CN211514275U - Self-rotating stirring device - Google Patents

Abstract

The utility model discloses a rotation agitating unit includes: the support, fixed mounting is in actuating mechanism on the support installs the rotation stirring rake of actuating mechanism tip, with rotation stirring rake adaptation just installs the stirring casing of support tip, and install the subassembly that blocks of stirring casing one side. The utility model discloses install rotation stirring rake at actuating mechanism's tip, and then accomplish the stirring work to the stirring material through the rotation of rotation stirring rake, combine actuating mechanism's revolution simultaneously to carry out simultaneous working, and then make the stirring rake carry out the stirring of revolution and rotation to the material simultaneously, and then make the stirring material more even in equal time, and then long when having reduced the stirring, the waste of reduction resource.

Description

Self-rotating stirring device

Technical Field

The utility model relates to a stirring apparatus, in particular to a self-rotating stirring apparatus.

Background

The stirring is mainly aimed at fluid and is divided into gas, liquid, semisolid and granular solid stirring according to phase, the liquid stirring is to forcibly promote the materials or components of each part in the device to be mixed and exchanged by utilizing the motion of stirring blades in various forms or other methods in a container by simple liquid, solid-liquid mixture or gas-liquid mixture so as to achieve the aim of uniform component concentration.

Liquid agitation in the broad sense also includes agitation methods caused by line mixers, air lifts, sprays and the like. In most cases, however, liquid agitation is almost exclusively by means of stirring blades.

And current agitating unit basic design carries out the stirring to the stirring material for revolution stirring rake, and when the stirring rake of single use revolution carries out the material stirring, because the unable rotation of stirring rake, the inhomogeneous condition of stirring material appears easily when stirring the material, and then needs increase the churning time, and then makes the material more even when the stirring.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: provides a self-rotating stirring device to solve the problems in the prior art.

The technical scheme is as follows: a self-rotating stirring device comprising:

the stirring device comprises a support, a driving mechanism fixedly arranged on the support, a rotation stirring paddle arranged at the end part of the driving mechanism, a stirring shell which is matched with the rotation stirring paddle and arranged at the end part of the support, and a blocking component arranged at one side of the stirring shell;

the rotation stirring paddle comprises a rotation motor fixedly connected with the driving mechanism, a rotation gear set in meshing transmission with the rotation motor, a rotation output shaft inserted into the rotation gear set, a plurality of groups of support rods arranged on the rotation output shaft, and paddles connected with the support rods and spirally arranged on the rotation output shaft.

In a further embodiment, the rotation gear set includes a rotation input shaft inserted into the rotation motor, a rotation input gear sleeved on the rotation input shaft, and a rotation output gear engaged with the rotation input gear, and is designed to change a driving direction of the rotation motor, change a vertical rotation direction into a rotation in a horizontal direction, and complete rotation of the rotation stirring paddle, thereby completing stirring of the material.

In a further embodiment, the rotation output gear is sleeved with the rotation output shaft.

In a further embodiment, the driving mechanism includes a driving motor fixedly mounted on the support, a driving input shaft inserted into the driving motor, a driving input wheel sleeved on the driving input shaft, a driving transmission wheel in transmission connection with the driving input wheel, a driving transmission shaft inserted into the driving transmission wheel, a transmission helical gear sleeved on the driving transmission shaft, a transmission meshing gear meshed with the transmission helical gear, and a driving rotation shaft inserted into the transmission meshing gear, and the driving mechanism is designed to drive the rotation of the rotation stirring paddle to perform revolution driving and further cooperate with the rotation of the rotation stirring paddle, so that the rotation stirring paddle can simultaneously complete revolution and rotation.

In a further embodiment, the rotation motor is fixedly installed at an end of the driving rotation shaft.

In a further embodiment, the blocking assembly comprises a telescopic cylinder fixedly mounted on the stirring shell, a cylinder connecting rod connected with the telescopic cylinder, a cylinder rotating plate rotatably connected with the cylinder connecting rod, a cylinder rotating shaft inserted with the cylinder rotating plate, and a fixing plate rotatably connected with the cylinder rotating shaft; the fixed plate is fixedly mounted on the stirring shell, a discharge hole not larger than the air cylinder rotating plate is formed in the stirring shell, a baffle fixedly connected with the stirring shell is mounted below the discharge hole and is placed below the discharge hole in a preset gradient mode, the baffle is designed to block the discharging direction and the discharging speed of the stirred material, and the phenomenon that the stirred material is spilled due to too fast discharging or wrong discharging direction is prevented.

