CN115318150A

CN115318150A - Combined stirring device

Info

Publication number: CN115318150A
Application number: CN202210944527.4A
Authority: CN
Inventors: 王小龙; 李宝林; 黄小林; 高晶; 叶道源
Original assignee: Fuzhou Guotai Composite Material Co ltd
Current assignee: Fuzhou Guotai Composite Material Co ltd
Priority date: 2022-08-08
Filing date: 2022-08-08
Publication date: 2022-11-11
Anticipated expiration: 2042-08-08
Also published as: CN115318150B

Abstract

A combined stirring device belongs to the technical field of composite oil phase, and comprises a left pipe body, a left joint, a valve core, a limiting cap, a right joint and a right pipe body. The left pipe body comprises a left pipe sleeve, a left pipe core, a left thread area and a left pipe cavity. The valve core comprises a top pipe, a sealing ball and a spring, the top pipe is installed in the right connector, and the other end of the top pipe enters the left connector when the pipelines are in butt joint. The sealing balls and the springs are respectively provided with two sealing balls and two springs, and the two sealing balls and the two springs are respectively installed in the left joint and the right joint in groups. The limiting cap comprises a clamping ring and an internal thread, and the limiting cap is connected from the left connector to the right connector. The right joint comprises a right joint pipe, an external thread, a right conical groove, a top pipe groove, a right joint cavity and a right joint pipe, the rear end of the right joint pipe is the external thread, the right conical groove is arranged inside the external thread, the right conical groove is communicated with the top pipe groove forwards, and the top pipe groove is internally clamped with a buckle of the top pipe. The front end of the right joint cavity is provided with a right pipe body interface, and the right pipe body interface is in butt joint with the right pipe body. The right tube body comprises a right tube cavity and a right tube core.

Description

Combined stirring device

Technical Field

The invention belongs to the technical field of composite oil phases, and particularly relates to a combined stirring device.

Background

The production process of various products including the composite oil phase needs to stir materials, and the materials can be packaged after being uniformly stirred.

Disclosure of Invention

The present invention provides a combined stirring device to solve the above problems in the background art.

The technical problem solved by the invention is realized by adopting the following technical scheme:

a combined stirring device comprises an upper cover, a driving part, a revolution transmission part, an autorotation transmission part, a stirring part and a flow guide part, wherein the driving part is installed on the upper cover and drives the revolution transmission part and the autorotation transmission part downwards, the stirring part and the flow guide part are both installed on the revolution transmission part, and the stirring part is also connected with the autorotation transmission part.

The driving part comprises an input gear, a gear ring, a pinion and a worm, the input gear and the gear ring are mutually meshed to form a group of transmission structures, the pinion and the worm are mutually meshed to form a group of transmission structures, and the worm is arranged on the upper cover.

The revolution transmission part comprises supporting rods, a barrel body, a lower boss, a central hole, branch belt wheels, a core rod and a first belt, the barrel body is hinged to the upper cover, the bottom of the barrel body is provided with a plurality of supporting rods which are uniformly distributed in a circumferential array, the upper portion of the barrel body is provided with the lower boss, a gear ring is fixedly connected to the lower boss, the middle of the barrel body is provided with the central hole which is communicated up and down, a rotatable installation core shaft is arranged in the central hole, the tail ends of the supporting rods are hinged to the branch belt wheels, the branch belt wheels extend downwards to form the core rod, the bottom of the core rod is provided with a stirring part, and the outer sides of the branch belt wheels are connected through the first belt.

The autorotation transmission part comprises a mandrel, an upper boss, an input belt wheel, an output belt wheel and a second belt, the mandrel is arranged in the central hole in a penetrating mode, the top of the mandrel is provided with the upper boss, the upper boss is fixedly connected with a pinion, the rotation of the pinion drives the mandrel to rotate, the input belt wheel is fixedly installed at the bottom of the mandrel, the output belt wheel is installed on a core rod below any one branch belt wheel, and the input belt wheel and the output belt wheel are connected through the second belt for transmission.

The stirring portion comprises blades and sleeves, the blades are spiral blades, the sleeves are arranged at the tops of the blades and connected with the core bar, and the core bar drives the blades to rotate through the sleeves, so that the stirring operation of the materials is realized.

The flow guide part comprises a flow guide plate and a hexagonal head, the hexagonal head is arranged at the top of the flow guide plate, and the hexagonal head penetrates through the middle of the support rod.

Furthermore, the input gear is hinged on the upper cover, and the gear ring is fixedly connected with the revolution transmission part for transmission.

Furthermore, the pinion is fixedly connected with the rotation transmission part for transmission.

Furthermore, the number of the struts is 4-6.

Furthermore, the top of the hexagonal head is provided with a threaded boss, and a nut is arranged on the threaded boss to fixedly install the flow guide part on the support rod.

