CN104589389A - Cutting mechanism for corrugated pipe cutting machines - Google Patents

Abstract

The invention relates to pipe cutting equipment, in particular to a cutting mechanism for corrugated pipe cutting machines, which comprises a base, a rotatable spindle and an annular rotary cutting disk, wherein the spindle is arranged on the base, the rotary cutting disk sleeves the spindle and can rotate along with the spindle, at least one cutter base, the bit of which faces the center of the end surface of the rotary cutting disk, is arranged on the end surface of the rotary cutting disk, and the cutting mechanism also comprises a driving mechanism which can drive the cutter base to slide to and fro toward the middle of the rotary cutting disk. In the process of cutting a pipe, the cutter base rotates along with the rotary cutting disk to cut the corrugated pipe, the cut is smooth and does not have residues, the cutter base can radially slide on the rotary cutting disk in order to adjust cutting depth according to the outer diameter of the pipe, and thereby the universality of the cutting mechanism is increased.

Description

The cutting mechanism of corrugated pipe cut-off machine

Technical field

The present invention relates to a kind of pipe fitting cutting equipment, particularly relate to a kind of cutting mechanism of corrugated pipe cut-off machine.

Background technology

The tubing of bellows to be a kind of profile be regular wave, common plastic film capicitor is generally applied to the fields such as automotive wire bundle, electronics, mechanical wire harness, is a kind of purposes wire harness sheath product widely.In bellows process, it is needed to cut into certain length as required, traditional bellows cutting mode is that pipe fitting is delivered to cutting tool place and cuts off by staff, this type of bellows cutting tool uses the cutting blade of advancing to cut off pipe fitting usually from top to bottom, the pipe fitting otch obtained is coarse, and easily cause pipe fitting otch to be out of shape, not only affect the attractive in appearance of bellows but also in use easily cause the scraping to cable.

Because above-mentioned defect, the design people, actively in addition research and innovation, to founding a kind of cutting mechanism of corrugated pipe cut-off machine, make it have more value in industry.

Summary of the invention

For solving the problems of the technologies described above, the object of this invention is to provide a kind of cutting mechanism of corrugated pipe cut-off machine, the cutter head of this cutting mechanism cuts off bellows by the mode of the surperficial rotation-sliding around bellows, the smooth noresidue of otch, and depth of cut can be adjusted according to the external diameter of pipe fitting, expand the versatility of cutting mechanism.

The cutting mechanism of a kind of corrugated pipe cut-off machine that the present invention proposes, comprise pedestal, the rotatable main shaft be arranged on described pedestal, to be sheathed on described main shaft and with the rotary head of its ring-type rotated, the end face of described rotary head is provided with the cutting tool rest of at least one cutter head in the middle part of end face, and described cutting mechanism also comprises the driving mechanism driving the past polyslip in the middle part of described rotary head of described cutting tool rest.

Adopt technique scheme, cutting tool rest carries out circumgyration incision to pipe fitting, the smooth noresidue of the otch obtained, drive cutting tool rest towards slippage in the middle part of rotary head by driving mechanism, can according to the external diameter adjustment depth of cut of pipe fitting, the processing of bellows or other tubing, wire rod can be realized, expand cut coverage.

Further, described driving mechanism comprises the revolving push plank of the ring-type be set on described main shaft, the paw be arranged on described revolving push plank, and described paw opens towards described revolving push plank, and described paw and described cutting tool rest are that guide rail guide groove coordinates.

Further, described driving mechanism also comprises the fixing push pedal be set on described main shaft, the guide rail be connected with described fixing push pedal, the power transmission shaft coordinated with described track gear tooth bar, drives the first motor of described drive axis and the holder of mounting guide rail, described revolving push plank is fixed in fixing push pedal by bearing, described guide rail coordinates with described holder guide rail guide groove, and described fixed seating to be located on described main shaft and to be connected by bearing with described main shaft.

