CN212040090U

CN212040090U - Energy-efficient stirring transmission

Info

Publication number: CN212040090U
Application number: CN202020659914.XU
Authority: CN
Inventors: 刘峰林
Original assignee: Jiangxi Vertical And Horizontal Pharmaceutical And Chemical Equipment Manufacturing And Installation Co ltd
Current assignee: Jiangxi Zongheng special equipment Co.,Ltd.
Priority date: 2020-04-26
Filing date: 2020-04-26
Publication date: 2020-12-01
Anticipated expiration: 2030-04-26

Abstract

The utility model discloses an energy-efficient stirring transmission, including supporting shroud, drive wheel and action wheel, it is provided with and connects bearing one to support shroud upper end middle part, it is provided with the transmission shaft in the bearing one to connect, transmission shaft upper end periphery is provided with the drive wheel, drive wheel one side is provided with the action wheel, nested there is the belt on the drive wheel. Has the advantages that: the utility model has the advantages that the driving wheel, the belt, the driving wheel, the transmission shaft, the first connecting bearing and the shaft coupling are arranged, so that the driving wheel and the transmission shaft can drive the stirring shaft to rotate very efficiently and stably, and the stirring efficiency is further improved; through setting up link one, link two, connection bearing two and connection bearing three, can make the (mixing) shaft reduce the swing when rotating, make the (mixing) shaft have sufficient stability to reduce the power loss of (mixing) shaft when stirring the operation, and then make whole stirring transmission reach high-efficient, energy-conserving effect.

Description

Energy-efficient stirring transmission

Technical Field

The utility model relates to a transmission technical field, concretely relates to energy-efficient stirring transmission.

Background

Stirring means rotating the mixture by hand or by an instrument. The transmission refers to power transmission between machines, and may also be referred to as transmitting mechanical power to the terminal device through an intermediate medium, and such transmission modes include chain transmission, friction transmission, hydraulic transmission, gear transmission, belt transmission, and the like. In the fields of pharmacy, food and the like, various stirring devices are often used for stirring and mixing materials, and various stirring transmission devices are used in the stirring devices.

The existing stirring transmission device has low stirring efficiency and insufficient power transmission stability; and when the existing stirring transmission device is used for stirring, the stirring shaft has certain swing, so that the power loss is large and the energy consumption is high.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, the efficient and energy-saving stirring transmission device is provided, and the problems of low stirring efficiency and insufficient power transmission stability of the conventional stirring transmission device are solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides an energy-efficient stirring transmission, including supporting shroud, drive wheel and action wheel, it is provided with and connects bearing one to support shroud upper end middle part, it is provided with the transmission shaft in the bearing one to connect, transmission shaft upper end periphery is provided with the drive wheel, drive wheel one side is provided with the action wheel, nested there is the belt on the drive wheel, the action wheel below is provided with the motor, the motor lower extreme is provided with the support frame, it is provided with the upper cover to support the shroud lower extreme.

Furthermore, an outer ring of the connecting bearing is in interference connection with the middle of the upper end of the supporting cover cap, the outer wall of the transmission shaft is in interference connection with an inner ring of the connecting bearing, and the periphery of the upper end of the transmission shaft is in key connection with the transmission wheel.

By adopting the technical scheme, the transmission shaft can rotate in the middle of the support cover cap through the first connecting bearing, and the transmission wheel can rotate synchronously with the transmission shaft.

Further, the belt is nested on the driving wheel, the motor transmission output end is connected with the driving wheel through a key, and the lower end of the motor is connected with the upper end of the support frame through a bolt.

Through adopting above-mentioned technical scheme, the action wheel can drive when rotating the belt rotates, the support frame can make the motor keeps stable.

Further, the lower end of the support cover cap is connected with the upper cover through a bolt, a stirring barrel is arranged at the lower end of the upper cover, and the upper end of one side wall of the stirring barrel is welded with the support frame.

By adopting the technical scheme, the supporting cover cap can be detached from the upper cover.

Further, the upper cover lower extreme with the agitator upper end is connected through the draw-in groove, the transmission shaft lower extreme has the shaft coupling through the key-type connection, the shaft coupling lower extreme has the (mixing) shaft through the key-type connection.

Through adopting above-mentioned technical scheme, the upper cover can with the agitator carries out the split, the transmission shaft accessible the shaft coupling drives the (mixing) shaft rotates, the various stirring leaves of mountable on the (mixing) shaft, the shaft coupling can be guaranteed the transmission shaft with transmission power that can be good between the (mixing) shaft.

