Container coil pipe wind
Technical field
The utility model relates to reaction plate pipe unit technical field, is a kind of container coil pipe wind.
Background technology
The dish of container coil pipe knot heating coil commonly used is tied with tray of containers after making its deliquescing more at present, and the method has often changed the quality of coil pipe because of heating, cause coil pipe mass defect.
Summary of the invention
The utility model provides a kind of container coil pipe wind, has overcome the deficiency of above-mentioned prior art, and there is the problem of defective in its coil pipe quality that can effectively solve existing dish knot.
The technical solution of the utility model realizes by following measure: a kind of container coil pipe wind comprises synchronous self-centering multijaw chuck, first turning rolls, second turning rolls and coil pipe guide piece; First turning rolls and second turning rolls in that the synchronous left of self-centering multijaw chuck is intervally arranged in regular turn from left to right and can holds container have the coil pipe guide piece that can hold coil pipe between first turning rolls and second turning rolls; This synchronous self-centering multijaw chuck comprises support, stay bearing plate, bearing, chuck and claw; The right side of stay bearing plate and the left side of support are installed together, on stay bearing plate, be installed with first motor, on the power take-off shaft of first motor, be installed with miniature gears, the left side of stay bearing plate is corresponding with the right side of chuck, between chuck and stay bearing plate bearing is arranged, the outer ring body of this bearing is fixedly mounted on the chuck, at the outside face of outer ring body latch is arranged, miniature gears is meshed with latch, and this bearing cone body is fixedly mounted on the stay bearing plate; The center, right side of chuck is installed with second motor, there is bearing hole at middle part at chuck, the outer end of the power take-off shaft of second motor is passed bearing hole and is positioned at left side one side of chuck, outer end at the power take-off shaft of second motor is installed with drive bevel gear, on the chuck in the drive bevel gear outside, be installed with subpanel, chuck upper edge circumference in the subpanel outside is evenly distributed with at least three claw and moves radially device, moves radially at claw and is installed with claw on the device.
Be further optimization and/or improvements below to above-mentioned utility model technical scheme:
Above-mentioned coil pipe guide piece comprises base, supporting base, positioning screw, track adjusting wheel bracing frame and track adjusting wheel, on base, be installed with supporting base, the worm screw of horizontal direction and the worm gear of vertical direction are installed in supporting base, worm and worm wheel are meshed, on worm screw, be installed with runner, on the outer face of runner, be installed with handle, the track adjusting wheel bracing frame comprises right panel, left side plate and dividing plate, between the middle part of the middle part of right panel and left plate, be fixed with dividing plate, bottom at dividing plate is fluted, the bottom absolute altitude of right panel is lower than the bottom absolute altitude of left plate, the upper end of worm gear is sleeved in the groove, between the top of the top of right panel and left plate, be installed with at least one the track adjusting wheel that to hold coil pipe, on the front side of the supporting base between right panel and the left plate and rear side, be fixed with connecting panel respectively, tapped bore is arranged on connecting panel, and the right part of positioning screw is fixed in the tapped bore, and the left end of positioning screw withstands on the left plate.
Can be installed with the roller that can move forward and backward on the above-mentioned base, on base, be installed with the movable motor that roller is moved.
Above-mentioned track adjusting wheel can be two, and each track adjusting wheel comprises wheel body and wheel shaft, is installed with wheel body on wheel shaft, on the top of wheel body the race that can place coil pipe is arranged, and on the top of right panel and left plate draw-in groove is arranged, and the two ends of wheel shaft are installed in the draw-in groove respectively.