Adopt technique scheme, drive axis is driven by the first motor, by the cooperation of rack-and-pinion, rotary motion is converted to the rectilinear motion of guide rail by power transmission shaft, then fixing push pedal and revolving push plank is promoted to promote guide rail, in the process that revolving push plank advances to rotary head, due to the Distance Shortened between revolving push plank and rotary head, therefore the inside slippage of guide rail of paw on the cutting tool rest laminating revolving push plank on rotary head is arranged on, to realize the cutting to bellows, this simplicity of design is reasonable, and can push away closely according to the external diameter size adjustment of pipe fitting, to regulate depth of cut, cooperation between track gear tooth bar the convert rotational motion of motor is in line motion mode to advance cutting mechanism, this kind of drive is more steady, and transmission accuracy is high, long service life, maintain easily.

Further, described first motor is by controller control action, described controller reading numerical values can be encoded and store the information that described numeric coding comprises, described numeric coding incorporates model and the machined parameters information of processed pipe fitting, described controller, according to the information of the numeric coding of reading, controls the rotation number of turns of the first motor to control the stroke of described power transmission shaft.

Adopt technique scheme, when processing new bellows, controller reads the parameter information of bellows, according to the external diameter of bellows, controller controls the rotation of power transmission shaft by the rotation number of turns controlling the first motor, regulates the distance of cutting tool rest radial slippage, without the need to manual adjustments, save the debug time changing bellows, improve working (machining) efficiency.

Further, described main shaft is arranged with belt wheel, and described belt wheel is driven by the second motor, and the rotation of described belt wheel drives the rotation of described main shaft, the output shaft of described second motor is connected by belt with described belt wheel, and described second motor is by described controller control action.

Further, described guide rail comprises the upper rail and lower guideway that are oppositely arranged on holder both sides, described power transmission shaft comprise coordinate with upper rail and lower guideway rack-and-pinion respectively upload moving axis and lower drive shaft, described moving axis of uploading is connected with the second driven pulley with the first driven pulley respectively with lower drive shaft, described first driven pulley is connected with a driving wheel by Timing Belt with the second driven pulley, and described driving wheel drives it rotate and drive the first driven pulley and the second driven pulley to reversely rotate by Timing Belt simultaneously by the first motor.

Adopt technique scheme, by arranging upper rail and lower guideway promotes fixing push pedal and revolving push plank simultaneously, make progradation more steady, drive driving wheel to rotate by the first motor and driven the reverse rotation of the first driven pulley and the second driven pulley by Timing Belt, this type of drive only needs installation motor, easy to operate, and toothed belt transmission precision is high, noise is low, use without the need to special maintenance, the synchronism that two driven pulleys rotate simultaneously is higher, and transmission process is stablized.

Further, described driving mechanism also comprises several drives, and several drives described are connected by described Timing Belt with driving wheel, the first driven pulley and the second driven pulley.

Further, the outer circumference surface of described driving wheel, the first driven pulley, the second driven pulley and several drives is equipped with gear, described Timing Belt is double cog structure, is meshed with the gear of described driving wheel, the first driven pulley, the second driven pulley and several drive outer circumference surfaces.

Adopt technique scheme, at driving wheel, between the first driven pulley and the second driven pulley, several drives are added, so that Timing Belt realizes the reverse rotation of the first driven pulley and the second driven pulley by rational canoe, keep the tensioning degree of Timing Belt in transmission process constant simultaneously, to ensure transmission accuracy, Timing Belt is double cog structure, be meshed with the gear of driving wheel, the first driven pulley, the second driven pulley and several drive outer circumference surfaces, effectively prevent skidding, make transmission process more stable.

Further, described cutting tool rest comprise with described rotary head be guide rail guide groove coordinate the first slide block, be fixed on described first slide block and with described paw be guide rail guide groove coordinate the second slide block, be arranged on the knife rest on described first slide block and be arranged on described knife rest cutter assembly, described blade assembly comprises cutting blade and is separately positioned on the spacer of described cutting blade both sides, and described knife rest and described first slide block removably connect.

Adopt technique scheme, cutting tool rest realizes the slippage on rotary head by the design of guide rail guide groove, its depth of cut of cutting tool rest flexible modulation is convenient in such design, blade assembly comprises cutting blade and is arranged on cutting blade both sides spacer, in the process of circumgyration incision, spacer is fastened in the trough of bellows, contributes to cutting blade more steady when cutting; In addition, in actual production process, need within one day to cut polytype pipe fitting, the pipe fitting of different model, according to its wave peak width, wave height and pitch, needs the distance between the point of a knife of distance between adjustment two spacers and cutting blade and spacer profile, by knife rest modularized design, when cutting dissimilar pipe fitting, being convenient to dismantle and assemble different knife rests with the pipe fitting coordinating cutting different, expanding the versatility of this cutting mechanism.

