CN106495457A - Cutter sweep produced in batches by a kind of isometric glass tubing - Google Patents
Cutter sweep produced in batches by a kind of isometric glass tubing Download PDFInfo
- Publication number
- CN106495457A CN106495457A CN201610990552.0A CN201610990552A CN106495457A CN 106495457 A CN106495457 A CN 106495457A CN 201610990552 A CN201610990552 A CN 201610990552A CN 106495457 A CN106495457 A CN 106495457A
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- China
- Prior art keywords
- glass tubing
- axis
- motor
- plate
- hydraulic cylinder
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B9/00—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor
- B24B9/02—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground
- B24B9/06—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground of non-metallic inorganic material, e.g. stone, ceramics, porcelain
- B24B9/08—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground of non-metallic inorganic material, e.g. stone, ceramics, porcelain of glass
-
- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B33/00—Severing cooled glass
- C03B33/06—Cutting or splitting glass tubes, rods, or hollow products
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P40/00—Technologies relating to the processing of minerals
- Y02P40/50—Glass production, e.g. reusing waste heat during processing or shaping
- Y02P40/57—Improving the yield, e-g- reduction of reject rates
Abstract
The invention provides cutter sweep produced in batches by a kind of isometric glass tubing, including base and lifter plate, backing plate is slidably connected on the lifter plate, the backing plate is provided with roller, the lifter plate is provided with clamp system, cutting mechanism is additionally provided with the backing plate, milling mechanism is additionally provided with the lifter plate, the clamp system is divided into the first clamp system and the second clamp system, first clamp system includes the first motor and the first drive link, the cutting mechanism includes support and cutting knife placed on it, the support is provided with the first arc pressuring plate and the second arc pressuring plate, the milling cutter that the milling mechanism is included side wall and is slidably connected with which, slide plate is slidably connected on the backing plate.Cutter sweep produced in batches by a kind of isometric glass tubing of the present invention, and the efficient cutting and milling for completing isometric glass tubing, without the need for staff's manual operations in whole process, reduces the potential safety hazard of staff, improve production efficiency and reduce processing cost.
Description
Technical field
The invention belongs to glass tubing manufacture field, produces cutter sweep in batches more particularly, to a kind of isometric glass tubing.
Background technology
Application of the glass in our life and production is relatively broad, and consumption is also larger, especially the use of glass tubing,
Range of application is wider, and the batch of manufacturer production glass tubing also increases therewith, and the raising with competitiveness, and high efficiency is high-quality
Market can be just seized in the processing for completing glass tubing, obtain the accreditation of people, and in existing production, glass tubing is cut
Cut without specific equipment, simply glass tubing is processed using the relevant device of glass plate, in such cases, the effect of processing
Rate is relatively low, and precision is poor, it is impossible to meet process requirements, and when cutting to glass tubing, due to unbalance stress often
Glass tubing fragmentation is easily lead to, the yield rate of production is reduced, in order to obtain high-quality glass tubing, after cutting is completed,
Can typically increase by a step manually to grind, this kind of mode, not only cost of idle time, and be easy to scratch staff, be unfavorable for
Production, for this kind of situation, the present invention proposes a kind of isometric glass tubing and produces cutter sweep in batches, by production after glass tubing
This equipment can directly be entered carries out cutting milling, mitigates the workload of staff, realizes the automatic of glass tubing batch machining
Change, improve production efficiency and Product Precision is higher.
Content of the invention
In view of this, it is contemplated that proposing a kind of isometric glass tubing produces cutter sweep in batches, high with Automated condtrol
Effect is high-quality to complete glass tubing batch machining, reduces production cost.
For reaching above-mentioned purpose, the technical scheme is that and be achieved in that:
Cutter sweep produced in batches by a kind of isometric glass tubing, including base and lifter plate placed on it, the base and
Connected by elevating mechanism between the lifter plate, on the lifter plate, slidably connect backing plate, the backing plate is provided with multiple
The uniform roller of single-row arrangement, the lifter plate are provided with clamp system, and the clamp system is placed in symmetrical two of the backing plate
Side, is additionally provided with cutting mechanism on the backing plate, the cutting mechanism is placed in the front of the roller, is additionally provided with the lifter plate
Milling mechanism;
The clamp system is divided into the first clamp system and the second clamp system for being respectively symmetrically setting, and described first clamps
The parallel outside for being placed in second clamp system of mechanism, first clamp system include the first motor and the first transmission
Bar, drives gear pair to rotate and then drive two the first parallel drive rod rotations by the first motor, so as to the first nut
The first claw movement thereon is driven, first hydraulic cylinder is provided with by the first fixed plate on first nut, first liquid
Second hydraulic cylinder, the second hydraulic stem top of the second hydraulic cylinder are fixed with by the first connecting plate on first hydraulic stem of cylinder pressure
Portion is connected with first claw, and the axis of first hydraulic stem is vertical with the axis of first drive link, and described second
The axis of hydraulic stem is vertical with the axis of first hydraulic stem, and second clamp system includes the second motor and first
