CN106424950A - Adjustable transmission mechanism of corrugated pipe grooving machine - Google Patents

Abstract

The invention provides an adjustable transmission mechanism of a corrugated pipe grooving machine, and belongs to the technical field of corrugated pipe machining. The technical problems that an existing grooving device is low in grooving efficiency and narrow in grooving range are solved. The adjustable transmission mechanism of the corrugated pipe grooving machine comprises a fixed base which is transversely arranged, a movable plate which is arranged on the fixed base and can rotate relative to the fixed base, a first spindle assembly arranged on the fixed base and connected with the movable plate, a first cutter shaft assembly connected with the first spindle assembly, a second spindle assembly arranged on the fixed base and a second cutter shaft assembly connected with the second spindle assembly; the first cutter shaft assembly and the second cutter shaft assembly are each provided with a cutter, and can drive the corresponding cutters to rotate in the opposite directions, and the inertia of rotation of the corrugated pipe in the positive and negative directions is offset, and therefore the aim of fixing the corrugated pipe is achieved, and the corrugated pipe is good in stability and high in grooving efficiency.

Description

The adjustable transmission mechanism of bellows groover

Technical field

The invention belongs to bellows processing technique field, relate to a kind of adjustable transmission mechanism, especially bellows can Adjusting transmission mechanism.

Background technology

Bellows performance is good and applicability is relatively strong, and it is widely used in more industry, for example, on bellows After perforate, bellows is embedded in below ground, water penetration to soil can be flowed in bellows by the hole on bellows, from And accelerate the speed that ponding is drained, the problem effectively alleviating surface gathered water, and this bellows needs to add it Could use after work fluting.

As mechanical automation development process is very fast, the fluting of bellows completes also by fluting apparatus, during processing, and ripple Line tube edge rotates limit and moves to fluting apparatus, simultaneously near cutter, is rotated by the cutter on fluting apparatus and carries out bellows Fluting, when bellows removal fluting apparatus, fluting terminates, and traditional fluting apparatus exists techniques below when processing and asks Topic, in the 1st, traditional fluting apparatus, is generally all to be slotted bellows by one or more cutter rotating in same direction, and The cutter rotating makes bellows produce inertia when contacting with bellows, cause bellows with cutter synchronous axial system, cause bellows Fixed effect is poor, slots inefficient；2nd, in traditional fluting apparatus, in addition to cutter is rotatable, other structures all use Fixing mode connects, and so, causes the bellows to a kind of model that this fluting apparatus can only be single to slot, and uses Scope is narrower.

In sum, in order to solve the technical problem that above-mentioned fluting apparatus exists, design one is needed can to improve groover The adjustable transmission mechanism of the bellows groover that fluting efficiency is high and fluting scope is wider.

Content of the invention

It is an object of the invention to the problems referred to above existing for prior art, it is proposed that one can improve groover fluting effect The adjustable transmission mechanism of the bellows groover that rate is high and fluting scope is wider.

The purpose of the present invention can be realized by following technical proposal：The adjustable transmission mechanism of bellows groover, bag Include

Fixing seat, its horizontally set；

Portable plate, it is arranged on fixing seat and can be relatively fixed seat and rotates；

First spindle assemblies, it is arranged on fixing seat and is connected with portable plate；

First cutter shaft component, it is connected with the first spindle assemblies；

Second spindle assemblies, it is arranged on fixing seat；

Second cutter shaft component, it is connected with the second spindle assemblies, and described first cutter shaft component and the second cutter shaft component divide It is not provided with cutter；

First cutter shaft component and the second cutter shaft component can drive corresponding cutter synchronous axial system in a reverse direction respectively, when When portable plate rotates, described first spindle assemblies and the second spindle assemblies can respectively with its center rotating and the first cutter shaft component and Second cutter shaft component can be closer or far from the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described first spindle assemblies includes

First driving shaft, its be connected with fixing seat and can be relatively fixed seat rotate, described first driving shaft runs through portable plate；

First main bearing seat, it is sheathed on the first driving shaft and the side of the first main bearing seat is connected with portable plate, the One main bearing seat and the first cutter shaft component are connected；