Has the advantages that: the utility model discloses a rotation agitating unit installs rotation stirring rake at actuating mechanism's tip, and then the rotation through rotation stirring rake accomplishes the stirring work to the stirring material, combines actuating mechanism's revolution to carry out simultaneous working simultaneously, and then makes the stirring rake carry out the stirring of revolution and rotation to the material simultaneously, and then makes the stirring material more even in equal time, and then when having reduced the stirring, reduces the waste of resource.

Drawings

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

Fig. 2 is a schematic view of the driving mechanism of the present invention.

Fig. 3 is a schematic view of the blocking assembly of the present invention.

Fig. 4 is a schematic structural view of the self-rotating stirring paddle of the present invention.

Fig. 5 is a schematic view of the rotation gear train mechanism of the present invention.

The reference signs are: the stirring device comprises a bracket 1, a driving mechanism 2, a driving motor 201, a driving input shaft 202, a driving belt 203, a driving transmission wheel 204, a driving transmission shaft 205, a transmission bevel gear 206, a transmission meshing gear 207, a driving rotating shaft 208, a stirring shell 3, a rotation stirring paddle 4, a rotation motor 401, a rotation gear set 402, a rotation input shaft 4021, a rotation input gear 4022, a rotation output gear 4023, a supporting rod 403, a rotation output shaft 404, a paddle 405, a blocking assembly 5, a telescopic cylinder 501, a cylinder connecting rod 502, a cylinder rotating plate 503, a cylinder rotating shaft 504, a baffle 505 and a fixing plate 507.

Detailed Description

Through the research and analysis of the applicant, the reason for the problem (the existing stirring device needs to increase the stirring time) is that the existing stirring device is basically designed to be a revolution stirring paddle to stir the materials, and when the revolution stirring paddle is used singly to stir the materials, the stirring paddle can not rotate, so that the situation of uneven stirring materials is easy to occur when the materials are stirred, the stirring time needs to be increased, and the materials are stirred more uniformly, and the rotation stirring paddle is arranged at the end part of the driving mechanism, so that the stirring work of the stirred materials is completed through the rotation of the rotation stirring paddle, and the rotation of the driving mechanism is combined to simultaneously work, so that the stirring paddle simultaneously performs revolution and rotation stirring on the materials, and the materials are stirred more uniformly in the same time, and the stirring time is reduced, the waste of resources is reduced.

A self-rotating stirring device comprising: the stirring device comprises a bracket 1, a driving mechanism 2, a driving motor 201, a driving input shaft 202, a driving belt 203, a driving transmission wheel 204, a driving transmission shaft 205, a transmission bevel gear 206, a transmission meshing gear 207, a driving rotating shaft 208, a stirring shell 3, a rotation stirring paddle 4, a rotation motor 401, a rotation gear set 402, a rotation input shaft 4021, a rotation input gear 4022, a rotation output gear 4023, a supporting rod 403, a rotation output shaft 404, a paddle 405, a blocking assembly 5, a telescopic cylinder 501, a cylinder connecting rod 502, a cylinder rotating plate 503, a cylinder rotating shaft 504, a baffle 505 and a fixing plate 507.

Wherein, actuating mechanism 2 and agitator housing 3 are installed to the top of support 1, rotation stirring rake 4 is installed to actuating mechanism 2's tip, rotation stirring rake 4 with agitator housing 3 adaptation, one side of agitator housing 3 is installed and is blockked subassembly 5.

The rotation stirring paddle 4 comprises a rotation motor 401 fixedly connected with the driving mechanism 2, a rotation gear set 402 in meshing transmission with the rotation motor 401, a rotation output shaft 404 inserted into the rotation gear set 402, a plurality of groups of support rods 403 mounted on the rotation output shaft 404, and paddles 405 connected with the support rods 403 and spirally mounted on the rotation output shaft 404.

The rotation gear set 402 includes a rotation input shaft 4021 inserted into the rotation motor 401, a rotation input gear 4022 sleeved on the rotation input shaft 4021, and a rotation output gear 4023 engaged with the rotation input gear 4022, and is designed to change a driving direction of the rotation motor 401, to change a vertical rotation direction into a rotation in a horizontal direction, to complete rotation of the rotation stirring paddle 4, and to complete stirring of the material.

The rotation output gear 4023 is coupled to the rotation output shaft 404.