Thick stick pair of nut, drives first screw pair to rotate by the second motor, and then drives the second claw movement thereon,
The first nut on first screw pair is provided with the 3rd hydraulic cylinder, passes through on the 3rd hydraulic stem of the 3rd hydraulic cylinder
Second connecting plate is fixed with the 4th hydraulic cylinder, and the 4th hydraulic rod top of the 4th hydraulic cylinder is connected with second claw,
The axis of the 3rd hydraulic stem is vertical with the axis of first screw pair, the axis of the 4th hydraulic stem with described
The axis of the 3rd hydraulic stem is vertical, the diameter parallel of the axis of first screw pair and first drive link;
The cutting mechanism includes that support and cutting knife placed on it, the support are provided with the first arc pressuring plate and
Two arc pressuring plates, are provided with the first arcuate groove in first arc pressuring plate, drive the first slide block to exist by three-motor
Slide in first arcuate groove, and then drive the second arc pressuring plate on first slide block to slide, second arc
The second arcuate groove is provided with connecting plate, and the second slide block that the cutting knife is placed on second arcuate groove is made by the 4th motor
Slide along its track, the bottommost of first arc pressuring plate and second arc pressuring plate crosses center in the glass tubing
Above the horizontal plane of axle;
The milling cutter that the milling mechanism is included side wall and is slidably connected with which, slidably connects slide plate, institute on the backing plate
State and plectane is rotatably connected on slide plate, be arranged with the 5th hydraulic cylinder, the 5th hydraulic pressure of the 5th hydraulic cylinder on the plectane
The top board of bar is provided with the 3rd claw, the axis of the 5th hydraulic stem and the diameter parallel of the roller, the axis of the plectane
Cross the axis of glass tubing and vertical with the axis of the glass tubing.
Further, the diameter parallel of the axis of first drive link and first screw pair, and with described
The axis of roller is vertical, the diameter parallel of the axis of second hydraulic stem and the 4th hydraulic stem with the roller.
Further, the screw rod both sides of first drive link and first screw pair are equipped with controlling switch,
The distance between described controlling switch is identical, and on the screw rod on first drive link and first screw pair
Controlling switch position formed straight line vertical with the axis of first drive link, the controlling switch respectively with described
First motor and the second electronic mechatronics.
Further, on first claw, second claw and the 3rd claw with the glass tubing contact site
It is arranged with the outside of improved mat, and the improved mat and is provided with a plurality of projection, the center line and the glass tubing of the projection
Axially in parallel, the improved mat adopts the thickness of elastomeric material, first claw and second claw to be less than the glass
The distance between glass pipe and described second arc pressuring plate.
Further, the afterbody of the cutting knife and second slide block are rotated and are connected, the cutting knife and second slide block
Between be additionally provided with the 3rd arc pressuring plate, the centrage of the 3rd arc pressuring plate and the rotation overlapping of axles of the cutting knife, lead to
Cross the movement in a curve that the 5th motor drives the cutting knife along the 3rd arc pressuring plate.
Further, the support is provided with and centrage vertical with the glass tubing and is placed on the glass tubing axis
Connecting plate, is fixedly connected by support shaft between the connecting plate and first arc pressuring plate, and the three-motor is placed in which
On, and by the first slide block movement described in the relative movement drives of the connecting rod being fixedly connected with its power transmission shaft, the described 3rd is electronic
The diameter parallel of the axis of the power transmission shaft of machine and the glass tubing, the center of circle of second arc pressuring plate and the glass tubing
Dead in line.
Further, connection is rotated by worm couple between the slide plate and the plectane, by the 6th motor
Drive the worm screw for being coaxial therewith the heart to rotate, and then drive the concentric plectane being placed on worm gear to rotate, the backing plate passes through
Second screw pair makes the slide plate along its axis direction slip, the axis of second screw pair and the roller
Axis is vertical, and the side wall drives side plate motion, and then band by the 3rd screw pair being connected with the 9th motor rotation
Dynamic placed on it with the concentric connection of the 7th motor milling cutter along the direction of motion of the nut of the 3rd screw pair
Slide, the axis of the 3rd screw pair is vertical with the backing plate.
Further, the elevating mechanism includes the crane of multigroup X-shaped cross-distribution, the top difference of the crane
It is connected with the lower rotation of the lifter plate, the bottom end of the X-shaped of the crane is connected with the base rotation, the other end
It is slidably connected with the base by slide bar, the slide bar is slidably connected by the 6th hydraulic cylinder and the base, the described 6th
The axis of hydraulic cylinder is vertical with the glide direction of the slide bar.
Further, the guide rail slide block of multiple cooperations, the guide rail slide block are provided between the lifter plate and the backing plate
Between be provided with the 3rd screw pair parallel with its glide direction, by the 8th motor drive be placed in the 3rd leading screw spiral shell
Backing plate in female pair slides along direction motion, the diameter parallel of the axis of the guide rail slide block and the roller.
Further, the base is provided with control unit, first motor, second motor, described
Three-motor, the 4th motor, the 5th motor, the 6th motor, the 7th motor and described
Eight motor are electrically connected with described control unit and are controlled respectively, the first hydraulic cylinder, the second hydraulic cylinder, described
Three hydraulic cylinders, the 4th hydraulic cylinder and the 5th hydraulic cylinder and the 6th hydraulic cylinder equally respectively with described control unit
Electrical connection.