When portable plate rotates, described first main bearing seat can rotate centered on the first driving shaft and make the first cutter shaft group Part away from or near the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described first cutter shaft component includes

First cutter shaft, it is in transmission connection with the first driving shaft and rotates with the first cutter shaft, the first cutter shaft is provided with described Cutter；

First cutter shaft bearing block, it is sheathed on the first cutter shaft and is connected with the first main bearing seat；

When portable plate rotates, described first main bearing seat rotates centered on the first driving shaft and makes the first cutter shaft bearing Seat away from or near the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described second spindle assemblies includes

Second driving shaft, its be connected with fixing seat and can be relatively fixed seat rotate, described second driving shaft runs through portable plate, The rotation direction of described second driving shaft and the first driving shaft is contrary；

Second main bearing seat, it is sheathed on the second driving shaft and the side of the second main bearing seat is connected with portable plate, the Two main bearing seats and the second cutter shaft component are connected；

When portable plate rotates, described second main bearing seat can rotate centered on the second driving shaft and make the second cutter shaft group Part away from or near the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described second cutter shaft component includes

Second cutter shaft, it is in transmission connection with the second driving shaft and rotates with the second driving shaft, the second cutter shaft is arranged The cutter stated；

Second cutter shaft bearing block, it is sheathed on the second cutter shaft and is connected with the second main bearing seat；

When portable plate rotates, described second main bearing seat rotates centered on the second driving shaft and makes the second cutter shaft bearing Seat away from or near the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described first driving shaft and the first cutter shaft pass through first Synchronization chain is connected, and described second driving shaft and the second cutter shaft are connected by the second synchronization chain.

In the adjustable transmission mechanism of above-mentioned bellows groover, the outer surface of described first main bearing seat is provided with Driving arm, the surface of described portable plate being provided with the drive shaft being connected with it, described drive shaft stretches in driving arm, described drives Moving axis can make driving arm rotate with driving shaft for the center of circle and make the first cutter shaft bearing block closer or far from the pivot of portable plate.

In the adjustable transmission mechanism of above-mentioned bellows groover, described first main bearing seat is provided with the first connection Arm, the surface configuration of the first linking arm has draw-in groove, described first cutter shaft bearing block is provided with the second linking arm, the second linking arm Surface configuration have fixture block, described fixture block stretches in draw-in groove and is connected with the first linking arm.

In the adjustable transmission mechanism of above-mentioned bellows groover, the side of described fixing seat is provided with cylinder, described The piston rod of cylinder and portable plate are articulated and connected, and described piston rod is flexible and portable plate can be driven to rotate.

In the adjustable transmission mechanism of above-mentioned bellows groover, the side of described fixing seat is provided with limited post, It is provided with the gag lever post that can move relative to it on limited post, the lateral wall of described portable plate is convexly equipped with limited block and limited block energy It is against on gag lever post.

Compared with prior art, the invention have the advantages that：

1st, in this transmission mechanism, the first cutter shaft component and the second cutter shaft component can drive corresponding cutter with contrary respectively Direction rotates, and when the cutter of different rotation directions contacts with bellows, the inertia that bellows rotates to positive and negative both direction supports Disappearing, thus reaching the purpose of fixing bellows so that the stability of bellows is preferable, fluting efficiency is high.

2nd, in the present invention, when portable plate rotates, portable plate makes the first spindle assemblies and the second spindle assemblies respectively with it The rotation of the two, thus drive the first cutter shaft component and the second cutter shaft component closer or far from the pivot of portable plate so that Cutter can be closer or far from bellows, reaching to regulate the purpose of cutter and bellows spacing, thus expands making of groover Use scope.

Brief description

Fig. 1 is the front perspective view of the present invention.

Fig. 2 is the rear perspective view of the present invention.

Fig. 3 is the elevation of the present invention.

Fig. 4 is the plane of portable plate in the present invention.

Fig. 5 is the stereogram of the first spindle assemblies in the present invention.

