CN111906855A - Novel process equipment capable of realizing simultaneous treatment of multilayer timbers - Google Patents

Abstract

The invention discloses novel process equipment capable of realizing simultaneous processing of multilayer wood, which comprises an equipment main body, wherein the left and right end faces of the equipment main body are jointly communicated and provided with a through cavity, the inner lower wall of the through cavity is communicated and provided with a belt wheel cavity, the front wall and the rear wall in the belt wheel cavity are jointly connected and rotatably provided with a driving belt wheel shaft, the outer circumference of the driving belt wheel shaft in the belt wheel cavity is fixedly provided with a driving belt wheel shaft, and the front wall and the rear wall in the belt wheel cavity on the right side of the driving belt wheel are jointly connected and rotatably provided with a driven belt wheel shaft.

Description

Novel process equipment capable of realizing simultaneous treatment of multilayer timbers

Technical Field

The invention relates to the technical field related to a new process, in particular to novel process equipment capable of realizing simultaneous treatment of multilayer timbers.

Background

Timber is a natural plant, can divide into needle leaf material and withering leaf material, timber is through the panel that processing made, the bar, furniture is made again, along with the continuous development of production, in multiple processing, inevitably carry out the processing of different work types to timber, if punch to ligneous location, current perforating device can't realize that polylith timber punches simultaneously, make efficiency lower at the in-process that punches, timber large aperture is very important to subsequent processing alone, the carpenter is making woodwork, door and window frame, or other in-process, often need punch one row of hole, the hole of this row of hole requires certainly with the distance in hole, this just needs the carpenter to realize measuring, the drawing hole position, it is too troublesome. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

the existing punching device can not punch multiple pieces of wood simultaneously, so that the efficiency is low in the punching process, the woodworker is required to realize measurement, and the hole drawing position is too troublesome.

In order to solve the problems, the embodiment designs a novel process device capable of realizing the simultaneous processing of multilayer wood, and the novel process device capable of realizing the simultaneous processing of multilayer wood comprises a device main body, wherein the left side end surface and the right side end surface of the device main body are communicated with a through cavity, the inner lower wall of the through cavity is communicated with a belt wheel cavity, a driving belt wheel shaft is connected and rotated between the front wall and the rear wall in the belt wheel cavity, the outer circumference of the driving belt wheel shaft in the belt wheel cavity is fixedly provided with a driving belt wheel shaft, a driven belt wheel shaft is connected and rotated between the front wall and the rear wall on the right side of the driving belt wheel in the belt wheel cavity, the outer circumference of the driven belt wheel shaft in the belt wheel cavity is fixedly provided with a driven belt wheel, a belt is wound between the driving belt wheel and the driven belt wheel, the inner upper, the driving pushing cavity is positioned at the inner side of the main body, one side of the driving pushing cavity, which is far away from the left end face and the right end face of the main body, is bilaterally and symmetrically provided with driven driving cavities communicated with the upper wall in the through cavity, the front wall and the rear wall in the driven driving cavity are jointly connected and rotatably provided with driven driving wheel shafts, the driven driving wheel shafts are positioned at the outer circumference in the driven driving cavities and are fixedly provided with driven driving wheels, the lower sides of the driven driving wheels are partially positioned in the through cavity, the upper wall in the through cavity is communicated and provided with a punching through cavity, the upper wall in the punching through cavity is communicated and provided with a punching cavity, and the rear wall in the punching cavity is rotatably provided with a crank shaft, the crank shaft is located the fixed crank that is equipped with of the intracavity circumference that punches, the hinge joint of the crank other end is equipped with the connecting rod, the connecting rod other end is called to connect and is equipped with the perforating needle, the perforating needle lower extreme downwardly extending to lead to the intracavity.

Preferably, the back wall of the through cavity is communicated with a grinding cavity which is symmetrical left and right, the left and right sides of the grinding cavity are jointly connected and rotated between the left wall and the right wall of the grinding cavity to form a grinding shaft, the grinding shaft is located on the outer circumference of the grinding cavity and fixedly provided with a grinding wheel, and one part of the front side of the grinding wheel is located in the through cavity.

