CN219168342U - Stirring and pouring device - Google Patents

Abstract

The utility model relates to a stirring and pouring device which comprises a frame, wherein the frame comprises a base and a support frame arranged on the base, a stirring barrel is further arranged on the base, a material opening is arranged at the top of the stirring barrel, a pouring driving mechanism is arranged between the frame and the stirring barrel, the pouring driving mechanism comprises an upper connecting rod, a lower connecting rod and a telescopic driving structure which are sequentially arranged from top to bottom, two ends of the upper connecting rod and two ends of the lower connecting rod are respectively hinged with the support frame and the stirring barrel, the upper connecting rod, the lower connecting rod, the support frame and the stirring barrel form a four-bar mechanism together, the telescopic driving structure is hinged between the lower connecting rod and the frame, and the telescopic driving structure is used for driving the top of the stirring barrel to downwards turn through driving the four-bar mechanism to enable solution in the stirring barrel to pour out through the material opening. The utility model effectively solves the problems of high labor intensity, long consumption time and low working efficiency caused by pouring the micro powder solution by manpower in the prior art.

Description

Stirring and pouring device

Technical Field

The utility model relates to a stirring and pouring device, and belongs to the technical field of stirring equipment.

Background

In the prior art, diamond micropowder production comprises the processes of crushing, shaping, sorting, acid washing, drying and the like of diamond monocrystal, wherein in the process of sorting diamond micropowder, more accurate products are difficult to sort by sedimentation sorting, so that the diamond micropowder is often sorted by a centrifugal sorting mode. In the centrifugal separation process, the diamond micro powder is added with water and a dispersing agent in a stirring cylinder to be uniformly stirred, and then the uniformly stirred micro powder solution is poured into a centrifugal cup to be centrifugally separated.

However, in the centrifugal separation process in the prior art, the micro powder solution after being uniformly stirred in the stirring cylinder is poured into the centrifugal cup by manpower, so that the time consumption is long, the working efficiency is low, and the labor intensity is high. In this regard, the chinese patent of the utility model with the publication number CN214110835U discloses a concrete curing liquid pouring device, which comprises a frame, two sets of electric push rods, a turnover mechanism, two sets of upper connecting rods and two sets of lower push rods, wherein a worker places the barreled curing liquid on a base of the turnover mechanism, when the curing liquid needs to be poured, the electric push rods push the lower push rods upwards, so that the lower push rods and the upper connecting rods push the barreled curing liquid upwards until the barreled curing liquid is stably inclined to a certain angle, at the moment, the curing liquid in the barreled curing liquid is stably poured into a bearing container, and a positioning assembly is used for propping against a barrel body placed on the base, preventing the barrel body from integrally sliding out of the turnover mechanism, thereby effectively replacing manual work and realizing stable pouring and transferring of the curing liquid. Although the automatic pouring can be realized when the pouring device is applied to the pouring operation of the diamond micro powder solution, because the barreled maintenance solution is placed on the base of the turnover mechanism by a worker during use, the micro powder solution needs to be well stirred in advance when being applied to the diamond micro powder solution, the stirring barrel is placed on the pouring device by manpower, the automatic pouring can not be performed after the automatic stirring is directly completed on the pouring device, the manual participation of the stirring barrel is also needed in the middle, and the manual labor intensity is increased.

Disclosure of Invention

The utility model aims to provide a stirring and pouring device, which solves the problem that in the prior art, automatic pouring is carried out after automatic stirring cannot be directly completed on the pouring device, so that the labor intensity is high.