Fig. 6 is the stereogram of the first cutter shaft component in the present invention.

Fig. 7 is front shoe and the connection diagram driving arm in the present invention.

In figure, the 10th, fixed station；100th, seat is fixed；110th, front shoe；120th, rear fixed plate；130th, connecting plate；

200th, portable plate；210th, hole is turned；220th, hole is moved；230th, drive shaft；240th, contiguous block；250th, limited block；

300th, the first driving shaft；310th, the first main bearing seat；311st, arm is driven；311a, installation gap；311b, spacing lack Mouthful；312nd, the first linking arm；312a, draw-in groove；

400th, the first cutter shaft；410th, the first cutter shaft bearing block；420th, the first driving-chain；430th, the first tool rest；440th, second Linking arm；441st, depressed part；442nd, fixture block；

500th, the second driving shaft；510th, the second main bearing seat；

600th, the second cutter shaft；610th, the second cutter shaft bearing block；620th, the second driving-chain；630th, the second tool rest；

700th, cylinder；710th, piston rod；720th, seat is connected；

800th, limited post；810th, gag lever post.

Detailed description of the invention

The following is the specific embodiment of the present invention and combine accompanying drawing, technical scheme is further described, But the present invention is not limited to these embodiments.

As shown in Figure 1 to Figure 3, the adjustable transmission mechanism of bellows groover of the present invention, including the 100th, the activity of fixing seat Plate 200, the first spindle assemblies, the first cutter shaft component, the second spindle assemblies and the second cutter shaft component.

Fixing seat 100 includes front shoe 110 and the rear fixed plate 120 erect and arrange, described front shoe 110 with after Fixed plate 120 separates and parallel, and front shoe 110 and rear fixed plate 120 are all connected with fixed station 10 surface, at front shoe 110 are respectively arranged with, with the both sides of rear fixed plate 120, the connecting plate 130 being connected with the two, axial at the middle part of front shoe 110 Offer through hole (not shown).

As shown in Figure 4, portable plate 200 is circle, and this portable plate 200 is erect and arranged and be positioned between before and after's fixed plate 120, Preferably, the middle part at portable plate 200 offers and turns hole 210, uniformly offers six shiftings on portable plate 200 around its surface Hole 220, each moves hole 220 and is arc.

First spindle assemblies includes the first driving shaft 300 and the first main bearing seat 310, and the first driving shaft 300 1 has three Root, three first driving shafts 300 lay respectively at wherein three first move in holes 220, portable plate 200 Neng Yiqi center is that the center of circle exists First shifting hole 220 in the range of rotate, the two ends of every first driving shaft 300 respectively with front shoe 110 and rear fixed plate 120 It is connected and can rotate on front shoe 110 with rear fixed plate 120, it is preferred that three first driving shafts 300 are parallel to each other and lead to Cross the first synchronization chain (not shown) to be connected.

First main bearing seat 310 is positioned between portable plate 200 and rear fixed plate 120, the first main bearing seat 310 have three and Being set on three first driving shafts 300, each first main bearing seat 310 all can be on corresponding first driving shaft 300 Rotating, the outer end of each the first main bearing seat 310 is all connected with portable plate 200.

First cutter shaft component includes the first cutter shaft 400 and the first cutter shaft bearing block 410, and the first cutter shaft 400 1 has three And respectively with three first driving shaft 300 one_to_one corresponding, every first cutter shaft 400 and corresponding first driving shaft 300 are by the One driving-chain 420 is connected, and every first cutter shaft 400 all can be with the first driving shaft 300 synchronous axial system, it is preferred that each first cutter Axle 400 is less than the distance that the first driving shaft 300 arrives portable plate 200 center, meanwhile, phase to the distance of portable plate 200 pivot The pivot side of the line deflection portable plate 200 of the first cutter shaft 400 even and the first driving shaft 300, three group of first cutter shaft 400 are distributed in the shape of a spiral with the line of the first driving shaft 300.

