CN112156552A

CN112156552A - Drainage pipeline filter screen device capable of automatically removing solid impurities

Info

Publication number: CN112156552A
Application number: CN202011232786.1A
Authority: CN
Inventors: 李拓
Original assignee: Fuzhou Economic And Technological Development Zone Changjinming Electronic Technology Co ltd
Current assignee: Fuzhou Economic And Technological Development Zone Changjinming Electronic Technology Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-01-01

Abstract

The invention relates to the field of wastewater discharge equipment, and discloses a drainage pipeline filter screen device for automatically removing solid impurities, which comprises a wall body, wherein a drainage pipeline extending up and down is arranged in the wall body, a pipeline penetrating up and down is arranged in the drainage pipeline, a storage cavity with an upward opening is arranged at the right side of the drainage pipeline, a pipeline inner cavity communicated with the pipeline and extending rightwards to be communicated with the storage cavity is arranged in the drainage pipeline, the device can automatically remove solid impurities deposited in the drainage pipeline by the filter screen in a mechanical mode, reduces the operation of manual inspection and repair after the drainage pipeline is blocked, the device can judge the deposition condition in the pipeline by the flow rate of the water flow, when the deposition reaches a certain degree, the velocity of flow slows down, and the device can start, takes out the filter screen automatically and overturns the filter screen and pours solid impurity into and collect the intracavity, the user only need will collect the solid impurity clearance of intracavity can.

Description

Drainage pipeline filter screen device capable of automatically removing solid impurities

Technical Field

The invention relates to the related field of wastewater discharge equipment, in particular to a drainage pipeline filter screen device capable of automatically removing solid impurities.

Background

Present drain pipe is to interior filter screen after the interception piles up the solid impurity of certain degree, rivers through the filter screen will slow down and take place the intraductal jam of water, lead to the unable even phenomenon that produces the sewage refluence of discharging of sewage, when this condition takes place, then need the manual work to detect one section of pipeline, just the investigation in-process is because can't find between blocking up the position and efficiency is very low, and to blocking up the pipeline in-process, drainage work will stop going on smoothly in order to guarantee the clearance process, the clearance process also forces the work of upwelling to stop and reduce holistic work efficiency.

Disclosure of Invention

The invention aims to provide a drainage pipeline filter screen device capable of automatically removing solid impurities, which can overcome the defects in the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the drainage pipeline filter screen device for automatically removing solid impurities comprises a wall body, wherein a drainage pipe extending up and down is arranged in the wall body, a pipeline which is communicated up and down is arranged in the drainage pipe, a storage cavity which is opened upwards is arranged at the right side of the drainage pipe, a pipe inner cavity which is communicated with the pipeline and extends rightwards to be communicated with the storage cavity is arranged in the drainage pipe, a sliding cavity is communicated and arranged at the right side of the storage cavity, an upper half-opened cavity is communicated and arranged at the upper side of the sliding cavity, a lower half-opened cavity is communicated and arranged at the lower side of the sliding cavity, a clutch cavity is communicated and arranged at the right side of the clutch cavity, a right side pulley cavity is arranged at the right side of the clutch cavity, a flow speed induction box is arranged at the lower side of the storage cavity, a water flow box fixing block is fixedly connected and, the water flow driving cavity is internally provided with a transverse shaft which penetrates through the water flow box fixing block rightwards and extends to the flow velocity induction box, the water flow box is internally provided with an impeller shaft which extends upwards to the pipeline, the upper end face of the impeller shaft is fixedly connected with an impeller, the water flow driving cavity is internally provided with a water flow driving taper tooth which is fixedly connected with the impeller shaft, the water flow driving cavity is internally provided with a water flow driven taper tooth which is fixedly connected with the transverse shaft, the water flow driven taper tooth is meshed with the water flow driving taper tooth, the inner cavity of the pipe is internally provided with a filter screen fixing ring in a sliding fit connection way, the inner end wall of the filter screen fixing ring is circumferentially and fixedly connected with a filter screen, the right end face of the filter screen fixing ring is fixedly connected with a sliding block which penetrates through the storage cavity rightwards and extends to the sliding cavity, the upper end face of the, and a right end gear is fixedly connected to the right end shaft.

