CN205614148U - Energy -saving two silk section of thick bamboo wire machine that stores is imitated to superelevation - Google Patents

Energy -saving two silk section of thick bamboo wire machine that stores is imitated to superelevation Download PDF

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Publication number
CN205614148U
CN205614148U CN201620134612.4U CN201620134612U CN205614148U CN 205614148 U CN205614148 U CN 205614148U CN 201620134612 U CN201620134612 U CN 201620134612U CN 205614148 U CN205614148 U CN 205614148U
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CN
China
Prior art keywords
wire
storage tube
wire storage
thick bamboo
fiber
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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.)
Expired - Fee Related
Application number
CN201620134612.4U
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Chinese (zh)
Inventor
曾正权
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ANHUI ZHENQUAN NUMERICAL CONTROL TECHNOLOGY Co Ltd
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ANHUI ZHENQUAN NUMERICAL CONTROL TECHNOLOGY Co Ltd
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Priority to CN201620134612.4U priority Critical patent/CN205614148U/en
Application granted granted Critical
Publication of CN205614148U publication Critical patent/CN205614148U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses an energy -saving two silk section of thick bamboo wire machine that stores is imitated to superelevation, its silk section of thick bamboo store that includes wire motor and two parallel arrangement, wire motor connect one of them through a drive mechanism and store a silk section of thick bamboo and drive and should store a silk section of thick bamboo and rotate around self axis, store for two and connect through the 2nd drive mechanism between the silk section of thick bamboo and synchronous the rotation, and another is store a silk section of thick bamboo and still is connected with the 3rd drive mechanism's driving part, twine and be located two respectively in two wire electrodes of storing a silk section of thick bamboo and store the distolateral relatively of a silk section of thick bamboo, above -mentioned wire machine includes still that one is installed wire discharging frame, the orientation that leads of wire discharging guide pulley and stores the parallel leading part of silk section of thick bamboo axis direction, and wire discharging puts up the follower fixed connection with the 3rd drive mechanism, and wire discharging puts up the motion piece fixed connection with a leading part, draws back and wire discharging guide pulley phase -match around the wire electrode on storing a section of thick bamboo from storing a section of thick bamboo.

Description

A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk
Technical field
The present invention relates to Machining Technology field, particularly to the Wire-conveying mechanism of quick walk of a kind of electric spark linear cutting machine.
Background technology
The mariages cylinder Wire-conveying mechanism of quick walk (CN103433580 A) of a kind of screw gear of the prior art motion row's silk mode, it uses the mariages barrel structure similar with the present invention, its mariages cylinder is driven by two motors respectively and is disposed with multiple Pai Si mechanism between mariages cylinder, and the power source of Pai Si mechanism is separately provided;When wire electrode at one end mariages cylinder lamination is arranged, its linear velocity changes, and for ensureing tightening up of wire electrode, the motor speed being arranged at mariages cylinder one end needs to adjust;So its structure, program are complicated, poor stability, easily there is fracture of wire.
Applicant's retrieval also finds a kind of mariages cylinder multilamellar wrapping wire to-and-fro thread silk drive mechanism of linear cutting machine (CN 103406622 A), it uses the mode of mariages cylinder axially-movable to replace fiber-arranging device axially reciprocating, two silk cylinders are connected with driving motor respectively, promote its axial-movement while driving silk cylinder to rotate;For meeting wire storage tube axially-movable, lathe bed must accordingly increase lateral length, and the overall dimensions of wire cutting machine tool is greatly increased, and wire storage tube relative motion is complex, and precision is difficult to ensure that, it is difficult to controls, easy fracture of wire.
Applicant's retrieval also finds the mariages cylinder wire feeder (CN 103418870 A) of a kind of leading screw link motion row's silk mode, it uses a pair wire storage tube coaxial line to arrange, the coaxial line of a pair wire storage tube arranges the volume significantly increasing lathe, and a pair fiber-arranging device is set and is respectively arranged in corresponding wire storage tube and to wire storage tube cloth silk, during cutting on line, the required precision to wire storage tube, fiber-arranging device is high.