In order to achieve the above purpose, the stirring and pouring device in the utility model adopts the following technical scheme:

the stirring and pouring device comprises a frame, wherein the frame comprises a base and a support frame arranged on the base, a stirring barrel is further arranged on the base, a material opening is formed in the top of the stirring barrel, a dumping driving mechanism is arranged between the frame and the stirring barrel, the dumping driving mechanism comprises an upper connecting rod, a lower connecting rod and a telescopic driving structure which are sequentially arranged from top to bottom, two ends of the upper connecting rod and two ends of the lower connecting rod are respectively hinged with the support frame and the stirring barrel, the upper connecting rod, the lower connecting rod, the support frame and the stirring barrel form a four-bar mechanism together, the telescopic driving structure is hinged between the lower connecting rod and the frame, and the telescopic driving structure is used for driving the top of the stirring barrel to overturn downwards through driving the four-bar mechanism to enable solution in the stirring barrel to be poured out through the material opening; the stirring pouring device further comprises a stirring mechanism arranged in the stirring barrel, the stirring mechanism comprises a stirring shaft with an axis extending along the vertical direction, a stirring driving mechanism is further arranged on the stirring barrel, and the output end of the stirring driving mechanism is in transmission connection with the stirring shaft.

The beneficial effects of the technical scheme are that: in the stirring and pouring device, as the dumping driving mechanism is arranged between the frame and the stirring cylinder, and the two ends of the upper connecting rod and the lower connecting rod in the dumping driving mechanism are respectively hinged with the support frame and the stirring cylinder, the upper connecting rod and the lower connecting rod form a four-connecting rod mechanism together with the support frame and the stirring cylinder, and as the telescopic driving structure in the dumping driving mechanism is hinged between the lower connecting rod and the frame, after the solution in the stirring cylinder is uniformly stirred, the four-connecting rod mechanism can be driven to act through the upward extension of the telescopic end of the telescopic driving structure, so that the top of the stirring cylinder is turned downwards, and then the material opening is downward; compared with the prior art, the pouring driving mechanism drives the stirring cylinder to turn over for pouring, so that the solution in the stirring cylinder is convenient to pour, and the pouring is not needed to be performed by manpower, so that the labor intensity of pouring can be reduced, the time for pouring can be shortened, and the working efficiency can be improved; the stirring shaft is driven to rotate through the stirring driving mechanism, so that the solution can be rapidly stirred, and compared with manual stirring, the stirring device not only can ensure the uniformity of the solution, but also can improve the stirring speed of the solution, shortens the stirring time, is favorable for improving the working efficiency, and can also reduce the labor intensity.

Further, the two groups of dumping driving mechanisms are symmetrically arranged on two sides of the circumference of the stirring barrel.

The beneficial effects of the technical scheme are that: through two sets of actuating mechanism that empty, not only can strengthen the dynamics of drive churn upset, made things convenient for the drive to churn upset, through two sets of restriction of empting actuating mechanism to churn upset moreover, also can guarantee the stability of churn upset.

Further, the support frame comprises two vertical rods fixed on the base at intervals, and two groups of dumping driving mechanisms are respectively arranged between the two vertical rods and the stirring barrel.

The beneficial effects of the technical scheme are that: not only is the arrangement of the two groups of dumping driving mechanisms between the frame and the stirring barrel convenient, but also the up-down arrangement of the upper connecting rod, the lower connecting rod and the telescopic driving structure of the dumping driving mechanism is convenient.

Further, the frame also comprises a rib plate fixedly connected between the vertical rod and the base, and the telescopic driving structure is hinged on the rib plate.

The beneficial effects of the technical scheme are that: the rib plate is convenient for hinging the telescopic driving structure with the frame, and can enhance the fixed connection strength between the vertical rod and the base, thereby being beneficial to enhancing the stability of the fixed installation of the vertical rod.

Further, the support frame is a door-shaped support frame, and the support frame further comprises a cross rod fixedly connected between the two vertical rods.

The beneficial effects of the technical scheme are that: through the door-shaped support frame, the structure of the support frame is optimized, the processing and the manufacturing of the support frame are facilitated, the door-shaped support frame can also avoid the overturning formation of the stirring barrel, so that the interval between the support frame and the stirring barrel can be reduced, the occupied space of the support frame and the stirring barrel on the base is reduced, and the arrangement of the support frame and the stirring barrel is facilitated.

Further, a gear transmission mechanism is arranged between the output end of the stirring driving mechanism and the stirring shaft.

The beneficial effects of the technical scheme are that: the output end of the stirring driving mechanism is connected with the transmission of the stirring shaft through the gear transmission mechanism, so that the stability of the transmission can be ensured, the stable stirring of the stirring mechanism is facilitated, and the uniformity of stirring of the solution is further ensured.