First cutter shaft bearing block 410 has three and is set on three first cutter shafts 400, each first cutter shaft bearing Seat 410 is all connected with corresponding first main bearing seat 310, say, that the first driving shaft 300 is connected with the first cutter shaft 400, phase The first main bearing seat 310 answered also is connected with the first cutter shaft bearing block 410, and three the first cutter shaft bearing blocks 410 are positioned at simultaneously and turn In hole 210 and through hole and in around distribution, each first cutter shaft 400 is set with the first tool rest 430, at the first tool rest 430 On cutter is installed, each cutter can rotate with corresponding first cutter shaft 400, the synchronization of cutter on three the first tool rests 430 with To rotation.

Second spindle assemblies includes the second driving shaft 500 and the second main bearing seat 510, and the second driving shaft 500 1 has three Root, three second driving shafts 500 lay respectively at the other three second and move in hole 220, same, portable plate 200 Neng Yiqi center For the center of circle second shifting hole 220 in the range of rotate, the two ends of every second driving shaft 500 respectively with front shoe 110 and after Fixed plate 120 is connected and can rotate on front shoe 110 with rear fixed plate 120, it is preferred that three first driving shafts 300 and Three second driving shafts 500 are sequentially arranged at intervals and around distribution, say, that from axial direction, and every first actively Axle 300 is respectively positioned between adjacent two second driving shafts 500, and meanwhile, every second driving shaft 500 also is located at adjacent two first actively Between axle 300, and three first driving shafts 300 and three second driving shafts 500 are encircled into a circle, three second driving shafts 500 are parallel to each other and pass through the second synchronization chain (not shown) is connected, herein, and the rotation direction of three second driving shafts 500 Contrary preferred with the rotation direction of three first driving shafts 300.

Second main bearing seat 510 has three and is set on three second driving shafts 500, the second main bearing seat 510 Being positioned between portable plate 200 and rear fixed plate 120, each second main bearing seat 510 all can be on corresponding second driving shaft 500 Rotating, the outside of each the second main bearing seat 510 is all connected with portable plate 200.

Second cutter shaft component includes the second cutter shaft 600 and the second cutter shaft bearing block 610, and the second cutter shaft 600 1 has three And respectively with three second driving shaft 500 one_to_one corresponding, every second cutter shaft 600 and corresponding second driving shaft 500 are by the Two driving-chains 620 are connected, and every second cutter shaft 600 all can be with the second driving shaft 500 synchronous axial system, it is preferred that each second cutter Axle 600 is less than the distance that the second driving shaft 500 arrives portable plate 200 center, meanwhile, phase to the distance of portable plate 200 pivot The pivot side of the line deflection portable plate 200 of the second cutter shaft 600 even and the second driving shaft 500, three group of second cutter shaft 600 are distributed in the shape of a spiral with the line of the second driving shaft 500, and three first cutter shafts 400 are also encircled into three second cutter shafts 600 One is circular.

Second cutter shaft bearing block 610 has three and is set on three second cutter shafts 600, each second cutter shaft bearing Seat 610 is all connected with corresponding second main bearing seat 510, say, that the second driving shaft 500 is connected with the second cutter shaft 600, phase The second main bearing seat 510 answered also is connected with the second cutter shaft bearing block 610, and three the second cutter shaft bearing blocks 610 are positioned at simultaneously and turn In hole 210 and through hole and in around distribution, same, three the second cutter shaft bearing blocks 610 and three the first cutter shaft bearing blocks 410 Interval is arranged, and is set with the second tool rest 630, three the first tool rests 430 and three the second tool rests on each second cutter shaft 600 630 surround the processing district being formed with receiving bellows, are provided with cutter on the second tool rest 630, and each cutter can be with accordingly Second cutter shaft 600 rotates, cutter on three the second tool rests 630 synchronization rotating in same direction and with the cutter on three the first tool rests 430 The rotation direction of tool is contrary.

