CN206010045U - The power drive mechanism of bellows groover - Google Patents

Abstract

The utility model provides the power drive mechanism of bellows groover, belongs to bellows processing technique field.It solves the problems, such as that the power drive mechanism transmission stability of existing bellows groover is poor.The power drive mechanism of this bellows groover includes：Casing, it include two fixed plates；Main shaft, which is arranged in two fixed plates and the two ends of main shaft are connected with two fixed plates respectively；Cutter shaft, its are arranged on main shaft and are connected with main shaft；Cutter, its are used for the fluting of bellows and are arranged at cutter shaft component；The main shaft with movable arbor rotating in same direction and can circumferentially rotate cutter.The power drive mechanism of this bellows groover has the advantages that rationally distributed, stable drive.

Description

The power drive mechanism of bellows groover

Technical field

The utility model belongs to bellows processing technique field, is related to a kind of power drive mechanism, particularly bellows and opens The power drive mechanism of scouring machine.

Background technology

Bellows performance is good and with strong applicability, and which is widely used in more industry, for example, on bellows After perforate, bellows is embedded in below ground, the hole that can pass through in water penetration to soil on bellows is flowed in bellows, from And accelerate the speed that ponding is drained, effectively alleviate the problem of surface gathered water, and this bellows need to carry out which plus Could use after work fluting.

As mechanical automation development process is very fast, the fluting of bellows is completed also by fluting apparatus, during processing, ripple Line tube edge rotates side and moves to fluting apparatus, while near cutter, being rotated by the cutter on fluting apparatus is carried out to bellows Fluting, when bellows removes fluting apparatus, fluting terminates, and traditional fluting apparatus has following technology in processing and asks Topic：In the fluting apparatus, generally bellows is slotted with bellows rotating in same direction by multiple cutters, but exist in cutter Active force can be produced to bellows in grooving process so that the position of bellows shifts, and causes the stable drive of bellows Property is poor.

There is the technical problem of transmission stability difference for solving groover in prior art in bellows grooving process, need Design a kind of for groover and rationally distributed, uniform force bellows power drive mechanism.

Utility model content

The purpose of this utility model is there are the problems referred to above for existing technology, it is proposed that a kind of rationally distributed, transmission The power drive mechanism of the high bellows groover of stationarity.

The purpose of this utility model can be realized by following technical proposal：The power drive mechanism of bellows groover, Including：

Casing, it include two fixed plates；

Main shaft, which is arranged in two fixed plates and the two ends of main shaft are connected with two fixed plates respectively；

Cutter shaft, its are arranged on main shaft and are connected with main shaft；

Cutter, its are used for the fluting of bellows and are arranged at cutter shaft component；

The main shaft with movable arbor rotating in same direction and can circumferentially rotate cutter.

In the power drive mechanism of above-mentioned bellows groover, main shaft is set to many and by synchronous chain successively phase Even, around respectively, between two fixed plates, the cutter shaft is set to many and is corresponded with main shaft many main shaft uniform rings, Drive chain is provided between main shaft and cutter shaft.

In the power drive mechanism of above-mentioned bellows groover, spindle bearing holder is provided with main shaft and in main shaft Be provided with main shaft linking arm on bearing block, on main shaft linking arm, offer draw-in groove, be provided with cutter shaft cutter shaft bearing block and Cutter shaft linking arm being provided with cutter shaft bearing block, cutter shaft linking arm being provided with fixture block, the fixture block can be arranged in draw-in groove.

In the power drive mechanism of above-mentioned bellows groover, on cutter shaft, tool rest is provided with, the cutter is arranged On tool rest, the two ends for being provided with Synchronization Component and the Synchronization Component on tool rest are connected with tool rest and cutter shaft respectively, described Cutter shaft can be circumferentially rotated by tool rest band cutter and the Synchronization Component can make cutter and bellows synchronous shift.

In the power drive mechanism of above-mentioned bellows groover, the Synchronization Component includes elastic component and guide, The elastic component is sheathed on main shaft and the two ends of elastic component are connected with tool rest and main shaft respectively, and the guide is arranged at tool rest Excircle on, when the transporting velocity of bellows is fluctuated within the specific limits, the guide can make tool rest with bellows In the axial direction synchronizing moving and make tool rest drive elastic component compression or reset.