Further, the rotation axis of the output end of the stirring driving mechanism is perpendicular to the axis of the stirring shaft, the gear transmission mechanism is a bevel gear transmission mechanism, and the bevel gear transmission mechanism comprises a first bevel gear fixedly installed on the output end and a second bevel gear meshed with the first bevel gear and fixedly installed on the stirring shaft.

The beneficial effects of the technical scheme are that: the stirring driving mechanism and the stirring mechanism can be ensured to be stable in transmission through the first bevel gear and the second bevel gear, the rotation axis of the output end of the stirring driving mechanism is perpendicular to the axis of the stirring shaft, namely, the transmission reversing of the stirring driving mechanism can be realized, the arrangement space in the upper and lower directions of the stirring driving mechanism is reduced, and the arrangement of the stirring driving mechanism is facilitated.

Further, the top of churn is provided with the top cap, and the material mouth sets up on the top cap, and the (mixing) shaft rotates the assembly on the top cap, and the (mixing) shaft has the section of wearing out of upwards wearing out the top cap, and stirring actuating mechanism's output links to each other with wearing out the section transmission.

The beneficial effects of the technical scheme are that: through the top cap, not only can prevent the mess when solution stirs and splash, also made things convenient for the rotation assembly of (mixing) shaft in the churn.

Further, the stirring driving mechanism is a driving motor, the driving motor is arranged on the top cover, and the driving motor and the material opening are respectively arranged on two radial sides of the stirring shaft.

The beneficial effects of the technical scheme are that: because in order to guarantee the complete pouring out of solution, the churn upset back, the material mouth sets up on the top cap usually to the lower, with moving motor and material mouth minute in the both sides of (mixing) shaft like this, can avoid pouring the solution of pouring out through the material mouth onto driving motor, and then also can avoid driving motor's damage.

Drawings

FIG. 1 is a perspective view of a stirring and pouring device according to the present utility model.

In the figure: 10. a base; 20. a support frame; 21. a vertical rod; 22. a cross bar; 23. ear plates; 24. rib plates; 30. a stirring cylinder; 31. a top cover; 32. a material port; 40. an upper connecting rod; 50. a lower connecting rod; 60. a cylinder; 61. a cylinder block; 62. a telescopic rod; 70. a stirring shaft; 80. a driving motor; 90. a first bevel gear; 100. and a second bevel gear.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the utility model, i.e., the embodiments described are merely some, but not all, of the embodiments of the utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present utility model.

It should be noted that in the present embodiment, relational terms such as "first" and "second" and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the phrase "comprising one … …" or the like, as may occur, does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the depicted element.

In the description of the present utility model, the terms "mounted," "connected," "coupled," and "connected," as may be used broadly, and may be connected, for example, fixedly, detachably, or integrally, unless otherwise specifically defined and limited; can be mechanically or electrically connected; either directly, indirectly through intermediaries, or in communication with the interior of the two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art in specific cases.

In the description of the present utility model, unless explicitly stated and limited otherwise, the term "provided" as may occur, for example, as an object of "provided" may be a part of a body, may be separately arranged from the body, and may be connected to the body, and may be detachably connected or may be non-detachably connected. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art in specific cases.

The present utility model is described in further detail below with reference to examples.

Example 1 of stirring and pouring device in the present utility model:

as shown in fig. 1, the stirring and pouring device comprises a frame, the frame comprises a base 10, a stirring cylinder 30 is arranged on the base, a top cover 31 is arranged at the top of the stirring cylinder 30, a material opening 32 is arranged on the top plate, and a solution to be stirred can be poured into the stirring cylinder 30 through the material opening 32. The stirring cylinder 30 is internally provided with a stirring mechanism for stirring the solution in the stirring cylinder 30, the stirring mechanism comprises a stirring shaft 70 with an axis extending in the vertical direction, the stirring shaft 70 is rotatably assembled on the top cover 31 through a bearing, and the stirring shaft 70 is provided with a penetrating section penetrating out of the top cover 31 upwards.