Applicant is found by analysis, the electric spark linear cutting machine structure complexity of mariages barrel structure, unstable properties in prior art, two or more fiber-arranging devices is all used between mariages cylinder, and two silk cylinders connect driving motor respectively, so that the volume of wire cutting machine tool is greatly increased, production cost is along with rising.
Summary of the invention
Up and down or left and right is arranged in parallel and has only to a fiber-arranging device between two wire storage tubes to it is an object of the invention to provide a kind of a pair wire storage tube, can complete row's silk work of wire storage tube, hence it is evident that reduce the volume of lathe, reduce energy resource consumption, reach effects of energy saving and emission reduction.
For realizing above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.
A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk, it includes two wire storage tubes being arranged in parallel, wire transporting motor, wire transporting motor connects one of them wire storage tube by the first drive mechanism and drives this wire storage tube around own axis, being connected and synchronous axial system by the second drive mechanism between two wire storage tubes, another wire storage tube also driving link with the 3rd drive mechanism is connected;
The wire electrode being wound in two wire storage tubes lays respectively at the relative side of two wire storage tubes;
Above-mentioned Wire-conveying mechanism of quick walk also includes the first guiding parts that the fiber-arranging device of the row's of being provided with silk guide wheel, guide direction are parallel with wire storage tube axis direction, the driven member of fiber-arranging device and the 3rd drive mechanism is fixing to be connected, the movement parts of fiber-arranging device and the first guiding parts is fixing to be connected, and the wire electrode being around on wire storage tube matches with row's silk guide wheel after wire storage tube is drawn.
The further improvement of technique scheme.
Wire-conveying mechanism of quick walk also includes that bracing frame, two above-mentioned wire storage tubes are fixedly installed in bracing frame can be around own axis, and above-mentioned wire transporting motor, the first guiding parts are mounted on bracing frame.
The further improvement of technique scheme.
Stroke micro-adjusting mechanism it is also equipped with on bracing frame, stroke micro-adjusting mechanism includes a pair being fixed on bracing frame the second screw mandrel around own axis, the a pair stroke limit support body being respectively connected with two the second screw mandrels, it is fixed on the second guiding parts that bracing frame and guide direction are parallel with the second screw mandrel axis direction, stroke limit support body is mated by screw and the second screw mandrel, the movement parts of stroke limit support body and the second guiding parts is fixing to be connected, two stroke stroke limit support bodys are respectively arranged the both sides in fiber-arranging device, and main travel switch is installed on stroke limit support body.
The further improvement of technique scheme.
Two above-mentioned wire storage tubes are respectively the first wire storage tube, the second wire storage tube, wire transporting motor is fixed on the second wire storage tube end side and arranges with the second wire storage tube axle coaxial line, and the outfan of wire transporting motor connects the second wire storage tube axle by shaft coupling and drives the second wire storage tube around own axis;Second wire storage tube axle connects the first wire storage tube axle by synchronous belt drive mechanism, the second wire storage tube axle is provided with main synchronous pulley, the first wire storage tube axle is provided with from synchronous pulley;Fiber-arranging device passes through screw and is fixedly installed in above-mentioned bracing frame and can match around the first screw mandrel of own axis, first wire storage tube axle connects the first screw mandrel by synchronous belt drive mechanism, being provided with main synchronous pulley on first wire storage tube axle, the drive end of the first screw mandrel is provided with from synchronous pulley;
The first above-mentioned guiding parts includes being fixed on above-mentioned bracing frame and the first guide rod paralleled with the first screw mandrel, is socketed on the first guide rod and along the first guide rod sliding sleeve in axial sliding;
Second guiding parts is the second guide rod being fixed on bracing frame, and stroke limit support body is connected by sliding sleeve and the second guide rod;
Fiber-arranging device is fixing with sliding sleeve to be connected, and fiber-arranging device is disposed with first row silk guide wheel, second row silk guide wheel, and first row silk guide wheel, second row silk guide wheel above-below direction are arranged or left and right directions is arranged.
The further improvement of technique scheme.
Being also equipped with standby travel switch on stroke limit support body, main travel switch closes on fiber-arranging device end side, standby travel switch deviation fiber-arranging device.
