Disclosure of Invention
The technical problem to be solved by the invention is to provide a traction mechanism to convey textile fabric cloth between a driven disc and a rotating disc; the rotating disc drives the forming mechanism to rotate, the driven wheel and the driven disc rotate around the driven shaft, and the driven disc and the rotating disc rotate to drive the textile fabric to be wound, so that the textile fabric roll can be formed conveniently and rapidly; the hollow forming device for the textile fabric rolls greatly improves the forming efficiency of the textile fabric.
The invention is realized by the following technical scheme:
the hollow forming device for the textile fabric cloth roll comprises a bottom plate, wherein a base is arranged at the bottom of the bottom plate; a first positioning rail is arranged on one side of the bottom plate, a first fixing seat is arranged on the first positioning rail, a first positioning shell is arranged on the first fixing seat, a stepping motor is arranged on the back surface of the first positioning shell, a rotating disk is arranged on the front surface of the first positioning shell, a driving shaft is arranged in front of the stepping motor, one end of the driving shaft is connected with the front part of the stepping motor, and the other end of the driving shaft is connected with the shaft center of the rotating disk; a second positioning rail is arranged on the other side of the bottom plate, a clamping seat is arranged on the second positioning rail, a second positioning shell is arranged on the clamping seat, a driven wheel is arranged on the front side of the second positioning shell, a driven disc is arranged on the front side of the driven wheel, the driven disc corresponds to the rotating disc, a driven shaft is arranged in the middle of the second positioning shell, and the front part of the driven shaft is connected with the shaft center of the driven wheel; the top of second location shell is equipped with the top shell, and the front portion of top shell is equipped with drive mechanism, and drive mechanism includes the mount, and the both sides of mount all are equipped with the side bearer, and the front portion of side bearer is equipped with the guiding axle, and the outer peripheral face cover of guiding axle is equipped with the slider group, the front portion of slider group is equipped with the direction nest of tubes, the front portion of direction nest of tubes is equipped with the drawbar group, the top between driven plate and rotary disk is installed to the drawbar group.
Further, the sliding block set comprises a first sliding pipe and a second sliding pipe, the first sliding pipe and the second sliding pipe are sleeved on the outer peripheral surface of the guide shaft, the guide pipe set comprises a first guide pipe and a second guide pipe, the traction rod set comprises a first traction rod and a second traction rod, one end of the first guide pipe is connected with the lateral part of the first sliding pipe, one end of the first traction rod is sleeved in the other end of the first guide pipe, one end of the second guide pipe is connected with the lateral part of the second sliding pipe, one end of the second traction rod is sleeved in the other end of the second guide pipe, the other end of the second traction rod is sleeved with a second locking ring, the other end of the first traction rod is sleeved with a first locking ring, one end of the second traction rod is sleeved with a second limiting ring, and one end of the first traction rod is sleeved with a first limiting ring.
Furthermore, a first lock pin is arranged at the side position of the first sliding pipe, the first sliding pipe is locked and connected on the outer peripheral surface of the guide shaft through the first lock pin, a second lock pin is arranged at the side position of the second sliding pipe, and the second sliding pipe is locked and connected on the outer peripheral surface of the guide shaft through the second lock pin.
Furthermore, a forming mechanism is arranged on the front surface of the rotating disc and comprises a forming disc, a coil is axially arranged on the forming disc, a rotary cylinder is arranged at the outer end of the coil, and the rotary cylinder is sleeved on the outer peripheral surface of a driving shaft at the front part of the stepping motor; a fixed cylinder is arranged between the rotary cylinder and the peripheral surface of the driving shaft.
Furthermore, a top block is arranged at the rear part of the top shell; the cross sections of the top block and the top shell are in a convex shape.
Furthermore, a guide seat is arranged on the top surface of the second positioning track, the top surface of the guide seat is of an opening structure, a guide groove is formed in the middle of the guide seat, and the clamping seat is installed in the guide groove.
Furthermore, the clamping seat and the second positioning shell are arranged in a T-shaped manner, and the upper part of the guide seat is buckled on two sides of the top surface of the clamping seat.
Furthermore, the outer side position of the second positioning track is provided with a side block, the lower part of the side block is provided with a bottom block, the bottom block is provided with a positioning tube, the top end of the positioning tube is provided with a positioning cylinder, the outer side position of the positioning cylinder is provided with a side tube, a positioning shaft is arranged in the positioning cylinder and faces inwards, the front end of the positioning shaft is provided with a positioning column, and the rear end of the driven shaft is sleeved on the outer peripheral face position of the positioning column.
