CN107414190A - A kind of cylinder sleeve matrix cutting tool - Google Patents
A kind of cylinder sleeve matrix cutting tool Download PDFInfo
- Publication number
- CN107414190A CN107414190A CN201710584817.1A CN201710584817A CN107414190A CN 107414190 A CN107414190 A CN 107414190A CN 201710584817 A CN201710584817 A CN 201710584817A CN 107414190 A CN107414190 A CN 107414190A
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- CN
- China
- Prior art keywords
- cylinder sleeve
- sleeve matrix
- hydraulic cylinder
- cylinder
- cutting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D79/00—Methods, machines, or devices not covered elsewhere, for working metal by removal of material
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q3/00—Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine
- B23Q3/02—Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine for mounting on a work-table, tool-slide, or analogous part
- B23Q3/06—Work-clamping means
- B23Q3/08—Work-clamping means other than mechanically-actuated
- B23Q3/082—Work-clamping means other than mechanically-actuated hydraulically actuated
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q7/00—Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
- B23Q7/06—Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of pushers
Abstract
The invention discloses a kind of cylinder sleeve matrix cutting tool, clamping device is located at feed arrangement exit side, clamping device includes two pieces of grip blocks and the first hydraulic cylinder being oppositely arranged, two pieces of grip blocks are located at cylinder sleeve matrix both sides respectively, the movable end drive connection of grip block and first hydraulic cylinder, and moved forward and backward by first hydraulic cylinder driving;Cutting mechanism is located at clamping device and deviates from feed arrangement side, and cutting mechanism includes the movable end drive connection of cutting wheel and second hydraulic cylinder, cutting wheel and second hydraulic cylinder, and is driven by second hydraulic cylinder closer or far from cylinder sleeve matrix;Pusher is located at cutting mechanism and deviates from clamping device side, and pusher includes scraping wings and the 3rd hydraulic cylinder, and scraping wings is located on cylinder sleeve matrix direction of transfer, the movable end drive connection of scraping wings and the 3rd hydraulic cylinder, and by the 3rd Driven by Hydraulic Cylinder horizontal movement.Cylinder sleeve matrix cutting tool disclosed by the invention, cutting process need not be artificial on duty, reduce labor intensity, improve automaticity.
Description
Technical field
The present invention relates to cylinder sleeve production field, more particularly to a kind of cylinder sleeve matrix cutting tool.
Background technology
Automobile engine be it is a kind of can be the heart of automobile the machine that can be converted into mechanical energy of other forms, shadow
Ring dynamic property, economy and the feature of environmental protection of automobile.Cylinder jacket is engine A levels key as one of main fittings of engine
Parts, its performance directly affect the technical requirements such as the dynamic property of engine, reliability, economy, discharge, noise.
In cylinder sleeve production process, it is necessary to after casting cylinder sleeve matrix carry out fixed length cutting, traditional cutting mode without
Outer artificial cutting and machine cuts.Artificial cutting mode labor intensity is big, and cutting efficiency is low, and cutting effect cannot also be protected
Card.Although machine cuts can realize the hi-precision cutting to cylinder sleeve matrix, and cutting efficiency is high, its cutting accuracy compared with
Difference, it is also necessary to carry out feeding by hand and blanking, automaticity have much room for improvement.
The content of the invention
In view of the deficiencies of the prior art, the present invention provides a kind of cylinder sleeve matrix cutting tool.
The present invention realizes solve above-mentioned technical problem by following technological means:
A kind of cylinder sleeve matrix cutting tool, including feed arrangement and cutter device, the feed arrangement are used to pass cylinder sleeve matrix
Deliver on cutter device, the cutter device is used to cut cylinder sleeve matrix;
The cutter device includes clamping device, cutting mechanism and pusher;
The clamping device is located at feed arrangement exit side, and the clamping device includes the two pieces of grip blocks and first being oppositely arranged
Hydraulic cylinder, two pieces of grip blocks are located at cylinder sleeve matrix both sides, the movable end driving of the grip block and first hydraulic cylinder respectively
Connection, and moved forward and backward by first hydraulic cylinder driving;
The cutting mechanism is located at clamping device and deviates from feed arrangement side, and the cutting mechanism includes cutting wheel and the second hydraulic pressure
Cylinder, the movable end drive connection of the cutting wheel and second hydraulic cylinder, and driven by second hydraulic cylinder closer or far from cylinder sleeve base
Body;
The pusher is located at cutting mechanism and deviates from clamping device side, and the pusher includes scraping wings and the 3rd hydraulic pressure
Cylinder, the scraping wings are located on cylinder sleeve matrix direction of transfer, the movable end drive connection of the scraping wings and the 3rd hydraulic cylinder, and
By the 3rd Driven by Hydraulic Cylinder horizontal movement.