In the power drive mechanism of above-mentioned bellows groover, the guide includes that two are arranged at leading on tool rest To portion, mounting groove being offered on tool rest and the mounting groove being located between two guide parts, the cutter is arranged in mounting groove, It is provided with the excircle of tool rest, the guiding arc is contacted with bellows with guide part.

In the power drive mechanism of above-mentioned bellows groover, the shape of the cross section of the cutter shaft is in polygon, Fixing groove corresponding with cutter shaft is offered on tool rest, and the cutter shaft is arranged in fixing groove.

In the power drive mechanism of above-mentioned bellows groover, the main shaft includes the first main shaft and the second main shaft, Many first main shafts are sequentially connected by the first synchronous chain, and second main shaft is sequentially connected by the second synchronization chain, many One main shaft energy synchronous axial system is simultaneously contrary with the rotation direction of the second main shaft of many synchronous axial systems.

In the power drive mechanism of above-mentioned bellows groover, first main shaft and the second main shaft are spaced simultaneously successively Uniform ring is around being distributed in two fixed plates, equal with the distance between the second main shaft in the first main shaft of arbitrary neighborhood.

In the power drive mechanism of above-mentioned bellows groover, in two fixed plates, some deep-slotted chip breakers are offered, Tensioning wheel is provided with each deep-slotted chip breaker, the tensioning wheel is located at the first synchronous chain and the second synchronous chain side and described respectively Chain synchronous with first and the second synchronous chain are connected tensioning wheel respectively.

Compared with prior art, the utility model includes casing, is provided with main shaft and cutter shaft, sets on cutter shaft on casing The cutter for bellows fluting is equipped with, during utility model works, main shaft can be by cutter shaft band cutter circumference Rotate, it is ensured that the stationarity that main shaft and cutter shaft are driven between the two, improve operating efficiency of the present utility model.

Description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is sectional view of the present utility model.

Fig. 3 is the structural representation that the utility model omits a fixed plate.

Fig. 4 is the structural representation of the first main shaft in one preferred embodiment of the utility model.

Fig. 5 is the structural representation of cutter shaft in one preferred embodiment of the utility model.

Fig. 6 is the structural representation of tool rest in one preferred embodiment of the utility model.

Fig. 7 is the sectional view of tool rest in one preferred embodiment of the utility model.

Fig. 8 is the part-structure sectional view of tool rest in one preferred embodiment of the utility model.

Fig. 9 is the structural representation of the first cutter shaft cutter in one preferred embodiment of the utility model.

In figure, 100, fixed plate；200th, the first main shaft；201st, the first synchronous chain；202nd, the first spindle bearing holder；203rd, One main shaft linking arm；204th, the first draw-in groove；210th, the first cutter shaft；211st, the first cutter shaft bearing block；212nd, the first cutter shaft linking arm； 213rd, the first fixture block；220th, the first drive chain；300th, the second main shaft；301st, the second synchronous chain；302nd, the second spindle bearing holder； 303rd, the second main shaft linking arm；304th, the second draw-in groove；310th, the second cutter shaft；311st, the second cutter shaft bearing block；312nd, the second cutter shaft Linking arm；313rd, the second fixture block；320th, the second drive chain；400th, sprocket wheel；401st, bearing block；410th, shaft core；420th, tool rest；421、 Guide part；422nd, mounting groove；423rd, fixing hole；424th, fixing screws；425th, arc is oriented to；426th, spacing hole；427th, stop screw； 500th, cutter；510th, cutter hub；520th, blade；530th, chip area；600th, elastic component；700th, cover plate；800th, tensioning wheel.

Specific embodiment

The following is specific embodiment of the utility model and combine accompanying drawing, the technical solution of the utility model is made further Description, but the utility model is not limited to these embodiments.

As shown in Figures 1 to 9, the power drive mechanism of this bellows groover, including：

Casing, it include two fixed plates 100；

Main shaft, which is arranged in two fixed plates 100 and the two ends of main shaft are connected with two fixed plates 100 respectively；

Cutter shaft, its are arranged on main shaft and are connected with main shaft；

Cutter 500, its are used for the fluting of bellows and are arranged at cutter shaft component；

The spindle assemblies can drive cutter shaft component rotating in same direction and circumferentially rotate cutter 500, make cutter shaft by main shaft Band cutter 500 is circumferentially rotated, it is ensured that the stationarity that main shaft and cutter shaft are driven between the two, improves work of the present utility model Make efficiency.