Further, described cutting blade is connected with described knife rest main body by screw rod, described screw rod is provided with the first nut be threaded with it, described cutting blade is fixedly connected with described first nut, described spacer is connected with described knife rest main body by reverse-flighted screw, the thread segment that the described reverse-flighted screw hand of spiral is contrary is respectively equipped with the second nut and the 3rd nut, described two spacers are located on described second nut and the 3rd nut respectively by bearing holder (housing, cover).

Adopt technique scheme, during cutting, need according to the wave height of bellows and cut off at crest location or wave trough position the distance adjusted between cutting blade to spacer excircle configuration, now, can be moved up and down to drive the first nut by rotary screw, and drive cutting blade to move up and down, regulate the distance between the point of a knife of cutting blade to spacer profile, to adapt to cut dissimilar bellows; Need the wave peak width according to bellows, need the distance between adjustment two spacers, now, can move in opposite directions to drive the second nut and the 3rd nut by rotating reverse-flighted screw, and drive two spacers to move in opposite directions, regulate the distance between two spacers, to adapt to the bellows cutting different wave peak width, this simplicity of design is reasonable, expands the versatility of the cutting knife of this corrugated pipe cut-off machine; Two spacers are connected to the outer surface of the second nut and the 3rd nut by bearing, can rotate freely, and in cutting process, spacer, along bellows trough surface scrolls, reduces friction, prevent spacer from damaging the trough position of bellows.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of description, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present invention.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation at another visual angle of the present invention;

Fig. 3 is partial structurtes schematic diagram of the present invention;

Fig. 4 is partial structurtes schematic diagram of the present invention;

Fig. 5 is the structural representation of knife rest of the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.Following examples for illustration of the present invention, but are not used for limiting the scope of the invention.

See Fig. 1 to 5, the cutting mechanism of a kind of corrugated pipe cut-off machine described in a preferred embodiment of the present invention, comprise pedestal 1, be arranged on the bearing 2 in order to load bearing component on pedestal 1, bearing 2 is comprised the top being one in front and one in back vertically arranged on the first fixed head 21 on pedestal 1 and the second fixed head 22, second fixed head 22 and is connected with the first fixed head 21 by horizontally disposed 3rd fixed head 23.Cutting mechanism also comprises the main shaft 4 being driven rotation by the second motor 3, and this main shaft 4 is connected with the holder 5 being set in its outer surface by bearing, and the front/rear end of holder 5 is separately fixed on the first fixed head 21 and the second fixed head 22.Main shaft 4 is also arranged with the belt wheel 6 be connected by belt with the output shaft of the second motor 3, to be rotated by the second motor 3 drive shaft 4.Main shaft 4 is also arranged with the rotary head 7 of ring-type, rotary head 7 drives it to rotate by main shaft 4, and the end face of rotary head 7 is provided with three cutting tool rests 8 toward polyslip in the middle part of rotary head 7.Cutting tool rest 8 comprises and to coordinate to realize its first slide block 81 toward polyslip, the second slide block 82 be fixed on the first slide block 81, the blade assembly that is arranged on the knife rest 83 on the first slide block 81 and is arranged on knife rest 83 with rotary head 7 in guide rail guide groove.Blade assembly comprises cutting blade 831 and is separately positioned on the circular spacer 832 of cutting blade 831 both sides, cutting blade 831 is connected with knife rest 83 by screw rod 834, screw rod 834 is provided with the first nut (not shown) be threaded with it, cutting blade 831 and the first nut are fixed, two spacers 832 are connected with knife rest 83 by reverse-flighted screw 833, the thread segment that reverse-flighted screw 833 hand of spiral is contrary is respectively equipped with the second nut (not shown) and the 3rd nut (not shown), two spacers 832 are located on the second nut and the 3rd nut respectively by bearing holder (housing, cover).