It should be noted that in this structure, three the first tool rests 430 and three the second tool rest 630 intervals are arranged, bellows It is just sandwiched between three the first tool rests 430 and three the second tool rests 630, serve the effect of fixing bellows, but, the The quantity of one spindle assemblies, the first cutter shaft component, the second spindle assemblies and the second cutter shaft component is to open according to the actual of bellows Groove demand determines, say, that the first spindle assemblies and the first cutter shaft component, the second spindle assemblies and the second cutter shaft component Being not limited to only three groups, it can be more than three groups, it is possible to is less than three groups, when the first spindle assemblies and the first cutter shaft component, second Spindle assemblies and the second cutter shaft component quantity, can be by borrowing less than all less than three groups and when cannot play the effect of fixing bellows Other structures are helped to realize fixing bellows.

During work, three the first driving shafts 300 drive three the first cutter shafts 400 to rotate so that on three the first tool rests 430 Cutter rotate, meanwhile, three the second driving shafts 500 drive three the second cutter shafts 600 to rotate so that three the second tool rests 630 On cutter rotate to direction that the first tool rest 430 is fixed a cutting tool contrary, both reached the fluting quantity of bellows, meanwhile, positive and negative two The cutter that individual direction rotates so that more stable during bellows fluting, is difficult to rotate, and the distance when between cutter and bellows needs to adjust During joint, portable plate 200 rotates with rear fixed plate 120 relative to front shoe 110 with its center, now, and three the first main bearing seats 310 rotate with three the first driving shafts 300 for the center of circle respectively, and three the second main bearing seats 510 are respectively with three the second driving shafts 500 is that the center of circle rotates, thus drive three the first cutter shaft bearing blocks 410 and three the second cutter shaft bearing blocks 610 turn hole 210 and Move in through hole, it is achieved that three the first tool rests 430 and three the second tool rests 630 away from or in the rotation of portable plate 200 The heart, thus change the size of processing district scope, to accommodate the bellows of different tube diameters size and to slot it.

It, on the basis of said structure, has been done and has improved further by the present invention.

As shown in Fig. 2, Fig. 3, Fig. 5, Fig. 7, the outer surface of described first main bearing seat 310 is provided with driving arm 311, Drive and offer an installation gap 311a on the outer surface away from portable plate 200 for the arm 311, driving arm 311 and portable plate 200 phase To outer surface on offer with spacing breach 311b, the width of described spacing breach 311b grabs the width of breach more than peace, Installation gap 311a communicates with spacing breach 311b and is extended inward by the end driving arm 311, the surface of portable plate 200 On be provided with its be connected drive shaft 230, described drive shaft 230 stretches in spacing breach 311b, when portable plate 200 rotates, Drive arm 311 to be against in drive shaft 230 and make the first main bearing seat 310 to rotate and drive shaft 230 can be in spacing breach 311b Mobile.

First main bearing seat 310 uses aforesaid way to be connected with portable plate 200 so that portable plate 200 and the first base bearing Seat 310 is connected, and drives when portable plate 200 rotates the first main bearing seat 310 to rotate, thus realizes the first cutter shaft bearing block 410 Swing within the specific limits, in addition, drive shaft 230 be positioned at spacing breach 311b and and non-through drive arm 311 so that drive Swing arm 311 is more convenient with the dismounting of portable plate 200, and the width that the width of installation gap 311a is more than spacing breach 311b, make Arm 311 must be driven to push down and avoid drive shaft 230 to separate with portable plate 200 drive shaft 230, meanwhile, pass through installation gap 311a, facilitates the dismounting of drive shaft 230 and portable plate 200.

It in the present invention, is connected owing to the second main bearing seat 510 and portable plate 200 are also adopted by identical structure, therefore, explanation First main bearing seat 310 and portable plate 200 are only marked by book accompanying drawing.

As shown in Fig. 2, Fig. 3, Fig. 5, Fig. 6, the outer surface of described first main bearing seat 310 is provided with the first linking arm 312, the surface of described first linking arm 312 is extended inward by its end and is formed with draw-in groove 312a, described first cutter shaft bearing Being provided with the second linking arm 440 on the outer surface of seat 410, the side on described second linking arm 440 surface is arranged with a depressed part 441 and be formed with fixture block 442 in the side of depressed part 441, in described fixture block 442 stretches into draw-in groove 312a and with the first linking arm 312 are connected by screw.