Above-mentioned main shaft is set to many and is sequentially connected by synchronous chain, and many main shaft uniform rings are solid around being arranged at two Between fixed board 100, the cutter shaft is set to many and is corresponded with main shaft, is provided with drive chain between main shaft and cutter shaft.

Power source is provided with casing, and a main shaft in above-mentioned many main shafts is connected with power source, while in main shaft On be provided with synchronous chain, be provided with drive chain between main shaft and cutter shaft so that power source can drive main shaft synchronous axial system and lead to Chain belt of overdriving movable arbor synchronous axial system, it is ensured that the synchronism rotated between each cutter shaft, it is to avoid rotating speed occur between each cutter shaft Differ from and the quality of the impact fluting of cutter 500.

Spindle bearing holder 401 is provided with main shaft and is provided with main shaft linking arm on spindle bearing holder 401, in main shaft Draw-in groove is offered on linking arm, is provided with cutter shaft bearing block 401 and is provided with cutter shaft company on cutter shaft bearing block 401 on cutter shaft Arm is connect, cutter shaft linking arm is provided with fixture block, the fixture block can be arranged in draw-in groove, it is ensured that cutter shaft and main shaft connect Steadiness, it is ensured that normal work of the present utility model.

Tool rest 420 is provided with cutter shaft, the cutter 500 is arranged on tool rest 420, be provided with same on tool rest 420 The two ends of step component and the Synchronization Component are connected with tool rest 420 and cutter shaft respectively, and the cutter shaft can pass through tool rest 420 with moving knife Tool 500 is circumferentially rotated and the Synchronization Component can make cutter 500 and bellows synchronous shift.

Above-mentioned Synchronization Component includes elastic component 600, and elastic component 600 is sheathed on cutter shaft and the two ends of elastic component 600 are distinguished It is connected with tool rest 420 and cutter shaft, above-mentioned cutter shaft can drive tool rest 420 to circumferentially rotate and tool rest 420 can be made axially to move on cutter shaft Dynamic, when the transporting velocity of bellows is changed within the specific limits, tool rest 420 can band cutter 500 along cutter shaft in axle To direction top offset and compress elastic component 600, it is ensured that cutter 500 can be with bellows synchronizing moving so that cutter 500 is being opened Every time just to trough during groove, it is ensured that the fluting quality of bellows.

Above-mentioned elastic component 600 is preferably spring, but the elastic component 600 is not limited to spring, can have for other The part of elasticity.

The sprocket wheel 400 being connected with main shaft is provided with one end of cutter shaft, it is ensured that sprocket wheel 400 and the transmission of main shaft power Stability, the other end of cutter shaft is provided with dismountable cover plate 700, one end of above-mentioned spring is resisted against on cover plate 700, bullet The other end of spring is resisted against on tool rest 420, facilitates the dismounting of spring.

Bearing block 401 is provided with cutter shaft, and bearing block 401 is located between sprocket wheel 400 and tool rest 420, in bearing block 401 Shaft core 410 is additionally provided with and tool rest 420 between, offers many spacing holes 426 through tool rest 420, in limit on tool rest 420 Stop screw 427 is provided with position hole 426, and one end of stop screw 427 through spacing hole 426 and is threadedly connected to shaft core 410 On, so as to ensure that the steadiness of both shaft core 410 and tool rest 420 connection so that cutter shaft can drive tool rest by shaft core 410 420 circumferentially rotate, it is ensured that the stability that cutter shaft is driven with cutter 500 by tool rest 420.

The cross sectional shape of above-mentioned cutter shaft offers fixing groove corresponding with polygon in shaft core 410 in polygon, and second Main shaft 300 is sheathed in fixing groove so that shaft core 410 tool rest 420 can be driven to move axially along the second main shaft 300 while Tool rest 420 can be circumferentially rotated as the second main shaft 300 is synchronous, so as to get the transporting velocity of bellows when certain limit changes, Shaft core 410 can drive tool rest 420, in the displacement of axial direction, synchronous change occurs, it is ensured that necking tool in grooving process every time just To trough, it is ensured that the planarization of bellows otch.