Further, the periphery of the lower end of the stirring shaft is connected with a second connecting bearing in an interference fit mode, the outer ring of the second connecting bearing is connected with a first connecting frame in an interference fit mode, a second connecting frame is arranged above the first connecting frame, the middle of the second connecting frame is connected with a third connecting bearing in an interference fit mode, the third connecting bearing is connected with the periphery of the stirring shaft in an interference fit mode, and the first connecting frame and the second connecting frame are connected with the inner wall of the stirring barrel through screws.

Through adopting above-mentioned technical scheme, link one with link two all can with the agitator inner wall carries out the split, link one with link two cooperation connection bearing one with connection bearing two can make the (mixing) shaft reduce the swing when rotating, makes the (mixing) shaft has sufficient stability, and then reduces the power loss of (mixing) shaft when carrying out the stirring operation.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problems of low stirring efficiency and insufficient power transmission stability of the existing stirring transmission device, the utility model can enable the driving wheel and the transmission shaft to drive the stirring shaft to rotate very efficiently and stably by arranging the driving wheel, the belt, the driving wheel, the transmission shaft, the first connecting bearing and the shaft coupler, thereby improving the stirring efficiency; and for solving current stirring transmission when stirring (mixing) shaft have certain swing, power loss is great, the problem of comparatively power consumption, the utility model discloses a set up link one, link two, connecting bearing two and connecting bearing three, can make the (mixing) shaft reduce the swing when rotating, make the (mixing) shaft have sufficient stability to reduce the power loss of (mixing) shaft when stirring the operation, and then make whole stirring transmission reach high efficiency, energy-conserving effect.

Drawings

Fig. 1 is a schematic structural diagram of an efficient energy-saving stirring transmission device of the present invention;

fig. 2 is a sectional view of a support cover, an upper cover and a stirring barrel in the high-efficiency energy-saving stirring transmission device of the invention;

fig. 3 is a schematic structural diagram of a second connecting bearing and a first connecting frame in the high-efficiency energy-saving stirring transmission device of the present invention.

The reference numerals are explained below:

1. a support cover; 2. connecting a first bearing; 3. a drive shaft; 4. a driving wheel; 5. a driving wheel; 6. a belt; 7. a motor; 8. a support frame; 9. an upper cover; 10. a stirring barrel; 11. a coupling; 12. a stirring shaft; 13. connecting a second bearing; 14. a first connecting frame; 15. a second connecting frame; 16. and connecting a bearing III.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-3, the efficient energy-saving stirring transmission device in this embodiment includes a supporting cover cap 1, a transmission wheel 4 and a driving wheel 5, a first connecting bearing 2 is disposed in the middle of the upper end of the supporting cover cap 1, a transmission shaft 3 is disposed in the first connecting bearing 2, the transmission wheel 4 is disposed on the periphery of the upper end of the transmission shaft 3, the driving wheel 5 is disposed on one side of the transmission wheel 4, a belt 6 is nested on the transmission wheel 4, a motor 7 is disposed below the driving wheel 5, a supporting frame 8 is disposed at the lower end of the motor 7, and an upper cover 9 is.

As shown in fig. 1-2, an outer ring of a first connecting bearing 2 is in interference connection with the middle of the upper end of a first supporting cover cap 1, an outer wall of a transmission shaft 3 is in interference connection with an inner ring of the first connecting bearing 2, the periphery of the upper end of the transmission shaft 3 is in key connection with a transmission wheel 4, the transmission shaft 3 can rotate in the middle of the first supporting cover cap 1 through the first connecting bearing 2, the transmission wheel 4 can synchronously rotate with the transmission shaft 3, and the first connecting bearing 2 can enable the transmission shaft 3 to keep stable during rotation.

As shown in fig. 1-2, the belt 6 is nested on the driving wheel 5, the transmission output end of the motor 7 is connected with the driving wheel 5 through a key, the lower end of the motor 7 is connected with the upper end of the supporting frame 8 through a bolt, the driving wheel 5 can drive the belt 6 to rotate when rotating, the supporting frame 8 can keep the motor 7 stable, and the motor 7 can drive the driving wheel 5 to rotate when working.

As shown in fig. 1-2, the lower end of the supporting cover 1 is connected with the upper cover 9 through a bolt, the lower end of the upper cover 9 is provided with a stirring barrel 10, the upper end of one side wall of the stirring barrel 10 is welded with the supporting frame 8, the supporting cover 1 can be detached from the upper cover 9, and the stirring barrel 10 provides support for the supporting frame 8.

As shown in fig. 1-2, the lower end of the upper cover 9 is connected with the upper end of the stirring barrel 10 through a clamping groove, the lower end of the transmission shaft 3 is connected with a coupling 11 through a key, the lower end of the coupling 11 is connected with a stirring shaft 12 through a key, the upper cover 9 can be detached from the stirring barrel 10, the transmission shaft 3 can drive the stirring shaft 12 to rotate through the coupling 11, various stirring blades can be installed on the stirring shaft 12, the coupling 11 can ensure good power transmission between the transmission shaft 3 and the stirring shaft 12, and an overload protection effect can be achieved between the transmission shaft 3 and the stirring shaft 12.