On the basis of the technical scheme, cross axle right-hand member face fixed connection is equipped with the disc, be equipped with the opening in the disc and keep away from the cross chamber of disc center direction, cross chamber left end wall fixed connection is equipped with the forced induction piece, cross intracavity sliding fit connect be equipped with four with the forced induction piece is the centrifugal slider that central circumference was arranged, centrifugal slider keeps away from the terminal surface fixed connection of forced induction piece is equipped with centrifugal fixed block, centrifugal fixed block is close to the terminal surface fixed connection of forced induction piece is equipped with centrifugal spring, under the centrifugal spring terminal surface with disc fixed connection.

On the basis of the technical scheme, an upper side bevel gear cavity is arranged on the upper side of the upper side semi-open cavity, a rear side belt wheel cavity is arranged on the rear side of the upper side bevel gear cavity, a driven bevel gear shaft which extends backwards into the rear belt wheel cavity is arranged in the upper side bevel gear cavity, driven bevel gears which are fixedly connected with the driven bevel gear shaft are arranged in the upper side bevel gear cavity, a rear driving belt wheel fixedly connected with the driven bevel gear shaft is arranged in the rear belt wheel cavity, an upper gear shaft extending backwards into the rear belt wheel cavity is arranged in the upper half-open cavity, an upper side gear fixedly connected with the upper side gear shaft is arranged in the upper side half-open cavity, the upper side gear is meshed with the rack, the rear side driven belt wheel is fixedly connected with the upper side gear shaft and is arranged in the rear side belt wheel cavity, and a rear side belt is arranged between the rear side driven belt wheel and the rear side driving belt wheel in a power fit connection mode.

On the basis of the technical scheme, a long shaft which extends rightwards into the clutch cavity is arranged in the upper side bevel gear cavity, a driving bevel gear which is fixedly connected with the long shaft and is meshed with the driven bevel gear is arranged in the upper side bevel gear cavity, a sliding driving gear fixedly connected with the long shaft is arranged in the clutch cavity, a motor positioned below the long shaft is arranged at the left side of the clutch cavity, a motor shaft which extends rightwards into the clutch cavity is fixedly connected with the right end surface of the motor, a sliding sleeve is connected with a spline on the motor shaft in a matching way, a sliding gear is fixedly connected on the sliding sleeve, an electromagnet is fixedly connected on the right end wall of the clutch cavity, the left end surface of the electromagnet is fixedly connected with a shifting fork spring, the left end surface of the shifting fork spring is fixedly connected with a magnet block, the upper end face of the magnet block is fixedly connected with a shifting fork, and the shifting fork is abutted to the sliding gear.

On the basis of the technical scheme, a lower side gear shaft extending rightwards into the right side belt wheel cavity is arranged in the lower side half-open cavity, a lower side gear fixedly connected with the lower side gear shaft is arranged in the lower side gear, the lower side gear extends upwards into the sliding cavity, a right side driven belt wheel fixedly connected with the lower side gear shaft is arranged in the right side belt wheel cavity, a right side belt wheel shaft extending leftwards into the clutch cavity is arranged in the right side belt wheel cavity, a turnover driving gear fixedly connected with the right side belt wheel shaft is arranged in the clutch cavity, a right side driving belt wheel fixedly connected with the right side belt wheel shaft is arranged in the right side belt wheel cavity, and a right side belt is arranged between the right side driven belt wheel and the right side driven belt wheel in a.