Preferably, above-mentioned Synchronization Component also includes multigroup guide and guide is arranged on the excircle of tool rest 420, respectively Group guidance set include two guide parts 421 being set in parallel on tool rest 420, offer on tool rest 420 mounting groove 422 and The mounting groove 422 is located between two guide parts 421, and the cutter 500 is arranged in mounting groove 422, when tool rest 420 is arranged at When on bellows, above-mentioned guide part 421 is equal to be stretched in the trough of bellows.

Two guide parts 421 are respectively arranged in two trough of bellows, when the transporting velocity of bellows is sent out within the specific limits During changing, tool rest 420 can in the presence of two guide parts 421 with bellows synchronizing moving in the axial direction, and cutter 500 Be arranged between two guide parts 421 and the spacing between necking tool and guide part 421 for bellows wavelength integral multiple, so as to protect The incision site of card cutter 500 improves the fluting quality of necking tool just to trough.

Further, go back spiral on the excircle of tool rest 420 to be provided with guiding arc 425 and be oriented to arc 425 by cutter 500 End is extended on guide part 421, and the length for being oriented to arc 425 is more than or equal to the girth that bellows is connected between two troughs, from And during bellows axial movement, it is oriented to that arc 425 is equal can be arranged on bellows so that tool rest 420 is with bellows in axle To on direction during synchronizing moving, it is ensured that during tool rest 420 is circumferentially rotated with cutter 500, the incision site of cutter 500 It is respectively positioned in trough, improves the fluting quality of bellows.

The fixing hole 423 for communicating with mounting groove 422 and being obliquely installed is offered in tool rest 420, and 500 one end of above-mentioned cutter is inserted When in mounting groove 422, the one end for being provided with fixing screws 424 and fixing screws 424 in fixing hole 423 can pass through fixation Hole 423 is simultaneously resisted against on cutter 500, it is ensured that the steadiness that cutter 500 is installed, it is to avoid during utility model works There is position skew and affects the generation of bellows otch planarization phenomenon in cutter 500, improves work effect of the present utility model Rate.

Above-mentioned cutter 500 includes that cutter hub 510, cutter hub 510 upwardly extend the blade 520 for being formed with shape in flat, its Cutting face is provided with middle blade 520 and offers shape on cutting face in meniscate chip area 530, in the utility model In the course of work, the chip produced by 520 raised grain pipe of blade can be skidded off along chip area 530, avoid chip from being retained in ripple Line pipe surface and affect the normal work of blade 520, improve operating efficiency of the present utility model.

The utility model on the basis of said structure has been made further to improve to which.

Above-mentioned main shaft can be divided into many first main shafts 200 and the second main shafts of Duo Gen 300, cutter shaft can respectively with the first main shaft 200 corresponding first cutter shafts 210 and with 300 corresponding second cutter shaft 310 of the second main shaft, in the first main shaft 200 and the first cutter shaft The first drive chain 220 is provided between 210, is provided with the second drive chain 320 between the second main shaft 300 and the second cutter shaft 310.

Preferably, above-mentioned first main shaft 200 is provided with 3, is arranged with the first synchronous chain on 3 first main shafts 200 201 so that 3 first main shafts 200 can synchronous axial system.

Above-mentioned second main shaft 300 is set to many and is sequentially connected, it is preferable that the quantity of second main shaft 300 and first The quantity of main shaft 200 is corresponding to be 3, is arranged with the second synchronous chain 301 on 3 second main shafts 300.

The setting of the above-mentioned first synchronous chain 201 and the second synchronous chain 301 causes 3 first main shafts 200 to be connected and 3 second Main shaft 300 is connected, while the first synchronous chain 201 is connected with the same power source with the second synchronous chain 301 so that above-mentioned 3 pieces the One main shaft 200 and the rotation direction of 3 second main shaft, 300 energy synchronous axial systems and the first main shaft 200 and the second main shaft 300, make 3 First cutter shaft 210 and 2 310 synchronizations of the second cutter shaft and direction are rotated, and are reached 3 cutters 500 and are rotated forward and 3 cutters 500 Counter-rotational purpose.

Used as improvement, 3 first main shafts 200 and 3 second main shaft, 300 1 minor ticks uniform ring are around being distributed in two fixations On plate 100, from terms of axial direction, each first main shaft 200 is respectively positioned between adjacent two second main shafts 300, meanwhile, each second main shaft 300 also are located between adjacent two first main shafts 200, and 3 first main shafts 200 and 3 second main shafts 300 are distributed in same circumference On.