Further, the grip block offers holding tank, the holding tank length direction and cylinder sleeve along its length
The feedstock direction of matrix is parallel, and the clamping groove shape matches with cylinder sleeve base shape.
Further, the cutter device also includes cutting agency, and the cutting agency includes conveyer belt, the conveyer belt
Below the cutting wheel, its direction of motion and the feedstock direction of cylinder sleeve matrix are perpendicular.
Further, guide plate is provided with above the conveyer belt, the guide plate extends to conveyer belt by conveyer belt side
There is angle between the direction of motion of opposite side, its length direction and the conveyer belt.
Further, the cutting agency also includes receiving vat, and the receiving vat is located at one of guide plate away from cutting wheel
End lower section, it is formed by connecting by more rewinding bars, and the axial direction of the rewinding bar is parallel with cylinder sleeve matrix feedstock direction, adjacent receipts
Expect that the distance between bar is less than the external diameter of cylinder sleeve matrix.
Further, the feed arrangement includes conveyer table, and the conveyer table is provided with the axle bed component being oppositely arranged, institute
Stating axle bed component includes multiple axle beds, rotating shaft is set between relative two axle beds, described rotating shaft one end periphery is set with skin
Belt wheel, connected by belt transmission between adjacent belt pulley, at least the output shaft drive connection of a rotating shaft and motor, and by
Motor driving horizontally rotates, and the axial direction of the rotating shaft is parallel with the direction of motion of conveyer belt, and periphery is provided with the middle part of the rotating shaft
Bearing wheels, the bearing wheels are provided with the notch with cylinder sleeve base form fit.
Further, the feed arrangement also includes storing stand, and the storing stand is located above bearing wheels, the storing stand
Working face be plane, from front to back, the storing stand working face gradually increases with respect to the height value on ground, and its lower end is relative
Close to the bearing wheels, the storing stand penetratingly offers groove from top to bottom, and first limiting plate is located at the groove
It is interior, itself and the 4th hydraulic cylinder movable end drive connection, and moved up and down by the 4th Driven by Hydraulic Cylinder, the low side of storing stand is hinged
There is the second limiting plate to be hinged, second limiting plate is hinged with the 5th hydraulic cylinder movable end, and is supported by it.
Further, the feed arrangement includes loading assemblies, the loading assemblies include slide rail, sliding block, drive mechanism,
6th hydraulic cylinder and suspension hook, the sliding block are slidably connected on slide rail, the sliding block and drive mechanism drive connection, and driven
Mechanism drives edge slide rail motion, the length direction of the slide rail and the axial direction of the rotating shaft are parallel to each other, the 6th hydraulic cylinder
Fixing end is connected on the sliding block, the suspension hook and the 6th hydraulic cylinder movable end drive connection, and by the 6th Driven by Hydraulic Cylinder
Move up and down, the suspension hook is used to cylinder sleeve matrix being delivered to storing stand.
Further, material guiding parts are provided between the storing stand and conveyer table, the material guiding parts are used on storing stand
Cylinder sleeve matrix is delivered in the notch of the bearing wheels.
Further, the material guiding parts are the frame structure being formed by connecting by more guide plates, the material guiding parts and level
Angle between face is at 20 ~ 30 °.
Compared with prior art, implementation result of the invention is as follows by the present invention:
Cylinder sleeve matrix is conveyed by feed device, and when in cylinder sleeve substrate motion to cutter device, its one end is close to even and scraping wings
When being in contact, feed device stops conveying, the 3rd Driven by Hydraulic Cylinder scraping wings horizontal movement, wherein, the motion side of scraping wings
To opposite with the direction of motion of cylinder sleeve matrix.When cylinder sleeve matrix is pushed to precalculated position by scraping wings, clamping device is to cylinder sleeve base
Body is clamped.Because before clamping, cylinder sleeve matrix is pushed to precalculated position by scraping wings, this is designed to ensure cutting essence
Degree so that the cylinder sleeve length thereof stable homogeneous obtained after cutting.
