CN205341741U - Asynchronous trimming equipment of double -line - Google Patents

Asynchronous trimming equipment of double -line Download PDF

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Publication number
CN205341741U
CN205341741U CN201520984927.3U CN201520984927U CN205341741U CN 205341741 U CN205341741 U CN 205341741U CN 201520984927 U CN201520984927 U CN 201520984927U CN 205341741 U CN205341741 U CN 205341741U
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China
Prior art keywords
sleeve
roller
mandrel
wire
driving
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CN201520984927.3U
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Chinese (zh)
Inventor
蒋永官
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Guangzhou Panyu Guibo Automatic Machine Factory
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Guangzhou Panyu Guibo Automatic Machine Factory
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Priority to CN201520984927.3U priority Critical patent/CN205341741U/en
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Abstract

The utility model discloses an asynchronous trimming equipment of double -line, including inlet wire mechanism, an actuating mechanism and the 2nd actuating mechanism, the mechanism that is qualified for the next round of competitions, the 3rd actuating mechanism and fourth actuating mechanism and thread trimming mechanism. Inlet wire mechanism includes first inlet wire roller, second inlet wire roller, third inlet wire roller, fourth inlet wire roller, first dabber, second dabber, first sleeve and second sleeve. It includes the first roller of being qualified for the next round of competitions, second be qualified for the next round of competitions roller, third be qualified for the next round of competitions roller and fourth be qualified for the next round of competitions roller, third dabber, fourth dabber, third sleeve and fourth sleeve to be qualified for the next round of competitions the mechanism. The same when control first dabber, second dabber, third dabber and fourth dabber speed, the speed of first axle sleeve, second axle sleeve, third axle sleeve and fourth axle sleeve is the same, but dabber speed is when being different from the speed of axle sleeve, and the speed that can realize controlling the transmission among inlet wire mechanism and the mechanism that is qualified for the next round of competitions of two cotton ropes promptly is inconsistent, so just can adjust the length difference of two cotton ropes for can obtain two lines of cutting that have the length difference.

Description

A kind of asynchronous trimming equipment of two-wire
Technical field
This utility model relates to a kind of trimming equipment, especially relates to a kind of asynchronous trimming equipment of two-wire.
Background technology
Traditional two-wire automatic stripping trimming equipment can realize two-wire and synchronize the operation of inlet wire and trimming, so that obtain two length cutting off line are identical.But requirement during due to two-wire automatic stripping trimming equipment from miscellaneous equipment cooperating is different, and obtained two cut off certain length difference between line, and two length differences cutting off line are controlled, could meet job requirements.Cut off currently in order to realize two there is between line certain length difference, be all require over to have assisted manually, so waste manpower and materials, and two length differences cutting off line have error with the length difference set sometimes.
Summary of the invention
Based on this, this utility model is in that to overcome the defect of prior art, it is provided that a kind of can realize two and cuts off the asynchronous trimming equipment of the two-wire between line with length difference.
Its technical scheme is as follows:
A kind of asynchronous trimming equipment of two-wire, it is characterised in that including:
Wire inlet mechanism, described wire inlet mechanism includes the first inlet wire roller, second inlet wire roller, 3rd inlet wire roller, 4th inlet wire roller, first mandrel, second mandrel, first sleeve and the second sleeve, described first sleeve is rotatably socketed described first mandrel, described first mandrel one end is stretched out outside described first sleeve, and connect with described first inlet wire roller shell, described first set axle sleeve is connected to described second inlet wire roller, described second sleeve is rotatably socketed described second mandrel, described second mandrel one end is stretched out outside described second sleeve, and connect with described 3rd inlet wire roller shell, described second sleeve is socketed with described 4th inlet wire roller, it is set up in parallel between described first inlet wire roller and described 3rd inlet wire roller, and there is the gap for cotton rope traverse, it is set up in parallel between described second inlet wire roller and described 4th inlet wire roller, and there is the gap for cotton rope traverse;
First driving mechanism and the second driving mechanism, described first driving mechanism is used for driving described first mandrel and described second mandrel synchronous axial system, and described second driving mechanism is used for driving described first sleeve and described second sleeve synchronous axial system;
Outlet mechanism, described outlet mechanism includes the first outlet roller, second outlet roller, 3rd outlet roller and the 4th outlet roller, 3rd mandrel, 4th mandrel, 3rd sleeve and the 4th sleeve, described 3rd sleeve is rotatably socketed described 3rd mandrel, described 3rd mandrel one end is stretched out outside described 3rd sleeve, and be socketed with described first outlet roller, described 3rd sleeve is socketed with described second outlet roller, described 4th sleeve is rotatably socketed described 4th mandrel, described 4th mandrel one end is stretched out outside described 4th sleeve, and be socketed with described 3rd outlet roller, described 4th sleeve is socketed with described 4th outlet roller, it is set up in parallel between described first outlet roller and described 3rd outlet roller, and there is the gap for cotton rope traverse, it is set up in parallel between described second outlet roller and described 4th outlet roller, and there is the gap for cotton rope traverse;
3rd driving mechanism and the 4th driving mechanism, described 3rd driving mechanism is used for driving described 3rd mandrel and described 4th mandrel synchronous axial system, and described 4th driving mechanism is used for driving described 3rd sleeve and described 4th sleeve synchronous axial system;And
Thread cutting mechanism, the transfer passage between the portion of cutting off of described thread cutting mechanism and described wire inlet mechanism and described outlet mechanism is oppositely arranged.
