CN106238826B - The lazy-tongs of bellows groover - Google Patents

Abstract

The invention provides the lazy-tongs of bellows groover, belong to bellows processing technique field.It solves the low-quality problem of lazy-tongs fluting of existing bellows groover.The lazy-tongs of this bellows groover include：Chassis；Casing, it is movably arranged on chassis；Inductive component, it is arranged on casing and one end of the induction pieces is connected with chassis；Toolbox, it is arranged on casing, and the necking tool for bellows fluting is provided with toolbox；Synchronization Component, it is arranged on casing and the Synchronization Component is connected with necking tool and casing respectively；Synchronization Component can enable necking tool and bellows synchronous shift and complete bellows fluting；When casing triggers inductive component as bellows is subjected to displacement, Synchronization Component can adjust necking tool rotating speed and enable necking tool and bellows synchronous shift.The lazy-tongs of this bellows groover have the advantages of making bellows and cutter synchronizing moving, fluting quality is high.

Description

The lazy-tongs of bellows groover

Technical field

The invention belongs to bellows processing technique field, is related to a kind of lazy-tongs, and particularly bellows groover is same Walk mechanism.

Background technology

Bellows performance is good and with strong applicability, and it is widely used in more industry, for example, on bellows After perforate, bellows is embedded in below ground, water penetration can be flowed into bellows into soil by the hole on bellows, from And the speed that ponding is drained is accelerated, the problem of effectively alleviating surface gathered water, and this bellows needs to add it It could be used 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 moved to fluting apparatus, while close to cutter, is rotated by the cutter on fluting apparatus and bellows is carried out Fluting, when bellows removes fluting apparatus, fluting terminates, and traditional fluting apparatus has following technology in processing and asked Inscribe, be generally all to rotate in same direction to slot to bellows by one or more cutter in the fluting apparatus, and the fluting Equipment tool position is fixed, and when the transporting velocity of bellows changes, cutter can not occur corresponding in the axial direction Displacement and cause cutter slotting position deviate bellows trough, cause bellows fluting it is of poor quality.

In summary, low-quality technical problem of slotting be present, it is necessary to design a kind of energy to solve above-mentioned lazy-tongs Make the lazy-tongs of the bellows bellows groover high with cutter synchronizing moving, fluting quality.

The content of the invention

The purpose of the present invention is above mentioned problem be present for existing technology, it is proposed that one kind can make bellows same with cutter The lazy-tongs of the high bellows groover of moved further, fluting quality.

The purpose of the present invention can be realized by following technical proposal：The lazy-tongs of bellows groover, including：

Chassis；

Casing, it is movably arranged on chassis；

Inductive component, it is arranged on casing and one end of the induction pieces is connected with chassis；

Toolbox, it is arranged on casing, and the necking tool for bellows fluting is provided with toolbox, is being opened Synchronization Component is provided between groove knife and casing；

When bellows transporting velocity within a preset range when, Synchronization Component can enable necking tool and bellows synchronous shift And complete bellows fluting；When the transporting velocity of bellows exceedes preset range, casing touches as bellows is subjected to displacement When sending out inductive component, Synchronization Component can adjust necking tool rotating speed and enable necking tool and bellows synchronous shift.

In the lazy-tongs of above-mentioned bellows groover, the inductive component includes：

Sensor, it is arranged on casing；

Contiguous block, it is arranged on chassis, and connecting rod is movably set with contiguous block, and connection is stretched out in one end of the connecting rod Block is simultaneously connected with sensor；

Actuator；It is arranged on casing, and the actuator is connected with necking tool and necking tool can be driven to circumferentially rotate, institute Sensor is stated to electrically connect with actuator；

When casing energy drivening rod is moved to upper limit position along sensor, the sensor can produce induced signal simultaneously The induced signal is fed back into actuator, the actuator can adjust necking tool rotating speed according to the induced signal of feedback.