Before cutting, cylinder sleeve matrix is pushed to precalculated position by delivery device, and first hydraulic cylinder drives grip block close to cylinder
Matrix is covered, and with realizing the clamping to cylinder sleeve matrix during cylinder sleeve substrate contact.Due to cylinder sleeve matrix being consolidated before cutting
Fixed, cylinder sleeve matrix will not shake in cutting process, ensure that the flatness of cylinder sleeve matrix cut surface after cutting.
Cutting wheel is used to cut cylinder sleeve matrix, and second hydraulic cylinder can drive cutting wheel closer or far from cylinder sleeve base
Body so that feed and cut and be smooth.
Motor-driven rotatable shaft drives bearing wheels to rotate, and the cylinder sleeve matrix fallen in bearing wheels is acted on along conveyer table by bearing wheels
Length direction carries out displacement.During feeding, cylinder sleeve matrix is clamped in the notch of bearing wheels, will not be shaken, and feeding is more
Ground is stable.
Holding tank is set along grip block length direction, and parallel with the feedstock direction of cylinder sleeve matrix, and with cylinder sleeve matrix
Form fit, this is designed to the contact area of farthest increase grip block and cylinder sleeve matrix so that two pieces of grip blocks
Cylinder sleeve matrix can be clamped securely, makes follow-up cutting action smooth, so as to be further ensured that cylinder sleeve after cutting
The flatness of matrix cut surface.
The cylinder sleeve matrix obtained after cutting is fallen by Action of Gravity Field, and being designed to for conveyer belt is set below cutting wheel
Cylinder sleeve matrix is sent out, just the collection and arrangement to cylinder sleeve matrix.
Cylinder sleeve matrix is equipped with storing stand, because storing stand has the gradient, is abutted between cylinder sleeve matrix, positioned at most
Anterior cylinder sleeve matrix is resisted against on the second limiting plate, and latter cylinder sleeve matrix is resisted against on the first limiting plate.During feeding, the 5th liquid
Cylinder pressure drives the second limiting plate to downwardly turn over, and the cylinder sleeve of forefront moves downward along the second limiting plate, and finally falls in bearing wheels
Notch in.At the same time, the 4th hydraulic cylinder movable end shrinks, and it is first spacing to treat that latter cylinder sleeve matrix along storing stand moves disengaging
After plate, the 4th Driven by Hydraulic Cylinder drives the first spacing sheet reset, and the 5th Driven by Hydraulic Cylinder drives the second spacing sheet reset.This design
Can timing feeding into bearing wheels, process prosthetic is on duty, and cylinder sleeve matrix can accurately fall carrying during each feeding
On wheel, process continuity is strong, and the dead time is short, helps to shorten feeding time, so as to improve processing efficiency.
Brief description of the drawings
Fig. 1 is a kind of overall structure diagram for cylinder sleeve matrix cutter device that invention proposes.
Fig. 2 is the structural representation of feed arrangement in Fig. 1.
Fig. 3 is the structural representation of part where Fig. 2 central axis seats.
Fig. 4 is the structural representation of part where storing stand in Fig. 2.
Fig. 5 is part-structure schematic diagram where the feed mechanism for the cylinder sleeve matrix cutter device that invention proposes.
Fig. 6 is the structural representation of part where scraping wings in Fig. 1.
Fig. 7 is the structural representation of part where bearing wheels in Fig. 1.
Embodiment
Illustrate present disclosure below in conjunction with specific embodiments.
As shown in Fig. 1 ~ 7, cylinder sleeve matrix cutter device proposed by the present invention, including feed arrangement and cutter device, it is described
Feed arrangement is used to cylinder sleeve matrix being sent to cutter device, and the cutter device is used to cut cylinder sleeve matrix.
The cutter device includes clamping device, cutting mechanism and pusher.