Using above-mentioned this distribution mode so that 3 cutters 500 for rotating forward and 500 pairs, 3 counter-rotational cutters Claim distribution so that it is corresponding that each positive cutter 500 is respectively provided with a reverse cutter 500, as positive cutter 500 was being slotted The active force produced in journey is contrary with the active force that reverse cutter 500 is produced so that in positive cutter 500 and reverse cutter 500 Active force offset, it is ensured that the stability of bellows, it is to avoid the position of bellows shifts and affects the fluting of bellows The generation of quality phenomenon.

Certainly, other distribution modes can be adopted also, for example, 3 first main shafts 200 is distinguished with 3 second main shafts 300 It is distributed by the way of being disposed adjacent, can also realizes above-mentioned function.

Used as further improving, the first main shaft 200 of arbitrary neighborhood is equal with the distance between the second main shaft 300 so that 3 First main shaft 200 is surrounded with 3 the second main shafts 300 and forms isosceles triangle and two isosceles triangles are Chong Die, is further protected Demonstrate,prove the active force that the first main shaft 200 and the second main shaft 300 produced in grooving process to cancel out each other, improve bellows Fluting quality.

The first spindle bearing holder 401202 is provided with above-mentioned 3 the first main shafts 200 and in the first spindle bearing holder The first main shaft linking arm 203 is provided with 401202, on the first main shaft linking arm 203 has extended inwardly to form by its end One draw-in groove 204, is provided with the first cutter shaft 210 and 401202 corresponding first cutter shaft bearing block of the first spindle bearing holder 401211, it is provided with the first cutter shaft bearing block 401211 and 203 corresponding first cutter shaft linking arm of the first main shaft linking arm 212, in the both sides of the first cutter shaft linking arm 212, surface indentation is formed with the first fixture block 213 respectively inwards, and the first fixture block 213 is stretched Enter in the first draw-in groove 204 and fixed by screw with the first main shaft linking arm 203.

Above-mentioned first spindle bearing holder 401202 is connected using aforesaid way with the first cutter shaft bearing block 401211 so that two Person's easy accessibility, additionally, the first fixture block 213 slides in or out 204 moving direction of the first draw-in groove and the first cutter shaft bearing block 401211 axial line is mutually perpendicular to, so as to improve 401211 liang of the first spindle bearing holder 401202 and the first cutter shaft bearing block Bonding strength between person, it is to avoid the first main shaft linking arm 203 and the first cutter shaft linking arm 212 are deformed and shadow between the two Ring the generation of the normal work phenomenon to the first cutter shaft bearing block 401211.

The second spindle bearing holder 401302 is provided with above-mentioned 3 the second main shafts 300 and in the second spindle bearing holder The second main shaft linking arm 303 is provided with 401302, on the second main shaft linking arm 303 has extended inwardly to form by its end Two draw-in groove 304, is provided with the second cutter shaft 310 and 401302 corresponding second cutter shaft bearing block of the second spindle bearing holder 401311, it is provided with the second cutter shaft bearing block 401311 and 303 corresponding second cutter shaft linking arm of the second main shaft linking arm 312, in the both sides of the second cutter shaft linking arm 312, surface indentation is formed with the second fixture block 313 respectively inwards, and the second fixture block 313 is stretched Enter in the second draw-in groove 304 and fixed by screw with the second main shaft linking arm 303.

Above-mentioned second spindle bearing holder 401302 is connected using aforesaid way with the second cutter shaft bearing block 401311 so that two Person's easy accessibility, additionally, the second fixture block 313 slides in or out 304 moving direction of the second draw-in groove and the second cutter shaft bearing block 401311 axial line is mutually perpendicular to, so as to improve 401311 liang of the second spindle bearing holder 401302 and the second cutter shaft bearing block Bonding strength between person, it is to avoid the second main shaft linking arm 303 and the second cutter shaft linking arm 312 are deformed and shadow between the two Ring the generation of the normal work phenomenon to the second cutter shaft bearing block 401311.

Corresponding multiple arcs groove is offered in two fixed plates 100, has and be provided with tensioning wheel 800 in each deep-slotted chip breaker, Tensioning wheel 800 is located at the first synchronous chain 201 and the second synchronous 301 side of chain respectively and the tensioning wheel 800 is same with first respectively Step chain 201 is connected with the second synchronous chain 301.