The top cover 31 is further provided with a stirring driving mechanism, in this embodiment, the stirring driving mechanism is a driving motor 80 provided on the top cover 31, and the driving motor 80 and the material port 32 are disposed on both sides of the stirring shaft 70 in the direction in which the stirring cylinder 30 and the supporting frame 20 are disposed. A gear transmission mechanism is arranged between the output end of the driving motor 80 and the penetrating section of the stirring shaft 70, so that the output end of the driving motor 80 is in transmission connection with the stirring shaft 70 through the gear transmission mechanism, specifically, the rotation axis of the output end of the driving motor 80 is perpendicular to the axis of the stirring shaft 70, the gear transmission mechanism is a bevel gear transmission mechanism, and the bevel gear transmission mechanism comprises a first bevel gear 90 fixedly mounted on the output end of the driving motor 80 and a second bevel gear 100 meshed with the first bevel gear 90 and fixedly mounted on the penetrating section of the stirring shaft 70, and thus the driving motor 80 can drive the stirring shaft 70 to rotate through the bevel gear transmission mechanism, so that the stirring mechanism stirs the solution in the stirring drum 30, and the solution is rapidly stirred.

As shown in fig. 1, the stand further includes a support frame 20 disposed on the base 10, and the material inlet 32 is disposed on a side of the top cover 31 away from the support frame 20. In this embodiment, the support 20 is a portal support and is disposed on one side of the mixing drum 30, the support 20 includes two vertical rods 21 vertically fixed on the base 10 and a cross rod 22 connected between the two vertical rods 21, the frame further includes an ear plate 23 and a rib plate 24, two ear plates 23 are fixed on each vertical rod 21 at intervals up and down, and one rib plate 24 is fixedly connected between each vertical rod 21 and the base 10.

A dumping driving mechanism is arranged between the frame and the stirring barrel 30, two groups of dumping driving mechanisms are arranged, and the two groups of dumping driving mechanisms are symmetrically arranged on two sides of the circumference of the stirring barrel 30. Specifically, the dumping driving mechanism comprises an upper connecting rod 40, a lower connecting rod 50 and a telescopic driving structure which are sequentially arranged from top to bottom, wherein one ends of the upper connecting rod 40 and the lower connecting rod 50 are hinged with corresponding lug plates 23, the other ends of the upper connecting rod 40 and the lower connecting rod 50 are hinged with the cylinder wall of the stirring cylinder 30, and the upper connecting rod 40, the lower connecting rod 50, the vertical rod 21 and the stirring cylinder 30 form a four-bar mechanism together. The telescopic driving structure is an air cylinder 60, an air cylinder seat 61 of the air cylinder 60 is hinged with the rib plate 24, the end part of a telescopic rod 62 of the air cylinder 60 is hinged with the lower connecting rod, and the hinged position of the end part of the telescopic rod 62 and the lower connecting rod 50 is close to the middle part of the length direction of the lower connecting rod.

The working principle of the stirring and pouring device in the utility model is as follows:

after the solution in the stirring barrel 30 is uniformly stirred, the driving motor 80 is turned off, then the telescopic rod 62 of the air cylinder 60 stretches upwards to drive the four-bar mechanism to act and lift the stirring barrel 30 upwards, specifically, in the process of lifting the stirring barrel 30 upwards, the hinge points of the upper connecting rod 40 and the lower connecting rod 50 and the stirring barrel 30 swing upwards around the hinge points of the upper connecting rod 40 and the supporting frame 20 respectively, in the process of swinging upwards, the top of the stirring barrel 30 is enabled to be turned downwards by the upper connecting rod 40, the bottom of the stirring barrel 30 is enabled to be turned upwards by the lower connecting rod 50, when the hinge points of the lower connecting rod 50 and the stirring barrel 30 swing upwards to be located at the same horizontal plane with the hinge points of the lower connecting rod 50 and the supporting frame 20, the distance between the hinge points of the lower connecting rod 50 and the stirring barrel 30 and the supporting frame 20 is the largest in the horizontal direction, at the moment, the bottom of the stirring barrel 30 reaches the limit of turning upwards, the stirring barrel 30 cannot continue to be turned upwards, and at the moment, the material opening 32 is inclined downwards, and the solution uniformly stirred in the stirring barrel 30 can be poured out through the material opening 32.