In the lazy-tongs of above-mentioned bellows groover, the toolbox includes：

Main shaft, it is connected with actuator；

Tool rest, it is arranged on main shaft and the necking tool is arranged on tool rest；

Synchronization Component, it is arranged on tool rest and the both ends of the Synchronization Component are connected with tool rest and main shaft respectively；

The main shaft can drive tool rest to circumferentially rotate and circumferentially rotate necking tool, when the transporting velocity of bellows is certain In the range of when fluctuating, the Synchronization Component can make necking tool with bellows synchronous shift in the axial direction.

In the lazy-tongs of above-mentioned bellows groover, the Synchronization Component includes elastic component and guide, described Elastic component is sheathed on main shaft and the both ends of elastic component are connected with tool rest and main shaft respectively, and the guide is arranged at the outer of tool rest On circumference, when the transporting velocity of bellows fluctuates within the specific limits, the guide can make tool rest as bellows is in axle On to direction synchronizing moving and make tool rest drive elastic component compression or reset.

In the lazy-tongs of above-mentioned bellows groover, the guide includes two guiding being arranged on tool rest Portion, offers mounting groove on tool rest and the mounting groove is between two guide parts, and the necking tool is arranged in mounting groove, It is provided with to be connected with guide part on the excircle of tool rest and is oriented to arc, the guiding arc contacts with guide part with bellows.

In the lazy-tongs of above-mentioned bellows groover, the fixing hole communicated with mounting groove is offered on tool rest, Fixing screws are provided with fixing hole, the fixing screws can pass through fixing hole and be resisted against on necking tool.

In the lazy-tongs of above-mentioned bellows groover, it is provided with main shaft and main shaft is separated to form the first main shaft With the boss of the second main shaft, bearing block is provided with the first main shaft, the tool rest is arranged on the second main shaft, first master Axle can drive the second main shaft to circumferentially rotate and make tool rest drive necking tool to circumferentially rotate.

In the lazy-tongs of above-mentioned bellows groover, shaft core is arranged with the second main shaft, the two of the shaft core End is connected with boss and tool rest respectively, offers some spacing holes through tool rest in end surface of knife holder, is provided with spacing hole Stop screw, one end of the stop screw through spacing hole and are threadedly connected in shaft core, and second main shaft can pass through axle Core ribbon moving knife seat circumferentially rotates.

In the lazy-tongs of above-mentioned bellows groover, the shape of cross section of second main shaft is in polygon, Fixing groove corresponding with the second main shaft is offered in shaft core, second main shaft is arranged in fixing groove.

In the lazy-tongs of above-mentioned bellows groover, there are sprocket wheel, the bearing in the end set of the first main shaft Seat is arranged between sprocket wheel and boss, and the sprocket wheel can drive the first main shaft to circumferentially rotate and drive tool rest week by the second main shaft To rotation.

Compared with prior art, the present invention includes chassis and the casing being arranged on chassis, and cutter is provided with casing Component, inductive component is provided between casing and chassis, in the course of the work, the setting of toolbox and inductive component can make Necking tool with bellows pipe synchronizing moving, can improve the fluting efficiency of necking tool in grooving process, ensure that the present invention's Fluting quality.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of toolbox in a preferred embodiment of the present invention.

Fig. 3 is the structural representation of tool rest in a preferred embodiment of the present invention.

Fig. 4 is the sectional view of tool rest in a preferred embodiment of the present invention.

Fig. 5 is the phantom of tool rest in a preferred embodiment of the present invention.

Fig. 6 is the structural representation of necking tool in a preferred embodiment of the present invention.

Fig. 7 is the sectional view of necking tool in a preferred embodiment of the present invention.

In figure, 100, chassis；110th, casing；111st, sensor；112nd, contiguous block；113rd, connecting rod；200th, the first main shaft； 201st, sprocket wheel；202nd, bearing block；210th, the second main shaft；211st, shaft core；220th, boss；300th, tool rest；310th, guide part；320th, pacify Tankage；330th, fixing hole；340th, fixing screws；350th, it is oriented to arc；360th, spacing hole；361st, stop screw；370th, through hole；400、 Necking tool；410th, cutter hub；420th, blade；440th, chip area；500th, elastic component；600th, cover plate.