The clamping device is located at feed arrangement exit side, and the clamping device includes two pieces of grip blocks 19 being oppositely arranged
With first hydraulic cylinder 18, two pieces of grip blocks 19 are located at cylinder sleeve matrix both sides, the grip block 19 and first hydraulic cylinder respectively
18 movable end drive connection, and moved forward and backward by the driving of first hydraulic cylinder 18.
The cutting mechanism is located at clamping device and deviates from feed arrangement side, and the cutting mechanism includes cutting wheel 22 and the
Two hydraulic cylinders, the movable end drive connection of the cutting wheel 22 and second hydraulic cylinder, and driven by second hydraulic cylinder close or remote
From cylinder sleeve matrix.
The pusher is located at cutting mechanism and deviates from clamping device side, and the pusher includes scraping wings 23 and the
Three hydraulic cylinders 24, the scraping wings 23 are located on cylinder sleeve matrix direction of transfer, the work of the hydraulic cylinder 24 of scraping wings 23 and the 3rd
Moved end drive connection, and horizontal movement is driven by the 3rd hydraulic cylinder 24.
Cylinder sleeve matrix is conveyed by feed device, when in cylinder sleeve substrate motion to cutter device, its one end is close to even with pushing away
When flitch 23 is in contact, feed device stops conveying, and the 3rd hydraulic cylinder 24 drives the horizontal movement of scraping wings 23, wherein, pusher
The direction of motion of plate 23 is opposite with the direction of motion of cylinder sleeve matrix.When cylinder sleeve matrix is pushed to precalculated position by scraping wings 23, folder
Mechanism is held to clamp cylinder sleeve matrix.Because cylinder sleeve matrix has been pushed to precalculated position by scraping wings 23 before clamping, this sets
Meter can ensure cutting accuracy so that the cylinder sleeve length thereof stable homogeneous obtained after cutting.
Before cutting, cylinder sleeve matrix is pushed to precalculated position by delivery device, and first hydraulic cylinder 18 drives grip block 19 to lean on
Nearly cylinder sleeve matrix, and with realizing the clamping to cylinder sleeve matrix during cylinder sleeve substrate contact.Due to cylinder sleeve matrix being entered before cutting
Row is fixed, and cylinder sleeve matrix will not shake in cutting process, ensure that the flatness of cylinder sleeve matrix cut surface after cutting.
Cutting wheel is used to cut cylinder sleeve matrix, and second hydraulic cylinder can drive cutting wheel closer or far from cylinder sleeve base
Body so that feed and cut and be smooth.
The grip block 19 offers holding tank 191, the length direction of holding tank 191 and cylinder sleeve base along its length
The feedstock direction of body is parallel, and the shape of holding tank 191 matches with cylinder sleeve base shape.This is designed to farthest increase
Add the contact area of grip block and cylinder sleeve matrix so that two pieces of grip blocks can clamp cylinder sleeve matrix securely, make follow-up cut
Cut that process is smooth, so as to be further ensured that the flatness of cylinder sleeve matrix cut surface after cutting.
The cutter device also includes cutting agency, and the cutting agency includes conveyer belt 20, and the conveyer belt 20 is located at
The lower section of cutting wheel 22, its direction of motion and the feedstock direction of cylinder sleeve matrix are perpendicular.The cylinder sleeve matrix obtained after cutting by
Action of Gravity Field is fallen, and sets conveyer belt to be designed to send out cylinder sleeve matrix below cutting wheel, just to cylinder sleeve base
The collection and arrangement of body.
The top of conveyer belt 20 is provided with guide plate 21, and the guide plate 21 extends to conveyer belt 20 by the side of conveyer belt 20
There is angle between the direction of motion of opposite side, its length direction and the conveyer belt 20.The cylinder sleeve matrix obtained after cutting with
Conveyer belt 20 is moved, and when being contacted with guide plate 21, guide plate 21 is oriented to cylinder sleeve matrix, so as to prevent cylinder sleeve matrix from sliding
Go out conveyer belt 20.