The invention has the beneficial effects that: the device can block up the solid impurity of siltation in drainage pipe through the filter screen self-cleaning through mechanical system, has reduced and has taken place the artifical prosthetic operation of examining after the jam condition when drainage pipe, and the device can judge the siltation condition in the pipeline through the velocity of flow to rivers, and when siltation reaches the certain degree, the velocity of flow slows down, and the device can start, takes out the filter screen automatically and overturns the filter screen and pours solid impurity into the collection intracavity, and the user only need to collect the solid impurity clearance of intracavity can.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a drainage pipeline strainer device for automatically removing solid impurities according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine the drainage pipe filter unit of an automatic clear solid impurity of attached drawing 1-4, including wall body 10, be equipped with the drain pipe 36 that extends from top to bottom in the wall body 10, be equipped with pipeline 35 that link up from top to bottom in the drain pipe 36, the drain pipe 36 right side is equipped with upwards open-ended storage chamber 33, be equipped with in the drain pipe 36 with pipeline 35 intercommunication and extend right with the pipe inner chamber 11 of storage chamber 33 intercommunication, storage chamber 33 right side intercommunication is equipped with slide 25, slide 25 upside intercommunication and be equipped with upside half-open chamber 30, slide 25 downside intercommunication and be equipped with downside half-open chamber 26, slide 25 right side intercommunication and be equipped with separation and reunion chamber 28, separation and reunion chamber 28 right side is equipped with right side pulley chamber 27, storage chamber 33 downside is equipped with velocity of flow induction box 22, pipeline 35 right-hand end wall fixed connection is equipped with rivers case fixed

block

20, 20 left end face fixed connection of rivers case fixed block is equipped with rivers case 17, be equipped with rivers drive chamber 18 in the rivers case 17, it runs through to be equipped with in rivers drive chamber 18 to run through right rivers case fixed block 20 extends to cross axle 21 in the velocity of flow induction box 22, be equipped with in the rivers case 17 upwards extend to impeller shaft 15 in the

pipeline

35, 15 up end fixed connection of impeller shaft is equipped with impeller 14, be equipped with in rivers drive chamber 18 with 15 fixed connection's rivers initiative awl tooth 16 of impeller shaft, be equipped with in rivers drive chamber 18 with the driven awl tooth 19 of 21 fixed connection's rivers, the driven awl tooth 19 of rivers with 16 meshes of rivers initiative awl tooth, the interior sliding fit connection of intraductal intracavity 11 is equipped with the solid fixed ring 12 of filter screen, the solid fixed ring 12 of filter screen inner end wall circumference fixed connection is equipped with filter screen 13, the solid fixed ring 12 right end face fixed connection of filter screen is equipped with to run through to right the storage chamber 33 extends to slide An inner sliding block 32, a rack 34 is fixedly connected to the upper end face of the sliding block 32, a right end shaft 24 is fixedly connected to the right end face of the sliding block 32, and a right end gear 23 is fixedly connected to the right end shaft 24.

In addition, in an embodiment, the right end face of the transverse shaft 21 is fixedly connected with a disc 67, a cross cavity 63 with an opening far away from the center direction of the disc 67 is arranged in the disc 67, a pressure sensing block 65 is fixedly connected with the left end wall of the cross cavity 63, four centrifugal sliders 62 are arranged in the cross cavity 63 in a sliding fit manner, the pressure sensing block 65 is arranged circumferentially around the center, a centrifugal fixed block 64 is arranged on the end face of the centrifugal slider 62 far away from the pressure sensing block 65, a centrifugal spring 66 is arranged on the end face of the centrifugal fixed block 64 close to the pressure sensing block 65, and the lower end face of the centrifugal spring 66 is fixedly connected with the disc 67.

In addition, in one embodiment, an upper side bevel gear cavity 31 is disposed on the upper side of the upper side semi-open cavity 30, a rear side pulley cavity 61 is disposed on the rear side of the upper side bevel gear cavity 31, a driven bevel gear shaft 56 extending backward into the rear side pulley cavity 61 is disposed in the upper side bevel gear cavity 31, a driven bevel gear 55 fixedly connected with the driven bevel gear shaft 56 is disposed in the upper side bevel gear cavity 31, a rear side driving pulley 57 fixedly connected with the driven bevel gear shaft 56 is disposed in the rear side pulley cavity 61, an upper side gear shaft 60 extending backward into the rear side pulley cavity 61 is disposed in the upper side semi-open cavity 30, an upper side gear 53 fixedly connected with the upper side gear shaft 60 is disposed in the upper side semi-open cavity 30, the upper side gear 53 is engaged with the rack 34, a rear side driven pulley 59 fixedly connected with the upper side gear shaft 60 is disposed in the rear side pulley cavity 61, a rear belt 58 is connected between the rear driven pulley 59 and the rear driving pulley 57 in a power-fit manner.