Preferably, the rear side of the punching cavity is located on the inner wall of the equipment main body and is fixedly provided with a motor, the rear end of the crankshaft extends backwards into the equipment main body and is in power connection with the front end face of the motor, the rear end face of the motor is in power connection with a motor shaft, the rear side of the motor is provided with a sprocket cavity, the rear side of the sprocket cavity is provided with a rear belt wheel cavity, and the rear end of the motor shaft penetrates backwards through the sprocket cavity to extend into the rear belt wheel cavity and is rotatably arranged on the rear wall in the rear belt wheel cavity.

Preferably, the motor shaft is located the fixed drive sprocket that is equipped with of sprocket intracavity outer circumference, sprocket intracavity back wall is located the drive sprocket downside rotates and is equipped with right fan blade axle, right fan blade axle is located the fixed driven sprocket axle that is equipped with of sprocket intracavity outer circumference, drive sprocket with around being equipped with the chain between the driven sprocket axle, sprocket chamber front side is equipped with the bevel gear chamber, the left and right sides the axle of polishing one end in opposite directions bevel gear intracavity extends and fixed bevel gear about being equipped with, right side fan blade axle extends forward bevel gear intracavity and outer circumference are fixed be equipped with can with the left and right sides the common gear engagement's of left and right sides bevel gear drive bevel gear.

Preferably, the rear wall in the through cavity is communicated with a right fan blade cavity, the front end of the right fan blade shaft extends forwards to the right fan blade cavity and is fixedly provided with a right fan blade, the lower wall in the bevel gear cavity is rotatably provided with a driven bevel gear shaft, and the driven bevel gear shaft is positioned in the bevel gear cavity and is fixedly provided with a lower bevel gear which can be meshed with the driving bevel gear.

Preferably, bevel gear chamber downside is equipped with the lower sprocket chamber, driven bevel gear axle lower extreme downwardly extending to the lower sprocket intracavity is just rotated and is located lower sprocket intracavity lower wall, driven bevel gear axle is located the fixed drive sprocket that is equipped with of lower sprocket intracavity outside circumference, lower sprocket intracavity lower wall is located the rotation of lower drive sprocket left side is equipped with left fan blade axle, and the speed of cable is located the outer fixed driven sprocket that is equipped with down of circumference in the lower sprocket intracavity, down driven sprocket with around being equipped with down the chain between the lower drive sprocket.

Preferably, the left side is polished the intracavity lower wall intercommunication be equipped with lead to the left flabellum chamber of intracavity back wall UNICOM, left flabellum axle upper end upwards extends to left flabellum intracavity and fixed left flabellum that is equipped with.

Preferably, the lower side of the belt wheel cavity is provided with a collecting cavity, the right wall in the collecting cavity and the lower wall in the right fan blade cavity are communicated with each other to form a right collecting pipe, and the left wall in the collecting cavity and the rear wall in the left fan blade cavity are communicated with each other to form a left collecting pipe.

Preferably, the motor shaft is located at the inner circumference of the rear pulley cavity and fixedly provided with a rear driving pulley, the rear end of the driving pushing wheel shaft on the left side extends backwards into the rear pulley cavity and is rotatably arranged on the rear wall in the rear pulley cavity, the driving pushing wheel shaft is located at the inner circumference of the rear pulley cavity and fixedly provided with a rear driven pulley, the rear end of the driving wheel shaft extends backwards into the rear pulley cavity and is rotatably arranged on the rear wall in the rear pulley cavity, the driving wheel shaft is located at the inner circumference of the rear pulley cavity and fixedly provided with a lower driven pulley, and a rear belt is wound between the rear driving pulley and the rear driven pulley as well as between the rear driving pulley and the lower driven pulley.

The invention has the beneficial effects that: the invention can realize simultaneous punching of the multiple layers of wood by clamping and cutting the multiple layers of wood orderly, greatly improve the efficiency of the punching process of the wood, simultaneously realize the same distance between holes in a row of holes, and realize the variable distance between the holes in the row of holes by adjusting the rotating speed of the motor.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of the novel process equipment capable of realizing simultaneous treatment of multiple layers of timber;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

fig. 4 is an enlarged view of the structure of "C" of fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for ease of description, the orientations described below will now be 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.