The further improvement of technique scheme.
Lathe also includes being installed on the workbench below capstan, lower capstan, workbench includes upper table plate, lower table plate, mobile motor, upper table plate is connected by guideway with lower table plate, and by the driving of mobile motor, it is achieved upper table plate and lower table plate are in X-axis, the cross movement of Y direction;Parts to be processed are installed on the processing district between capstan and lower capstan.
The further improvement of technique scheme.
Wire-conveying mechanism of quick walk is installed in the cavity of column, and wire storage tube horizontal direction is arranged.
The further improvement of technique scheme.
Wire-conveying mechanism of quick walk is installed in the cavity of column, and wire storage tube vertical direction is arranged.
It is an advantage of the current invention that: replace existing monofilament barrel mechanism by mariages cylinder mechanism, it is possible to decrease the frequent commutation of wire electrode, extend the unidirectional wire on-line machining time to greatest extent, improve machining accuracy;And relative to mariages of the prior art cylinder mechanism, it has only to a wire transporting motor both can drive the normal work of Wire-conveying mechanism of quick walk, it is that double filament storage canister carries out arranging silk by the Pai Si mechanism straight reciprocating motion being arranged between double filament storage canister, the volume of wire cutting machine tool can be reduced greatly, and improve machining accuracy.
Accompanying drawing explanation
In order to be illustrated more clearly that the embodiment of the present invention, the accompanying drawing used required in embodiment will be done simple introduction below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the structural representation of the present invention.
Fig. 2 is the Wire-conveying mechanism of quick walk structural representation of the present invention.
Fig. 3 is the Wire-conveying mechanism of quick walk structural representation of the present invention.
Fig. 4 is the Wire-conveying mechanism of quick walk structural representation of the present invention.
Fig. 5 is row's silk mechanism structure schematic diagram of the present invention.
Fig. 6 is the Wire-conveying mechanism of quick walk Detachable connection structure schematic diagram of the present invention.
Fig. 7 is the fracture of wire governor motion structural representation of the present invention.
Fig. 8 is the fracture of wire governor motion structural representation of the present invention.
Figure is denoted as:
10, bed body.
20, coil holder;22, transition guide wheel.
30, Wire-conveying mechanism of quick walk;31, bracing frame;32, the first wire storage tube;33, the second wire storage tube;34, wire transporting motor;35, the first drivewheel;36, the first driven pulley;37, the second drivewheel;38, the second driven pulley;39, plate body.
40, Pai Si mechanism;42, fiber-arranging device;44, first row silk guide wheel;46, second row silk guide wheel.
50, the first guiding parts;52, the first guide rod;54, the first screw mandrel.
60, workbench.
70, stroke micro-adjusting mechanism;71, the second screw mandrel;72, the second guide rod;73, stroke limit support body;74, standby travel switch;75, main travel switch;76, bar is adjusted.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art under not making creative work premise, the every other embodiment obtained, broadly fall into scope.
As shown in Figure 1, a kind of mariages cylinder electric spark linear cutting machine, it includes bed body 10, coil holder 20, Wire-conveying mechanism of quick walk 30, workbench 60, coil holder 20 is installed in bed body 10, coil holder 20 includes the column being installed on bed body 10 and the upper arm being connected with column, underarm, some transition guide wheels 22, capstan is installed on upper arm, underarm is provided with lower capstan.
As shown in Figure 1, above-mentioned workbench 60 is installed on below capstan, lower capstan, workbench 60 includes upper table plate, lower table plate, mobile motor, upper table plate is connected by guideway with lower table plate, and by the driving of mobile motor, it is achieved upper table plate and lower table plate are in X-axis, the cross movement of Y direction;Parts to be processed are installed on the processing district between capstan and lower capstan.
The first embodiment.
Wire-conveying mechanism of quick walk 30 is installed on column, it is preferable that Wire-conveying mechanism of quick walk 30 is mounted in column by plate body 39, and specifically, Wire-conveying mechanism of quick walk 30 removably connects with plate body 39, and plate body 39 removably connects with column;Consequently facilitating the maintenance of Wire-conveying mechanism of quick walk, clean, change.