Wherein in an embodiment, described first driving mechanism, second driving mechanism, 3rd driving mechanism and the 4th driving mechanism all include the first drive motor, first gear and the second gear, rotate axle, it is socketed the 3rd gear on described rotation axle and the 4th gear, and driving belt, described first gear and described two gears are socketed on described first mandrel and described second mandrel or the 3rd mandrel and described 4th mandrel or described first sleeve and described second sleeve or described 3rd sleeve and described 4th sleeve respectively, described 3rd gear engages with described first gear, described 4th gear is connected with described second gear drive by described driving belt, the torque output shaft of described first drive motor is connected with described driving belt transmission.
Wherein in an embodiment, also include support, described support has the first gripper shoe and the second gripper shoe that are set up in parallel, described first gripper shoe and described second gripper shoe are provided with the first axis hole, the second axis hole, Triaxial hole and the 4th axis hole, and described first sleeve, the second sleeve, the 3rd sleeve and the 4th sleeve are respectively installed in described first axis hole, the second axis hole, Triaxial hole and the 4th axis hole.
Wherein in an embodiment, described first axis hole and described second axis hole have at least one for bar hole, described Triaxial hole and described 4th axis hole has at least one for bar hole.
Wherein in an embodiment, also include tensioning line mechanism, described tensioning line mechanism includes the installing plate being installed in described first gripper shoe, and it is installed in several first guide rollers on described installing plate and several second guide rollers, described first guide roller and described second guide roller are along cotton rope transfer passage unwrapping wire interlaced arrangement, and described first guide roller is positioned at the top of described second guide roller.
Wherein in an embodiment, described first guide roller or described second guide roller installing hole on described installing plate are bar shaped axis hole, the bearing of described first guide roller or described second guide roller is installed in described bar shaped axis hole, and described bearing is equiped with the securing member for being anchored on by bearing on described installing plate.
Wherein in an embodiment, also include more than one wire block, described wire block is between described outlet mechanism and described tensioning line mechanism, described wire is packaged to be located in described installing plate or described first gripper shoe, described wire block is provided with the first guide through hole and the second guide through hole, and described first guide through hole and described second guide through hole are set up in parallel and are positioned on described cotton rope transfer passage.
Wherein in an embodiment, described first outlet roller, described 3rd outlet roller is provided with the first sliding sleeve, described second outlet roller, described 4th outlet roller is provided with the second sliding sleeve, two described first sliding sleeves are respectively sleeved at described 3rd mandrel, on 4th mandrel, described first sliding sleeve can along described 3rd mandrel, 4th mandrel moves, two described second sliding sleeves are set in described 3rd sleeve, on described 4th sleeve, described second sliding sleeve can along described 3rd sleeve, described 4th sleeve moves, it is provided with cylinder roller bearing between described first sliding sleeve and described second sliding sleeve, two described cylinder roller bearings are respectively sleeved at described 3rd mandrel, on 4th mandrel, the outer ring of described cylinder roller bearing is connected with described first sliding sleeve, the inner ring of described cylinder roller bearing is connected with described second sliding sleeve, described first sliding sleeve is connected to the mechanism that twists thread, the described mechanism that twists thread enables to two described first sliding sleeves and moves in opposite directions or dorsad on described 3rd mandrel with described 4th mandrel respectively.