Furthermore, the installation direction of the guide plate on the support rod and the extension line of the support rod are installed at an angle of 45-60 degrees, when the materials are stirred by the stirring part, a vortex is formed around the blade, and under the flow guide of the guide plate, the materials flowing in the local vortex flow extend to the central part of the whole device, so that the overall flow of the materials is promoted.

The beneficial effects of the invention are:

the invention is used for mixing and stirring fluid materials such as compound oil phase and the like, has two transmission lines, provides revolution and rotation for the stirring part to form a superposed high-efficiency stirring device, and is also provided with the flow guide device with an inclined angle on the rotating part to guide the flow of the materials and improve the stirring efficiency.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is an exploded view of the present invention;

in the figure: 10. the automatic feeding device comprises an upper cover, 20 parts of a driving part, 21 parts of an input gear, 22 parts of a gear ring, 23 parts of a pinion, 24 parts of a worm, 30 parts of a revolution transmission part, 31 parts of a support rod, 32 parts of a cylinder body, 33 parts of a lower boss, 34 parts of a central hole, 35 parts of a branch belt wheel, 36 parts of a core rod, 36 parts of a first belt, 40 parts of a rotation transmission part, 41 parts of a core shaft, 42 parts of an upper boss, 43 parts of an input belt wheel, 44 parts of an output belt wheel, 45 parts of a second belt, 50 parts of a stirring part, 51 parts of blades, 52 parts of a sleeve, 60 parts of a flow guide part, 61 parts of a flow guide plate, 62 parts of a hexagonal head and 63 parts of a thread boss.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1 to 3, the combined type stirring apparatus includes an upper cover 10, a driving part 20, a revolution driving part 30, a rotation driving part 40, a stirring part 50, and a guide part 60, wherein the driving part 20 is installed on the upper cover 10 and drives the revolution driving part 30 and the rotation driving part 40 downward, the stirring part 50 and the guide part 60 are both installed on the revolution driving part 30, and the stirring part 50 is further connected to the rotation driving part 40.

The driving part 20 comprises an input gear 21, a gear ring 22, a pinion 23 and a worm 24, wherein the input gear 21 and the gear ring 22 are meshed with each other to form a group of transmission structures, the input gear 21 is hinged on the upper cover 10, the gear ring 22 is fixedly connected with the revolution transmission part 30 for transmission, the pinion 23 and the worm 24 are meshed with each other to form a group of transmission structures, the pinion 23 is fixedly connected with the rotation transmission part 40 for transmission, and the worm 24 is installed on the upper cover 10.

The revolution transmission part 30 comprises a support rod 31, a cylinder 32, a lower boss 33, a central hole 34, branch belt wheels 35, a core bar 36 and a first belt 37, wherein the cylinder 32 is hinged on the upper cover 10, the bottom of the cylinder 32 is provided with a plurality of support rods 31 uniformly distributed in a circumferential array, the number of the support rods 31 is 4-6, the upper part of the cylinder 32 is provided with the lower boss 33, a gear ring 22 is fixedly connected on the lower boss 33, the middle part of the cylinder 32 is provided with the central hole 34 which is vertically penetrated, a spindle 41 is rotatably arranged in the central hole 34, the tail end of each support rod 31 is hinged with the branch belt wheel 35, the branch belt wheels 35 extend downwards to form the core bar 36, the bottom of the core bar 36 is provided with a stirring part 50, and the outer sides of the branch belt wheels 35 are connected through the first belt 36.

The rotation transmission part 40 comprises a mandrel 41, an upper boss 42, an input belt wheel 43, an output belt wheel 44 and a second belt 45, the mandrel 41 is arranged in the central hole 34 in a penetrating mode, the upper boss 42 is arranged on the top of the mandrel 41, the pinion 23 is fixedly connected to the upper boss 42, the mandrel 41 is driven to rotate by rotation of the pinion 23, the input belt wheel 43 is fixedly installed on the bottom of the mandrel 41, the output belt wheel 44 is installed on the core rod 36 below any one branch belt wheel 35, and the input belt wheel 43 and the output belt wheel 44 are connected through the second belt 45 for transmission.

Stirring portion 50 includes blade 51 and sleeve 52, and blade 51 is spiral blade, and the top of blade 51 has sleeve 52, and sleeve 52 is connected with core bar 36, and core bar 36 passes through sleeve 52 and drives blade 51 and rotate, realizes the stirring operation to the material.

The guide part 60 comprises a guide plate 61, a hexagonal head 62 and a thread boss 63, the hexagonal head 62 is arranged at the top of the guide plate 61, the hexagonal head 62 penetrates through the middle of the support rod 31, the thread boss 63 is arranged at the top of the hexagonal head 62, and the guide part 60 is fixedly arranged on the support rod 31 by a mounting nut on the thread boss 63. The guide plate 61 is arranged on the support rod 31 in an angle of 45-60 degrees with the extension line of the support rod 31, when the material is stirred by the stirring part 50, a vortex is formed around the blade 51, and under the guide of the guide plate 61, the material flowing in the local vortex extends to the central part of the whole device, so that the overall flow of the material is promoted.