Relative to prior art, a kind of isometric glass tubing batch production cutter sweep of the present invention has following excellent
Gesture:
(1) cutter sweep produced in batches by a kind of isometric glass tubing of the present invention, in the strip glass tubing for machining
When exporting by roller-way, by height of the equipment by elevating mechanism regulation roller, the glass tubing of strip is made to enter roller, due to
The continuation transmission of roller-way, glass tubing are travelled forward on roller, to roller a certain distance is stretched out, which are pressed from both sides by clamp system
Fasten, be then fed into cutting mechanism, cut in the position of regular length, then eventually through milling mechanism to glass tubing
Two ends carry out milling, it is ensured that cutting edge impulse- free robustness, and whole process realizes that automatization processes, and mitigates the workload of staff, with
This reduces the time of substep processing simultaneously, it is adaptable to produces in batches, improves production efficiency and Product Precision is higher.
(2) diameter parallel of the axis of the first drive link of the present invention and first screw pair, and with institute
The axis for stating roller is vertical, the diameter parallel of the axis of second hydraulic stem and the 4th hydraulic stem with the roller.
Ensure that clamp system moves along a straight line during glass tubing transmission, be easy to completing for follow-up work, by the second hydraulic stem
And the 4th hydraulic stem the altitude mixture control crisscross motion that completes between two clamp systems, improve working (machining) efficiency.
(3) the screw rod both sides of the first drive link of the present invention and first screw pair are equipped with control and open
Close, the distance between described controlling switch is identical, and the spiral shell on first drive link and first screw pair
The straight line that the position of the controlling switch on bar is formed is vertical with the axis of first drive link, the controlling switch respectively with
First motor and the second electronic mechatronics.Ensure that clamp system is stop motion in fixed position, realize glass
The isometric processing of glass pipe batch, is easy to the operating start and stop for controlling motor, makes program simpler by controlling switch, and control is more
Plus it is accurate.
(4) contact with the glass tubing on the first claw of the present invention, second claw and the 3rd claw
Part is provided with the outside of improved mat, and the improved mat and is provided with a plurality of projection, the center line and the glass tubing of the projection
Axially in parallel, the improved mat adopts the thickness of elastomeric material, first claw and second claw less than described
The distance between glass tubing and described second arc pressuring plate (706).The claw of metal material is prevented as excessive power is damaged
Glass tubing and in clamping process by a plurality of raised increasing friction force, prevent from moving during glass tubing is processed, cause
Processing is bad, it is ensured that the precision of glass tubing cutting.
(5) afterbody of cutting knife of the present invention is rotated with second slide block and is connected, and the cutting knife and described second is slided
The 3rd arc pressuring plate, the centrage of the 3rd arc pressuring plate and the rotation overlapping of axles of the cutting knife is additionally provided between block,
The cutting knife is driven along the movement in a curve of the 3rd arc pressuring plate by the 5th motor.By the 3rd arc pressuring plate reality
The rotation of existing cutting knife, when not in use, cutting knife is parallel with base, passes through clamp system, and glass tubing reaches commitment positions
When cutting knife is started working, the part that cutting knife works is moved on to below glass tubing by the 3rd arc pressuring plate, it is ensured that complete cuts
Cut glass tubing.
(6) support of the present invention is provided with and centrage vertical with the glass tubing and is placed on the glass tubing axis
Connecting plate, be fixedly connected by support shaft between the connecting plate and first arc pressuring plate, the three-motor is placed in
Thereon, and by the first slide block movement described in the relative movement drives of the connecting rod being fixedly connected with its power transmission shaft, the 3rd electricity
The diameter parallel of the axis of the power transmission shaft of motivation and the glass tubing, the center of circle of second arc pressuring plate and the glass
The dead in line of pipe.Ensure that clamp system is not interfered with which by the setting of this kind of mode, and can equally complete the circle of glass tubing
Week cutting, this kind of cutting mode glass tubing are difficult to burst in process, improve the yield rate of processing.
(7) connection is rotated by worm couple between slide plate of the present invention and the plectane, electronic by the 6th
Machine drives the worm screw for being coaxial therewith the heart to rotate, and then drives the concentric plectane being placed on worm gear to rotate, and the backing plate leads to
Crossing the second screw pair makes the slide plate along its axis direction slip, the axis of second screw pair and the roller
Axis vertical, the side wall drives side plate to move by the 3rd screw pair be connected with the 9th motor rotation, and then
Drive placed on it with the concentric connection of the 7th motor milling cutter along the side of moving of the nut of the 3rd screw pair
To slip, the axis of the 3rd screw pair is vertical with the backing plate.Passed through in milling by this kind of mode other
Clamp system is completed, and makes the continual work of cutting mechanism, improves working (machining) efficiency, and by glass tubing rotation, 90 degree are processed, and save
About processing space, and it is easy to the two ends to glass tubing to carry out milling.
(8) elevating mechanism of the present invention includes the crane of multigroup X-shaped cross-distribution, the upper part of the crane
It is not connected with the lower rotation of the lifter plate, the bottom end of the X-shaped of the crane is connected with the base rotation, another
End is slidably connected with the base by slide bar, and the slide bar is slidably connected by the 6th hydraulic cylinder and the base, and described the
The axis of six hydraulic cylinders is vertical with the glide direction of the slide bar.It is adjusted according to different height by this kind of mode, is tied
Structure simple and stable.