Wherein in an embodiment, the described mechanism that twists thread includes the second drive motor, housing, running through the first of described housing drives axle and second to drive axle, first tooth bar and the second tooth bar, and the 5th gear, described first drives axle to drive axle to be set up in parallel with described second, and can with housing generation relative movement, described first drives axle to drive axle to be connected with described first sliding sleeve transmission with described second, described first tooth bar and described second tooth bar are respectively installed in described first and drive axle to drive on axle with described second, described 5th gear is arranged between described first tooth bar and described second tooth bar, and with described first tooth bar, described second tooth bar is meshed, described second drive motor is connected with described 5th gear drive.
Wherein in an embodiment, described first drives axle to drive axle to be respectively connected with shaft coupling with described second, and described first sliding sleeve is connected to shaft coupling link, and described shaft coupling link is connected with described shaft coupling.
Below in conjunction with technique scheme, principle of the present utility model, effect are further illustrated:
1, the asynchronous trimming equipment of above-mentioned two-wire, when controlling, the first mandrel, the second mandrel, the 3rd mandrel and the 4th mandrel speed are identical, the speed of the first axle sleeve, the second axle sleeve, the 3rd axle sleeve and the 4th axle sleeve is identical, but when mandrel speed is different from the speed of axle sleeve, namely it is capable of controlling both threads rope speed of transmission among wire inlet mechanism with outlet mechanism inconsistent, so just can adjust the length difference between both threads rope so that can obtain two there is length difference cut off line.
2, during the first drive motor action, the second gear and the 4th gear synchronous is driven to rotate by driving belt.The second mandrel, the 4th mandrel, the second axle sleeve or the 4th axle sleeve is driven to rotate after second pinion rotation.Synchronize after 4th pinion rotation to drive the 3rd pinion rotation, after the 3rd pinion rotation, drive the first pinion rotation.The first mandrel, the 3rd mandrel, the first axle sleeve or the 3rd axle sleeve is driven to rotate after first pinion rotation.So, just it is capable of the first mandrel and the 3rd mandrel, the second mandrel and the 4th mandrel, the first axle sleeve and the 3rd axle sleeve and the second axle sleeve and the 4th axle sleeve synchronous backward rotates.
3, the first axis hole, Triaxial hole are bar hole.Mobile first sleeve, the 3rd sleeve position in the first gripper shoe with the second gripper shoe, thus the distance between the distance adjusted between two rows inlet wire roller and two row's outlet rollers, to be adapted to for different size of cotton rope, making to be conveniently adjusted two row's inlet wire rollers and two row's outlet roller clamping forces to cotton rope, therefore the laser propagation effect of cotton rope is better.
4, make cotton rope sequentially pass through the first guide roller and the second guide roller, and the width and tensile force according to cotton rope requires to adjust the first guide roller position on a mounting board in bar shaped axis hole.Such cotton rope is in transmitting procedure, it is possible to keep tensioning state, it is simple to transmission.
5, wire block arranges the first guide through hole and the second guide through hole, and the first guide through hole is set up in parallel with the second guide through hole and is positioned on cotton rope transfer passage.Both threads rope is each passed through the first guide through hole and the second guide through hole, is led by wire block in transmitting procedure.So ensure that cotton rope its straight state, and improve the laser propagation effect of cotton rope.
6, after both threads rope is cut off, the mechanism that twists thread drives and axially returns, between the first outlet roller and the 3rd outlet roller, the second outlet roller and the 4th outlet roller, the motion that twists thread, and so just can be fastened together by the silk of dispersing that cotton rope end is formed after cutting off.
Accompanying drawing explanation
Fig. 1 is the structural representation one of the asynchronous trimming equipment of two-wire described in this utility model embodiment;
Fig. 2 is the first driving mechanism and the second driving mechanism schematic diagram of the asynchronous trimming equipment of two-wire described in this utility model embodiment;
Fig. 3 is the structural representation two of the asynchronous trimming equipment of two-wire described in this utility model embodiment;
Fig. 4 is the structural representation of the outlet mechanism of the asynchronous trimming equipment of two-wire described in this utility model embodiment;
Fig. 5 is the mechanism structure schematic diagram that twists thread of the asynchronous trimming equipment of two-wire described in this utility model embodiment.