Cutting tool rest 8 realizes its slippage on rotary head 7 by the design of guide rail guide groove, and its depth of cut of cutting tool rest 8 flexible modulation is convenient in such design.During cutting bellows, cutting blade 831 realizes cutting off in the outer surface slippage of bellows for one week, spacer 832 is stuck in wave trough position, cutting blade 831 is fixed on crest or wave trough position, and spacer 832 is connected to the outer surface of the second nut and the 3rd nut by bearing, can rotate freely, cutting blade 831 is in the process of circumgyration incision, spacer 832, along the trough surface scrolls of bellows, reduces friction, prevents spacer 832 from damaging the wave trough position of bellows.According to the wave height of bellows and in crest location or wave trough position cut-out, need to adjust the distance between cutting blade 831 to spacer 832 excircle configuration, now, can be moved up and down to drive the first nut by rotary screw 834, and drive cutting blade 831 to move up and down, regulate the distance between the point of a knife of cutting blade 831 to spacer 832 profile, to adapt to cut dissimilar bellows; According to the wave peak width of bellows, need the distance between adjustment two spacers 832, now, can move in opposite directions to drive the second nut and the 3rd nut by rotating reverse-flighted screw 833, and drive two spacers 832 to move in opposite directions, regulate the distance between two spacers 832, to adapt to the bellows cutting different wave peak width, this simplicity of design is reasonable, expands the versatility of the cutting knife of this corrugated pipe cut-off machine.Knife rest 83 adopts modularized design, removably connects with the first slide block 81, is convenient to dismantle and assemble different knife rests 83 with the pipe fitting coordinating cutting different, expands the versatility of this cutting mechanism.It should be noted that, if design condition allows, it is also feasible for rotary head 7 being arranged four, five the cutting tool rests 8 even more crossed, with reference to after embodiments of the invention, such interpolation is easy to expect, rotary head 7 can be circle, rectangle or triangle, is all feasible.

Cutting mechanism also comprises the driving mechanism driving the past polyslip in the middle part of rotary head 7 of cutting tool rest 8, driving mechanism comprises the revolving push plank 9 of the ring-type be set on the main shaft 4 of cutting mechanism, the fixing push pedal 10 be connected with revolving push plank 9, the guide rail be connected with fixing push pedal 10, the power transmission shaft then driving fixing push pedal 10 and revolving push plank 9 movement to drive guide rail to move is coordinated with track gear tooth bar, power transmission shaft drives it to rotate by the first motor 11, revolving push plank 9 is provided with the telescopic shaft 12 and three paws 13 coordinated in guide rail guide groove with the second slide block 82 on cutting tool rest 8 that are connected with rotary head 7 main body.In the present embodiment, comprise upper rail 14 and lower guideway 15, on the upper and lower end face being separately positioned on holder 5 and be that guide rail guide groove coordinates with it, be that the moving axis 16 of uploading that coordinates of rack-and-pinion is connected with the second fixed head 22 with the first fixed head 21 by bearing with the two ends of lower drive shaft 17 with two guide rails, upper rail 14 and lower guideway 15 are fixed with the outer face of fixing push pedal 10, the inner face of fixing push pedal 10 axially extends generation extended loop 18, and revolving push plank 9 to be set on extended loop 18 and to be connected by bearing with it.Upload moving axis 16 and lower drive shaft 17 respectively with the first driven pulley 19, second driven pulley 20 is connected, first driven pulley 19, second driven pulley 20 is positioned at the rear end face of the second fixed head 22, the rear end face of the second fixed head 22 is also provided with the driving wheel 24 being positioned at and being connected with the first motor 11 above the first driven pulley 19, the 3rd driven pulley 25 be arranged side by side between driving wheel 24 and the first driven pulley 19 and the 4th driven pulley 26, be positioned at the 5th driven pulley 27 below the first driven pulley 19, above-mentioned several drives be arranged on the second fixed head 22 rear end face are interconnected to drive driving wheel 24 to rotate by the first motor 11 by Timing Belt and then drive the first driven pulley 19 and the second driven pulley 20 to reversely rotate.

When cutting, second motor 3 drives the main shaft 4 of cutting mechanism to rotate, rotary head 7 and revolving push plank 9 follow rotation, first motor 11 is driven by each drive and uploads moving axis 16 and to turn clockwise and lower drive shaft 17 is rotated counterclockwise, promotion upper rail 14 and lower guideway 15 slide towards rotary head 7 direction, the revolving push plank 9 simultaneously fixed in push pedal 10 and rotation moves in the same way, in the process that revolving push plank 9 advances to rotary head 7, both hypotelorisms, now, with the second slide block 82 coordinated in guide rail guide groove inside paw 13 when paw 13 pushes to it, promote cutting tool rest 8 towards radial slippage in the middle part of rotary head 7, to realize the cutting to bellows.