As shown in fig. 1-3, the periphery of the lower end of the stirring shaft 12 is connected with a second connecting bearing 13 in an interference manner, the outer ring of the second connecting bearing 13 is connected with a first connecting frame 14 in an interference manner, a second connecting frame 15 is arranged above the first connecting frame 14, the middle part of the second connecting frame 15 is connected with a third connecting bearing 16 in an interference manner, the third connecting bearing is in interference connection with the periphery of the stirring shaft 12 in an interference manner, the first connecting frame 14 and the second connecting frame 15 are both connected with the inner wall of the stirring barrel 10 through screws, both the first connecting frame 14 and the second connecting frame 15 can be detached from the inner wall of the stirring barrel 10, the first connecting frame 14 and the second connecting frame 15 are matched with the first bearing 2 and the second connecting bearing 13 to reduce the swing of the stirring shaft 12 during rotation, so that the stirring.

The specific implementation process of this embodiment is as follows: the driving wheel 5 and the transmission wheel 4 can be replaced, the diameter of the driving wheel 5 is larger than that of the transmission wheel 4, the driving wheel 5 can drive the transmission wheel 4 to rotate through the belt 6 when rotating, and therefore the transmission wheel 4 and the transmission shaft 3 can rotate efficiently and stably under the assistance of the first connecting bearing 2. The transmission shaft 3 can drive the stirring shaft 12 to rotate through the coupler 11, various stirring blades can be installed on the stirring shaft 12, the coupler 11 can ensure that power can be well transmitted between the transmission shaft 3 and the stirring shaft 12, and the overload protection effect can be achieved between the transmission shaft 3 and the stirring shaft 12. The first connecting frame 14 and the second connecting frame 15 are matched with the first connecting bearing 2 and the second connecting bearing 13, so that the stirring shaft 12 can swing in a reducing mode when rotating, and the stirring shaft 12 has enough stability, thereby reducing the power loss of the stirring shaft 12 during stirring operation, further enabling the whole stirring transmission device to achieve the effects of high efficiency and energy conservation, and being very practical.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solution of the present invention by those skilled in the art should fall into the protection scope of the present invention, and the technical contents claimed by the present invention have been fully recorded in the claims.

Claims

1. The utility model provides an energy-efficient stirring transmission which characterized in that: including supporting shroud (1), drive wheel (4) and action wheel (5), it is provided with and connects bearing (2) to support shroud (1) upper end middle part, be provided with transmission shaft (3) in connecting bearing (2), transmission shaft (3) upper end periphery is provided with drive wheel (4), drive wheel (4) one side is provided with action wheel (5), drive wheel (4) are gone up nested and are had belt (6), action wheel (5) below is provided with motor (7), motor (7) lower extreme is provided with support frame (8), it is provided with upper cover (9) to support shroud (1) lower extreme.

2. An energy efficient mixing drive as defined in claim 1 wherein: the outer ring of the first connecting bearing (2) is in interference connection with the middle of the upper end of the support cover cap (1), the outer wall of the transmission shaft (3) is in interference connection with the inner ring of the first connecting bearing (2), and the periphery of the upper end of the transmission shaft (3) is in key connection with the transmission wheel (4).

3. An energy efficient mixing drive as defined in claim 2 wherein: the belt (6) is nested on the driving wheel (5), the transmission output end of the motor (7) is connected with the driving wheel (5) through a key, and the lower end of the motor (7) is connected with the upper end of the support frame (8) through a bolt.

4. A high efficiency and energy saving stirring transmission device as claimed in claim 3, wherein: the lower end of the support cover cap (1) is connected with the upper cover (9) through a bolt, the lower end of the upper cover (9) is provided with a stirring barrel (10), and the upper end of one side wall of the stirring barrel (10) is welded with the support frame (8).

5. An energy efficient mixing drive as defined in claim 4 wherein: the lower end of the upper cover (9) is connected with the upper end of the stirring barrel (10) through a clamping groove, the lower end of the transmission shaft (3) is connected with a coupler (11) through a key, and the lower end of the coupler (11) is connected with a stirring shaft (12) through a key.

6. An energy efficient mixing drive as defined in claim 5 wherein: the stirring shaft (12) lower extreme periphery interference is connected with connection bearing two (13), connection bearing two (13) outer lane interference is connected with link one (14), link one (14) top is provided with link two (15), link two (15) middle part interference be connected with the connection bearing three (16) that (12) periphery interference is connected, link one (14) and link two (15) all with agitator (10) inner wall passes through the screw connection.