Description of reference numerals:
10, wire inlet mechanism, 11, first inlet wire roller, 12, second inlet wire roller, 13, 3rd inlet wire roller, 14, 4th inlet wire roller, 15, first mandrel, 16, second mandrel, 17, first sleeve, 18, second sleeve, 20, outlet mechanism, 21, first outlet roller, 22, second outlet roller, 23, 3rd outlet roller, 24, 3rd mandrel, 25, 3rd sleeve, 26, first sliding sleeve, 27, cylinder roller bearing, 28, second sliding sleeve, 31, first drive motor, 32, first gear, 33, second gear, 34, rotate axle, 35, 3rd gear, 36, 4th gear, 37, driving belt, 40, thread cutting mechanism, 51, first gripper shoe, 52, second gripper shoe, 53, first axis hole, 55, Triaxial hole, 60, tensioning line mechanism, 61, installing plate, 62, first guide roller, 63, second guide roller, 64, bar shaped axis hole, 65, bearing, 66, securing member, 70, wire block, 71, first guide through hole, 72, second guide through hole, 80, twist thread mechanism, and 81, second drive motor, 82, housing, 83, first drives axle, and 84, second drives axle, and 85, first tooth bar, 86, second tooth bar, 871, 5th gear, 872, 6th gear, 88, shaft coupling, 89, shaft coupling link, 90, cotton rope.
Detailed description of the invention
Below embodiment of the present utility model is described in detail:
As it is shown in figure 1, the asynchronous trimming equipment of two-wire described in the utility model, including wire inlet mechanism the 10, first driving mechanism and the second driving mechanism, outlet mechanism the 20, the 3rd driving mechanism and the 4th driving mechanism and thread cutting mechanism 40.Described wire inlet mechanism 10 includes the first inlet wire roller the 11, second inlet wire roller the 12, the 3rd inlet wire roller the 13, the 4th inlet wire roller the 14, first mandrel the 15, second mandrel the 16, first sleeve 17 and the second sleeve 18.Described outlet mechanism 20 includes the first outlet roller the 21, second outlet roller the 22, the 3rd outlet roller 23 and the 4th outlet roller, the 3rd mandrel the 24, the 4th mandrel, the 3rd sleeve 25 and the 4th sleeve.
Described first sleeve 17 is rotatably socketed described first mandrel 15.Described first mandrel 15 one end is stretched out described first sleeve 17 outside and is socketed with described first inlet wire roller 11.Described first sleeve 17 is socketed with described second inlet wire roller 12.Described second sleeve 18 is rotatably socketed described second mandrel 16.Described second mandrel 16 one end is stretched out described second sleeve 18 outside and is socketed with described 3rd inlet wire roller 13.Described second sleeve 18 is socketed with described 4th inlet wire roller 14.
Described 3rd sleeve 25 is rotatably socketed described 3rd mandrel 24.Described 3rd mandrel 24 one end is stretched out described 3rd sleeve 25 outside and is socketed with described first outlet roller 21.Described 3rd sleeve 25 is socketed with described second outlet roller 22.Described 4th sleeve is rotatably socketed described 4th mandrel.Described 4th mandrel one end is stretched out outside described 4th sleeve and is socketed with described 3rd outlet roller 23.Described 4th sleeve is socketed with described 4th outlet roller.
Described first driving mechanism is used for driving described first mandrel 15 and described second mandrel 16 synchronous axial system, it is achieved the first inlet wire roller 11 and the 3rd inlet wire roller 13 synchronous axial system.It is set up in parallel between described first inlet wire roller 11 and described 3rd inlet wire roller 13 and there is the gap for cotton rope 90 traverse.The cotton rope 90 gap between the first inlet wire roller 11 and the 3rd inlet wire roller 13, is driven feeding by the first inlet wire roller 11 and the 3rd inlet wire roller 13.
Described second driving mechanism is used for driving described first sleeve 17 and described second sleeve 18 synchronous axial system, it is achieved the second inlet wire roller 12 and the 3rd inlet wire roller 13 synchronous axial system.It is set up in parallel between described second inlet wire roller 12 and described 4th inlet wire roller 14 and there is the gap for cotton rope 90 traverse.The cotton rope 90 gap between the second inlet wire roller 12 and the 4th inlet wire roller 14, is driven feeding by the second inlet wire roller 12 and the 4th inlet wire roller 14.