The cutting agency also includes receiving vat, and the receiving vat is located under the one end of guide plate 21 away from cutting wheel 22
Side, it is formed by connecting by more rewinding bars 25, and the axial direction of the rewinding bar 25 is parallel with cylinder sleeve matrix feedstock direction, adjacent receipts
Expect that the distance between bar 25 is less than the external diameter of cylinder sleeve matrix.The cylinder sleeve matrix disengaging conveyer belt 20 being oriented to by guide plate 21, and by
It is clamped in the space of the formation of rewinding bar 25, it is collected and arranged so as to convenient.
The feeding mechanism includes conveyer table 1, and the conveyer table 1 is provided with the axle bed component being oppositely arranged, described
Axle bed component includes multiple axle beds 4, and rotating shaft 5 is set between relative two axle beds 4, and one end periphery of rotating shaft 5 is set with
Belt pulley 6, it is connected by belt 7 between adjacent belt pulley 6, an at least rotating shaft 5 and the output shaft driving of motor 3 connect
Connect, and horizontally rotated by the driving of motor 3, the axial direction of the rotating shaft 5 is parallel with the direction of motion of conveyer belt 7, in the rotating shaft 5
Portion periphery is provided with bearing wheels 8, and the bearing wheels 8 are provided with the notch with cylinder sleeve base form fit.
The drive shaft 5 of motor 3 drives bearing wheels 8 to rotate, and the cylinder sleeve matrix fallen in bearing wheels 8 is acted on edge by bearing wheels 8
The length direction of conveyer table 1 carries out displacement.During feeding, cylinder sleeve matrix is clamped in the notch of bearing wheels 8, will not be shaken,
Feeding is more stable.
The bearing wheels 8 include supporting part 82 and the limiting section 81 positioned at supporting part both sides, the supporting part 82 and spacing
Portion 81 is coaxially disposed, and on the direction close to supporting part 82, the vertical section product of the limiting section 81 is gradually reduced, the carrying
Portion 82 and limiting section 81 cooperatively form the notch.
It is spacing by limiting section 81 after cylinder sleeve substrate motion is in bearing wheels 8, and it is clamped in supporting part 82 and limiting section 81
In the notch of formation, it will not be shifted in motion process, transmit process is more steady.
The feed arrangement also includes storing stand 2, and the storing stand 2 is located at the top of bearing wheels 8, the work of the storing stand 2
It is plane to make face, and from front to back, the working face of storing stand 2 gradually increases with respect to the height value on ground, and its lower end is relative to be leaned on
The nearly bearing wheels 8, the storing stand 2 penetratingly offer groove from top to bottom, and first limiting plate 18 is positioned at described logical
In groove, itself and the movable end drive connection of the 4th hydraulic cylinder 19, and driven and moved up and down by the 4th hydraulic cylinder 19, storing stand 2 it is low
Side is hinged with the second limiting plate 9 and is hinged, and second limiting plate 9 is hinged with the movable end of the 5th hydraulic cylinder 10, and is supported by it.
Cylinder sleeve matrix is equipped with storing stand 2, because storing stand 2 has the gradient, abuts, is located between cylinder sleeve matrix
The cylinder sleeve matrix of forefront is resisted against on the second limiting plate 9, and latter cylinder sleeve matrix is resisted against on the first limiting plate 18.During feeding,
5th hydraulic cylinder 10 drives the second limiting plate 9 to downwardly turn over, and the cylinder sleeve of forefront moves downward along the second limiting plate 9, and finally
Fall in the notch of bearing wheels 8.At the same time, the movable end of the 4th hydraulic cylinder 19 shrinks, and treats that latter cylinder sleeve matrix is transported along storing stand 2
After the first limiting plate 18 of dynamic disengaging, the driving of the 4th hydraulic cylinder 19 drives the first limiting plate 18 to reset, and the 5th Driven by Hydraulic Cylinder drives
Second limiting plate 9 resets.This is designed to timing feeding into bearing wheels, and process prosthetic is on duty, cylinder sleeve base during each feeding
Body accurately can fall in bearing wheels, and process continuity is strong, and the dead time is short, help to shorten feeding time, so as to carry
High processing efficiency.