Furthermore, two sides of the bottom of the first positioning track are respectively provided with a first fixing block, and the first fixing blocks are fixed on the bottom plate; and second fixed blocks are arranged on two sides of the bottom of the second positioning track and fixed on the bottom plate.
Furthermore, the both sides of first position shell all are equipped with the boss, and the boss is fixed on first fixing base.
The invention has the beneficial effects that: the hollow forming device is arranged in front of a textile fabric knitting machine, and textile fabric cloth conveyed by the knitting machine passes through a traction mechanism which conveys the textile fabric cloth between a driven disc and a rotating disc; the side frame is fixedly installed through the fixed frame, two ends of the guide shaft are fixedly installed through the side frame, the sliding block group realizes sliding adjustment along the guide shaft, the sliding adjustment of the sliding block group drives the guide pipe group to realize sliding adjustment, the sliding adjustment of the guide pipe group drives the traction rod group to realize moving adjustment, meanwhile, the guide pipe group is used for positioning and installing the traction rod group, and the textile fabric cloth is conveyed between the driven disc and the rotating disc through the traction rod group; the stepping motor controls the rotating disc to rotate through the driving shaft, the rotating disc drives the forming mechanism to rotate, the driven wheel and the driven disc rotate around the driven shaft, and the driven disc and the rotating disc rotate to drive the textile fabric to be wound, so that the textile fabric roll can be formed conveniently and quickly; the forming efficiency of the textile fabric cloth is greatly improved.
Detailed Description
The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.
As shown in fig. 1 to 6, the hollow forming device for the textile fabric cloth roll comprises a bottom plate 1, wherein a base 2 is arranged at the bottom of the bottom plate 1; a first positioning rail 3 is arranged on one side of the bottom plate 1, a first fixed seat 5 is arranged on the first positioning rail 3, a first positioning shell 6 is arranged on the first fixed seat 5, a stepping motor 8 is arranged on the back surface of the first positioning shell 6, a rotating disk 9 is arranged on the front surface of the first positioning shell 6, a driving shaft is arranged in front of the stepping motor 8, one end of the driving shaft is connected with the front part of the stepping motor 8, and the other end of the driving shaft is connected with the axial center of the rotating disk 9; a second positioning rail 11 is arranged on the other side of the bottom plate 1, a clamping seat 13 is arranged on the second positioning rail 11, a second positioning shell 14 is arranged on the clamping seat 13, a driven wheel 15 is arranged on the front surface of the second positioning shell 14, a driven disc 16 is arranged on the front surface of the driven wheel 15, the driven disc 16 corresponds to the rotating disc 9, a driven shaft 17 is arranged in the middle of the second positioning shell 14, and the front part of the driven shaft 17 is connected with the shaft center of the driven wheel 15; the top of the second positioning shell 14 is provided with a top shell 26, the front part of the top shell 26 is provided with a traction mechanism 29, the traction mechanism 29 comprises a fixed frame 34, two sides of the fixed frame 34 are respectively provided with a side frame 35, the front part of the side frame 35 is provided with a guide shaft 36, the peripheral surface of the guide shaft 36 is sleeved with a slider group, the front part of the slider group is provided with a guide pipe group, the front part of the guide pipe group is provided with a traction rod group, and the traction rod group is arranged above the position between the driven disc 16 and the rotating disc 9.
The invention relates to a hollow forming device for textile fabric yardage rolls, which is arranged in front of a textile fabric knitting machine, wherein the textile fabric conveyed by the knitting machine passes through a traction mechanism 29, and the traction mechanism 29 conveys the textile fabric between a driven disc 16 and a rotating disc 9; the side frame 35 is fixedly installed through the fixed frame 34, two ends of the guide shaft 36 are fixedly installed through the side frame 35, the sliding block group realizes sliding adjustment along the guide shaft 36, the sliding adjustment of the sliding block group drives the guide pipe group to realize sliding adjustment, the sliding adjustment of the guide pipe group drives the traction rod group to realize moving adjustment, meanwhile, the traction rod group is positioned and installed through the guide pipe group, and the textile fabric cloth is conveyed between the driven disc 16 and the rotating disc 9 through the traction rod group; the stepping motor 8 controls the rotating disc 9 to rotate through the driving shaft, the rotating disc 9 drives the forming mechanism 10 to rotate, the driven wheel 15 and the driven disc 16 rotate around the driven shaft 17, and the rotation of the driven disc 16 and the rotating disc 9 drives the textile fabric to be wound, so that the textile fabric roll can be formed conveniently and rapidly; the forming efficiency of the textile fabric cloth is greatly improved.