Described 3rd driving mechanism is used for driving described 3rd mandrel 24 and described 4th mandrel synchronous axial system, it is achieved the first outlet roller 21 and the 3rd outlet roller 23 synchronous axial system.It is set up in parallel between described first outlet roller 21 and described 3rd outlet roller 23 and there is the gap for cotton rope 90 traverse.The cotton rope 90 gap between the first outlet roller 21 and the 3rd outlet roller 23, is driven by the first outlet roller 21 and the 3rd outlet roller 23 and sends.
Described 4th driving mechanism is used for driving described 3rd sleeve 25 and described 4th sleeve synchronous axial system, it is achieved the second outlet roller 22 and the 4th outlet roller synchronous axial system.It is set up in parallel between described second outlet roller 22 and described 4th outlet roller and there is the gap for cotton rope 90 traverse.The cotton rope 90 gap between the second outlet roller 22 and the 4th outlet roller, is driven by the second outlet roller 22 and the 4th outlet roller and sends.
Transfer passage between the portion of cutting off of described thread cutting mechanism 40 and described wire inlet mechanism 10 and described outlet mechanism 20 is oppositely arranged.Control thread cutting mechanism 40, according to user, cotton rope 90 is cut off in the requirement of the length of cotton rope 90, just can obtain two sections of cotton ropes 90 of user's request length.
The asynchronous trimming equipment of above-mentioned two-wire, when controlling first mandrel the 15, second mandrel the 16, the 3rd mandrel 24 and the 4th mandrel speed is identical, the speed of the first axle sleeve, the second axle sleeve, the 3rd axle sleeve and the 4th axle sleeve is identical, but when mandrel speed is different from the speed of axle sleeve, namely it is capable of controlling both threads rope 90 speed of transmission among wire inlet mechanism 10 with outlet mechanism 20 inconsistent, and in time both threads rope 90 is cut off by controlling the portion of cutting off of thread cutting mechanism 40.So just can adjust the length difference between both threads rope 90 so that can obtain two there is length difference cut off line.
Refer to Fig. 2, wherein, described first driving mechanism, the second driving mechanism, the 3rd driving mechanism and the 4th driving mechanism all include first drive motor the 31, first gear the 32, second gear 33, rotate axle the 34, the 3rd gear the 35, the 4th gear 36 and driving belt 37.Described first gear 32 and described two gears are socketed on described first mandrel 15 and described second mandrel 16 or the 3rd mandrel 24 and described 4th mandrel or described first sleeve 17 and described second sleeve 18 or described 3rd sleeve 25 and described 4th sleeve respectively.3rd gear 35 and the 4th gear 36 are socketed on described rotation axle 34.Described 3rd gear 35 engages with described first gear 32.Described 4th gear 36 is connected with described second gear 33 transmission by described driving belt 37.The torque output shaft of described first drive motor 31 is connected with the transmission of described driving belt 37.
When the first drive motor 31 action, just can pass through driving belt 37 and drive the second gear 33 and the 4th gear 36 synchronous axial system.Second gear 33 drives the second mandrel the 16, the 4th mandrel, the second axle sleeve or the 4th axle sleeve to rotate after rotating.4th gear 36 synchronizes after rotating to drive the 3rd gear 35 to rotate, and the 3rd gear 35 drives the first gear 32 to rotate after rotating.First gear 32 drives first mandrel the 15, the 3rd mandrel the 24, first axle sleeve or the 3rd axle sleeve to rotate after rotating.So, just it is capable of the first mandrel 15 and the 3rd mandrel the 24, second mandrel 16 and the 4th mandrel, the first axle sleeve and the 3rd axle sleeve and the second axle sleeve and the 4th axle sleeve synchronous backward rotates.
Referring to Fig. 3, the asynchronous trimming equipment of two-wire also includes support.Described support has the first gripper shoe 51 and the second gripper shoe 52 being set up in parallel.Described first gripper shoe 51 is provided with first axis hole the 53, second axis hole, Triaxial hole 55 and the 4th axis hole with described second gripper shoe 52.Described first sleeve the 17, second sleeve the 18, the 3rd sleeve 25 and the 4th sleeve are respectively installed in described first axis hole the 53, second axis hole, Triaxial hole 55 and the 4th axis hole.