The invention relates to novel process equipment capable of realizing simultaneous treatment of multilayer wood, which comprises an equipment main body 11, wherein the left and right end surfaces of the equipment main body 11 are jointly communicated and provided with a through cavity 12, the inner lower wall of the through cavity 12 is communicated and provided with a belt wheel cavity 13, a driving belt wheel shaft 14 is jointly connected and rotatably arranged between the front wall and the rear wall in the belt wheel cavity 13, the driving belt wheel shaft 14 is fixedly arranged on the inner and outer circumferences of the belt wheel cavity 13 and is fixedly provided with a driving belt wheel shaft 14, the front and rear walls in the belt wheel cavity 13 and on the right side of the driving belt wheel 15 are jointly connected and rotatably provided with a driven belt wheel shaft 16, the driven belt wheel shaft 16 is fixedly arranged on the inner and outer circumferences of the belt wheel cavity 13 and is provided with a driven belt wheel 17, a belt 18 is wound between the driving belt wheel 15 and the driven belt wheel 17, the inner upper wall of the through cavity 12 is communicated and provided with a driving push cavity 19 which is symmetrical left and right, the front, the driving pushing wheel shaft 20 is positioned in the driving pushing cavity 19, the inner circumference and the outer circumference of the driving pushing cavity 19 are fixedly provided with the driving pushing wheel shaft 20, a part of the lower side of the driving pushing wheel shaft 20 is positioned in the through cavity 12, one side of the driving pushing cavity 19, which is far away from the left end face and the right end face of the equipment main body 11, on the left side and the right side, is symmetrically provided with a driven driving cavity 22 communicated with the inner upper wall of the through cavity 12, the front wall and the rear wall in the driven driving cavity 22 are jointly connected and rotatably provided with a driven driving wheel shaft 23, the driven driving wheel shaft 23 is positioned in the inner circumference and the outer circumference of the driven driving cavity 22, the lower side of the driven driving wheel 24 is partially positioned in the through cavity 12, the inner upper wall in the through cavity 12 is communicated and provided with a punching through cavity 30, the upper wall in the punching through cavity 30 is communicated and provided with a punching cavity 25, the inner rear wall in the punching cavity 25 is, the other end of the crank 27 is hinged with a connecting rod 28, the other end of the connecting rod 28 is provided with a perforating needle 29, and the lower end of the perforating needle 29 extends downwards into the through cavity 12.

Beneficially, the rear wall in the through cavity 12 is communicated with a grinding cavity 31 which is symmetrical left and right, the left wall and the right wall of the grinding cavity 31 on the left side and the right side are connected together and rotatably provided with a grinding shaft 32, the grinding shaft 32 is located at the inner circumference and the outer circumference of the grinding cavity 31 and is fixedly provided with a grinding wheel 33, and a part of the front side of the grinding wheel 33 is located in the through cavity 12.

Advantageously, a motor 34 is fixedly arranged on the inner wall of the device body 11 at the rear side of the boring cavity 25, the rear end of the crank shaft 26 extends backwards into the device body 11 and is in power connection with the front end face of the motor 34, a motor shaft 35 is in power connection with the rear end face of the motor 34, a sprocket cavity 36 is arranged on the rear side of the motor 34, a rear pulley cavity 37 is arranged on the rear side of the sprocket cavity 36, and the rear end of the motor shaft 35 extends backwards through the sprocket cavity 36 into the rear pulley cavity 37 and is rotatably arranged on the rear wall in the rear pulley cavity 37.

Beneficially, the motor shaft 35 is located at the inner and outer circumferences of the sprocket cavity 36 and is fixedly provided with a driving sprocket 38, the inner rear wall of the sprocket cavity 36 is located at the lower side of the driving sprocket 38 and is rotatably provided with a right vane shaft 39, the right vane shaft 39 is located at the inner and outer circumferences of the sprocket cavity 36 and is fixedly provided with a driven sprocket shaft 40, a chain 41 is wound between the driving sprocket 38 and the driven sprocket shaft 40, the front side of the sprocket cavity 36 is provided with a bevel gear cavity 42, opposite ends of the grinding shafts 32 at the left and right sides extend into the bevel gear cavity 42 and are fixedly provided with left and right bevel gears 44, and the right vane shaft 39 extends forwards into the bevel gear cavity 42 and is fixedly provided with a driving bevel gear 43 which can be in gear engagement with the left and right bevel gears 44 at the left and right sides.

