CN206307850U - A kind of automatic winding and arranging device of double plate - Google Patents

Abstract

The utility model discloses a kind of automatic winding and arranging device of double plate, including frame, a left main shaft is horizontally mounted by bearing in left support frame, a right main shaft is horizontally mounted by bearing in right support frame, a upper block is installed by bearing on upper block axle, a belt is cased with Left Drive belt pulley and right driving belt pulley, a fixed supporting plate on belt, a left guide wheel is installed by bearing on left guide wheel shaft, a right guide wheel is installed by bearing on right guide wheel shaft, one oscillating cylinder is installed in frame, a fixed grapple on the piston rod of oscillating cylinder, a fixed left-cut tool on left cut knife rest, a fixed right-cut tool on right cut knife rest, angle is constituted between lower-left fixture block and upper left fixture block, angle is constituted between bottom right fixture block and upper right fixture block.The utility model has the advantages that to save manpower and muscle power, take-up speed are fast.

Description

A kind of automatic winding and arranging device of double plate

Technical field

The utility model is related to the production and processing field of optical cable, specifically a kind of automatic winding and arranging device of double plate.

Background technology

In the last few years, with the popularization of FTTX, mobile Internet and IT application in enterprises, development of major operators to FTTX More pay attention to, China Mobile, China Telecom and CHINAUNICOM are also all actively promoting FTTX, and optical communications industry continues boom, separately On the one hand, with the increase of labor cost, most optical cable manufacturer of China all suffers from recruitment is difficult, cost of labor increases etc. The problem of each side, so in the last few years, improving the automaticity of optical cable production equipment, reduces human cost, has become Optical cable production equipment researches and develops an improved direction.

Wherein, it is necessary to carry out receipts winding displacement to optical cable, at present, people can use double plate in the process of manufacture of optical cable Winding and arranging device carries out receipts winding displacement to optical cable, but existing double plate winding and arranging device still needs processing staff and changed by hand Disk, therefore labour intensity is than larger, labor intensive and muscle power, and processing staff change by hand disk speed it is slow, efficiency is low, It is unfavorable for the raising of optical cable production efficiency.

Utility model content

The purpose of this utility model is to solve labor intensive of the prior art and muscle power, changes that disk speed is slow, optical cable The defect of low production efficiency, there is provided a kind of automatic winding and arranging device of double plate solves the above problems.