Described first axis hole 53 and described second axis hole have at least one for bar hole, described Triaxial hole 55 and described 4th axis hole have at least one for bar hole.Fig. 1, illustrate the first axis hole 53 in 2, Triaxial hole 55 is bar hole.So, first sleeve the 17, the 3rd sleeve 25 position in the first gripper shoe 51 and the second gripper shoe 52 can be moved, thus the distance between the distance adjusted between two rows inlet wire roller and two row's outlet rollers, to be adapted to for different size of cotton rope 90, making to be conveniently adjusted two row's inlet wire rollers and two row's outlet roller clamping forces to cotton rope 90, therefore the laser propagation effect of cotton rope 90 is better.
The asynchronous trimming equipment of two-wire also includes tensioning line mechanism 60.Described tensioning line mechanism 60 includes the installing plate 61 being installed in described first gripper shoe 51, and is installed in several first guide rollers 62 on described installing plate 61 and several second guide rollers 63.Described first guide roller 62 and described second guide roller 63 are along cotton rope transfer passage unwrapping wire interlaced arrangement, and described first guide roller 62 is positioned at the top of described second guide roller 63.Described first guide roller 62 or described second guide roller 63 installing hole on described installing plate 61 are bar shaped axis hole 64.The bearing 65 of described first guide roller 62 or described second guide roller 63 is installed in described bar shaped axis hole 64.Described bearing 65 is equiped with the securing member 66 for being anchored on by bearing 65 on described installing plate 61.Cotton rope 90 is made to sequentially pass through the first guide roller 62 and the second guide roller 63, and the width and tensile force according to cotton rope 90 requires to adjust first guide roller 62 position on installing plate 61 in bar shaped axis hole 64, such cotton rope 90 is in transmitting procedure, it is possible to keep tensioning state, it is simple to transmission.
Two-wire asynchronous trimming equipment also includes more than one wire block 70.Described wire block 70 is between described outlet mechanism 20 and described tensioning line mechanism 60, and described wire block 70 is installed in described installing plate 61 or described first gripper shoe 51.Described wire block 70 is provided with the first guide through hole 71 and the second guide through hole 72.Described first guide through hole 71 is set up in parallel with described second guide through hole 72 and is positioned on described cotton rope transfer passage.Both threads rope 90 is each passed through the first guide through hole 71 and the second guide through hole 72, is led by wire block 70 in transmitting procedure, enabling ensures cotton rope 90 its straight state, and improves the laser propagation effect of cotton rope 90.
Refer to Fig. 4, described first outlet roller 21, described 3rd outlet roller 23 are provided with the first sliding sleeve 26.Described second outlet roller 22, described 4th outlet roller are provided with the second sliding sleeve 28.Two described first sliding sleeves 26 are respectively sleeved on described 3rd mandrel the 24, the 4th mandrel, and described first sliding sleeve 26 can move along described 3rd mandrel the 24, the 4th mandrel.Two described second sliding sleeves 28 are set on described 3rd sleeve 25, described 4th sleeve, and described second sliding sleeve 28 can move along described 3rd sleeve 25, described 4th sleeve.It is provided with cylinder roller bearing 27 between described first sliding sleeve 26 and described second sliding sleeve 28.Two described cylinder roller bearings 27 are respectively sleeved on described 3rd mandrel the 24, the 4th mandrel.The outer ring of described cylinder roller bearing 27 is connected with described first sliding sleeve 26, and the inner ring of described cylinder roller bearing 27 is connected with described second sliding sleeve 28.Described first sliding sleeve 26 is connected to the mechanism 80 that twists thread.The described mechanism 80 that twists thread enables to two described first sliding sleeves 26 and moves in opposite directions or dorsad on described 3rd mandrel 24 with described 4th mandrel respectively.After both threads rope 90 is cut off, the mechanism 80 that twists thread drives and axially returns, between the first outlet roller 21 and the 3rd outlet roller the 23, second outlet roller 22 and the 4th outlet roller, the motion that twists thread, and so just can be fastened together by the silk of dispersing that cotton rope 90 end is formed after cutting off.