Compared with the prior art, the stirring and pouring device provided by the utility model has the advantages that the pouring driving mechanism drives the stirring cylinder to turn over for pouring, so that the solution in the stirring cylinder is convenient to pour, and the pouring is not needed to be performed by manpower, thus the labor intensity of pouring can be reduced, the time for pouring can be shortened, and the working efficiency can be improved. In addition, through stirring actuating mechanism drive (mixing) shaft rotation can stir the solution fast, and compare with the manpower stirring, not only can guarantee the homogeneity of solution, also can improve the stirring speed of solution moreover, shortens the stirring time, is favorable to further improving work efficiency, also can further reduce intensity of labour simultaneously.

In other embodiments of the stirring and pouring device, the drive motor and the feed opening are arranged on both radial sides of the stirring shaft in a direction perpendicular to the arrangement of the stirring cylinder and the support frame.

In other embodiments of the stirring and pouring device, the drive motor and the material opening are not separately arranged on two radial sides of the stirring shaft, the material opening is positioned on one radial side of the stirring shaft in the arrangement direction of the stirring cylinder and the supporting frame, and the drive motor is positioned on one radial side of the stirring shaft in the arrangement direction perpendicular to the stirring cylinder and the supporting frame.

In other embodiments of the stirring and pouring device, the stirring barrel is not provided with a top cover, and a mounting bracket is fixedly arranged in the stirring barrel and comprises a circular ring positioned at the center and a plurality of connecting rods connected between the circular ring and the inner wall of the stirring barrel, the stirring shaft is rotatably arranged in the circular ring through a bearing, and a material opening is formed by the interval between two adjacent connecting rods.

In other embodiments of the stirring and pouring device, the gear drive may not be a bevel gear drive, but a cylindrical gear drive, in which case the rotation axis of the output of the stirring drive extends in the vertical direction.

In other embodiments of the stirring and pouring device, the output end of the stirring driving mechanism may be connected to the stirring shaft not by a gear transmission mechanism but by a belt transmission mechanism, specifically, the rotation axis of the output end of the stirring driving mechanism extends in the vertical direction, and the belt transmission mechanism includes a first belt pulley fixedly mounted on the output end of the stirring driving mechanism, a second belt pulley fixedly mounted on the stirring shaft, and a belt in transmission connection between the first belt pulley and the second belt pulley, in which case the stirring driving mechanism may be fixedly mounted on the side wall of the stirring cylinder. In other embodiments, the output end of the stirring driving mechanism and the stirring shaft can be in transmission connection through a chain transmission mechanism, and in this case, the stirring driving mechanism can also be fixedly arranged on the side wall of the stirring barrel.

In other embodiments of the stirring and pouring device, no transmission mechanism is arranged between the output end of the stirring driving mechanism and the stirring shaft, and the output end of the stirring driving mechanism is directly connected with the stirring shaft in a transmission manner.

In other embodiments of the stirring and pouring device, no stirring mechanism or stirring drive mechanism is provided, in which case the solution may be stirred by human force or by means of an external stirring device.

In other embodiments of the stirring and pouring device, the support frame is not a portal shaped support frame, and the support frame only comprises two vertical rods.

In other embodiments of the stirring and pouring device, the end of the cylinder block of the cylinder is hinged with the lower connecting rod, and the end of the telescopic rod is hinged with the frame.

In other embodiments of the stirring and pouring device, the telescopic drive structure may not be a cylinder, but an electric push rod. In other embodiments, the telescoping drive structure may also be a hydraulic cylinder.

In other embodiments of the stirring and pouring device, the frame does not include a rib plate, and the telescopic driving structure is hinged on the support frame through an ear plate fixed on the support frame. In other embodiments, the telescoping drive structure may also be hinged to the base by an ear plate secured to the base.