(9) base of the present invention is provided with control unit, first motor, second motor, described
Three-motor, the 4th motor, the 5th motor, the 6th motor, the 7th motor and described
8th motor is electrically connected with described control unit and is controlled respectively, the first hydraulic cylinder, the second hydraulic cylinder, described
3rd hydraulic cylinder, the 4th hydraulic cylinder and the 5th hydraulic cylinder and the 6th hydraulic cylinder are equally single with the control respectively
Unit's electrical connection.Realize auto-control, it is ensured that the normal operation of production so as to which orderly carrying out produces, improve production efficiency and
Save production cost.
Description of the drawings
The accompanying drawing for constituting the part of the present invention is used for providing a further understanding of the present invention, the schematic reality of the present invention
Apply example and its illustrate, for explaining the present invention, not constituting inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is a kind of isometric glass tubing batch production cutter sweep structural representation described in the embodiment of the present invention;
Fig. 2 is a kind of isometric glass tubing batch production cutter sweep clamp system structural representation described in the embodiment of the present invention
Figure;
Fig. 3 is a kind of isometric glass tubing batch production cutter sweep cutting mechanism structural representation described in the embodiment of the present invention
Figure;
Fig. 4 is that a kind of isometric glass tubing batch production cutter sweep arc pressuring plate described in the embodiment of the present invention is laterally tied
Structure schematic diagram;
Fig. 5 is produced in batches before cutter sweep arc pressuring plate to knot for a kind of isometric glass tubing described in the embodiment of the present invention
Structure schematic diagram;
Fig. 6 is a kind of isometric glass tubing batch production cutter sweep milling mechanism structural representation described in the embodiment of the present invention
Figure.
Description of reference numerals:
1- bases;The 6th hydraulic cylinders of 2-;3- slide bars;4- cranes;5- lifter plates;6- millings mechanism;7- cutting mechanisms;8-
Second clamp system;The first clamp systems of 9-;10- glass tubings;11- rollers;12- backing plates;13- guide rail slide blocks;The 3rd leading screws of 14-
Pair of nut;The 8th motor of 15-;601- sides wall;602- slide plates;The second screw pairs of 603-;The 6th motor of 604-;605-
Plectane;The 5th hydraulic cylinders of 606-;The 3rd claws of 607-;The 9th motor of 608-;The 3rd screw pairs of 609-;610- milling cutters;
611- side plates;The 7th motor of 612-;701- supports;702- three-motors;703- connecting plates;The first arc pressuring plates of 704-;
705- connecting rods;The second arc pressuring plates of 706-;707- cutting knifes;708- support shafts;The first slide blocks of 709-;The 3rd arcs of 710- connect
Plate;The second motor of 801-;The first screw pairs of 802-;The first nuts of 803-;The second claws of 804-;The 4th hydraulic pressure of 805-
Bar;The 4th hydraulic cylinders of 806-;The second connecting plates of 807-;The 3rd hydraulic cylinders of 808-;The first motor of 901-;902- gear pairs;
The first fixed plates of 903-;904- first hydraulic cylinders;905- second hydraulic cylinders;The first connecting plates of 906-;The first claws of 907-;908-
First drive link.
Specific embodiment
It should be noted that in the case where not conflicting, embodiment and the feature in embodiment in the present invention can phases
Mutually combine.
In describing the invention, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", " on ", D score,
The orientation of instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " or position relationship are
Based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than indicate or dark
Show that the device or element of indication must be with specific orientation, with specific azimuth configuration and operation, therefore it is not intended that right
The restriction of the present invention.Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicating or hint phase
To importance or the implicit quantity for indicating indicated technical characteristic.Thus, the feature for defining " first ", " second " etc. can
To express or implicitly include one or more this feature.In describing the invention, unless otherwise stated, " multiple "
It is meant that two or more.
In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase
Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or be integrally connected;Can
Being to be mechanically connected, or electrically connect;Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi
The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood by concrete condition
Concrete meaning in the present invention.
Below with reference to the accompanying drawings and in conjunction with the embodiments describing the present invention in detail.