The feed arrangement includes loading assemblies, and the loading assemblies include slide rail 16, sliding block 17, drive mechanism, the 6th
Hydraulic cylinder 14 and suspension hook 12, the sliding block 17 are slidably connected at 16 on slide rail, the sliding block 17 and drive mechanism drive connection, and
Mechanism drives edge slide rail 16 driven moves, and the length direction of the slide rail 16 and the axial direction of the rotating shaft 5 are parallel to each other, described
The fixing end of 6th hydraulic cylinder 14 is connected on the sliding block 17, suspension hook 12 and the 6th hydraulic cylinder 14 the movable end drive connection,
And up and down motion is driven by the 6th hydraulic cylinder 14, specifically, the movable end of the 6th hydraulic cylinder 14 is connected in supporting plate 13, multiple to hang
Hook 12 is connected in supporting plate 13, and multiple suspension hooks 12 cooperate, for cylinder sleeve matrix to be delivered into storing stand 2.
Feed mechanism feeding comprises the following steps:Drive mechanism driving sliding block 17 moves along slide rail 16, and the 6th cylinder 14 drives
Dynamic suspension hook 12 is descending, and to after precalculated position, suspension hook 12 triggers the cylinder sleeve matrix after casting.Thereafter, drive mechanism driving sliding block 17
Counter motion, the 6th cylinder 14 driving suspension hook 12 resets, and after suspension hook 12 is close to storing stand 2, the motion of sliding block 17 stops, the 6th gas
The driving suspension hook 12 of cylinder 14 is descending, and the cylinder sleeve matrix on suspension hook 12 falls on storing stand 2.
Because there is provided feed mechanism so that there is a cylinder sleeve matrix to enter in time to cylinder sleeve matrix after skidding off storing stand 2
Row supplement, this is designed to the generation for preventing fracture phenomenon so that cutting process is carried out continuously, and process is without interruption.
Material guiding parts 11 are provided between the storing stand and conveyer table, the material guiding parts 11 are used for the cylinder sleeve on storing stand 2
Matrix is delivered in the notch of the bearing wheels 8.This is designed to enable cylinder sleeve matrix accurately to fall the notch in bearing wheels 8
It is interior.To reduce the weight of material guiding parts 11, to facilitate installation, and manufacturing cost is reduced, the material guiding parts 11 are to be led by more
The frame structure being formed by connecting to plate, the angle between the material guiding parts and horizontal plane is at 20 ~ 30 °.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
All any modification, equivalent and improvement made within refreshing and principle etc., should be included in the scope of the protection.
Claims (10)
1. a kind of cylinder sleeve matrix cutting tool, it is characterised in that including feed arrangement and cutter device, the feed arrangement is used for
Cylinder sleeve matrix is sent on cutter device, the cutter device is used to cut cylinder sleeve matrix;
The cutter device includes clamping device, cutting mechanism and pusher;
The clamping device is located at feed arrangement exit side, and the clamping device includes the two pieces of grip blocks and first being oppositely arranged
Hydraulic cylinder, two pieces of grip blocks are located at cylinder sleeve matrix both sides, the movable end driving of the grip block and first hydraulic cylinder respectively
Connection, and moved forward and backward by first hydraulic cylinder driving;
The cutting mechanism is located at clamping device and deviates from feed arrangement side, and the cutting mechanism includes cutting wheel and the second hydraulic pressure
Cylinder, the movable end drive connection of the cutting wheel and second hydraulic cylinder, and driven by second hydraulic cylinder closer or far from cylinder sleeve base
Body;
The pusher is located at cutting mechanism and deviates from clamping device side, and the pusher includes scraping wings and the 3rd hydraulic pressure
Cylinder, the scraping wings are located on cylinder sleeve matrix direction of transfer, the movable end drive connection of the scraping wings and the 3rd hydraulic cylinder, and
By the 3rd Driven by Hydraulic Cylinder horizontal movement.
2. cylinder sleeve matrix cutting tool according to claim 1, it is characterised in that the grip block is opened along its length
Provided with holding tank, the holding tank length direction is parallel with the feedstock direction of cylinder sleeve matrix, the clamping groove shape and cylinder sleeve
Base shape matches.
3. cylinder sleeve matrix cutting tool according to claim 1, it is characterised in that the cutter device also includes blanking machine
Structure, the cutting agency include conveyer belt, and the conveyer belt is located at below the cutting wheel, its direction of motion and cylinder sleeve matrix
Feedstock direction is perpendicular.