First main bearing seat 310 uses aforesaid way to be connected with the first cutter shaft bearing block 410 so that the two dismounting side Just, in addition, fixture block 442 and the closure of draw-in groove 312a are just vertical with the moving direction of the first cutter shaft bearing block 410, Therefore, fixture block 442 and the fit structure of draw-in groove 312a improve the first main bearing seat 310 and the first cutter shaft axle to a certain extent Bonding strength between bearing 410, it is to avoid the first linking arm 312 and the second linking arm 440 produce deformation, also ensure that simultaneously The mobile accuracy of one cutter shaft bearing block 410.

It in the present invention, is connected owing to the second main bearing seat 510 is also adopted by identical structure with the second cutter shaft bearing block 610, Therefore, the first main bearing seat 310 is only marked by Figure of description with the first cutter shaft bearing block 410.

As shown in Figure 1 to Figure 3, described fixed station 10 being equipped with cylinder 700, this cylinder 700 is positioned at a left side for fixing seat 100 Side is simultaneously adjacent with portable plate 200, is installed with connection seat 720 on the piston rod 710 of cylinder 700, described portable plate 200 It is convexly equipped with a contiguous block 240 on outer surface, in this contiguous block 240 embedded connection seat 720 and be articulated and connected with being connected seat 720, when When cylinder 700 works, piston rod 710 is flexible and makes whole portable plate 200 rotate by promoting this contiguous block 240.

It cylinder 700 is set and the piston rod 710 of cylinder 700 is connected with portable plate 200, carrying to the rotation of portable plate 200 Supply power source, thus the axial rotation that the transform linear motion by cylinder 700 is portable plate 200, whole drive mechanism is simple, It is easily achieved, and the setting of contiguous block 240, then being easy to portable plate 200 is connected with cylinder 700, certainly, and the rotation of portable plate 200 It is not limited to be realized by cylinder 700.

As shown in Figure 1, Figure 3, described fixed station 10 being also equipped with limited post 800, this limited post 800 is positioned at fixing seat The right side of 100 is simultaneously adjacent with portable plate 200, is inserted with gag lever post 810 on limited post 800, it is preferred that this gag lever post 810 with Limited post 800 is threaded and can move relative limit post 800 in the vertical direction, the lateral wall epirelief of described portable plate 200 It is provided with limited block 250 and limited block 250 can be against on gag lever post 810.

Herein, the limited post 800 being vertically movable is set, partly in order to after portable plate 200 rotates required angle, When i.e. guide bracket moves to desired position, gag lever post 810 is made to prop up limited block 250 by regulating gag lever post 810, to prevent out During groove, the reaction force to tool rest for the bellows makes portable plate 200 rotate, thus avoids tool rest arbitrarily to move, it is ensured that ripple On the other hand gag lever post 810, first can be adjusted to predeterminated position by the normal fluting of line pipe, and portable plate 200 turns to be against spacing Then stop operating when on bar 810, it is to avoid portable plate 200 rotates transition and causes repeated rotation, improve regulation cutter and ripple The efficiency of spacing between pipe.

Specific embodiment described herein is only explanation for example to present invention spirit.Technology neck belonging to the present invention Described specific embodiment can be made various modification or supplements or use similar mode to replace by the technical staff in territory Generation, but without departing from the spirit of the present invention or surmount scope defined in appended claims.

Claims (10)

1. the adjustable transmission mechanism of bellows groover, including

Fixing seat, its horizontally set；

Portable plate, it is arranged on fixing seat and can be relatively fixed seat and rotates；

First spindle assemblies, it is arranged on fixing seat and is connected with portable plate；

First cutter shaft component, it is connected with the first spindle assemblies；

Second spindle assemblies, it is arranged on fixing seat；

Second cutter shaft component, it is connected with the second spindle assemblies, and described first cutter shaft component and the second cutter shaft component set respectively It is equipped with cutter；

First cutter shaft component and the second cutter shaft component can drive corresponding cutter synchronous axial system in a reverse direction respectively, work as activity When plate rotates, described first spindle assemblies and the second spindle assemblies can be respectively with its center rotating and the first cutter shaft components and second Cutter shaft component can be closer or far from the pivot of portable plate.