Cutter sweep produced in batches by a kind of isometric glass tubing as shown in Figure 1, including base 1 and lifter plate 5 placed on it,
Connected by elevating mechanism between the base 1 and the lifter plate 5, on the lifter plate 5, slidably connect backing plate 12, described
Backing plate 12 is provided with the roller 11 of multiple uniformly single-row arrangements, and the lifter plate 5 is provided with clamp system, and the clamping machine is set up
In the symmetrical both sides of the backing plate 12, cutting mechanism 7 on the backing plate 12, is additionally provided with, the cutting mechanism 7 is placed in the roller
11 front, is additionally provided with milling mechanism 6 on the lifter plate 5;The clamp system is divided into the first clamping for being respectively symmetrically setting
Mechanism 9 and the second clamp system 8, the parallel outside for being placed in second clamp system 8 of first clamp system 9, described
One clamp system 9 includes the first motor 901 and the first drive link 908, drives 902 turns of gear pair by the first motor 901
Dynamic and then two the first parallel drive links 908 of drive are rotated, so as to the first nut drives the first claw 907 thereon to move,
First hydraulic cylinder 904, the first hydraulic pressure of the first hydraulic cylinder 904 are provided with by the first fixed plate 903 on first nut
Second hydraulic cylinder 905 is fixed with by the first connecting plate 906 on bar, the second hydraulic rod top of the second hydraulic cylinder 905 with
First claw 907 connects, and the axis of first hydraulic stem is vertical with the axis of first drive link 908, and described
The axis of two hydraulic stems is vertical with the axis of first hydraulic stem, and second clamp system 8 includes 801 He of the second motor
First screw pair 802, drives first screw pair 802 to rotate by the second motor 801, and then drives thereon
The second claw 804 move, the first nut 803 on first screw pair 802 is provided with the 3rd hydraulic cylinder 808, described
The 4th hydraulic cylinder 806 is fixed with by the second connecting plate 807 on 3rd hydraulic stem of the 3rd hydraulic cylinder 808, the 4th hydraulic pressure
It is connected with second claw 804 at the top of 4th hydraulic stem 805 of cylinder 806, the axis and described first of the 3rd hydraulic stem
The axis of screw pair 802 is vertical, and the axis of the 4th hydraulic stem 805 is vertical with the axis of the 3rd hydraulic stem, institute
State the axis of the first screw pair 802 and the diameter parallel of first drive link 908;The cutting mechanism 7 includes support
701 and cutting knife 707 placed on it, the support 701 is provided with the first arc pressuring plate 704 and the second arc pressuring plate 706,
The first arcuate groove is provided with first arc pressuring plate 704, the first slide block 709 is driven described by three-motor 702
Slide in first arcuate groove, and then drive the second arc pressuring plate 706 on first slide block 709 to slide, second arc
The second arcuate groove is provided with shape connecting plate 706, and the second slide block that the cutting knife 707 is placed on second arcuate groove passes through the 4th
Motor makes to slide along its track, and the bottommost of first arc pressuring plate 704 and second arc pressuring plate 706 is in institute
State glass tubing to cross above the horizontal plane of central shaft;The milling cutter 610 that the milling mechanism 6 is included side wall 601 and is slidably connected with which,
Slide plate 602 is slidably connected on the backing plate 12, is rotatably connected to plectane 605 on the slide plate 602, right on the plectane 605
Claim to be provided with the 5th hydraulic cylinder 606, the top board of the 5th hydraulic stem of the 5th hydraulic cylinder 606 is provided with the 3rd claw 607, described the
The diameter parallel of the axis of five hydraulic stems and the roller 11, the axis of the plectane 605 cross the axis of glass tubing 10 and with institute
The axis for stating glass tubing 10 is vertical.When the strip glass tubing 10 for machining is exported by roller-way, equipment is passed through elevator
Structure adjusts the height of roller 11, makes the glass tubing 10 of strip enter roller 11, and as the continuation of roller-way is transmitted, glass tubing 10 exists
Travel forward on roller 11, to 11 a certain distance of roller is stretched out, which is fixedly clamped by clamp system, is then fed into cutting
Mechanism 7, is cut in the position of regular length, then carries out milling eventually through milling mechanism 6 to the two ends of glass tubing 10, is protected
Card cutting edge impulse- free robustness, whole process realize that automatization processes, and mitigate the workload of staff, at the same time reduce substep
The time of processing, it is adaptable to produce in batches, improve production efficiency and Product Precision is higher.
Wherein, the diameter parallel of the axis of first drive link 908 and first screw pair 802, and with institute
The axis for stating roller 11 is vertical, the axle of the axis of second hydraulic stem and the 4th hydraulic stem 805 with the roller 11
Line is parallel.Ensure that clamp system moves along a straight line during the transmission of glass tubing 10, be easy to completing for follow-up work, by the
The altitude mixture control of two hydraulic stems and the 4th hydraulic stem 805 completes the crisscross motion between two clamp systems, improves processing effect
Rate.
Wherein, the screw rod both sides of first drive link 908 and first screw pair 802 are equipped with control and open
Close, the distance between described controlling switch is identical, and on first drive link 908 and first screw pair 802
The straight line that the position of the controlling switch on the screw rod is formed is vertical with the axis of first drive link 908, the control
Switch is electrically connected with first motor 901 and second motor 801 respectively.Ensure that clamp system in fixed position is
Stop motion, realizes the isometric processing of 10 batch of glass tubing, is easy to the operating start and stop for controlling motor by controlling switch, makes journey
Sequence is simpler, controls more accurate.
Wherein, on first claw 907, second claw 804 and the 3rd claw 607 with the glass tubing 10
Contact portion is provided with the outside of improved mat, and the improved mat and is provided with a plurality of projection, the center line and the glass of the projection
Glass pipe 10 axially in parallel, the improved mat adopts elastomeric material, first claw 907 and second claw 804
Thickness is less than the distance between the glass tubing 10 and described second arc pressuring plate 706.Prevent the claw of metal material due to
Excessive power damages glass tubing 10 and in clamping process by a plurality of raised increasing friction force, prevents in the processing of glass tubing 10
During move, cause to process bad, it is ensured that the precision of the cutting of glass tubing 10.