The driving mechanism 2 comprises a driving motor 201 fixedly mounted on the bracket 1, a driving input shaft 202 inserted in the driving motor 201, a driving input wheel sleeved on the driving input shaft 202, a driving transmission wheel 204 in transmission connection with the driving input wheel, a driving transmission shaft 205 inserted in the driving transmission wheel 204, a transmission helical gear 206 sleeved on the driving transmission shaft 205, a transmission meshing gear 207 meshed with the transmission helical gear 206, and a driving rotation shaft 208 inserted in the transmission meshing gear 207, and the driving mechanism 2 is designed to mainly drive the rotation stirring paddle 4 to revolve and further cooperate with the rotation of the rotation stirring paddle 4, so that the rotation stirring paddle 4 can simultaneously complete revolution and rotation; a driving belt 203 is arranged between the driving input wheel and the driving transmission wheel 204.

The rotation motor 401 is fixedly attached to an end of the driving rotation shaft 208.

The blocking assembly 5 comprises a telescopic cylinder 501 fixedly mounted on the stirring shell 3, a cylinder connecting rod 502 connected with the telescopic cylinder 501, a cylinder rotating plate 503 rotatably connected with the cylinder connecting rod 502, a cylinder rotating shaft 504 inserted with the cylinder rotating plate 503, and a fixing plate 507 rotatably connected with the cylinder rotating shaft 504; the fixed plate 507 is fixedly installed on the stirring shell 3, a discharge port not larger than the air cylinder rotating plate 503 is formed in the stirring shell 3, a baffle 505 fixedly connected with the stirring shell 3 is installed below the discharge port, the baffle 505 is placed below the discharge port in a preset inclination, the blocking assembly 5 is designed to mainly limit the discharge direction and the discharge speed of the stirred material, and further the phenomenon that the stirred material is spilled due to too fast discharge or wrong discharge direction is prevented.

Description of the working principle: when the material needs to be stirred, the driving motor 201 is turned on, and the driving motor 201 drives the driving input shaft 202 to rotate, and further drives the driving input wheel to rotate, and further drives the driving transmission wheel 204 to rotate, and further drives the driving transmission shaft 205 to rotate, and further drives the transmission bevel gear 206 to rotate, and further drives the transmission meshing gear 207 meshed with the transmission bevel gear 206 to rotate, and further drives the driving rotation shaft 208 to rotate, and further drives the rotation stirring paddle 4 to revolve, and further stirs the material, and when the rotation stirring paddle 4 needs to rotate, the rotation motor 401 rotates, and further drives the rotation input shaft 4021 to rotate, and further drives the rotation input gear 4022 to rotate, and further drives the rotation output gear 4023 to rotate, and further drives the rotation output shaft 404 to rotate, and then drives paddle 405 to rotate, and then completes the rotation stirring of the stirring material.

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

Claims (5)

1. A self-rotating stirring device is characterized by comprising:

the stirring device comprises a support, a driving mechanism fixedly arranged on the support, a rotation stirring paddle arranged at the end part of the driving mechanism, a stirring shell which is matched with the rotation stirring paddle and arranged at the end part of the support, and a blocking component arranged at one side of the stirring shell;

the rotation stirring paddle comprises a rotation motor fixedly connected with the driving mechanism, a rotation gear set in meshing transmission with the rotation motor, a rotation output shaft inserted into the rotation gear set, a plurality of groups of support rods arranged on the rotation output shaft, and paddles connected with the support rods and spirally arranged on the rotation output shaft.

2. The self-rotating stirring apparatus as claimed in claim 1, wherein: the rotation gear set comprises a rotation input shaft inserted with the rotation motor, a rotation input gear sleeved with the rotation input shaft, and a rotation output gear meshed with the rotation input gear.

3. The self-rotating stirring apparatus as claimed in claim 2, wherein: the autorotation output gear is sleeved with the autorotation output shaft.

4. The self-rotating stirring apparatus as claimed in claim 3, wherein: the driving mechanism comprises a driving motor fixedly arranged on the support, a driving input shaft inserted with the driving motor, a driving input wheel sleeved with the driving input shaft, a driving transmission wheel in transmission connection with the driving input wheel, a driving transmission shaft inserted with the driving transmission wheel, a transmission helical gear sleeved with the driving transmission shaft, a transmission meshing gear meshed with the transmission helical gear, and a driving rotating shaft inserted with the transmission meshing gear.

5. The self-rotating stirring apparatus as claimed in claim 4, wherein: and the rotation motor is fixedly arranged at the end part of the driving rotating shaft.

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