Embodiment

It is the specific embodiment of the present invention and with reference to accompanying drawing below, technical scheme is further described, But the present invention is not limited to these embodiments.

As shown in Figures 1 to 7, the lazy-tongs of this bellows groover include：

Chassis 100；

Casing 110, it is movably arranged on chassis 100；

Inductive component, it is arranged on casing and one end of the induction pieces is connected with chassis；

Toolbox, it is arranged on casing, and the necking tool for bellows fluting is provided with toolbox, is being opened Synchronization Component is provided between groove knife and casing；

When bellows transporting velocity within a preset range when, Synchronization Component can enable necking tool and bellows synchronous shift And complete bellows fluting；When the transporting velocity of bellows exceedes preset range, casing touches as bellows is subjected to displacement When sending out inductive component, Synchronization Component can adjust necking tool rotating speed and enable necking tool and bellows synchronous shift.

Above-mentioned inductive component includes sensor 111 and contiguous block 112, and wherein sensor 111 is arranged on casing 110, even Connect block 112 to be arranged on chassis 100, connection is stretched out in one end that connecting rod 113 and connecting rod 113 are movably set with contiguous block 112 Block 112 is simultaneously connected with sensor 111, and the actuator being connected with necking tool 400 is additionally provided with casing 110, is existed in casing 110 When being subjected to displacement on chassis 100 and being moved to predeterminated position, connecting rod energy trigger sensor 111 is simultaneously adjusted by sensor 111 Actuator and change the rotating speed of necking tool 400 so that necking tool 400 in the trough of face bellows and can be completed to slot, and ensure that The planarization of bellows otch.

Above-mentioned toolbox includes main shaft and the tool rest 300 being arranged on main shaft, and one end of above-mentioned elastic component 500 is resisted against On tool rest 300, the other end of elastic component 500 is resisted against on main shaft, in the course of the work, when the transporting velocity of bellows is certain In the range of when fluctuating, elastic component 500 can drive tool rest 300 and bellows synchronizing moving so that necking tool 400 was being slotted Each face trough, ensure that the planarization of bellows otch in journey, improve the operating efficiency of the present invention.

Preferably, above-mentioned Synchronization Component includes multigroup guide and guide is arranged on the excircle of tool rest 300, each group Guidance set includes two guide parts 310 being arranged on tool rest 300, and mounting groove 320 and the peace are offered on tool rest 300 Between two guide parts 310, the necking tool 400 is arranged in mounting groove 320 tankage 320, when tool rest 300 is arranged at ripple When on pipe, above-mentioned guide part 310 can stretch into the trough of bellows and the setting of guide part 310 can cause necking tool 400 with Bellows synchronizing moving so that the incision site face trough of necking tool 400, while also ensure that the planarization of bellows otch.

Further, spiral is gone back on the excircle of tool rest 300 to be provided with guiding arc 350 and be oriented to arc 350 by necking tool 400 extend on guide part 310, are oriented to the girth that the length of arc 350 is more than or equal between connected two troughs of bellows, so as to During bellows axial movement, being oriented to arc 350 can be arranged on bellows so that tool rest 300 is realized same with bellows Moved further, it ensure that the incision site of necking tool 400 is respectively positioned in trough, improve the planarization of bellows otch.

The fixing hole 330 for communicating and being obliquely installed with mounting groove 320, above-mentioned one end of necking tool 400 are offered in tool rest 300 When being inserted in mounting groove 320, one end of fixing screws 340 and fixing screws 340 is provided with fixing hole 330 can pass through admittedly Determine hole 330 and be resisted against on necking tool 400, ensure that the steadiness that necking tool 400 is installed, avoid the process to be worked in the present invention There is position skew and influences the generation of bellows otch planarization phenomenon in middle necking tool 400, improves the work effect of the present invention Rate.