In addition, in one embodiment, a long shaft 29 extending rightwards into the clutch cavity 28 is arranged in the upper side bevel gear cavity 31, a driving bevel gear 54 fixedly connected with the long shaft 29 and meshed with the driven bevel gear 55 is arranged in the upper side bevel gear cavity 31, a sliding driving gear 52 fixedly connected with the long shaft 29 is arranged in the clutch cavity 28, a motor 39 located below the long shaft 29 is arranged on the left side of the clutch cavity 28, a motor shaft 47 extending rightwards into the clutch cavity 28 is fixedly connected to the right end face of the motor 39, a sliding sleeve 38 is arranged on the motor shaft 47 in a spline fit connection mode, a sliding gear 37 is fixedly connected to the sliding sleeve 38, an electromagnet 45 is fixedly connected to the right end wall of the clutch cavity 28, a shifting fork spring 42 is fixedly connected to the left end face of the electromagnet 45, and a magnet block 40 is fixedly connected to the left end face of the shifting fork spring 42, the upper end face of the magnet block 40 is fixedly connected with a shifting fork 46, and the shifting fork 46 is abutted to the sliding gear 37.

In addition, in one embodiment, a lower gear shaft 43 extending rightward into the right pulley cavity 27 is disposed in the lower semi-open cavity 26, a lower gear 41 fixedly connected to the lower gear shaft 43 is disposed in the lower gear 41, the lower gear 41 extends upward into the sliding cavity 25, a right secondary pulley 44 fixedly connected to the lower gear shaft 43 is disposed in the right pulley cavity 27, a right pulley shaft 49 extending leftward into the clutch cavity 28 is disposed in the right pulley cavity 27, a flip drive gear 51 fixedly connected to the right pulley shaft 49 is disposed in the clutch cavity 28, a right driving pulley 50 fixedly connected to the right pulley shaft 49 is disposed in the right pulley cavity 27, and a right belt 48 is disposed between the right driving pulley 50 and the right secondary pulley 44 in a power fit manner.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-4, when the apparatus of the present invention is in an initial state, the filter screen 13 is located at the rightmost side of the inner cavity 11 of the pipe, the sliding gear 37 is engaged with the sliding drive gear 52, water enters from above the pipe 35, the impeller 14 is driven by the water to rotate, the impeller 14 drives the water driving bevel gear 16 to rotate through the impeller shaft 15, the water driving bevel gear 16 drives the transverse shaft 21 to rotate through the water driven bevel gear 19, the transverse shaft 21 drives the disc 67 to rotate around the pressure sensing block 65, the centrifugal slider 62 is moved away from the pressure sensing block 65 by overcoming the pulling force of the centrifugal spring 66 under the centrifugal action, and the end surface of the centrifugal slider 62 close to the pressure sensing block 65 is separated from the end surface of the corresponding side of the pressure sensing block 65;

sequence of mechanical actions of the whole device:

when the centrifugal water flow sensor starts to work, when solid impurities accumulated on the filter screen 13 are gradually increased, the flow velocity of water flowing through the filter screen 13 is reduced, the rotating speed of the impeller 14 is reduced under the influence of the water flow, so that the end face, close to one side of the pressure sensing block 65, of the centrifugal slide block 62 is gradually close to the pressure sensing block 65, until the end face, close to the pressure sensing block 65, of the centrifugal slide block 62 is contacted with the pressure sensing block 65, so that the motor 39 is started, at the moment, the water flow is reduced due to the blockage of the solid impurities, and when the device. The centrifugal slide block 62 triggers the pressure sensing block 65 to start the motor 39;