The working principle of the invention is as follows: the transmission route of the technical scheme is divided into two paths. Firstly, the input gear 21 drives the gear ring 22 to rotate, the gear ring 22 drives the cylinder 32 to rotate, the support rod 31 rotates along with the gear ring, and the blades 51 arranged at the bottom of the support rod 31 naturally rotate along with the support rod 31 to form large-circle revolution motion. Secondly, the worm 24 drives the pinion 23 to rotate, the pinion 23 drives the spindle 41 to rotate, the spindle 41 drives the output belt wheel 44 to rotate through the input belt wheel 43 at the bottom of the spindle, the output belt wheel 44 drives the branch belt wheels 35 to rotate through the core bar 36, the branch belt wheels 35 drive all the branch belt wheels 35 to rotate, and all the blades 51 rotate. The two transmission lines are overlapped to form rotation and revolution of the blades 51, materials are stirred, the flow guiding effect of the flow guiding part 60 is overlapped, flow exchange of the materials is accelerated, and material stirring is efficiently completed.

The above examples mainly illustrate the combined stirring device of the present invention. While only a limited number of embodiments and features have been described, those skilled in the art will recognize that the invention can be embodied in many other forms without departing from the spirit or scope thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, and various modifications and alternative arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims

1. A combined stirring device comprises an upper cover (10), a driving part (20), a revolution transmission part (30), a rotation transmission part (40), a stirring part (50) and a flow guide part (60), and is characterized in that the driving part (20) is arranged on the upper cover (10) and drives the revolution transmission part (30) and the rotation transmission part (40) downwards, the stirring part (50) and the flow guide part (60) are both arranged on the revolution transmission part (30), wherein the stirring part (50) is also connected with the rotation transmission part (40), the driving part (20) comprises an input gear (21), a gear ring (22), a pinion (23) and a worm (24), the input gear (21) and the gear ring (22) are mutually meshed to form a group of transmission structure, the pinion (23) and the worm (24) are mutually meshed to form a group of transmission structure, the worm (24) is arranged on the upper cover (10), the revolution transmission part (30) comprises a support rod (31), a cylinder (32), a lower boss (33), a central hole (34), a branch belt wheel (35), a first belt (36) and a plurality of cylinder bosses (32) are uniformly arranged at the bottom of the upper cover (10), and a plurality of cylinder (31) is provided with a plurality of cylinder bosses (32), a gear ring (22) is fixedly connected to the lower boss (33), a vertically through center hole (34) is formed in the middle of the cylinder body (32), a mandrel (41) is rotatably mounted in the center hole (34), the tail end of the support rod (31) is hinged with a branch belt wheel (35), the branch belt wheel (35) extends downwards to form a core rod (36), a stirring part (50) is mounted at the bottom of the core rod (36), the outer side of each branch belt wheel (35) is connected through a first belt (36), a rotation transmission part (40) comprises a mandrel (41), an upper boss (42), an input belt wheel (43), an output belt wheel (44) and a second belt (45), the mandrel (41) penetrates through the center hole (34), the top of the mandrel (41) is provided with the upper boss (42), a pinion (23) is fixedly connected to the upper boss (42), the rotation of the pinion (23) drives the mandrel (41) to rotate, the bottom of the mandrel (41) is fixedly mounted with the input belt wheel (43), the output belt wheel (44) is mounted on the core rod (36) below any branch belt wheel (35), the input belt wheel (43) and the output belt wheel (44) are connected through a second spiral belt wheel (45), the output shaft (51), blades (51) and the output belt wheel (51) comprise a spiral stirring sleeve (52), the top of blade (51) has sleeve (52), and sleeve (52) are connected with core bar (36), and water conservancy diversion portion (60) are including guide plate (61), hexagonal head (62), and guide plate (61) top has hexagonal head (62), and the middle part of branch (31) is worn to locate by hexagonal head (62).

2. The combined mixer according to claim 1, characterised in that the input gear (21) is hinged on the upper cover (10), and the ring gear (22) is fixedly connected to the revolving transmission part (30) for transmission.

3. The modular mixing apparatus as claimed in claim 1, characterised in that the pinion (23) is fixedly connected to the rotation gear (40) for transmission.

4. Combined stirring device according to claim 1, characterised in that the number of struts (31) is 4-6.

5. The combined stirring device as claimed in claim 1, wherein the hexagonal head (62) has a threaded boss (63) at the top, and a nut is mounted on the threaded boss (63) to fixedly mount the deflector (60) on the supporting rod (31).

6. A combined mixer according to claim 1, characterised in that the guide plates (61) are mounted on the struts (31) in a direction which is at an angle of 45 ° to 60 ° to the extension of the struts (31).