Above-mentioned claw moves radially device can comprise the leading screw mount pad, trapezoidal screw, driven wheel of differential, linear guides and slide block; Each leading screw mount pad comprises leading screw adapter plate and leading screw stay bearing plate, leading screw adapter plate and leading screw stay bearing plate respectively from outward to internal fixation on chuck, trapezoidal screw is installed on leading screw adapter plate and the leading screw stay bearing plate and can rotates, in subpanel, be equipped with and the corresponding leading screw bearing of trapezoidal screw, the inner of trapezoidal screw is passed the leading screw bearing and is installed with driven wheel of differential, driven wheel of differential is meshed with drive bevel gear, between the leading screw adapter plate of trapezoidal screw both sides and leading screw stay bearing plate, be installed with a pair of linear guides, on each linear guides, be separately installed with the slide block that energy property guide rail along the line moves, on the T of trapezoidal screw shape screw thread, screw is installed, the both sides and the slide block of screw are fixed together, be installed with the claw base at the top of screw, on the claw base, be installed with claw.
Between above-mentioned first motor and the miniature gears drop-gear box can be installed, be installed with drop-gear box between second motor and the drive bevel gear.
The front side of above-mentioned support left end and rear side can be separately installed with the left lateral travelling wheel, the front side of support right-hand member and rear side are separately installed with the right lateral travelling wheel, left lateral travelling wheel and right lateral travelling wheel lay respectively on the slide rail, on support, be installed with movable motor and drop-gear box, the power drive shaft of movable motor is installed in the drop-gear box, and drop-gear box is installed together by worm and gear and right lateral travelling wheel and can drives right lateral travelling wheel sway.
The bottom of above-mentioned first turning rolls, second turning rolls can be separately installed with roller.
The outer ring body of above-mentioned bearing can be installed on the chuck by bolt; The bearing cone body is installed on the stay bearing plate by bolt.
The utility model reasonable and compact in structure, easy to use, by synchronous self-centering multijaw chuck, first turning rolls, second turning rolls and coil pipe guide piece match, container and coil pipe according to different-diameter, select corresponding with it track adjusting wheel for use, track adjusting wheel is fitted coil pipe and wall of container closely by worm and gear, two positioning screws are regulated its deviation angle in coil pipe dish knot process, the speed of travel of movable motor combines with the rotative speed of synchronous self-centering multijaw chuck, coil pipe is tied on wall of container in the even domain of shape in the shape of a spiral, therefore greatly improved the quality of coil pipe.
Description of drawings
Accompanying drawing 1 is the main TV structure scheme drawing of the utility model most preferred embodiment when container and coil pipe are installed.
Accompanying drawing 2 is the main TV structure scheme drawing of synchronous self-centering multijaw chuck in the utility model most preferred embodiment.
Accompanying drawing 3 is looked perspective view for a synchronous self-centering multijaw chuck left side in the utility model most preferred embodiment.
Accompanying drawing 4 is looked perspective view for the synchronous right side of self-centering multijaw chuck when not having stay bearing plate and support in the utility model most preferred embodiment.
Accompanying drawing 5 be in the accompanying drawing 2 A-A to the sectional structure scheme drawing.
Accompanying drawing 6 is the perspective view of coil pipe guide piece in the utility model most preferred embodiment.
Coding in the accompanying drawing is respectively: 1 is support, and 2 is stay bearing plate, and 3 is chuck, and 4 is claw, 5 is first motor, and 6 is miniature gears, and 7 is the outer ring body of bearing, and 8 is latch, 9 is the bearing cone body, and 10 is second motor, and 11 is drive bevel gear, and 12 are subpanel, 13 is trapezoidal screw, and 14 is driven wheel of differential, and 15 is linear guides, and 16 is slide block, 17 is the leading screw adapter plate, and 18 is the leading screw stay bearing plate, and 19 is drop-gear box, and 20 is screw, 21 is the claw base, and 22 is container, and 23 is first turning rolls, 24 is roller, and 25 is coil pipe, and 26 is second turning rolls, 27 is wheel shaft, and 28 is wheel body, and 29 is connecting panel, 30 is dividing plate, and 31 is movable motor, and 32 is base, 33 is supporting base, and 34 is positioning screw, and 35 is worm screw, 36 is runner, and 37 is handle, and 38 is right panel, 39 is left plate, and 40 is race, and 41 is worm gear.