To achieve these goals, the technical solution of the utility model is as follows：The utility model discloses a kind of double plate certainly Dynamic winding and arranging device, including frame, the fixed two left line slideways of left part level of described frame, each left line slideway On be cased with a left slider, the left part of described frame is horizontally mounted a left screw by bearing, described left screw with Two left line slideways are parallel to each other, and left screw is between two left line slideways, fixed one of the left part of described frame Inside left's motor, the described output shaft of inside left's motor is connected with the rear end of left screw, is connected through a screw thread in described left screw The fixed left support block of mode, the fixed left support frame of level, a described left side on the upper surface of described left support block The lower surface of support frame and two upper surfaces of left slider are connected, and one is horizontally mounted by bearing in described left support frame Left main shaft, a fixed left-hand rotation disk on described left main shaft, the fixed two right line slideways of right part level of described frame, often A right sliding block is cased with one right line slideway, the right part of described frame is horizontally mounted a right screw by bearing, Described right screw is parallel to each other with two right line slideways, and right screw is between two right line slideways, described frame The fixed inside right forward's motor of right part, the output shaft of described inside right forward's motor is connected with the rear end of right screw, described right screw On the fixed right support block of mode that is connected through a screw thread, the fixed right branch of level on the upper surface of described right support block Support, the lower surface of described right support frame and two upper surfaces of right sliding block are connected, and axle is passed through in described right support frame Hold and be horizontally mounted a right main shaft, a fixed right-hand rotation disk on described right main shaft, described right-hand rotation disk is on the positive right side of left-hand rotation disk Side, and on medium line axial symmetry therebetween between right-hand rotation disk and left-hand rotation disk, a fixed switch board in described frame, Described inside left's motor is connected by wire with switch board, and described inside right forward's motor is connected by wire with switch board, institute The fixed left main motor in rear end of the left support frame stated, the described output shaft of left main motor is connected with the rear end of left main shaft, Described left main motor is connected by wire with switch board, the fixed right main motor in rear end of described right support frame, institute The output shaft of the right main motor stated is connected with the rear end of right main shaft, and described right main motor is connected by wire with switch board, A upper block axle is horizontally mounted by bearing in described frame, is installed by bearing on described upper block axle and is led on one Wheel, the left end of described frame is horizontally mounted a Left Drive axle by bearing, is installed by bearing on described Left Drive axle One Left Drive belt pulley, the right-hand member of described frame is horizontally mounted a right driving axle, described right driving axle by bearing It is upper that a right driving belt pulley is installed by bearing, main motor on fixed in described frame, described upper main motor Output shaft is connected with the rear end of right driving axle, and described upper main motor is connected by wire with switch board, described Left Drive A belt is cased with belt pulley and right driving belt pulley, a fixed supporting plate on described belt, described supporting plate Highly higher than left-hand rotation disk and the height of right-hand rotation disk, the left end of described supporting plate is horizontally mounted a left guide wheel shaft by bearing, A left guide wheel is installed by bearing on described left guide wheel shaft, the right-hand member of described supporting plate is horizontally mounted one by bearing Right guide