enhanced, meanwhile, the electric push rod 210 operates to drive the bearing plate 120 to slide and reciprocate on the inner wall of the mixing box, so that the first transmission shaft 230 reciprocates, and further drives the first stirring blade 240 to reciprocate while stirring the electrolyte to be mixed, thereby effectively increasing the stirring range of the electrolyte to be mixed, further effectively enhancing the stirring of the electrolyte to be mixed, effectively accelerating the mixing speed, and driving the second transmission shaft 250 to reciprocate while the first transmission shaft 230 reciprocates, and then drive second stirring leaf 260 and do reciprocating motion when treating the mixing electrolyte stirring, and then further increase the stirring scope of treating the mixing electrolyte, further accelerate the mixing velocity of treating the mixing electrolyte, save the churning time.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A mixing device for electrolyte production is characterized by comprising

The bearing assembly (100) comprises a mixing box (110), a bearing plate (120) and a cross rod (130), wherein the top of the mixing box (110) is provided with an opening, the bearing plate (120) is slidably mounted on the inner wall of the mixing box (110), and the cross rod (130) is mounted on the top of the mixing box (110);

the mixing assembly (200) comprises an electric push rod (210), a motor (220), a first transmission shaft (230), a plurality of first stirring blades (240), a plurality of second transmission shafts (250) and a plurality of second stirring blades (260), the electric push rod (210) is installed at the bottom of the cross rod (130), the output end of the electric push rod (210) is installed at the top of the bearing plate (120), the motor (220) is installed at the top of the bearing plate (120), the first transmission shaft (230) is rotatably installed at the bottom of the bearing plate (120), the first transmission shaft (230) is in transmission connection with the output end of the motor (220), the plurality of first stirring blades (240) are installed at the periphery of the first transmission shaft (230) in an array manner, the periphery of the first transmission shaft (230) is provided with a plurality of cutting sleeves (270), the plurality of second transmission shafts (250) are respectively rotatably installed at the plurality of cutting sleeves (270), a plurality of second transmission shaft (250) both ends all slidable mounting in mixing box (110) lateral wall, a plurality of second transmission shaft (250) all with first transmission shaft (230) transmission is connected, a plurality of second stirring leaf (260) install respectively in a plurality of second transmission shaft (250) periphery, a plurality of second stirring leaf (260) are in respectively adjacent two between first stirring leaf (240).

2. The mixing device for producing the electrolyte as claimed in claim 1, wherein four legs (111) are installed at the bottom of the mixing box (110), and the end parts of the four legs (111) are all provided with the pressure seat (112).

3. The mixing device for producing electrolytic solution according to claim 1, wherein a drain pipe (113) is installed at the bottom of the mixing tank (110), and a valve (114) is installed at the periphery of the drain pipe (113).

4. The mixing device for producing electrolyte according to claim 1, wherein the carrying plate (120) is provided with sliding blocks (121) at opposite side walls, and the inner wall of the mixing box (110) is provided with sliding grooves (122) engaged with the sliding blocks (121).

5. The mixing device for producing electrolytic solution according to claim 4, wherein a plurality of balls (123) are rotatably inserted into an end of the slider (121), the outer periphery of each of the plurality of balls (123) abuts against the side wall of the slide groove (122), and two thirds of the plurality of balls (123) are inserted into the plurality of balls (123).

6. The mixing device for electrolyte production according to claim 1, wherein a first bevel gear (231) is installed on the outer periphery of the first transmission shaft (230), a second bevel gear (251) is installed on the outer periphery of the second transmission shaft (250), the first bevel gear (231) is engaged with the second bevel gear (251), and the first bevel gear (231) and the second bevel gear (251) are both located in the sleeve (270).

7. The mixing device for producing electrolytic solution according to claim 1, wherein the end of the first stirring blade (240) is in clearance fit with the inner wall of the mixing box (110), and the side wall of the first stirring blade (240) is provided with a rough surface.

8. The mixing device for producing electrolytic solution according to claim 1, wherein the mixing box (110) is provided therein with a guide groove (252) engaged with a plurality of the second transmission shafts (250), and an end of the second transmission shaft (250) is in clearance fit with a side wall of the guide groove (252).

9. The mixing device for producing electrolyte according to claim 1, wherein the motor (220) is electrically connected with a controller (221), and the controller (221) is installed on the side wall of the mixing box (110).

10. The use method of the mixing device for producing the electrolyte comprises the following steps:

firstly, pouring electrolyte to be mixed into a mixing box (110) from an opening of the mixing box (110), at the moment, the electrolyte to be mixed firstly falls onto the top of a bearing plate (120), and further flows to the bottom of the mixing box (110) to be collected, then a motor (220) is operated to drive a first transmission shaft (230), so that a first stirring blade (240) rotates by taking the first transmission shaft (230) as an axis, and further the electrolyte to be mixed is stirred in the horizontal direction, meanwhile, the first transmission shaft (230) drives a second transmission shaft (250) to rotate, so that a plurality of second stirring blades (260) rotate by taking the second transmission shaft (250) as a center, and further the electrolyte to be mixed is stirred in the vertical direction, meanwhile, an electric push rod (210) is operated to drive the bearing plate (120) to do reciprocating motion on the inner wall of the mixing box (110), and further the first transmission shaft (230) does reciprocating motion, and then the first stirring blade (240) is driven to reciprocate while stirring the electrolyte to be mixed, the first transmission shaft (230) can drive the second transmission shaft (250) to reciprocate while reciprocating, and then the second stirring blade (260) is driven to reciprocate while stirring the electrolyte to be mixed.

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