The specific embodiment
The utility model is not subjected to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.
In the utility model, for convenience of description, the description of the relative position relation of each parts all is that the Butut mode according to Figure of description is described, as: the position relation of upper and lower, left and right etc. is what to determine according to the Butut direction of Figure of description.
Below in conjunction with embodiment and accompanying drawing the utility model is further described:
Shown in accompanying drawing 1 to 6, this container coil pipe wind comprises synchronous self-centering multijaw chuck, first turning rolls 23, second turning rolls 26 and coil pipe guide piece; First turning rolls 23 and second turning rolls 26 in that the synchronous left of self-centering multijaw chuck is intervally arranged in regular turn from left to right and can holds container 22 have the coil pipe guide piece that can hold coil pipe 25 between first turning rolls 23 and second turning rolls 26; This synchronous self-centering multijaw chuck comprises support 1, stay bearing plate 2, bearing, chuck 3 and claw 4; The left side of the right side of stay bearing plate 2 and support 1 is installed together, on stay bearing plate 2, be installed with first motor 5, on the power take-off shaft of first motor 5, be installed with miniature gears 6, the left side of stay bearing plate 2 is corresponding with the right side of chuck 3, between chuck 3 and stay bearing plate 2, bearing is arranged, the outer ring body 7 of this bearing is fixedly mounted on the chuck 3, outside face at the outer ring body 7 of bearing has latch 8, miniature gears 6 is meshed with latch 8, and this bearing cone body 9 is fixedly mounted on the stay bearing plate 2; The center, right side of chuck 3 is installed with second motor 10, there is bearing hole at middle part at chuck 3, the outer end of the power take-off shaft of second motor 10 is passed bearing hole and is positioned at left side one side of chuck 3, outer end at the power take-off shaft of second motor 10 is installed with drive bevel gear 11, on the chuck 3 in drive bevel gear 11 outsides, be installed with subpanel 12, chuck 3 upper edge circumference in subpanel 12 outsides are evenly distributed with at least three claw and move radially device, move radially at claw and are installed with claw 4 on the device.
Can according to actual needs said vesse coil pipe wind be made further optimization and/or improvements:
As accompanying drawing 1, shown in 6, the coil pipe guide piece comprises base 32, supporting base 33, positioning screw 34, track adjusting wheel bracing frame and track adjusting wheel, on base 32, be installed with supporting base 33, the worm screw 35 of horizontal direction and the worm gear 41 of vertical direction are installed in supporting base 33, worm screw 35 and worm gear 41 are meshed, on worm screw 35, be installed with runner 36, on the outer face of runner 36, be installed with handle 37, the track adjusting wheel bracing frame comprises right panel 38, left side plate 39 and dividing plate 30, between the middle part of the middle part of right panel 38 and left plate 39, be fixed with dividing plate 30, bottom at dividing plate 30 is fluted, the bottom absolute altitude of right panel 38 is lower than the bottom absolute altitude of left plate 39, the upper end of worm gear 41 is sleeved in the groove, between the top of the top of right panel 38 and left plate 39, be installed with at least one the track adjusting wheel that to hold coil pipe 25, on the front side of the supporting base 33 between right panel 38 and the left plate 39 and rear side, be fixed with connecting panel 29 respectively, on connecting panel 29, tapped bore is arranged, the right part of positioning screw 34 is fixed in the tapped bore, and the left end of positioning screw 34 withstands on the left plate 39.
Shown in accompanying drawing 1,6, be installed with the roller 24 that can move forward and backward on the base 32, on base 32, be installed with the movable motor 31 that roller 24 is moved.