Refer to Fig. 5, described in the mechanism 80 that twists thread include the second drive motor 81, housing 82, run through the first of described housing 82 and drive axle 83 and the second driving axle the 84, first tooth bar 85 and the second tooth bar 86 and the 5th gear 871.Described first drives axle 83 to drive axle 84 to be set up in parallel with described second and with housing 82, relative movement can occur, and described first drives axle 83 to drive axle 84 to be connected with described first sliding sleeve 26 transmission with described second.Wherein, described first axle 83 is driven to drive axle 84 to be respectively connected with shaft coupling 88 with described second.Described first sliding sleeve 26 is connected to shaft coupling link 89.Described shaft coupling link 89 is connected with described shaft coupling 88.Described first tooth bar 85 and described second tooth bar 86 are respectively installed in described first and drive axle 83 to drive on axle 84 with described second.Described 5th gear 871 is arranged between described first tooth bar 85 with described second tooth bar 86 and is meshed with described first tooth bar 85, described second tooth bar 86.The torque output shaft of described second drive motor 81 is connected to the 6th gear 872.6th gear 872 is connected with the 5th gear 871 transmission.5th gear 871 just enables to the first tooth bar 85 and described second tooth bar 86 and staggers movement after rotating.
Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.
Embodiment described above only have expressed several embodiments of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. the asynchronous trimming equipment of two-wire, it is characterised in that including:
Wire inlet mechanism, described wire inlet mechanism includes the first inlet wire roller, second inlet wire roller, 3rd inlet wire roller, 4th inlet wire roller, first mandrel, second mandrel, first sleeve and the second sleeve, described first sleeve is rotatably socketed described first mandrel, described first mandrel one end is stretched out outside described first sleeve, and connect with described first inlet wire roller shell, described first set axle sleeve is connected to described second inlet wire roller, described second sleeve is rotatably socketed described second mandrel, described second mandrel one end is stretched out outside described second sleeve, and connect with described 3rd inlet wire roller shell, described second sleeve is socketed with described 4th inlet wire roller, it is set up in parallel between described first inlet wire roller and described 3rd inlet wire roller, and there is the gap for cotton rope traverse, it is set up in parallel between described second inlet wire roller and described 4th inlet wire roller, and there is the gap for cotton rope traverse;
First driving mechanism and the second driving mechanism, described first driving mechanism is used for driving described first mandrel and described second mandrel synchronous axial system, and described second driving mechanism is used for driving described first sleeve and described second sleeve synchronous axial system;
Outlet mechanism, described outlet mechanism includes the first outlet roller, second outlet roller, 3rd outlet roller and the 4th outlet roller, 3rd mandrel, 4th mandrel, 3rd sleeve and the 4th sleeve, described 3rd sleeve is rotatably socketed described 3rd mandrel, described 3rd mandrel one end is stretched out outside described 3rd sleeve, and be socketed with described first outlet roller, described 3rd sleeve is socketed with described second outlet roller, described 4th sleeve is rotatably socketed described 4th mandrel, described 4th mandrel one end is stretched out outside described 4th sleeve, and be socketed with described 3rd outlet roller, described 4th sleeve is socketed with described 4th outlet roller, it is set up in parallel between described first outlet roller and described 3rd outlet roller, and there is the gap for cotton rope traverse, it is set up in parallel between described second outlet roller and described 4th outlet roller, and there is the gap for cotton rope traverse;
3rd driving mechanism and the 4th driving mechanism, described 3rd driving mechanism is used for driving described 3rd mandrel and described 4th mandrel synchronous axial system, and described 4th driving mechanism is used for driving described 3rd sleeve and described 4th sleeve synchronous axial system;And
Thread cutting mechanism, the transfer passage between the portion of cutting off of described thread cutting mechanism and described wire inlet mechanism and described outlet mechanism is oppositely arranged.
2. the asynchronous trimming equipment of two-wire according to claim 1, it is characterized in that, described first driving mechanism, second driving mechanism, 3rd driving mechanism and the 4th driving mechanism all include the first drive motor, first gear and the second gear, rotate axle, it is socketed the 3rd gear on described rotation axle and the 4th gear, and driving belt, described first gear and described two gears are socketed on described first mandrel and described second mandrel or the 3rd mandrel and described 4th mandrel or described first sleeve and described second sleeve or described 3rd sleeve and described 4th sleeve respectively, described 3rd gear engages with described first gear, described 4th gear is connected with described second gear drive by described driving belt, the torque output shaft of described first drive motor is connected with described driving belt transmission.