Preferably, the sliding block set comprises a first sliding pipe 37 and a second sliding pipe 43, the first sliding pipe 37 and the second sliding pipe 43 are both sleeved on the outer circumferential surface of the guide shaft 36, the guide pipe group comprises a first guide pipe 38 and a second guide pipe 44, the traction rod group comprises a first traction rod 39 and a second traction rod 45, one end of the first guide pipe 38 is connected with the side part of the first sliding pipe 37, one end of the first traction rod 39 is sleeved in the other end of the first guide pipe 38, one end of the second guide pipe 44 is connected with the side part of the second sliding pipe 43, one end of the second traction rod 45 is sleeved in the other end of the second guide pipe 44, the other end of the second traction rod 45 is sleeved with a second locking ring 48, the other end of the first traction rod 39 is sleeved with a first locking ring 42, one end of the second traction rod 45 is sleeved with a second limiting ring 47, and one end of the first traction rod 39 is sleeved with a first limiting ring 41; the first sliding pipe 37 and the second sliding pipe 43 can realize movement adjustment along the guide shaft 36, the first guide pipe 38 and the second guide pipe 44 are driven by the first sliding pipe 37 and the second sliding pipe 43 to realize movement adjustment, the first traction rod 39 is positioned and installed through the first guide pipe 38, the second traction rod 45 is positioned and installed through the second guide pipe 44, and the textile fabric cloth is conveyed between the driven plate 16 and the rotating plate 9 through the second traction rod 45 and the first traction rod 39; the forming efficiency of the textile fabric cloth is greatly improved.
Preferably, a first lock pin 40 is provided at a side position of the first slide pipe 37, the first slide pipe 37 is locked to the outer circumferential surface of the guide shaft 36 by the first lock pin 40, a second lock pin 46 is provided at a side position of the second slide pipe 43, and the second slide pipe 43 is locked to the outer circumferential surface of the guide shaft 36 by the second lock pin 46; the first slide pipe 37 is firmly locked to the outer peripheral surface of the guide shaft 36 by the first lock pin 40, and the second slide pipe 43 is firmly locked to the outer peripheral surface of the guide shaft 36 by the second lock pin 46.
Preferably, the front surface of the rotating disc 9 is provided with a forming mechanism 10, the forming mechanism 10 comprises a forming disc 30, the axial direction of the forming disc 30 is provided with a coil 31, the outer end of the coil 31 is provided with a rotary cylinder 32, and the rotary cylinder 32 is sleeved on the outer peripheral surface of the driving shaft at the front part of the stepping motor 8; a fixed cylinder 33 is arranged between the rotary cylinder 32 and the outer peripheral surface of the driving shaft; a driving shaft of the stepping motor 8 controls the rotary drum 32 to rotate, the rotary drum 32 rotates to drive the forming disc 30 to rotate through the coil pipe 31, and the forming disc 30 rotates to drive the textile fabric to be wound, so that the textile fabric roll is formed conveniently and quickly; the forming efficiency of the textile fabric cloth is greatly improved.
Preferably, the rear portion of the top case 26 is provided with a top block 27; the cross sections of the top block 27 and the top shell 26 are in a convex shape; the rear portion of the top case 26 is positionally fixed by a top block 27.
Preferably, the top surface of the second positioning rail 11 is provided with a guide seat 18, the top surface of the guide seat 18 is of an open structure, the middle part of the guide seat 18 is provided with a guide groove 19, and the clamping seat 13 is installed in the guide groove 19; the clamping seat 13 and the second positioning shell 14 are arranged in a T-shaped manner, and the upper part of the guide seat 18 is buckled on two sides of the top surface of the clamping seat 13; the second positioning shell 14 is adjusted in a sliding manner through the clamping seat 13 along the guide groove 19 of the guide seat 18, so that the second positioning shell 14 is more flexibly adjusted in moving.
Preferably, the outer side position of the second positioning rail 11 is provided with a side block 20, the lower part of the side block 20 is provided with a bottom block 21, the bottom block 21 is provided with a positioning tube 28, the top end of the positioning tube 28 is provided with a positioning cylinder 22, the outer side position of the positioning cylinder 22 is provided with a side tube 23, the inward facing position of the positioning cylinder 22 is provided with a positioning shaft 25, the front end of the positioning shaft 25 is provided with a positioning column 24, and the rear end of the driven shaft 17 is sleeved at the outer peripheral surface position of the positioning column 24; second location track 11 carries out fixed mounting to registration arm 28 through side piece 20 and bottom block 21, and registration arm 28 carries out fixed mounting to side pipe 23 through a location section of thick bamboo 22, and a location section of thick bamboo 22 carries out the location installation to reference column 24 through location axle 25, carries out the location installation to the rear end of driven shaft 17 through reference column 24, makes driven shaft 17 rotational stability better.