Above-mentioned necking tool 400 includes cutter hub 410, and cutter hub 410 upwardly extends the blade 420 in flat formed with shape, Cutting face is wherein provided with blade 420 and the chip area 430 that shape is in crescent is offered on cutting face, in work of the present invention During work, chip caused by the raised grain pipe of blade 420 can skid off along chip area 430, avoid chip from being retained in ripple Pipe surface and the normal work for influenceing blade 420, improve the operating efficiency of the present invention

The boss 220 that main shaft is separated to form to the first main shaft 200 and the second main shaft 210 is provided with the middle part of main shaft, The end set of first main shaft 200 has actuator, and tool rest 300 is arranged on the second main shaft 210, and the actuator can drive first Main shaft 200 circumferentially rotates and makes the second main shaft 210 drive necking tool 400 to circumferentially rotate.

Preferably, there is the sprocket wheel 201 that is connected with actuator in the end set of the first main shaft 200, offered on main shaft Keyway, the both ends that connecting key and connecting key are provided with keyway are connected with the main shaft 200 of sprocket wheel 201 and first, facilitated respectively The installation of sprocket wheel 201, while the stability that both main shafts 200 of sprocket wheel 201 and first transmit is also ensure that, avoid the He of sprocket wheel 201 There is slip teeth and influences the generation of normal work phenomenon of the present invention in first main shaft 200, the operating efficiency of the present invention is improved, in chain Bearing block 202 is provided between wheel 201 and boss 220, above-mentioned actuator can drive the first main shaft by sprocket wheel 201 200 weeks To rotate and make the second main shaft 210 drive tool rest 300 circumferentially rotate.

Further, shaft core 211 is arranged with the second main shaft 210, is surround in the end face of tool rest 300 and offer multiple run through The spacing hole 360 of tool rest 300, is provided with stop screw 361 in spacing hole 360, and one end of stop screw 361 passes through spacing hole 360 and it is threadedly connected in shaft core 211, so as to ensure that the steadiness of both connections of shaft core 211 and tool rest 300 so that second Main shaft 210 can drive tool rest 300 to circumferentially rotate by shaft core 211.

Preferably, the cross sectional shape of above-mentioned second main shaft 210 is in polygon, is offered in shaft core 211 and polygon pair The fixing groove answered, the second main shaft 210 are sheathed in fixing groove, so that shaft core 211 can drive tool rest 300 along the second main shaft 210 axial movement and tool rest 300 can synchronously be circumferentially rotated with the second main shaft 210, so as to get the transporting velocity of bellows is one When determining scope change, shaft core 211 can drive the displacement of tool rest 300 in the axial direction that synchronous change occurs, and ensure that necking tool 400 exists Each face trough, ensure that the planarization of bellows otch in grooving process.

There is cover plate 600 in the end set of the second main shaft 210, the through hole through tool rest 300 is offered on tool rest 300 370, one end of elastic component 500 through through hole 370 and is resisted against in shaft core 211, and the other end of elastic component 500 is resisted against cover plate On 600, the setting of elastic component 500 ensure that shaft core 211 tool rest 300 can be driven with the change of the transporting velocity of bellows and Corresponding change occurs for the displacement on axial direction, while also shaft core 211 can be enable to drive tool rest 300 to return back to initial position, It ensure that the long-time of the present invention and normal work.

Specific embodiment described herein is only to spirit explanation for example of the invention.Technology belonging to the present invention is led The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Claims (10)

1. the lazy-tongs of bellows groover, it is characterised in that including：

Chassis；

Casing, it is movably arranged on chassis；

Inductive component, it is arranged on casing and one end of the inductive component is connected with chassis；

Toolbox, it is arranged on casing, the necking tool for bellows fluting is provided with toolbox, in necking tool Synchronization Component is provided between casing；

When bellows transporting velocity within a preset range when, Synchronization Component can enable necking tool and bellows synchronous shift and complete Corrugated pipe fluting；When the transporting velocity of bellows exceedes preset range, casing triggers sense as bellows is subjected to displacement When answering component, Synchronization Component can adjust necking tool rotating speed and enable necking tool and bellows synchronous shift.