4. cylinder sleeve matrix cutting tool according to claim 3, it is characterised in that be provided with and be oriented to above the conveyer belt
Plate, the guide plate extend to conveyer belt opposite side by conveyer belt side, the direction of motion of its length direction and the conveyer belt
Between there is angle.
5. cylinder sleeve matrix cutting tool according to claim 4, it is characterised in that the cutting agency also includes rewinding
Groove, the receiving vat are located at below the one end of guide plate away from cutting wheel, and it is formed by connecting by more rewinding bars, the rewinding bar
Axial direction it is parallel with cylinder sleeve matrix feedstock direction, the distance between adjacent rewinding bar be less than cylinder sleeve matrix external diameter.
6. cylinder sleeve matrix cutting tool according to claim 1, it is characterised in that the feed arrangement includes conveyer table,
The conveyer table is provided with the axle bed component that is oppositely arranged, and the axle bed component includes multiple axle beds, relative two axle beds it
Between be set with rotating shaft, described rotating shaft one end periphery is set with belt pulley, connected between adjacent belt pulley by belt transmission, extremely
A few rotating shaft and the output shaft drive connection of motor, and horizontally rotated by motor driving, the axial direction of the rotating shaft and conveyer belt
The direction of motion it is parallel, periphery is provided with bearing wheels in the middle part of the rotating shaft, the bearing wheels provided with and cylinder sleeve base form fit
Notch.
7. cylinder sleeve matrix cutting tool according to claim 6, it is characterised in that the feed arrangement also includes storing
Platform, the storing stand are located above bearing wheels, and the working face of the storing stand is plane, from front to back, the storing stand work
Face gradually increases with respect to the height value on ground, and the relatively close bearing wheels of its lower end, the storing stand runs through from top to bottom
Ground offers groove, and first limiting plate is located in the groove, itself and the 4th hydraulic cylinder movable end drive connection, and by
Four Driven by Hydraulic Cylinder move up and down, and the low side of storing stand is hinged with the second limiting plate and is hinged, second limiting plate and the 5th
Hydraulic cylinder movable end is hinged, and is supported by it.
8. cylinder sleeve matrix cutting tool according to claim 1, it is characterised in that the feed arrangement includes feeding group
Part, the loading assemblies include slide rail, sliding block, drive mechanism, the 6th hydraulic cylinder and suspension hook, and the sliding block is slidably connected at slide rail
On, the sliding block and drive mechanism drive connection, and mechanism drives edge slide rail driven moves, the length direction of the slide rail with
The axial direction of the rotating shaft is parallel to each other, and the 6th hydraulic cylinder fixing end is connected on the sliding block, the suspension hook and the 6th liquid
Cylinder pressure movable end drive connection, and moved up and down by the 6th Driven by Hydraulic Cylinder, the suspension hook is used to cylinder sleeve matrix being delivered to storage
Expect on platform.
9. cylinder sleeve matrix cutting tool according to claim 1, it is characterised in that set between the storing stand and conveyer table
There are material guiding parts, the material guiding parts are used to the cylinder sleeve matrix on storing stand being delivered in the notch of the bearing wheels.
10. cylinder sleeve matrix cutting tool according to claim 9, it is characterised in that the material guiding parts are by more guiding
The frame structure that plate is formed by connecting, the angle between the material guiding parts and horizontal plane is at 20 ~ 30 °.
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CN201710584817.1A CN107414190A (en) | 2017-07-18 | 2017-07-18 | A kind of cylinder sleeve matrix cutting tool |
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CN201710584817.1A CN107414190A (en) | 2017-07-18 | 2017-07-18 | A kind of cylinder sleeve matrix cutting tool |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107900464A (en) * | 2017-12-28 | 2018-04-13 | 重庆海国科技有限公司 | A kind of auto-manual system fixed-length cutting device |
CN111842998A (en) * | 2020-07-28 | 2020-10-30 | 中原内配集团安徽有限责任公司 | Online milling hole processing equipment for cylinder sleeve of internal combustion engine |
CN113561384A (en) * | 2021-07-29 | 2021-10-29 | 杨雨晴 | Automatic processing device for chemical production plastic barrel |
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