3. the asynchronous trimming equipment of two-wire according to claim 1, it is characterized in that, also include support, described support has the first gripper shoe and the second gripper shoe that are set up in parallel, described first gripper shoe and described second gripper shoe are provided with the first axis hole, the second axis hole, Triaxial hole and the 4th axis hole, and described first sleeve, the second sleeve, the 3rd sleeve and the 4th sleeve are respectively installed in described first axis hole, the second axis hole, Triaxial hole and the 4th axis hole.
4. the asynchronous trimming equipment of two-wire according to claim 3, it is characterised in that have at least one for bar hole in described first axis hole and described second axis hole, have at least one in described Triaxial hole and described 4th axis hole for bar hole.
5. the asynchronous trimming equipment of two-wire according to claim 3, it is characterized in that, also include tensioning line mechanism, described tensioning line mechanism includes the installing plate being installed in described first gripper shoe, and it is installed in several first guide rollers on described installing plate and several second guide rollers, described first guide roller and described second guide roller are along cotton rope transfer passage unwrapping wire interlaced arrangement, and described first guide roller is positioned at the top of described second guide roller.
6. the asynchronous trimming equipment of two-wire according to claim 5, it is characterized in that, described first guide roller or described second guide roller installing hole on described installing plate are bar shaped axis hole, the bearing of described first guide roller or described second guide roller is installed in described bar shaped axis hole, and described bearing is equiped with the securing member for being anchored on by bearing on described installing plate.
7. the asynchronous trimming equipment of two-wire according to claim 5, it is characterized in that, also include more than one wire block, described wire block is between described outlet mechanism and described tensioning line mechanism, described wire is packaged to be located in described installing plate or described first gripper shoe, described wire block is provided with the first guide through hole and the second guide through hole, and described first guide through hole and described second guide through hole are set up in parallel and are positioned on described cotton rope transfer passage.
8. the asynchronous trimming equipment of two-wire according to claim 1, it is characterized in that, described first outlet roller, described 3rd outlet roller is provided with the first sliding sleeve, described second outlet roller, described 4th outlet roller is provided with the second sliding sleeve, two described first sliding sleeves are respectively sleeved at described 3rd mandrel, on 4th mandrel, described first sliding sleeve can along described 3rd mandrel, 4th mandrel moves, two described second sliding sleeves are set in described 3rd sleeve, on described 4th sleeve, described second sliding sleeve can along described 3rd sleeve, described 4th sleeve moves, it is provided with cylinder roller bearing between described first sliding sleeve and described second sliding sleeve, two described cylinder roller bearings are respectively sleeved at described 3rd mandrel, on 4th mandrel, the outer ring of described cylinder roller bearing is connected with described first sliding sleeve, the inner ring of described cylinder roller bearing is connected with described second sliding sleeve, described first sliding sleeve is connected to the mechanism that twists thread, the described mechanism that twists thread enables to two described first sliding sleeves and moves in opposite directions or dorsad on described 3rd mandrel with described 4th mandrel respectively.
9. the asynchronous trimming equipment of two-wire according to claim 8, it is characterized in that, the described mechanism that twists thread includes the second drive motor, housing, running through the first of described housing drives axle and second to drive axle, first tooth bar and the second tooth bar, and the 5th gear, described first drives axle to drive axle to be set up in parallel with described second, and can with housing generation relative movement, described first drives axle to drive axle to be connected with described first sliding sleeve transmission with described second, described first tooth bar and described second tooth bar are respectively installed in described first and drive axle to drive on axle with described second, described 5th gear is arranged between described first tooth bar and described second tooth bar, and with described first tooth bar, described second tooth bar is meshed, described second drive motor is connected with described 5th gear drive.
10. the asynchronous trimming equipment of two-wire according to claim 9, it is characterised in that described first drives axle to drive axle to be respectively connected with shaft coupling with described second, and described first sliding sleeve is connected to shaft coupling link, and described shaft coupling link is connected with described shaft coupling.
CN201520984927.3U 2015-12-01 2015-12-01 Asynchronous trimming equipment of double -line Withdrawn - After Issue CN205341741U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105328081A (en) * 2015-12-01 2016-02-17 广州市番禺桂博自动化设备制造厂 Double-wire asynchronous shearing equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105328081A (en) * 2015-12-01 2016-02-17 广州市番禺桂博自动化设备制造厂 Double-wire asynchronous shearing equipment

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