In other embodiments of the stirring and pouring device, the support frame may not comprise two vertical rods, but comprises a vertically arranged fixing plate, and the two sets of dumping energy driving mechanisms are arranged between the fixing plate and the stirring barrel.

In other embodiments of the stirring and pouring device, the pouring driving mechanism may be provided with only one group instead of two groups, and in this case, the hinge positions of the pouring driving mechanism and the support frame as well as the stirring barrel are all located in the same plane with the axis of the stirring barrel.

The above description is only a preferred embodiment of the present utility model, and the patent protection scope of the present utility model is defined by the claims, and all equivalent structural changes made by the specification and the drawings of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. The stirring and pouring device comprises a frame, wherein the frame comprises a base (10) and a support frame (20) arranged on the base (10), a stirring barrel (30) is further arranged on the base (10), a material opening (32) is formed in the top of the stirring barrel (30), a pouring driving mechanism is arranged between the frame and the stirring barrel (30), and comprises an upper connecting rod (40), a lower connecting rod (50) and a telescopic driving structure which are sequentially arranged from top to bottom, and the stirring and pouring device is characterized in that two ends of the upper connecting rod (40) and the lower connecting rod (50) are respectively hinged with the support frame (20) and the stirring barrel (30), the upper connecting rod (40), the lower connecting rod (50), the support frame (20) and the stirring barrel (30) form a four-connecting-rod mechanism together, the telescopic driving structure is hinged between the lower connecting rod (50) and the frame, and the telescopic driving structure is used for driving the top of the stirring barrel (30) to overturn downwards through the action of the four-connecting-rod mechanism, so that solution in the stirring barrel (30) is poured out through the material opening (32); the stirring and pouring device further comprises a stirring mechanism arranged in the stirring barrel (30), the stirring mechanism comprises a stirring shaft (70) with an axis extending along the vertical direction, the stirring barrel (30) is further provided with a stirring driving mechanism, and the output end of the stirring driving mechanism is in transmission connection with the stirring shaft (70).

2. Stirring and pouring device according to claim 1, characterized in that the pouring drive is provided with two groups of pouring drive mechanisms symmetrically arranged on both sides of the circumference of the stirring cylinder (30).

3. Stirring and pouring device according to claim 2, characterized in that the support frame (20) comprises two vertical rods (21) fixed on the base (10) at intervals, and that the two sets of pouring driving mechanisms are arranged between the two vertical rods (21) and the stirring cylinder (30), respectively.

4. A stirring and pouring device as claimed in claim 3, characterized in that the frame further comprises a rib plate (24) fixedly connected between the vertical rod (21) and the base (10), and the telescopic driving structure is hinged to the rib plate (24).

5. The stirring and pouring device according to claim 3 or 4, characterized in that the support frame (20) is a portal support frame, the support frame (20) further comprising a cross bar (22) fixedly connected between the two vertical bars (21).

6. The stirring and pouring device according to any one of claims 1 to 4, characterized in that a gear transmission mechanism is arranged between the output end of the stirring driving mechanism and the stirring shaft (70).

7. The stirring and pouring device according to claim 6, characterized in that the rotation axis of the output end of the stirring driving mechanism is perpendicular to the axis of the stirring shaft (70), the gear transmission mechanism is a bevel gear transmission mechanism, and the bevel gear transmission mechanism comprises a first bevel gear (90) fixedly mounted on the output end and a second bevel gear (100) meshed with the first bevel gear (90) and fixedly mounted on the stirring shaft (70).

8. The stirring and pouring device according to any one of claims 1 to 4, characterized in that a top cover (31) is arranged at the top of the stirring cylinder (30), a material opening (32) is arranged on the top cover (31), a stirring shaft (70) is rotatably assembled on the top cover (31), the stirring shaft (70) is provided with a penetrating section penetrating out of the top cover (31) upwards, and the output end of the stirring driving mechanism is in transmission connection with the penetrating section.

9. The stirring and pouring device according to claim 8, characterized in that the stirring driving mechanism is a driving motor (80), the driving motor (80) is arranged on the top cover (31), and the driving motor (80) and the material port (32) are respectively arranged on two radial sides of the stirring shaft (70).

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