Shown in accompanying drawing 1,6, track adjusting wheel is two, each track adjusting wheel comprises wheel body 28 and wheel shaft 27, on wheel shaft 27, be installed with wheel body 28, the race 40 that can place coil pipe 25 is arranged on the top of wheel body 28, draw-in groove is arranged at the top at right panel 38 and left plate 39, and the two ends of wheel shaft 27 are installed in the draw-in groove respectively.
Shown in accompanying drawing 1 to 5, this claw moves radially device and comprises the leading screw mount pad, trapezoidal screw 13, driven wheel of differential 14, linear guides 15 and slide block 16; Each leading screw mount pad comprises leading screw adapter plate 17 and leading screw stay bearing plate 18, leading screw adapter plate 17 and leading screw stay bearing plate 18 respectively from outward to internal fixation on chuck 3, trapezoidal screw 13 is installed on leading screw adapter plate 17 and the leading screw stay bearing plate 18 and can rotates, in subpanel 12, be equipped with and trapezoidal screw 13 corresponding leading screw bearings, the inner of trapezoidal screw 13 is passed the leading screw bearing and is installed with driven wheel of differential 14, driven wheel of differential 14 is meshed with drive bevel gear 11, between the leading screw adapter plate 17 of trapezoidal screw 13 both sides and leading screw stay bearing plate 18, be installed with a pair of linear guides 15, on each linear guides 15, be separately installed with the slide block 16 that energy property guide rail 15 along the line moves, on the T of trapezoidal screw 13 shape screw thread, screw 20 is installed, the both sides of screw 20 and slide block 16 are fixed together, be installed with claw base 21 at the top of screw 20, on claw base 21, be installed with claw 4.
As shown in Figure 4, as required, between first motor 5 and miniature gears 6, drop-gear box 19 is installed, between second motor 10 and drive bevel gear 11, is installed with drop-gear box 19.
As required, for the ease of moving, the front side and the rear side of support 1 left end are separately installed with the left lateral travelling wheel, the front side and the rear side of support 1 right-hand member are separately installed with the right lateral travelling wheel, left lateral travelling wheel and right lateral travelling wheel lay respectively on the slide rail, be installed with movable motor 31 and drop-gear box 19 on support 1, the power drive shaft of movable motor 31 is installed in the drop-gear box 19, and drop-gear box 19 is installed together by worm and gear and right lateral travelling wheel and can drives right lateral travelling wheel sway.
As required, for the ease of moving, the bottom of first turning rolls 23, second turning rolls 26 is separately installed with roller 24.
As shown in Figure 4, for the ease of Assembly ﹠Disassembly, the outer ring body 7 of bearing is installed on the chuck 3 by bolt, and bearing cone body 9 is installed on the stay bearing plate 2 by bolt.
Above technical characterictic has constituted most preferred embodiment of the present utility model, and it has stronger comformability and best implementation result, can increase and decrease non-essential technical characterictic according to actual needs, satisfies the demand of different situations.
The use of the utility model most preferred embodiment: during use, container 22 is positioned on first turning rolls 23 and second turning rolls 26, one end of container 22 uses synchronous self-centering multijaw chuck that it is tightened, and guide piece is positioned over the initiating terminal of the container 22 that needs winding coil pipe 25.Coil pipe 25 1 ends are welded on the container 22, and track adjusting wheel is stuck in outward on the coil pipe 25, and synchronously self-centering multijaw chuck drives container 22 rotations, the liter of regulating track adjusting wheel by worm gear 41, worm screw 35 with fall, regulate the tight ness rating of coil pipe 25 and container 22.Coil pipe 25 is subjected to track adjusting wheel top power that coil pipe 25 and container 22 are combined closely, positioning screw 34 screw or screw out the left and right sides deviation angle that is used for regulating the track adjusting wheel bracing frame, drive is fixed on the left and right sides deviation angle of track adjusting wheel on the track adjusting wheel bracing frame, regulate the angle of coil pipe 25 dishes on container 22, the movable motor 6 that is fixed on the base 32 can drive base 32 sway.