wheel shaft, a right guide wheel is installed on described right guide wheel shaft by bearing, and an oscillating cylinder is installed in described frame, Between left-hand rotation disk and right-hand rotation disk, a fixed magnetic valve in described frame, described magnetic valve leads to described oscillating cylinder Cross tracheae to be connected with oscillating cylinder, described magnetic valve is connected by wire with switch board, the work of described oscillating cylinder A fixed grapple on stopper rod, a fixed left cut knife rest in described left support frame, fixed on described left cut knife rest Left-cut tool, described left-cut tool left-hand rotation disk directly to the right, a fixed right cut knife rest, the described right side in described right support frame A fixed right-cut tool on cutoff knife rack, described right-cut tool right-hand rotation disk directly to the left, described right-cut tool in left-cut tool just Right side, on medium line axial symmetry therebetween between described right-cut tool and left-cut tool, described oscillating cylinder is in left cut Between knife and right-cut tool, a fixed lower-left fixture block on described left-hand rotation disk, a fixed upper left fixture block on described left-hand rotation disk, Angle is constituted between described lower-left fixture block and upper left fixture block, a fixed bottom right fixture block, the described right side on described right-hand rotation disk A fixed upper right fixture block, angle is constituted between described bottom right fixture block and upper right fixture block on rotating disk.

Preferably, the fixed cross bar of the upper end level of described frame, from left to right uniform solid on described cross bar If multiple limit switches, described limit switch is connected by wire with switch board, the upper end fixed of described supporting plate Individual limited block.

Preferably, described left-cut tool and right-cut tool are prepared from using 6CrW2Si steel.

The utility model has advantages below compared to existing technology：

1st, easy to use, labour intensity is significantly reduced, and very big saves manpower and muscle power；

2nd, the automatic switchover of two disks can be realized in the case of non-stop-machine, winding displacement is continuously received to optical cable, receive winding displacement speed Degree is fast, and optical cable production efficiency is high.

Brief description of the drawings

Fig. 1 is a kind of perspective structure schematic diagram of the utility model automatic winding and arranging device of double plate；

Fig. 2 is a kind of structural representation of the utility model automatic winding and arranging device of double plate；

Fig. 3 is the structural representation of the lower-left fixture block and upper left fixture block of a kind of the utility model automatic winding and arranging device of double plate Figure；

Fig. 4 is the structural representation of the bottom right fixture block and upper right fixture block of a kind of the utility model automatic winding and arranging device of double plate Figure.

Wherein：1- frames；The left line slideways of 2-；3- left sliders；4- left screws；5- inside left's motors；6- left support blocks；7- is left Support frame；The left main shafts of 8-；9- left-hand rotation disks；The right line slideways of 10-；The right sliding blocks of 11-；12- right screws；13- inside right forward's motor；14- is right Support block；15- right support frames；The right main shafts of 16-；17- right-hand rotation disks；18- switch boards；The left main motors of 19-；The right main motors of 20-；21- Upper block axle；22- upper blocks；23- Left Drive axles；24- Left Drive belt pulleys；25- right driving axles；The right driving belt pulleys of 26-； The upper main motors of 27-；28- belts；29- supporting plates；The left guide wheel shafts of 30-；The left guide wheels of 31-；The right guide wheel shafts of 32-；The right guide wheels of 33-；34- Oscillating cylinder；35- magnetic valves；36- grapples；37- left cut knife rests；38- left-cut tools；39- right cut knife rests；40- left-cut tools；41- is left Lower fixture block；42- upper lefts fixture block；43- bottom rights fixture block；44- upper right fixture blocks；45- limit switches；46- limited blocks；47- cross bars.