2. the adjustable transmission mechanism of bellows groover according to claim 1, it is characterised in that：Described first main shaft Assembly includes

First driving shaft, its be connected with fixing seat and can be relatively fixed seat rotate, described first driving shaft runs through portable plate；

First main bearing seat, it is sheathed on the first driving shaft and the side of the first main bearing seat is connected with portable plate, and first is main Bearing block and the first cutter shaft component are connected；

When portable plate rotates, described first main bearing seat can rotate centered on the first driving shaft and make the first cutter shaft component remote From or near the pivot of portable plate.

3. the adjustable transmission mechanism of bellows groover according to claim 2, it is characterised in that：Described first cutter shaft Assembly includes

First cutter shaft, it is in transmission connection with the first driving shaft and rotates with the first cutter shaft, the first cutter shaft is provided with described cutter Tool；

First cutter shaft bearing block, it is sheathed on the first cutter shaft and is connected with the first main bearing seat；

When portable plate rotates, described first main bearing seat rotates centered on the first driving shaft and makes the first cutter shaft bearing block remote From or near the pivot of portable plate.

4. the adjustable transmission mechanism of bellows groover according to claim 3, it is characterised in that：Described second main shaft Assembly includes

Second driving shaft, its be connected with fixing seat and can be relatively fixed seat rotate, described second driving shaft runs through portable plate, described The rotation direction of the second driving shaft and the first driving shaft is contrary；

Second main bearing seat, it is sheathed on the second driving shaft and the side of the second main bearing seat is connected with portable plate, and second is main Bearing block and the second cutter shaft component are connected；

When portable plate rotates, described second main bearing seat can rotate centered on the second driving shaft and make the second cutter shaft component remote From or near the pivot of portable plate.

5. the adjustable transmission mechanism of bellows groover according to claim 4, it is characterised in that：Described second cutter shaft Assembly includes

Second cutter shaft, it is in transmission connection with the second driving shaft and rotates with the second driving shaft, the second cutter shaft is provided with described Cutter；

Second cutter shaft bearing block, it is sheathed on the second cutter shaft and is connected with the second main bearing seat；

When portable plate rotates, described second main bearing seat rotates centered on the second driving shaft and makes the second cutter shaft bearing block remote From or near the pivot of portable plate.

6. the adjustable transmission mechanism of bellows groover according to claim 5, it is characterised in that：Described first actively Axle and the first cutter shaft are connected by the first synchronization chain, and described second driving shaft and the second cutter shaft are connected by the second synchronization chain.

7. the adjustable transmission mechanism of bellows groover according to claim 1, it is characterised in that：Described first main shaft It is provided with driving arm on the outer surface of bearing, the surface of described portable plate is provided with the drive shaft being connected with it, described driving Axle stretches in driving arm, described drive shaft driving arm can be made to rotate with driving shaft for the center of circle and make the first cutter shaft bearing block close or Pivot away from portable plate.

8. the adjustable transmission mechanism of bellows groover according to claim 1, it is characterised in that：Described first main shaft Being provided with the first linking arm in bearing, the surface configuration of the first linking arm has draw-in groove, and described first cutter shaft bearing block is provided with Second linking arm, the surface configuration of the second linking arm has fixture block, in described fixture block stretches into draw-in groove and is connected with the first linking arm.

9. the adjustable transmission mechanism of bellows groover according to claim 1, it is characterised in that：Described fixing seat Side is provided with cylinder, and the piston rod of described cylinder and portable plate are articulated and connected, and described piston rod is flexible and can drive portable plate Rotate.

10. the adjustable transmission mechanism of bellows groover according to claim 1, it is characterised in that：Described fixing seat Side be provided with limited post, limited post is provided with can the gag lever post that move relative to it, on the lateral wall of described portable plate It is convexly equipped with limited block and limited block can be against on gag lever post.