2. the lazy-tongs of bellows groover according to claim 1, it is characterised in that the inductive component includes：

Sensor, it is arranged on casing；

Contiguous block, it is arranged on chassis, and connecting rod is movably set with contiguous block, and contiguous block is stretched out simultaneously in one end of the connecting rod It is connected with sensor；

Actuator；It is arranged on casing, and the actuator is connected with necking tool and necking tool can be driven to circumferentially rotate, the biography Sensor electrically connects with actuator；

When casing energy drivening rod is moved to upper limit position along sensor, the sensor can produce induced signal and should Induced signal feeds back to actuator, and the actuator can adjust necking tool rotating speed according to the induced signal of feedback.

3. the lazy-tongs of bellows groover according to claim 1 or 2, it is characterised in that the toolbox bag Include：

Main shaft, it is connected with actuator；

Tool rest, it is arranged on main shaft and the necking tool is arranged on tool rest；

Synchronization Component, it is arranged on tool rest and the both ends of the Synchronization Component are connected with tool rest and main shaft respectively；

The main shaft can drive tool rest to circumferentially rotate and circumferentially rotate necking tool, when the transporting velocity of bellows is in certain limit During interior fluctuation, the Synchronization Component can make necking tool with bellows synchronous shift in the axial direction.

4. the lazy-tongs of bellows groover according to claim 3, it is characterised in that the Synchronization Component includes bullet Property part and guide, the elastic component is sheathed on main shaft and the both ends of elastic component are connected with tool rest and main shaft respectively, described to lead It is arranged to part on the excircle of tool rest, when the transporting velocity of bellows fluctuates 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.

5. the lazy-tongs of bellows groover according to claim 4, it is characterised in that the guide is set including two The guide part being placed on tool rest, offers mounting groove on tool rest and the mounting groove is between two guide parts, the fluting Knife is arranged in mounting groove, and the guiding arc that is connected with guide part, the guiding arc and guide part are provided with the excircle of tool rest Contacted with bellows.

6. the lazy-tongs of bellows groover according to claim 5, it is characterised in that offer and pacify on tool rest The fixing hole that tankage communicates, is provided with fixing screws in fixing hole, and the fixing screws can pass through fixing hole and be resisted against out On groove knife.

7. the lazy-tongs of bellows groover according to claim 6, it is characterised in that be provided with master on main shaft Axle is separated to form the boss of the first main shaft and the second main shaft, and bearing block is provided with the first main shaft, and the tool rest is arranged at On two main shafts, first main shaft can drive the second main shaft to circumferentially rotate and make tool rest drive necking tool to circumferentially rotate.

8. the lazy-tongs of bellows groover according to claim 7, it is characterised in that be arranged with the second main shaft Shaft core, the both ends of the shaft core are connected with boss and tool rest respectively, and some spacing holes through tool rest are offered in end surface of knife holder, Stop screw is provided with spacing hole, one end of the stop screw through spacing hole and is threadedly connected in shaft core, described Second main shaft can drive tool rest to circumferentially rotate by shaft core.

9. the lazy-tongs of bellows groover according to claim 8, it is characterised in that second main shaft it is transversal Face shape is in polygon, and fixing groove corresponding with the second main shaft is offered in shaft core, and second main shaft is arranged in fixing groove It is interior.

10. the lazy-tongs of bellows groover according to claim 9, it is characterised in that in the end of the first main shaft Sprocket wheel is provided with, the bearing block is arranged between sprocket wheel and boss, and the sprocket wheel can drive the first main shaft to circumferentially rotate and lead to Crossing the second main shaft drives tool rest to circumferentially rotate.