First motor 11 and the second motor 3 are by controller control action, the model of the bellows of each type and machining information are compiled into the numeric coding of a group 14 by staff, this numeric coding can manually input control device or the form being made into bar code by scanner scanning t test controller, by obtaining the model of bellows and machining information after converting and being stored in controller, controller controls the stroke of power transmission shaft and main shaft 4 by the rotation number of turns that these information control the first motor 11 and the second motor 3, such as, when cutting the bellows of various outer diameter, controller is by the rotation number of turns of control first motor 11, control the advance distance of guide rail and the depth of cut of cutting tool rest 8, without the need to manual adjustments, save debug time, improve operating efficiency, as small adjustment need be done, can adjust at the fine setting interface of controller, parameter after adjustment also can be preserved, and form new processing encode with the parameter integration read, can directly call during processing this kind of bellows next time, adjust without the need to secondary.In addition, containing 2 bit flag check bit in this 14 bit value coding, when manually inputting, if any input error, controller can jump out code error alert interface, reminds operating personnel to input wrong, reduces because operating personnel manually input the loss of slipping up and causing.

First fixed head 21 is also provided with the photoelectric testing sensor 28 of the electric initial point recovering driving mechanism, photoelectric testing sensor 28 comprises photoelectricity groove 281 and light barrier 282, light barrier 282 is connected with one end of power transmission shaft, in the present embodiment, light barrier 282 with upload moving axis 16 and be connected.Light path is had to pass through in photoelectricity groove 281, light barrier 282 is followed the turned position of uploading moving axis 16 and can be slided in this photoelectricity groove 281, the advanced positions judging driving mechanism whether is connected by light path in feedback photoelectricity groove 281, after cutting mechanism power-off, when again accessing power supply, the position of power transmission shaft detected by photoelectric testing sensor 28, after signal feedback, drive the first motor 11 to rotate to recover cutting tool rest 8 to initial, set position.

Cutting mechanism adopts the mode of multitool feeding to carry out circumgyration incision to raw material, the processing of bellows or other tubing, wire rod can be realized, cutting flat smooth, noresidue, and can according to the external diameter adjustment depth of cut of bellows, control accuracy is high, depth of cut is fast easy to adjust, depth parameter can memory storage in controller, conveniently call, make the cutting mechanism versatility of this corrugated pipe cut-off machine stronger.Adopt upper rail 14 and lower guideway 15 to promote fixing push pedal 10 and revolving push plank 9 simultaneously, make progradation more steady, drive driving wheel 24 to rotate by the first motor 11 and driven the reverse rotation of the first driven pulley 19 and the second driven pulley 20 by Timing Belt, this type of drive only needs installation motor, easy to operate, and toothed belt transmission precision is high, noise is low, use without the need to special maintenance, the synchronism that two driven pulleys rotate simultaneously is higher, and transmission process is stablized.In addition, at driving wheel 24, several drives have been added between first driven pulley 19 and the second driven pulley 20, so that Timing Belt realizes the reverse rotation of the first driven pulley 19 and the second driven pulley 20 by rational canoe, keep the tensioning degree of Timing Belt in transmission process constant simultaneously, to ensure transmission accuracy, Timing Belt is the double cog structure of steel, with driving wheel 24, first driven pulley 19, the gear of the second driven pulley 20 and several drive outer circumference surfaces is meshed, effectively prevent skidding, make transmission process more stable, and noise is low, use without the need to special maintenance.The rectilinear motion mode that rotary motion is converted to guide rail by power transmission shaft advances cutting tool rest 8, and this kind of drive is more steady, and transmission accuracy is high, long service life, maintains easily.

The above is only the preferred embodiment of the present invention; be not limited to the present invention; should be understood that; for those skilled in the art; under the prerequisite not departing from the technology of the present invention principle; can also make some improvement and modification, these improve and modification also should be considered as protection scope of the present invention.