Preferably, the two sides of the bottom of the first positioning rail 3 are both provided with first fixing blocks 4, and the first fixing blocks 4 are fixed on the bottom plate 1; two sides of the bottom of the second positioning rail 11 are respectively provided with a second fixing block 12, and the second fixing blocks 12 are fixed on the bottom plate 1; the two sides of the bottom of the first positioning track 3 are fixedly installed through a first fixing block 4; the bottom of the bottom plate 1 is fixedly installed through the base 2.
Preferably, reinforcing blocks 7 are arranged on two sides of the first positioning shell 6, and the reinforcing blocks 7 are fixed on the first fixing seat 5; first fixing base 5 carries out firm installation more to the both sides of first set shell 6 through boss 7.
Preferably, the first traction rod 39 and the second traction rod 45 have the same shape and size, the first traction rod 39 comprises a traction rod body 49, the outer peripheral surface of the traction rod body 49 is sleeved with a static removing roller 50, the end part of the traction rod body 49 is provided with a positioning cylinder 51, the positioning cylinder 51 is installed at the inward facing position of the top shell 26, a limiting wheel 53 is arranged inside the outer end of the positioning cylinder 51, the end part of the traction rod body 49 is provided with a positioning rotating shaft 52, the positioning rotating shaft 52 is installed in the positioning cylinder 51, the inner end of the positioning rotating shaft 52 is provided with a rotating wheel 54, and the rotating wheel 54 is installed on the inner; the first traction rod 39 and the second traction rod 45 rotate, the traction rod body 49 rotates around the axial direction of the positioning barrel 51 through the positioning rotating shaft 52, the positioning rotating shaft 52 rotates around the axial direction of the positioning barrel 51 through the rotating wheel 54, the rotating wheel 54 realizes rotation adjustment in the positioning barrel 51, the rotation stability of the traction rod body 49 is better, the limiting wheel 54 is limited through the limiting wheel 53, and the rotating wheel 54 is limited in the positioning barrel 51.
Preferably, the outer peripheral surface of the first limiting ring 41 is provided with a first limiting groove 55, the outer peripheral surface of the first locking ring 42 is provided with a first locking groove 56, the outer peripheral surface of the second limiting ring 47 is provided with a second limiting groove 57, the outer peripheral surface of the second locking ring 48 is provided with a second locking groove 58, a first butt driving wheel 59 is installed between the second limiting groove 57 and the first limiting groove 55, a second butt driving wheel 60 is installed between the first locking groove 56 and the second locking groove 58, a butt shaft 61 is installed between the second butt driving wheel 60 and the shaft center of the first butt driving wheel 59, the outer peripheral surface of the middle part of the butt shaft 61 is sleeved with a sleeve 62, the sleeve 62 is installed at the top of an auxiliary positioning frame 63, the bottom of the auxiliary positioning frame 63 is provided with a main positioning frame 64, and the main positioning frame 64 is connected with the outward facing position of the; the first traction rod 39 and the second traction rod 45 drive the second limiting ring 47, the second locking ring 48, the first limiting ring 41 and the first locking ring 42 to rotate in the rotating process; the top shell 26 is used for positioning and mounting an auxiliary positioning frame 63 through a main positioning frame 64, the auxiliary positioning frame 63 is sleeved on a butting shaft 61 through a sleeve 62, a first butting transmission wheel 59 and a second butting transmission wheel 60 are limited and controlled through the butting shaft 61, a first limiting ring 41 rotates around the outer peripheral surface of the first butting transmission wheel 59 through a first limiting groove 55, a second limiting ring 47 rotates around the outer peripheral surface of the first butting transmission wheel 59 through a second limiting groove 57, a first locking ring 42 rotates around the outer peripheral surface of the second butting transmission wheel 60 through a first locking groove 56, and a second locking ring 48 rotates around the outer peripheral surface of the first butting transmission wheel 59 through a second locking groove 58; the first and second lock rings 41, 42, 47 and 48 are made to be more rotationally stable, so that the first and second draw rods 39, 45 are made to be more rotationally stable, and the textile fabric cloth is fed between the driven plate 16 and the rotating plate 9 through the first and second draw rods 39, 45.
Preferably, a fixing pipe 65 is arranged between the bottom of the auxiliary positioning frame 63 and the front of the main positioning frame 64, a fixing plate 66 is arranged at the rear of the main positioning frame 64, and the fixing plate 66 is connected with the outward facing position of the top shell 26; the positioning bracket 64 is fixed by a fixing plate 66, and the positioning bracket 64 is fixed by a fixing tube 65 to the sub-positioning bracket 63.
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.