Wherein, the afterbody of the cutting knife 707 is rotated with second slide block and is connected, and the cutting knife 707 and described second is slided
The 3rd arc pressuring plate 710 is additionally provided between block, and the centrage of the 3rd arc pressuring plate 710 is turned with the cutting knife 707
Moving axis overlaps, and drives the cutting knife 707 along the movement in a curve of the 3rd arc pressuring plate 710 by the 5th motor.Pass through
3rd arc pressuring plate 710 realizes the rotation of cutting knife 707, and when not in use, cutting knife 707 is parallel with base, makes clamp system suitable
Profit passes through, and glass tubing 10 reaches commitment positions cutting knife 707 when starting working, by the 3rd arc pressuring plate 710 by 707 work of cutting knife
The part of work is moved on to below glass tubing 10, it is ensured that complete glass-cutting pipe 10.
Wherein, the support 701 is provided with and centrage vertical with the glass tubing 10 and is placed in 10 axis of the glass tubing
On connecting plate 703, be fixedly connected by support shaft 708 between the connecting plate 703 and first arc pressuring plate 704, described
Three-motor 702 is placed on it, and by first described in the relative movement drives of the connecting rod 705 being fixedly connected with its power transmission shaft
Slide block 709 is moved, the axis of the power transmission shaft of the three-motor 702 and the diameter parallel of the glass tubing 10, and described
The center of circle of two arc pressuring plates 706 and the dead in line of the glass tubing 10.Clamp system is ensured by the setting of this kind of mode
Do not interfere with which, and can equally complete the circumference cutting of glass tubing 10, this kind of cutting mode glass tubing 10 is difficult in the course of processing
In burst, improve the yield rate of processing.
Wherein, connection is rotated by worm couple between the slide plate 602 and the plectane 605, electronic by the 6th
Machine 604 drives the worm screw for being coaxial therewith the heart to rotate, and then drives the concentric plectane 605 being placed on worm gear to rotate, described
Backing plate 12 makes the slide plate 602 slide along its axis direction by the second screw pair 603, second screw pair
603 axis is vertical with the axis of the roller 11, and the side wall 601 is by rotating the be connected the 3rd with the 9th motor 608
Screw pair 609 drives side plate 611 to move, and then drives the milling with the 612 concentric connection of the 7th motor placed on it
Knife 610 slides along the direction of motion of the nut of the 3rd screw pair 609, the axis of the 3rd screw pair 609
Vertical with the backing plate 12.Completed by other clamp system in milling by this kind of mode, make cutting mechanism uninterrupted
Work, improve working (machining) efficiency, glass tubing 10 is rotated 90 degree and is processed, saved processing space, and be easy to glass tubing
10 two ends carry out milling.
Wherein, the elevating mechanism includes the crane 4 of multigroup X-shaped cross-distribution, the top of the crane 4 respectively with
The lower rotation connection of the lifter plate 5, the bottom end of the X-shaped of the crane 4 is rotated with the base 1 and is connected, another
End is slidably connected with the base 1 by slide bar 3, and the slide bar 3 is slidably connected with the base 1 by the 6th hydraulic cylinder 2, institute
The axis for stating the 6th hydraulic cylinder 2 is vertical with the glide direction of the slide bar 3.Adjusted according to different height by this kind of mode
Section, simple and stable structure.
Wherein, the guide rail slide block 13 of multiple cooperations, the guide rail slide block are provided between the lifter plate 5 and the backing plate 12
The 3rd screw pair 14 parallel with its glide direction is provided between 13, is driven by the 8th motor 15 and is placed in the described 3rd
Backing plate 12 on screw pair 14 slides along direction motion, the axis of the axis of the guide rail slide block 13 and the roller 11
Parallel.
Wherein, the base 1 is provided with control unit, first motor 901, second motor 801, described
Three-motor 702, the 4th motor, the 5th motor, the 6th motor 604, the 7th motor
612nd, the 8th motor 15 and the 9th motor 608 are electrically connected with described control unit and are controlled respectively, described
First hydraulic cylinder 904, the second hydraulic cylinder 905, the 3rd hydraulic cylinder 808, the 4th hydraulic cylinder 806 and the described 5th
Hydraulic cylinder 606 and the 6th hydraulic cylinder 2 are equally electrically connected with described control unit respectively.Realize auto-control, it is ensured that raw
The normal operation that produces so as to which orderly carrying out produces, improve production efficiency and saving production cost.