Claims (10)

1. the cutting mechanism of a corrugated pipe cut-off machine, it is characterized in that: comprise pedestal, the rotatable main shaft be arranged on described pedestal, to be sheathed on described main shaft and with the rotary head of its ring-type rotated, the end face of described rotary head is provided with the cutting tool rest of at least one cutter head in the middle part of end face, and described cutting mechanism also comprises the driving mechanism driving the past polyslip in the middle part of described rotary head of described cutting tool rest.

2. the cutting mechanism of corrugated pipe cut-off machine according to claim 1, it is characterized in that: described driving mechanism comprises the revolving push plank of the ring-type be set on described main shaft, the paw be arranged on described revolving push plank, described paw opens towards described revolving push plank, and described paw and described cutting tool rest are that guide rail guide groove coordinates.

3. the cutting mechanism of corrugated pipe cut-off machine according to claim 2, it is characterized in that: described driving mechanism also comprises the fixing push pedal be set on described main shaft, the guide rail be connected with described fixing push pedal, the power transmission shaft coordinated with described track gear tooth bar, drives the first motor of described drive axis and the holder of mounting guide rail, described revolving push plank is fixed in fixing push pedal by bearing, described guide rail coordinates with described holder guide rail guide groove, and described fixed seating to be located on described main shaft and to be connected by bearing with described main shaft.

4. the cutting mechanism of corrugated pipe cut-off machine according to claim 2, it is characterized in that: described first motor is by controller control action, described controller reading numerical values can be encoded and store the information that described numeric coding comprises, described numeric coding incorporates model and the machined parameters information of processed pipe fitting, described controller, according to the information of the numeric coding of reading, controls the rotation number of turns of the first motor to control the stroke of described power transmission shaft.

5. the cutting mechanism of corrugated pipe cut-off machine according to claim 4, it is characterized in that: described main shaft is arranged with belt wheel, described belt wheel is driven by the second motor, the rotation of described belt wheel drives the rotation of described main shaft, the output shaft of described second motor is connected by belt with described belt wheel, and described second motor is by described controller control action.

6. the cutting mechanism of corrugated pipe cut-off machine according to claim 3, it is characterized in that: described guide rail comprises the upper rail and lower guideway that are oppositely arranged on holder both sides, described power transmission shaft comprise coordinate with upper rail and lower guideway rack-and-pinion respectively upload moving axis and lower drive shaft, described moving axis of uploading is connected with the second driven pulley with the first driven pulley respectively with lower drive shaft, described first driven pulley is connected with a driving wheel by Timing Belt with the second driven pulley, described driving wheel drives it rotate and drive the first driven pulley and the second driven pulley to reversely rotate by Timing Belt simultaneously by the first motor.

7. the cutting mechanism of corrugated pipe cut-off machine according to claim 6, is characterized in that: described driving mechanism also comprises several drives, and several drives described are connected by described Timing Belt with driving wheel, the first driven pulley and the second driven pulley.

8. the cutting mechanism of corrugated pipe cut-off machine according to claim 7, it is characterized in that: the outer circumference surface of described driving wheel, the first driven pulley, the second driven pulley and several drives is equipped with gear, described Timing Belt is double cog structure, is meshed with the gear of described driving wheel, the first driven pulley, the second driven pulley and several drive outer circumference surfaces.

9. the cutting mechanism of corrugated pipe cut-off machine according to claim 2, it is characterized in that: described cutting tool rest comprise with described rotary head be guide rail guide groove coordinate the first slide block, be fixed on described first slide block and with described paw be guide rail guide groove coordinate the second slide block, be arranged on the knife rest on described first slide block and be arranged on described knife rest cutter assembly, described blade assembly comprises cutting blade and is separately positioned on the spacer of described cutting blade both sides, and described knife rest and described first slide block removably connect.

10. the cutting mechanism of corrugated pipe cut-off machine according to claim 9, it is characterized in that: described cutting blade is connected with described knife rest main body by screw rod, described screw rod is provided with the first nut be threaded with it, described cutting blade is fixedly connected with described first nut, described spacer is connected with described knife rest main body by reverse-flighted screw, the thread segment that the described reverse-flighted screw hand of spiral is contrary is respectively equipped with the second nut and the 3rd nut, described two spacers are located on described second nut and the 3rd nut respectively by bearing holder (housing, cover).