The pine that first synchronous chain 201 and second synchronous both chains 301 can be adjusted respectively by the setting of multiple tensioning wheels 800 Tight degree so that the tightness of the first synchronous chain 201 and the second synchronous chain 301 reaches preset value, it is to avoid the first synchronous chain 201 There is pine or tension with the second synchronous chain 301 and affected the normal work of the first synchronous chain 201 and the second synchronous chain 301, protected The stability of the first synchronous chain 201 and the second synchronous transmission of chain 301 is demonstrate,proved.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model institute Category those skilled in the art can make various modifications or supplement or using similar to described specific embodiment Mode substitute, but without departing from of the present utility model spirit or surmount scope defined in appended claims.

Claims (10)

1. the power drive mechanism of bellows groover, it is characterised in that include：

Casing, it include two fixed plates；

Main shaft, which is arranged in two fixed plates and the two ends of main shaft are connected with two fixed plates respectively；

Cutter shaft, its are arranged on main shaft and are connected with main shaft；

Cutter, its are used for the fluting of bellows and are arranged at cutter shaft component；

The main shaft with movable arbor rotating in same direction and can circumferentially rotate cutter.

2. the power drive mechanism of bellows groover according to claim 1, it is characterised in that main shaft is set to many And be sequentially connected by synchronous chain, around respectively, between two fixed plates, the cutter shaft is set to many many main shaft uniform rings Root is simultaneously corresponded with main shaft, is provided with drive chain between main shaft and cutter shaft.

3. the power drive mechanism of bellows groover according to claim 1 and 2, it is characterised in that set on main shaft Be equipped with spindle bearing holder and main shaft linking arm is provided with spindle bearing holder, offer draw-in groove, in knife on main shaft linking arm Cutter shaft bearing block being provided with axle and being provided with cutter shaft linking arm on cutter shaft bearing block, cutter shaft linking arm is provided with fixture block, The fixture block can be arranged in draw-in groove.

4. the power drive mechanism of bellows groover according to claim 3, it is characterised in that be provided with cutter shaft Tool rest, the cutter are arranged on tool rest, be provided with tool rest the two ends of Synchronization Component and the Synchronization Component respectively with knife Seat is connected with cutter shaft, and the cutter shaft can be circumferentially rotated by tool rest band cutter and the Synchronization Component can make cutter and bellows Synchronous shift.

5. the power drive mechanism of bellows groover according to claim 4, it is characterised in that the Synchronization Component bag Elastic component and guide is included, the elastic component is sheathed on main shaft and the two ends of elastic component are connected with tool rest and main shaft respectively, institute State guide to be arranged on the excircle of tool rest, when the transporting velocity of bellows is fluctuated within the specific limits, the guide Can make tool rest with bellows in the axial direction synchronizing moving and make tool rest drive elastic component compression or reset.

6. the power drive mechanism of bellows groover according to claim 5, it is characterised in that the guide includes Two are arranged at the guide part on tool rest, offer mounting groove and the mounting groove is located between two guide parts on tool rest, described Cutter is arranged in mounting groove, is provided with the excircle of tool rest Portion is contacted with bellows.

7. the power drive mechanism of bellows groover according to claim 1 or 5, it is characterised in that the cutter shaft The shape of cross section offers fixing groove corresponding with cutter shaft on tool rest in polygon, and the cutter shaft is arranged in fixing groove.

8. the power drive mechanism of bellows groover according to claim 7, it is characterised in that the main shaft includes One main shaft and the second main shaft, many first main shafts are sequentially connected by the first synchronous chain, and second main shaft is synchronous by second Chain is sequentially connected, and many first main shaft energy synchronous axial systems are simultaneously contrary with the rotation direction of the second main shaft of many synchronous axial systems.

9. the power drive mechanism of bellows groover according to claim 8, it is characterised in that first main shaft and Second main shaft is spaced successively and uniform ring is around being distributed in two fixed plates, between first main shaft and the second main shaft of arbitrary neighborhood Apart from equal.

10. the power drive mechanism of bellows groover according to claim 9, it is characterised in that in two fixed plates Offer some deep-slotted chip breakers, in each deep-slotted chip breaker, be provided with tensioning wheel, the tensioning wheel be located at respectively the first synchronous chain and Second synchronous chain side and chain synchronous with first and the second synchronous chain are connected respectively for the tensioning wheel.