Specific embodiment

To make have a better understanding and awareness to architectural feature of the present utility model and the effect reached, to compared with Good embodiment and accompanying drawing coordinate detailed description, are described as follows：

As Figure 1-4, the utility model discloses a kind of automatic winding and arranging device of double plate, including frame 1, described machine The fixed two left line slideways 2 of left part level of frame 1, are cased with a left slider 3 on each left line slideway 2, described The left part of frame 1 is horizontally mounted a left screw 4 by bearing, and described left screw 4 and two left line slideways 2 are mutually flat OK, and left screw 4 is between two left line slideways 2, the fixed inside left's motor 5 of left part of described frame 1, a described left side The output shaft of auxiliary motor 5 is connected with the rear end of left screw 4, fixed one of the mode being connected through a screw thread in described left screw 4 Left support block 6, the fixed left support frame 7 of level on the upper surface of described left support block 6, under described left support frame 7 Surface is connected with two upper surfaces of left slider 3, and a left main shaft 8 is horizontally mounted by bearing in described left support frame 7, A fixed left-hand rotation disk 9 on described left main shaft 8, the fixed two right line slideways 10 of right part level of described frame 1 are each A right sliding block 11 is cased with individual right line slideway 10, the right part of described frame 1 is horizontally mounted a right silk by bearing Bar 12, described right screw 12 is parallel to each other with two right line slideways 10, and right screw 12 two right line slideways 10 it Between, the fixed inside right forward's motor 13 of right part of described frame 1, after the output shaft of described inside right forward's motor 13 and right screw 12 End is connected, the fixed right support block 14 of mode being connected through a screw thread in described right screw 12, described right support block 14 Upper surface on the fixed right support frame 15 of level, the lower surface of described right support frame 15 and two upper ends of right sliding block 11 Face is connected, and a right main shaft 16 is horizontally mounted by bearing in described right support frame 15, fixed on described right main shaft 16 One right-hand rotation disk 17, described right-hand rotation disk 17 left-hand rotation disk 9 front-right, and on the two between right-hand rotation disk 17 and left-hand rotation disk 9 Between medium line axial symmetry, a fixed switch board 18 in described frame 1, described inside left's motor 5 is by wire and control Cabinet processed 18 is connected, and described inside right forward's motor 13 is connected by wire with switch board 18, and the rear end of described left support frame 7 is consolidated If a left main motor 19, the described output shaft of left main motor 19 is connected with the rear end of left main shaft 8, described left main motor 19 It is connected with switch board 18 by wire, the fixed right main motor 20 in rear end of described right support frame 15, described right master The output shaft of motor 20 is connected with the rear end of right main shaft 16, and described right main motor 20 is connected by wire with switch board 18, A upper block axle 21 is horizontally mounted by bearing in described frame 1, one is installed by bearing on described upper block axle 21 Individual upper block 22, the left end of described frame 1 is horizontally mounted a Left Drive axle 23 by bearing, on described Left Drive axle 23 One Left Drive belt pulley 24 is installed by bearing, the right-hand member of described frame 1 is horizontally mounted a right driving axle by bearing 25, a right driving belt pulley 26 is installed by bearing on described right driving axle 25, fixed one upper master in described frame 1 Motor 27, the described output shaft of upper main motor 27 is connected with the rear end of right driving axle 25, and described upper main motor 27 is by leading Line is connected with switch board 18, and a belt 28 is cased with described Left Drive belt pulley 24 and right driving belt pulley 26, described Belt 28 on a fixed supporting plate 29, the height of described supporting plate 29 is higher than left-hand rotation disk 9 and the height of right-hand rotation disk 17, institute The left end of the supporting plate 29 stated is horizontally mounted a left guide wheel shaft 30 by bearing, is pacified by bearing on described left guide wheel shaft 30 A left guide wheel 31 is filled, the right-hand member of described supporting plate 29 is horizontally mounted a right guide wheel shaft 32 by bearing, and the described right side is led A right guide wheel 33 is installed by bearing on wheel shaft 32, an oscillating cylinder 34, described swing gas are installed in described frame 1 Between left-hand rotation disk 9 and right-hand rotation disk 17, a fixed magnetic valve 35 in described frame 1, described magnetic valve 35 passes through cylinder 34 Tracheae is connected with oscillating cylinder 34, and described magnetic valve 35 is connected by wire with switch board 18, described oscillating cylinder A fixed grapple 36 on 34 piston rod, a fixed left cut knife rest 37, described left cut knife rest in described left support frame 7 A fixed left-cut tool 38 on 37, described left-cut tool 38 left-hand rotation disk 9 directly to the right, fixed one in described right support frame 15 Individual right cut knife rest 39, a fixed right-cut tool 40 on described right cut knife rest 39, described right-cut tool 40 in right-hand rotation disk 17 just Left side, described right-cut tool 40 left-cut tool 38 directly to the right, between described right-cut tool 40 and left-cut tool 38 on the two it Between medium line axial symmetry, described oscillating cylinder 34 is fixed on described left-hand rotation disk 9 between left-cut tool 40 and right-cut tool 38 One lower-left fixture block 41, a fixed upper left fixture block 42 on described left-hand rotation disk 9, described lower-left fixture block 41 and upper left fixture block 42 Between constitute angle, a fixed bottom right fixture block 43 on described right-hand rotation disk 17, a fixed upper right on described right-hand rotation disk 17 Fixture block 44, angle is constituted between described bottom right fixture block 43 and upper right fixture block 44.