As in Figure 2-4, Wire-conveying mechanism of quick walk 30 includes first wire storage tube the 32, second wire storage tube 33, wire transporting motor 34, Pai Si mechanism 40, first wire storage tube 32 is parallel with the second wire storage tube axis direction with the layout up and down of the second wire storage tube 33 and the first wire storage tube, and Pai Si mechanism 40 is arranged between the first wire storage tube, the second wire storage tube;Wire transporting motor 34 connects the drive end of the first drive mechanism, the outfan of the first drive mechanism connects the drive end of the second wire storage tube axle, the outfan of the second wire storage tube axle connects the drive end of the first wire storage tube axle by the second drive mechanism, and the outfan of the first wire storage tube axle connects Pai Si mechanism drive end by the 3rd drive mechanism;Transmission by the second drive mechanism, it is achieved the first wire storage tube and the synchronous axial system of the second wire storage tube.
Preferably, wire transporting motor 34 is fixed on the second wire storage tube 33 end side and arranges with the second wire storage tube 33 coaxial line, and the outfan of wire transporting motor 34 drives the second wire storage tube 33 around own axis by shaft coupling;The outfan of the second wire storage tube axle is provided with the first drivewheel 35, and the drive end of the first wire storage tube axle is provided with the first driven pulley 36, and first drivewheel the 35, first driven pulley 36 is belt pulley or sprocket wheel, and connects transmission by belt or chain respectively;The outfan of the first wire storage tube axle is provided with the second drivewheel 37, the drive end of Pai Si mechanism connects the first horizontally disposed screw mandrel by screw, the drive end of the first screw mandrel is provided with the second driven pulley 38, second drivewheel the 37, second driven pulley 38 is belt pulley or sprocket wheel, and connects transmission by belt or chain respectively.
Above-mentioned Pai Si mechanism 40 includes fiber-arranging device 42, the first row silk guide wheel 44 being installed on fiber-arranging device 42, second row silk guide wheel 46, the first guiding parts 50 paralleled with first/second wire storage tube, first row silk guide wheel 44, second row silk guide wheel 46 above-below direction is arranged or left and right directions is arranged, fiber-arranging device 42 is connected by screw and the first screw mandrel 54, the first horizontal fixed and arranged of screw mandrel 54 and paralleling with first/second wire storage tube, first guiding parts 50 is the first guide rod 52 being arranged in the first screw mandrel 54 both sides, on first guide rod 52, coupling has sliding sleeve or linear bearing, fiber-arranging device 42 fixes with sliding sleeve or linear bearing, so that fiber-arranging device 42 moves horizontally along the direction with first/second wire storage tube axis.
Optimize further, for making this device easily facilitate dismounting, keep in repair, maintain, present invention additionally comprises bracing frame 31, first wire storage tube the 32, second wire storage tube the 33, first screw mandrel 54 is all fixedly installed in bracing frame 31 can be around own axis, and the first guide rod 52 is fixed on bracing frame 31.
As Figure 1-4, wire electrode is wound in the relative side of the first wire storage tube, the second wire storage tube, and i.e. when wire electrode is wound in the left end side of the first wire storage tube, the wire electrode being wound in the second wire storage tube is positioned at the right-hand member side of the second wire storage tube;When wire electrode is wound in the right-hand member side of the first wire storage tube, the wire electrode being wound in the second wire storage tube is positioned at the left end side of the second wire storage tube;Wire electrode one end be wound around on wire storage tube and through first row silk guide wheel, some transition guide wheels, on capstan, lower capstan, some transition guide wheels, second row silk guide wheel be finally wound on the second wire storage tube.
nullSuch as Fig. 2、4、7、Shown in 8,Present invention additionally comprises stroke micro-adjusting mechanism 70,Stroke micro-adjusting mechanism 70 includes a pair being fixed on bracing frame 31 the second screw mandrel 71 around own axis、The a pair stroke limit support body 73 being respectively connected with two the second screw mandrels 71 respectively、It is fixed on bracing frame 31 second guiding parts parallel with the second screw mandrel axis direction,Stroke limit support body 73 is flexibly connected by screw and the second screw mandrel 71,Second guiding parts is the second guide rod 72,Stroke limit support body 73 is connected by sliding sleeve or linear bearing and the second guide rod 72,Two stroke stroke limit support bodys 73 are respectively arranged in the both sides of fiber-arranging device 42,And main travel switch 75 is installed on stroke limit support body 73、Standby travel switch 74,Main travel switch 75 closes on fiber-arranging device 42 end side,Standby travel switch 74 slightly offsets from fiber-arranging device 42.