the motor 39 drives the sliding sleeve 38 to rotate through the motor shaft 47, the sliding sleeve 38 drives the sliding driving gear 52 to rotate through the sliding gear 37, the sliding driving gear 52 drives the driving bevel gear 54 to rotate through the long shaft 29, the driving bevel gear 54 drives the driven bevel gear shaft 56 to rotate through the driven bevel gear 55, the driven bevel gear shaft 56 is connected, the rear driving pulley 57 drives the rear belt 58 to move, the rear belt 58 drives the upper gear shaft 60 to rotate through the rear driven pulley 59, the upper gear shaft 60 drives the rack 34 to slide rightwards through the rotation of the upper gear 53, the rack 34 drives the sliding block 32 to slide rightwards, and the sliding block 32 pulls the filter screen fixing ring 12 and the filter screen 13 to slide rightwards;

when the filter screen fixing ring 12 and the filter screen 13 are pulled into the storage cavity 33, the upper side gear 53 continues to rotate until the right end shaft 24 slides rightwards to push the magnet block 40 to overcome the elasticity of the shifting fork spring 42, the shifting fork 46 drives the shifting fork gear 37 to move rightwards to be meshed with the shifting fork drive gear 52 to separate and turn over the drive gear 51, at the moment, the filter screen fixing ring 12 and the filter screen 13 stop moving in the storage cavity 33, and the right end gear 23 is just meshed with the lower side gear 41;

when the sliding gear 37 is meshed with the overturning driving gear 51, the sliding gear 37 drives the right-side pulley shaft 49 to rotate through the overturning driving gear 51, the right-side pulley shaft 49 drives the right-side belt 48 to rotate through the right-side driving pulley 50, the right-side belt 48 drives the lower-side gear shaft 43 to rotate through the right-side driven pulley 44, the lower-side gear shaft 43 drives the lower-side gear 41 to rotate, the lower-side gear 41 drives the right-end shaft 24 to rotate through the right-end gear 23, the right-end shaft 24 drives the sliding block 32 to overturn by taking the right-end shaft 24 as a center until the filter screen fixing ring 12 overturns by one hundred eighty degrees, the motor 39 stops, and at the moment, the filter screen fixing ring 12 and the filter screen 13 overturn by one hundred;

the motor rotates reversely, so that the filter screen fixing ring 12 and the filter screen 13 rotate reversely by one hundred eighty degrees to reset, at the moment, the electromagnet 45 is started, the magnet block 40 moves rightwards under the repulsive force of the electromagnet 45, the magnet block 40 is pushed by the elastic force of the shifting fork spring 42 to drive the sliding gear 37 to be separated from the overturning driving gear 51 through the shifting fork 46 and to be meshed with the sliding driving gear 52, at the moment, the lower side gear 41 stops rotating, the sliding block 32 moves rightwards under the rotation of the upper side gear 53, until the filter screen fixing ring 12 and the filter screen 13 recover to the initial state, and.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an automatic clear away solid impurity's drainage pipe filter unit, includes the wall body, its characterized in that: the wall body is internally provided with a drain pipe which extends up and down, the drain pipe is internally provided with a pipeline which is communicated up and down, the right side of the drain pipe is provided with a storage cavity which is opened upwards, the drain pipe is internally provided with a pipe inner cavity which is communicated with the pipeline and extends rightwards to be communicated with the storage cavity, the right side of the storage cavity is communicated with a sliding cavity, the upper side of the sliding cavity is communicated with an upper half-open cavity, the lower side of the sliding cavity is communicated with a lower half-open cavity, the right side of the sliding cavity is communicated with a clutch cavity, the right side of the clutch cavity is provided with a right side pulley cavity, the lower side of the storage cavity is provided with a flow rate sensing box, the right end wall of the pipeline is fixedly connected with a water flow box fixed block, the left end surface of the water flow box fixed block is fixedly connected with a water flow, the rivers incasement is equipped with upwards extending to impeller shaft in the pipeline, impeller shaft up end fixed connection is equipped with the impeller, rivers drive the intracavity be equipped with impeller shaft fixed connection's rivers initiative awl tooth, rivers drive the intracavity be equipped with the driven awl tooth of cross axle fixed connection's rivers, the driven awl tooth of rivers with rivers initiative awl tooth meshing, the intraductal sliding fit connection of pipe intracavity is equipped with the solid fixed ring of filter screen, the solid fixed ring inner wall circumference fixed connection of filter screen is equipped with the filter screen, the solid fixed ring right-hand member face fixed connection of filter screen is equipped with and runs through right the storage chamber extends to the sliding block of the intracavity that slides, sliding block up end fixed connection is equipped with the rack, sliding block right-hand member face fixed connection is equipped with the right-hand member axle, the epaxial fixed connection of right-hand member is.