Preferably, the fixed cross bar 47 of the upper end level of described frame 1, from left to right equal on described cross bar 47 Even fixed multiple limit switches 45, described limit switch 45 is connected by wire with switch board 18, described supporting plate 29 The fixed limited block 46 in upper end.

Preferably, described left-cut tool 40 and right-cut tool 38 are prepared from using 6CrW2Si steel.

The utility model is implemented：With the take-up of optical cable elder generation on right main shaft 16, left main shaft 8 is switched to after collecting completely As a example by upper, personnel control upper main motor 27 to be rotated by switch board 18, and upper main motor 27 then drives right drive by output shaft Moving axis 25 is rotated, and right driving axle 25 then drives right driving belt pulley 26 to rotate, and right driving belt pulley 26 then drives belt 28 to rotate, Belt 28 then drives supporting plate 29 to move right, and plate to be supported 29 is moved to when at the limit switch 45 of low order end, limit switch 45 signals for detecting limited block 46, then limit switch 45 then send a signal to switch board 18, switch board 18 is to signal After treatment and conversion, switch board 18 closes upper main motor 27, is passed through after optical cable then is bypassed into the right side of upper block 22 from left end From the underlying wound of right guide wheel 33 on right main shaft 16, right main shaft 16 then carries out take-up to optical cable, treats for the left side of right guide wheel 33 After the completion of optical cable on right main shaft 16 is collected, switch board 18 can control the main motor 27 to carry out opposite direction rotation, upper main motor 27 Then right driving axle 25 is driven to rotate by output shaft, right driving axle 25 then drives right driving belt pulley 26 to rotate, right drive belt Wheel 26 then drives the opposite direction of belt 28 to rotate, and belt 28 then drives supporting plate 29 to be moved to the left, and plate to be supported 29 moves to most left When at the limit switch 45 at end, limit switch 45 then detects the signal of limited block 46, and then limit switch 45 then sends out signal Switch board 18 is given, after switch board 18 is to signal transacting and conversion, switch board 18 closes upper main motor 27, and supporting plate 29 then stops Mobile, at the same time, switch board 18 then controls left main motor 19 to start, and left main motor 19 drives 8 turns of left main shaft by output shaft Dynamic, at the same time switch board 18 can control the piston of oscillating cylinder 34 to swing to the left by magnetic valve 35, the work of oscillating cylinder 34 Plug then drives grapple 36 to swing to the left, and grapple 36 then pushes optical cable, and at the same time switch board 18 can control the left main motor 19 to carry out Operating, the output shaft of left main motor 19 then drives left main shaft 8 to rotate, and left main shaft 8 then drives left-hand rotation disk 9 to be rotated, left-hand rotation disk 9 Then drive lower-left fixture block 41 and upper left fixture block 42 to be rotated, optical cable then gradually sticked into lower-left fixture block 41 and upper left fixture block 42 it Between in the angle that constitutes, then left-hand rotation disk 9 then drives lower-left fixture block 41 and upper left fixture block 42 to continue rotation, lower-left fixture block 41 and a left side Upper fixture block 42 also just drives optical cable to rotate, and optical cable can then be in contact with left-cut tool 38, and optical cable is rotated further, and left-cut tool 38 is then by light Cable cuts off, and so left main shaft 8 is then wound take-up to optical cable, so as to complete the purpose of thread-changing disk, whole process is more convenient, Because without carrying out thread-changing by hand again, labour intensity is significantly reduced, and very big saves manpower and muscle power, and relative to craft Switching, switch speed faster, and is not shutting down, does not complete in the normal productive process of reduction of speed, therefore relatively time-consuming, Take-up efficiency high, conversely, the take-up of optical cable elder generation is switched to when on right main shaft 16, also according to above-mentioned on left main shaft 8 after collecting completely Principle is switched over, and using more convenient, and during the take-up of left main shaft 8, switch board 18 can control inside left's motor 5 to enter Row a period of time rotates forward the endless form with a period of time reversion, and when such inside left's motor 5 is rotated forward, inside left's motor 5 can drive a left side Screw mandrel 4 is rotated forward, and such left support block 6 can be moved forward relative to left screw 4, left support block 6 can drive left support frame 7 to Preceding movement, the left slider 3 of both sides plays spacing effect, and the reach of left support agent 7 will drive left main shaft 8 to move forward, such light Cable can be spirally wound on left main shaft 8, and after then the control inside left of switch board 18 motor 5 is inverted, left support block 6 can turn round Dynamic, so left main shaft 8 will be also moved rearwards by, and so during loopy moving before and after left main shaft 8, optical cable can be received uniformly Line is on left main shaft 8, therefore take-up effect is relatively good, and similarly, also than more uniform, take-up effect also compares for the take-up of right main shaft 16 It is good.