The defencive function of stroke micro-adjusting mechanism 70: when main travel switch occurs malfunctioning or damage; fiber-arranging device is to the left or when moving right maximum side; main travel switch can not control motor reversal; so that fiber-arranging device collides with bracing frame 31; there is fracture of wire and motor overload so that multiple damage of components of wire cutting machine tool;This kind of situation can be prevented effectively from by arranging standby travel switch, thus play defencive function.
The fine adjustment function of stroke micro-adjusting mechanism 70: when wire electrode occur fracture time and reset wire electrode, the contraction in length of wire electrode, so that fiber-arranging device range of movement in the horizontal direction reduces, the tune bar 76 of the second screw mandrel drive end it is arranged at by rotation, drive the rotation of the second screw mandrel 71, realize the movement in the horizontal direction of stroke limit support body, thus change the relative position between main travel switch 75.
Wire-conveying mechanism of quick walk has four kinds of mounting means, one, and Wire-conveying mechanism of quick walk 30 is horizontally installed in the cavity of column;Two, Wire-conveying mechanism of quick walk 30 is vertically arranged in the cavity of column;Three, Wire-conveying mechanism of quick walk 30 is horizontally installed to column outer wall;Four, Wire-conveying mechanism of quick walk 30 is vertically arranged to column outer wall.
Preferably, use Wire-conveying mechanism of quick walk to be arranged in the cavity of column, it is simple to close and greatly reduce the volume of lathe, by time in Wire-conveying mechanism of quick walk closing and column, can effectively prevent the splashing of working solution.
The second embodiment.
The second embodiment (not shown in FIG.) makes amendment on the basis of the first embodiment, it is with the difference of the first embodiment, Wire-conveying mechanism of quick walk is fixed in bed body 10, wire transporting motor horizontal positioned and the second wire storage tube by shaft coupling connection horizontal positioned;For preventing the splashing of working solution, protective cover can be set in the outside of Wire-conveying mechanism of quick walk.
Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention;Multiple amendment to these embodiments will be apparent from for those skilled in the art, and the General Principle defined in the present invention can realize in the case of without departing from the spirit or scope of the present invention in other embodiments.Therefore, the present invention will not be defined to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (7)

1. a ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk, it includes wire transporting motor and two wire storage tubes being arranged in parallel, wire transporting motor connects one of them wire storage tube by the first drive mechanism and drives this wire storage tube around own axis, being connected and synchronous axial system by the second drive mechanism between two wire storage tubes, another wire storage tube also driving link with the 3rd drive mechanism is connected;It is characterized in that,
The wire electrode being wound in two wire storage tubes lays respectively at the relative side of two wire storage tubes;
Above-mentioned Wire-conveying mechanism of quick walk also includes the first guiding parts that the fiber-arranging device of the row's of being provided with silk guide wheel, guide direction are parallel with wire storage tube axis direction, the driven member of fiber-arranging device and the 3rd drive mechanism is fixing to be connected, the movement parts of fiber-arranging device and the first guiding parts is fixing to be connected, and the wire electrode being around on wire storage tube matches with row's silk guide wheel after wire storage tube is drawn.
A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk the most according to claim 1, it is characterized in that, Wire-conveying mechanism of quick walk also includes that bracing frame, two above-mentioned wire storage tubes are fixedly installed in bracing frame can be around own axis, and above-mentioned wire transporting motor, the first guiding parts are mounted on bracing frame.