Beneficially, the rear wall in the through cavity 12 is provided with a right fan blade cavity 47 in a communicating manner, the front end of the right fan blade shaft 39 extends forwards into the right fan blade cavity 47 and is fixedly provided with a right fan blade 48, the lower wall in the bevel gear cavity 42 is rotatably provided with a driven bevel gear shaft 45, and the driven bevel gear shaft 45 is located in the bevel gear cavity 42 and is fixedly provided with a lower bevel gear 46 capable of being in gear engagement with the driving bevel gear 43.

Beneficially, a lower chain wheel cavity 49 is arranged at the lower side of the bevel gear cavity 42, the lower end of the driven bevel gear shaft 45 extends downwards into the lower chain wheel cavity 49 and is rotatably arranged at the inner lower wall of the lower chain wheel cavity 49, the driven bevel gear shaft 45 is positioned at the inner and outer circumferences of the lower chain wheel cavity 49 and is fixedly provided with a lower driving chain wheel 50, the inner lower wall of the lower chain wheel cavity 49 is positioned at the left side of the lower driving chain wheel 50 and is rotatably provided with a left fan blade shaft 51, the cable speed is positioned at the inner and outer circumferences of the lower chain wheel cavity 49 and is fixedly provided with a lower driven chain wheel 52, and a lower chain 53 is wound between the lower driven chain wheel 52 and the lower driving.

Advantageously, a left fan blade cavity 54 communicated with the rear wall of the through cavity 12 is arranged in the left grinding cavity 31 in communication with the lower wall, and a left fan blade 55 is fixedly arranged at the upper end of the left fan blade shaft 51 and extends upwards into the left fan blade cavity 54.

Advantageously, a collecting cavity 56 is arranged at the lower side of the belt wheel cavity 13, a right collecting pipe 57 is arranged between the right wall in the collecting cavity 56 and the inner lower wall of the right fan blade cavity 47 in common communication through the inner wall of the device main body 11, and a left collecting pipe 58 is arranged between the left wall in the collecting cavity 56 and the inner rear wall of the left fan blade cavity 54 in common communication through the inner wall of the device main body 11.

Advantageously, the motor shaft 35 is fixedly provided with a rear driving pulley 59 at the inner and outer circumferences of the rear pulley cavity 37, the rear end of the left driving push wheel shaft 20 extends backwards into the rear pulley cavity 37 and is rotatably provided on the rear wall of the rear pulley cavity 37, the rear end of the driving push wheel shaft 20 is fixedly provided with a rear driven pulley 60 at the inner and outer circumferences of the rear pulley cavity 37, the rear end of the driving pulley shaft 14 extends backwards into the rear pulley cavity 37 and is rotatably provided on the rear wall of the rear pulley cavity 37, the inner and outer circumferences of the driving pulley shaft 14 are fixedly provided with a lower driven pulley 61, and a rear belt 62 is wound between the rear driving pulley 59 and the rear driven pulley 60 and between the rear driven pulley 61.

The use steps of the novel process equipment for simultaneous processing of multi-layer wood material according to the invention are described in detail below with reference to fig. 1 to 4:

in the initial state, the perforating needle 29 is in the upper limit position.