The operation principle of the present invention:Cutter sweep produced in batches by a kind of isometric glass tubing as shown in Figure 1, before processing by this
Equipment is placed on the front of the runout table of glass tubing 10, by the height of elevating mechanism adjustment equipment, it is ensured that the height of roller-way
Highly identical with roller 11, and the right position of the position adjustments roller 11 according to glass tubing 10 out, it is ensured that glass tubing 10
Can smoothly enter on roller 11, after the completion of regulation during output, each mechanism on equipment is adjusted to initial position, by adjusting
First hydraulic cylinder 904 and the 3rd hydraulic cylinder 808 ensure that clamped position is highly identical with glass tubing 10, are ready for processing,
After glass tubing 10 is exported, with the transmission of roller-way, glass tubing 10 also can be travelled forward after entering on roller 11 therewith, to stretching out rolling
Wheel 11 to after corresponding length is started clamp system, is moved glass by the 4th hydraulic cylinder 806 on the second clamp system 8
Pipe 10 is clamped fixation, after clamping, makes which travel forward by the first screw pair 802 therewith, touches controlling switch
Stop therewith afterwards, then the lower section of glass tubing 10 shifted to by the cutting knife 707 on cutting mechanism 7 by the 3rd arc pressuring plate 710, lead to
Being mutually shifted for the first arc pressuring plate 704 and the second arc pressuring plate 706 is crossed, the circumference cutting of glass tubing 10, cutting is realized
After the completion of cutting knife 707 reset, the glass tubing 10 after the 3rd claw 607 at the same time milling mechanism 6 starts to cutting is carried out
Clamp, after clamping, the claw of the second clamp system 8 resets, at the same time the 3rd hydraulic cylinder 808 controls its height decline, the first folder
Tight mechanism 9 starts to be clamped glass tubing 10, repeats the work of the second clamp system 8, and the first clamp system 9 returns to original position
Put, after waiting the second clamp system 8 to complete work, both are replaced, and the glass tubing 10 in 9 part of the first clamp system is carried out
During cutting, the glass tubing 10 on plectane 605 is rotated by 90 ° by turbine and worm pair, by two ends of the milling cutter 610 to glass tubing 10
Face carries out milling, after the completion of manually remove, then return again to what original position was repeated to the glass tubing 10 of the first clamp system 9
Work, completes the equal length processing of glass tubing 10.
Presently preferred embodiments of the present invention is the foregoing is only, not in order to limit the present invention, all in essence of the invention
Within god and principle, any modification, equivalent substitution and improvements that is made etc. should be included within the scope of the present invention.
Claims (10)
1. cutter sweep produced in batches by a kind of isometric glass tubing, it is characterised in that:Including base (1) and lifter plate placed on it
(5), connected by elevating mechanism between base (1) and the lifter plate (5), slidably connected on lifter plate (5)
Backing plate (12), backing plate (12) are provided with the roller (11) of multiple uniformly single-row arrangements, and lifter plate (5) are provided with clamping
Mechanism, the clamp system are placed in the symmetrical both sides of the backing plate (12), are additionally provided with cutting mechanism (7) on backing plate (12),
Cutting mechanism (7) are placed in the front of the roller (11), are additionally provided with milling mechanism (6) on lifter plate (5);
The clamp system is divided into the first clamp system (9) and the second clamp system (8) for being respectively symmetrically setting, first folder
The parallel outside for being placed in the second clamp system (8) of tight mechanism (9), described first clamp system (9) include the first motor
(901) and the first drive link (908), drives gear pair (902) to rotate further drive two by the first motor (901) parallel
The first drive link (908) rotate, so as to the first nut drives the first claw (907) thereon mobile, on first nut
First hydraulic cylinder (904) is provided with by the first fixed plate (903), is passed through on first hydraulic stem of first hydraulic cylinder (904)
First connecting plate (906) is fixed with second hydraulic cylinder (905), second hydraulic rod top of second hydraulic cylinder (905) and institute
The first claw (907) connection is stated, the axis of first hydraulic stem is vertical with the axis of the first drive link (908), described
The axis of the second hydraulic stem is vertical with the axis of first hydraulic stem, and described second clamp system (8) include the second motor
(801) and the first screw pair (802), drives described first screw pair (802) to turn by the second motor (801)
Dynamic, and then drive the second claw (804) movement thereon, the first nut (803) on the first screw pair (802) to set
There is the 3rd hydraulic cylinder (808), be fixed with by the second connecting plate (807) on the 3rd hydraulic stem of the 3rd hydraulic cylinder (808)
4th hydraulic cylinder (806), at the top of the 4th hydraulic stem (805) of the 4th hydraulic cylinder (806) with described second claw (804) even
Connect, the axis of the 3rd hydraulic stem is vertical with the axis of the first screw pair (802), the 4th hydraulic stem
(805) axis is vertical with the axis of the 3rd hydraulic stem, the axis of the first screw pair (802) and described first
The diameter parallel of drive link (908);
Described cutting mechanism (7) include support (701) and cutting knife (707) placed on it, and support (701) are provided with first
Arc pressuring plate (704) and the second arc pressuring plate (706), are provided with the first arcuate groove on the first arc pressuring plate (704),
Drive the first slide block (709) to slide in first arcuate groove by three-motor (702), and then drive described first to slide
The second arc pressuring plate (706) on block (709) is slided, and is provided with the second arcuate groove, institute on the second arc pressuring plate (706)
Stating the second slide block that cutting knife (707) is placed on second arcuate groove makes to slide along its track by the 4th motor, and described the
The bottommost of one arc pressuring plate (704) and second arc pressuring plate (706) crosses the level of central shaft in the glass tubing
Above face;
Described milling mechanism (6) include side wall (601) and the milling cutter (610) being slidably connected with which, and described backing plate (12) are upper to slide
Slide plate (602) is connected with, plectane (605) on slide plate (602), is rotatably connected to, on plectane (605), is arranged with
Five hydraulic cylinders (606), the top board of the 5th hydraulic stem of the 5th hydraulic cylinder (606) are provided with the 3rd claw (607), and the described 5th
The diameter parallel of the axis of hydraulic stem and the roller (11), the axis of plectane (605) cross the axis of glass tubing (10) and
Vertical with the axis of the glass tubing (10).
2. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:Described first passes
The diameter parallel of the axis of lever (908) and the first screw pair (802), and hang down with the axis of the roller (11)
Directly, diameter parallel of the axis of second hydraulic stem and the 4th hydraulic stem (805) with the roller (11).
3. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:Described first passes
The screw rod both sides of lever (908) and first screw pair (802) are equipped with controlling switch, between the controlling switch
Apart from identical, and the control on the screw rod on first drive link (908) and first screw pair (802) is opened
The straight line that the position of pass is formed is vertical with the axis of the first drive link (908), and the controlling switch is respectively with described the
One motor (901) and second motor (801) electrical connection.
4. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:First card
It is provided with the glass tubing (10) contact portion on pawl (907), second claw (804) and the 3rd claw (607) anti-
A plurality of projection, the center line of the projection and the axial direction of the glass tubing (10) is provided with the outside of skidding piece, and the improved mat
Parallel, the improved mat adopts the thickness of elastomeric material, the first claw (907) and second claw (804) to be less than
The distance between glass tubing (10) and described second arc pressuring plate (706).
5. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:The cutting knife
(707) afterbody is rotated with second slide block and is connected, and is additionally provided with the 3rd arc between cutting knife (707) and second slide block
Shape connecting plate (710), the centrage of the 3rd arc pressuring plate (710) and the rotation overlapping of axles of the cutting knife (707), pass through
5th motor drives cutting knife (707) along the movement in a curve of the 3rd arc pressuring plate (710), and the cutting knife is placed in institute
State in the moving range of the first nut (803) of the first screw pair (802).
6. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:The support
(701) connecting plate (703) that and centrage vertical with the glass tubing (10) is placed on the glass tubing (10) axis, institute are provided with
State, the described 3rd is electronic
Machine (702) is placed on it, and by the first slide block described in the relative movement drives of the connecting rod (705) being fixedly connected with its power transmission shaft
(709) motion, the axis of the power transmission shaft of three-motor (702) and the diameter parallel of the glass tubing (10), described
The center of circle of the second arc pressuring plate (706) and the dead in line of the glass tubing (10).
7. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 5, it is characterised in that:The slide plate
(602) connection is rotated by worm couple and the plectane (605) between, is driven by the 6th motor (604) same with which
The worm screw in axle center rotates, and then drives the concentric plectane (605) being placed on worm gear to rotate, and described backing plate (12) are by the
Two screw pairs (603) make the slide plate (602) slide along its axis direction, the axle of the second screw pair (603)
Line is vertical with the axis of the roller (11), and side wall (601) are by rotating the 3rd be connected with the 9th motor (608)
Thick stick pair of nut (609) drives side plate (611) motion, and then drives placed on it with the concentric connection of the 7th motor (612)
Milling cutter (610) along the nut of the 3rd screw pair (609) the direction of motion slide, the 3rd screw pair
(609) axis is vertical with the backing plate (12).
8. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 1, it is characterised in that:The elevator
Structure includes the crane (4) of multigroup X-shaped cross-distribution, the top of crane (4) bottom respectively with the lifter plate (5)
Connection is rotated, the bottom end of the X-shaped of crane (4) is rotated with the base (1) and is connected, and the other end passes through slide bar (3)
It is slidably connected with the base (1), described slide bar (3) are slidably connected with the base (1) by the 6th hydraulic cylinder (2), described
(2 axis is vertical with the glide direction of the slide bar (3) for 6th hydraulic cylinder.
9. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 7, it is characterised in that:The lifter plate
(5) guide rail slide block (13) of multiple cooperations is provided with and the backing plate (12) between, is provided with and which between guide rail slide block (13)
The 3rd parallel screw pair (14) of glide direction, is driven by the 8th motor (15) and is placed in the 3rd screw pair
(14) backing plate (12) on slides along direction motion, and the axis of guide rail slide block (13) is flat with the axis of the roller (11)
OK.
10. cutter sweep produced in batches by a kind of isometric glass tubing according to claim 9, it is characterised in that:The base
(1) control unit is provided with, the first motor (901), second motor (801), the three-motor
(702), the 4th motor, the 5th motor, the 6th motor (604), the 7th motor (612),
8th motor (15) and the 9th motor (608) are electrically connected with described control unit and are controlled respectively, described
First hydraulic cylinder (904), the second hydraulic cylinder (905), the 3rd hydraulic cylinder (808), the 4th hydraulic cylinder (806) and
5th hydraulic cylinder (606) and the 6th hydraulic cylinder (2) are equally electrically connected with described control unit respectively.
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CN201610990552.0A CN106495457A (en) | 2016-11-10 | 2016-11-10 | Cutter sweep produced in batches by a kind of isometric glass tubing |
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CN201610990552.0A CN106495457A (en) | 2016-11-10 | 2016-11-10 | Cutter sweep produced in batches by a kind of isometric glass tubing |
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