General principle of the present utility model, principal character and advantage of the present utility model has been shown and described above.One's own profession The technical staff of industry it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply principle of the present utility model, the utility model also has respectively on the premise of the utility model spirit and scope are not departed from Changes and improvements are planted, these changes and improvements are both fallen within the range of claimed the utility model.The utility model requirement Protection domain defined by appending claims and its equivalent.

Claims (3)

1. a kind of automatic winding and arranging device of double plate, including frame（1）, it is characterised in that：Described frame（1）Left part level consolidate If two left line slideways（2）, each left line slideway（2）On be cased with a left slider（3）, described frame（1）'s Left part is horizontally mounted a left screw by bearing（4）, described left screw（4）With two left line slideways（2）It is parallel to each other, And left screw（4）In two left line slideways（2）Between, described frame（1）The fixed inside left's motor of left part（5）, institute The inside left's motor stated（5）Output shaft and left screw（4）Rear end be connected, described left screw（4）On be connected through a screw thread The fixed left support block of mode（6）, described left support block（6）Upper surface on the fixed left support frame of level（7）, institute The left support frame stated（7）Lower surface and two left sliders（3）Upper surface be connected, described left support frame（7）On pass through Bearing is horizontally mounted a left main shaft（8）, described left main shaft（8）A upper fixed left-hand rotation disk（9）, described frame（1）'s The fixed two right line slideways of right part level（10）, each right line slideway（10）On be cased with a right sliding block（11）, institute The frame stated（1）Right part one right screw is horizontally mounted by bearing（12）, described right screw（12）With two right straight lines Guide rail（10）It is parallel to each other, and right screw（12）In two right line slideways（10）Between, described frame（1）Right part it is fixed One inside right forward's motor（13）, described inside right forward's motor（13）Output shaft and right screw（12）Rear end be connected, described right silk Bar（12）On the fixed right support block of mode that is connected through a screw thread（14）, described right support block（14）Upper surface on water Equal a fixed right support frame（15）, described right support frame（15）Lower surface and two right sliding blocks（11）Upper surface it is solid Even, described right support frame（15）On a right main shaft is horizontally mounted by bearing（16）, described right main shaft（16）It is upper fixed One right-hand rotation disk（17）, described right-hand rotation disk（17）In left-hand rotation disk（9）Front-right, and right-hand rotation disk（17）With left-hand rotation disk（9）It Between on medium line axial symmetry therebetween, described frame（1）A upper fixed switch board（18）, described inside left's motor （5）By wire and switch board（18）It is connected, described inside right forward's motor（13）By wire and switch board（18）It is connected, institute The left support frame stated（7）The fixed left main motor in rear end（19）, described left main motor（19）Output shaft and left main shaft （8）Rear end be connected, described left main motor（19）By wire and switch board（18）It is connected, described right support frame（15） The fixed right main motor in rear end（20）, described right main motor（20）Output shaft and right main shaft（16）Rear end be connected, Described right main motor（20）By wire and switch board（18）It is connected, described frame（1）On be horizontally mounted by bearing One upper block axle（21）, described upper block axle（21）It is upper that a upper block is installed by bearing（22）, described frame（1） Left end one Left Drive axle is horizontally mounted by bearing（23）, described Left Drive axle（23）It is upper that a left side is installed by bearing Driving pulley（24）, described frame（1）Right-hand member one right driving axle is horizontally mounted by bearing（25）, described right drive Moving axis（25）It is upper that a right driving belt pulley is installed by bearing（26）, described frame（1）Upper fixed one upper main motor （27）, described upper main motor（27）Output shaft and right driving axle（25）Rear end be connected, described upper main motor（27）It is logical Cross wire and switch board（18）It is connected, described Left Drive belt pulley（24）With right driving belt pulley（26）On be cased with a skin Band（28）, described belt（28）A upper fixed supporting plate（29）, described supporting plate（29）Height be higher than left-hand rotation disk（9） With right-hand rotation disk（17）Height, described supporting plate（29）Left end one left guide wheel shaft is horizontally mounted by bearing（30）, institute The left guide wheel shaft stated（30）It is upper that a left guide wheel is installed by bearing（31）, described supporting plate（29）Right-hand member pass through bearing water Safety fills a right guide wheel shaft（32）, described right guide wheel shaft（32）It is upper that a right guide wheel is installed by bearing（33）, it is described Frame（1）One oscillating cylinder of upper installation（34）, described oscillating cylinder（34）In left-hand rotation disk（9）With right-hand rotation disk（17）Between, Described frame（1）A upper fixed magnetic valve（35）, described magnetic valve（35）By tracheae and oscillating cylinder（34）It is connected Connect, described magnetic valve（35）By wire and switch board（18）It is connected, described oscillating cylinder（34）Piston rod on it is solid If a grapple（36）, described left support frame（7）A upper fixed left cut knife rest（37）, described left cut knife rest（37）It is upper solid If a left-cut tool（38）, described left-cut tool（38）In left-hand rotation disk（9）Directly to the right, described right support frame（15）It is upper fixed One right cut knife rest（39）, described right cut knife rest（39）A upper fixed right-cut tool（40）, described right-cut tool（40）On the right side Rotating disk（17）Directly to the left, described right-cut tool（40）In left-cut tool（38）Directly to the right, described right-cut tool（40）And left cut Knife（38）Between on medium line axial symmetry therebetween, described oscillating cylinder（34）In left-cut tool（40）And right-cut tool （38）Between, described left-hand rotation disk（9）A upper fixed lower-left fixture block（41）, described left-hand rotation disk（9）A upper fixed upper left Fixture block（42）, described lower-left fixture block（41）With upper left fixture block（42）Between constitute angle, described right-hand rotation disk（17）It is upper fixed One bottom right fixture block（43）, described right-hand rotation disk（17）A upper fixed upper right fixture block（44）, described bottom right fixture block（43）With Upper right fixture block（44）Between constitute angle.

2. the automatic winding and arranging device of a kind of double plate according to claim 1, it is characterised in that：Described frame（1）It is upper The fixed cross bar of end level（47）, described cross bar（47）On from left to right uniform fixed multiple limit switches（45）, it is described Limit switch（45）By wire and switch board（18）It is connected, described supporting plate（29）The fixed limited block in upper end （46）.

3. the automatic winding and arranging device of a kind of double plate according to claim 1, it is characterised in that：Described left-cut tool（40）With Right-cut tool（38）It is prepared from using 6CrW2Si steel.