When the wood conveying device works, multiple layers of wood are put into the device main body 11 from the left wall of the through cavity 12, the motor 34 is started and drives the crank shaft 26 and the motor shaft 35, the motor shaft 35 drives the rear driven belt pulley 60 and the lower driven belt pulley 61 to rotate through the rear driving belt pulley 59 and the rear belt 62 and drives the left driving push wheel shaft 20 and the driving belt wheel shaft 14 to rotate, the driving belt wheel shaft 14 drives the driven belt wheel shaft 16 and the driven belt pulley 17 to rotate through the driving belt pulley 15 and the belt 18 and conveys the multiple layers of wood rightwards, the left driving push wheel shaft 20 drives the left driving push wheel 21 to rotate and conveys the wood rightwards, the wood drives the left driven drive wheel 24 and the driven drive cavity 22 to rotate and smoothly convey the wood rightwards through driving the right driven drive wheel 24 and the right driving push wheel 21 to rotate, and the crank shaft 26 drives the perforating needle 29 to intermittently move upwards and downwards through the crank 27 and the connecting, meanwhile, the motor shaft 35 drives the right fan blade shaft 39 and the driven sprocket shaft 40 to rotate through the driving sprocket 38 and the chain 41, the right fan blade shaft 39 drives the left and right bevel gears 44 to rotate and drives the grinding shaft 32 to rotate through the gear engagement of the driving bevel gear 43 and the left and right bevel gears 44 on the left and right sides, the grinding shaft 32 drives the grinding wheel 33 to rotate and grinds the left and right sides of the multi-layer wood until the multi-layer wood is flat, meanwhile, the driving bevel gear 43 drives the lower bevel gear 46 and the driven bevel gear shaft 45 to rotate through gear meshing, the driven bevel gear shaft 45 drives the lower driven sprocket 52 and the left fan blade shaft 51 to rotate through the lower driving sprocket 50 and the lower chain 53, the left fan blade shaft 51 drives the left fan blade 55 to rotate and sucks sawdust generated in the polishing cavity 31 into the left fan blade cavity 54 and then sends the sawdust into the collection cavity 56 through the left collecting pipe 58, and the right fan blade shaft 39 drives the right fan blade 48 to rotate and sucks sawdust generated in the through cavity 12 into the right fan blade cavity 47 and sends the sawdust into the collection cavity 56 through the right collecting pipe 57 to be collected.

The invention has the beneficial effects that: the invention can realize simultaneous punching of the multiple layers of wood by clamping and cutting the multiple layers of wood orderly, greatly improve the efficiency of the punching process of the wood, simultaneously realize the same distance between holes in a row of holes, and realize the variable distance between the holes in the row of holes by adjusting the rotating speed of the motor.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (9)

1. The utility model provides a can realize novel processing equipment of multilayer timber simultaneous processing, includes the equipment main part, its characterized in that: the end surfaces of the left side and the right side of the equipment main body are communicated with each other to form a through cavity, the lower wall in the through cavity is communicated with a belt wheel cavity, a driving belt wheel shaft is connected and rotated between the front wall and the rear wall in the belt wheel cavity, a driving belt wheel shaft is fixedly arranged on the outer circumference of the driving belt wheel shaft in the belt wheel cavity, a driven belt wheel shaft is connected and rotated between the front wall and the rear wall on the right side of the driving belt wheel in the belt wheel cavity, a driven belt wheel is fixedly arranged on the outer circumference of the driven belt wheel shaft in the belt wheel cavity, a belt is wound between the driving belt wheel and the driven belt wheel, the upper wall in the through cavity is communicated with a driving push cavity which is symmetrical left and right, a driving push wheel shaft is connected and rotated between the front wall and the rear wall in the driving push, a part of the lower side of the driving pushing wheel shaft is positioned in the through cavity, driven driving cavities communicated with the upper wall in the through cavity are symmetrically arranged at the left side and the right side of the driving pushing cavity far away from the left end face and the right end face of the equipment main body, a driven driving wheel shaft is connected and rotatably arranged between the front wall and the rear wall of the driven driving cavity, a driven driving wheel is fixedly arranged on the outer circumference of the driven driving wheel shaft in the driven driving cavity, a part of the lower side of the driven driving wheel is positioned in the through cavity, the upper wall in the through cavity is communicated with a punching through cavity, the upper wall of the punching through cavity is communicated with a punching cavity, the rear wall in the punching cavity is rotatably provided with a crank shaft, the crank shaft is fixedly arranged on the outer circumference of the punching cavity, the other end of the crank shaft is hinged with a connecting rod, the other end of the connecting rod is provided with a perforating needle in a connecting way, and the lower end of the perforating needle extends downwards into the through cavity.

2. A novel process installation for the simultaneous processing of logs according to claim 1, characterised in that: the back wall intercommunication of logical intracavity is equipped with bilateral symmetry's the chamber of polishing, the left and right sides polish and connect the rotation jointly between the chamber left and right sides and be equipped with the axle of polishing, the axle of polishing is located polish the intracavity outer circumference and fix and be equipped with the wheel of polishing, it has partly to be located to polish the wheel front side lead to the intracavity.