2. The drainpipe strainer device of claim 1, wherein the strainer device comprises: cross axle right-hand member face fixed connection is equipped with the disc, be equipped with the opening in the disc and keep away from the cross chamber of disc center direction, cross chamber left end wall fixed connection is equipped with the forced induction piece, cross intracavity sliding fit connection be equipped with four with the forced induction piece is the centrifugal slider of central circumference arrangement, centrifugal slider keeps away from the terminal surface fixed connection of forced induction piece is equipped with centrifugal fixed block, centrifugal fixed block is close to the terminal surface fixed connection of forced induction piece is equipped with centrifugal spring, under the centrifugal spring terminal surface with disc fixed connection.

3. The drainpipe strainer device of claim 1, wherein the strainer device comprises: an upper side bevel gear cavity is arranged on the upper side of the upper side semi-open cavity, a rear side belt wheel cavity is arranged on the rear side of the upper side bevel gear cavity, a driven bevel gear shaft which extends backwards into the rear belt wheel cavity is arranged in the upper side bevel gear cavity, driven bevel gears which are fixedly connected with the driven bevel gear shaft are arranged in the upper side bevel gear cavity, a rear driving belt wheel fixedly connected with the driven bevel gear shaft is arranged in the rear belt wheel cavity, an upper gear shaft extending backwards into the rear belt wheel cavity is arranged in the upper half-open cavity, an upper side gear fixedly connected with the upper side gear shaft is arranged in the upper side half-open cavity, the upper side gear is meshed with the rack, the rear side driven belt wheel is fixedly connected with the upper side gear shaft and is arranged in the rear side belt wheel cavity, and a rear side belt is arranged between the rear side driven belt wheel and the rear side driving belt wheel in a power fit connection mode.

4. The drainpipe strainer device of claim 1, wherein the strainer device comprises: a long shaft extending rightwards into the clutch cavity is arranged in the upper side bevel gear cavity, a driving bevel gear fixedly connected with the long shaft and meshed with the driven bevel gear is arranged in the upper side bevel gear cavity, a sliding driving gear fixedly connected with the long shaft is arranged in the clutch cavity, a motor positioned below the long shaft is arranged at the left side of the clutch cavity, a motor shaft which extends rightwards into the clutch cavity is fixedly connected with the right end surface of the motor, a sliding sleeve is connected with a spline on the motor shaft in a matching way, a sliding gear is fixedly connected on the sliding sleeve, an electromagnet is fixedly connected on the right end wall of the clutch cavity, the left end surface of the electromagnet is fixedly connected with a shifting fork spring, the left end surface of the shifting fork spring is fixedly connected with a magnet block, the upper end face of the magnet block is fixedly connected with a shifting fork, and the shifting fork is abutted to the sliding gear.

5. The drainpipe strainer device of claim 1, wherein the strainer device comprises: the utility model discloses a take turns to the right side, including the downside wheel axle, the right side wheel axle is equipped with in the downside semi-open intracavity and extends to the downside gear axle of right side band pulley intracavity, be equipped with in the downside gear with downside gear axle fixed connection's downside gear, downside gear upwards extends to the intracavity that slides, right side band pulley intracavity be equipped with downside gear axle fixed connection's right side is from the band pulley, right side band pulley intracavity be equipped with extend to left the right side band pulley axle in the separation and reunion intracavity, be equipped with in the separation and reunion intracavity with right side band pulley axle fixed connection's upset drive gear, right side band pulley intracavity be equipped with right side band pulley is connected from power fit between the.