A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk the most according to claim 2, it is characterized in that, stroke micro-adjusting mechanism it is also equipped with on bracing frame, stroke micro-adjusting mechanism includes a pair being fixed on bracing frame the second screw mandrel around own axis, the a pair stroke limit support body being respectively connected with two the second screw mandrels, it is fixed on the second guiding parts that bracing frame and guide direction are parallel with the second screw mandrel axis direction, stroke limit support body is mated by screw and the second screw mandrel, the movement parts of stroke limit support body and the second guiding parts is fixing to be connected, two stroke stroke limit support bodys are respectively arranged the both sides in fiber-arranging device, and main travel switch is installed on stroke limit support body.
4. according to a kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk described in Claims 2 or 3, it is characterized in that, two above-mentioned wire storage tubes are respectively the first wire storage tube, the second wire storage tube, wire transporting motor is fixed on the second wire storage tube end side and arranges with the second wire storage tube axle coaxial line, and the outfan of wire transporting motor connects the second wire storage tube axle by shaft coupling and drives the second wire storage tube around own axis;Second wire storage tube axle connects the first wire storage tube axle by synchronous belt drive mechanism, the second wire storage tube axle is provided with main synchronous pulley, the first wire storage tube axle is provided with from synchronous pulley;Fiber-arranging device passes through screw and is fixedly installed in above-mentioned bracing frame and can match around the first screw mandrel of own axis, first wire storage tube axle connects the first screw mandrel by synchronous belt drive mechanism, being provided with main synchronous pulley on first wire storage tube axle, the drive end of the first screw mandrel is provided with from synchronous pulley;
Being disposed with first row silk guide wheel, second row silk guide wheel on fiber-arranging device, first row silk guide wheel, second row silk guide wheel above-below direction are arranged or left and right directions is arranged.
5. according to a kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk described in Claims 2 or 3, it is characterized in that, the first above-mentioned guiding parts includes being fixed on above-mentioned bracing frame and the first guide rod paralleled with the first screw mandrel, is socketed on the first guide rod and along the first guide rod sliding sleeve in axial sliding, and fiber-arranging device is fixing with sliding sleeve to be connected;Second guiding parts is the second guide rod being fixed on bracing frame, and stroke limit support body is connected by sliding sleeve and the second guide rod.
A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk the most according to claim 4, it is characterized in that, the first above-mentioned guiding parts includes being fixed on above-mentioned bracing frame and the first guide rod paralleled with the first screw mandrel, is socketed on the first guide rod and along the first guide rod sliding sleeve in axial sliding, and fiber-arranging device is fixing with sliding sleeve to be connected;Second guiding parts is the second guide rod being fixed on bracing frame, and stroke limit support body is connected by sliding sleeve and the second guide rod.
A kind of ultra high efficiency energy-saving double filament storage canister Wire-conveying mechanism of quick walk the most according to claim 3, it is characterised in that be also equipped with standby travel switch on stroke limit support body, main travel switch closes on fiber-arranging device end side, standby travel switch deviation fiber-arranging device.
CN201620134612.4U 2016-02-23 2016-02-23 Energy -saving two silk section of thick bamboo wire machine that stores is imitated to superelevation Expired - Fee Related CN205614148U (en)

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CN201620134612.4U CN205614148U (en) 2016-02-23 2016-02-23 Energy -saving two silk section of thick bamboo wire machine that stores is imitated to superelevation

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Application Number Priority Date Filing Date Title
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105834535A (en) * 2016-02-23 2016-08-10 安徽省振泉数控科技有限公司 Ultra efficient energy-saving type double-wire-winding-drum wire conveying mechanism
CN106956050A (en) * 2017-05-09 2017-07-18 六安永贞匠道机电科技有限公司 Four cylinder electric spark linear cutting machines of synchronous mode

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105834535A (en) * 2016-02-23 2016-08-10 安徽省振泉数控科技有限公司 Ultra efficient energy-saving type double-wire-winding-drum wire conveying mechanism
CN106956050A (en) * 2017-05-09 2017-07-18 六安永贞匠道机电科技有限公司 Four cylinder electric spark linear cutting machines of synchronous mode
CN106956050B (en) * 2017-05-09 2019-06-07 上饶市永卓光学模具有限公司 Four cylinder electric spark linear cutting machines of synchronous mode

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