3. A novel process equipment for realizing the simultaneous processing of the multilayer timbers as claimed in claim 2, wherein: the punching cavity is located a motor is fixedly arranged on the inner wall of the equipment main body, the rear end of the crank shaft extends backwards into the equipment main body and is in power connection with the front end face of the motor, a motor shaft is arranged in the power connection of the rear end face of the motor, a sprocket cavity is arranged on the rear side of the motor, a rear belt wheel cavity is arranged on the rear side of the sprocket cavity, and the rear end of the motor shaft penetrates backwards through the sprocket cavity and extends to the rear belt wheel cavity and is rotatably arranged on the rear wall in the rear belt wheel cavity.

4. A novel process unit for simultaneous processing of logs according to claim 3, characterized in that: the motor shaft is located the fixed drive sprocket that is equipped with of outer circumference in the sprocket intracavity, sprocket intracavity back wall is located the drive sprocket downside rotates and is equipped with right fan blade axle, right side fan blade axle is located the fixed driven sprocket axle that is equipped with of sprocket intracavity outer circumference, drive sprocket with around being equipped with the chain between the driven sprocket axle, sprocket chamber front side is equipped with the bevel gear chamber, the left and right sides the relative one end of axle of polishing to bevel gear intracavity extends and fixed bevel gear about being equipped with, right side fan blade axle extends forward bevel gear intracavity and outer circumference are fixed be equipped with can with the left and right sides about the common gear engagement's of bevel gear drive bevel gear.

5. The novel process equipment capable of realizing the simultaneous processing of the multilayer timbers, as set forth in claim 4, is characterized in that: the rear wall of the through cavity is communicated with a right fan blade cavity, the front end of a right fan blade shaft extends forwards to the right fan blade cavity and is fixedly provided with a right fan blade, the lower wall of the bevel gear cavity rotates to be provided with a driven bevel gear shaft, and the driven bevel gear shaft is positioned in the bevel gear cavity and is fixedly provided with a lower bevel gear which can be meshed with the driving bevel gear.

6. The novel process equipment capable of realizing the simultaneous processing of the multilayer timbers, as set forth in claim 5, is characterized in that: bevel gear chamber downside is equipped with down the chain wheel chamber, driven bevel gear axle lower extreme downwardly extending locates in the lower sprocket intracavity and rotation the lower sprocket intracavity lower wall, driven bevel gear axle is located the fixed drive sprocket that is equipped with of lower sprocket intracavity outside circumference, lower sprocket intracavity lower wall is located down the rotation of drive sprocket left side is equipped with left fan blade axle, and the cable speed is located the outer fixed driven sprocket that is equipped with down of circumference of lower sprocket intracavity, down driven sprocket with around being equipped with down the chain between the lower drive sprocket.

7. The novel process equipment capable of realizing the simultaneous processing of the multilayer timbers, as set forth in claim 6, is characterized in that: the left side polish intracavity lower wall intercommunication be equipped with lead to the left flabellum chamber of intracavity back wall UNICOM, left side flabellum axle upper end upwards extends to left flabellum intracavity and fixed left flabellum that is equipped with.

8. The new process equipment for realizing the simultaneous processing of the multilayer timbers, as set forth in claim 7, is characterized in that: the band pulley chamber downside is equipped with collects the chamber, collect intracavity right side wall with pass between the right side flabellum intracavity lower wall the equipment main part inner wall communicates jointly and is equipped with right collecting pipe, collect intracavity left side wall with pass between the left flabellum intracavity back wall the equipment main part inner wall communicates jointly and is equipped with left collecting pipe.

9. A novel process installation for the simultaneous processing of logs as claimed in claim 8, characterized in that: the motor shaft is located the outer circumference of back pulley intracavity is fixed and is equipped with back driving pulley, and the left side the back end of initiative push wheel axle backward extend to back pulley intracavity and rotate and locate back pulley intracavity back wall, the initiative push wheel axle is located back pulley intracavity outer circumference is fixed and is equipped with back driven pulley, the back end of driving pulley axle backward extend to back pulley intracavity and rotate and locate back pulley intracavity back wall, the driving pulley axle is located back pulley intracavity outer circumference is fixed and is equipped with down driven pulley, back driving pulley with back driven pulley and down the back belt pulley between together around being equipped with the back belt.

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