CN110950131A

CN110950131A - Novel cloth is handled for tailoring device

Info

Publication number: CN110950131A
Application number: CN201911281410.7A
Authority: CN
Inventors: 章纬超
Original assignee: Wenzhou Polytechnic
Current assignee: Chongqing Hengsheng Clothing Manufacturing Co ltd
Priority date: 2019-12-13
Filing date: 2019-12-13
Publication date: 2020-04-03
Anticipated expiration: 2039-12-13
Also published as: CN110950131B

Abstract

The utility model provides a novel cloth processing device for tailoring, comprising a base plate, the cloth roller of first leg mount fore-and-aft direction is passed through in the top surface left side of bottom plate, the periphery winding of cloth roller has the cloth, the front side of first support is equipped with the first power device of drive cloth roller pivoted, the top surface middle part fixed mounting second support of bottom plate, the first pivot of the preceding mid-mounting fore-and-aft direction of second support, the second support still is equipped with the first pivot pivoted second power device of drive, the front side periphery of first pivot is the first sleeve pipe of three outer end open-ended of annular equidistant installation. According to the invention, the cloth is wound around the periphery of the roller core by adopting a fixing needle as a fixing device in a mode that the first motor drives the second pipe to rotate, so that the first sleeve pipe positioned at the lower part of the first rotating shaft is in a vertical state, and the roller core at the lowest part enables the cloth to be positioned between the roller core and the top surface of the bottom plate, so that the cloth can be smoothed effectively, the folding and unevenness phenomena in the winding process are prevented, the length of the cloth can be controlled, and the cloth can be split and rolled as required.

Description

Novel cloth is handled for tailoring device

Technical Field

The invention belongs to the field of garment fabric processing equipment, and particularly relates to a novel fabric processing device for garment processing.

Background

The production and the processing of clothing do not leave the cloth, the cloth is when producing, be the very big cloth roller of volume mostly, but in tailoring and production process, the cloth roller of volume uses inconveniently, consequently, the cloth that uses is the small raw materials cloth roller of volume that becomes by the sub-assembly of bulky cloth roller mostly, and the sub-package to the bulky cloth roller among the prior art is the manual work of direct adoption mostly to carry out the sub-package, or use the machine to carry out the ration sub-package, the bright sub-package equipment that has the length cloth of difference as required that can carry out of few, and prior art causes the cloth package unevenness at cloth sub-package in-process easily, cause the cloth fold.

Disclosure of Invention

The invention provides a novel cloth processing device for garment processing, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme:

a novel cloth processing device for garment processing comprises a bottom plate, a cloth roller in the front-back direction is installed on the left side of the top surface of the bottom plate through a first support, cloth is wound on the periphery of the cloth roller, a first power device for driving the cloth roller to rotate is arranged on the front side of the first support, a second support is fixedly installed in the middle of the top surface of the bottom plate, a first rotating shaft in the front-back direction is installed in the middle of the front surface of the second support, a second power device for driving the first rotating shaft to rotate is further arranged on the second support, three first sleeves with openings at outer ends are installed on the periphery of the front side of the first rotating shaft in an annular and equidistant mode, an included angle between every two adjacent first sleeves is 120 degrees, first piston rods in sealing contact with the first sleeves are arranged in the first sleeves, the outer ends of the first piston rods are located outside the corresponding first sleeves, two adjacent first sleeves are communicated through arc-shaped first pipes, second sleeves with the outer ends of the first sleeves in parallel are fixedly installed in front of, the second sleeve is internally provided with a second piston rod in sealing contact fit with the second sleeve, the second piston rod is coaxial with the corresponding second sleeve and can move along the axial direction of the second sleeve in sealing contact, the outer ends of the second piston rods are positioned outside the corresponding second sleeve, the outer ends of the first piston rods are fixedly provided with C-shaped first pipes with backward openings, the horizontal ends of the first pipes close to the first piston rods are sealed, the outer ends of the second piston rods are fixedly connected with the corresponding first pipes, the horizontal ends of the first pipes far away from the first piston rods are provided with second pipes with closed rear ends in the front-back direction through sealing bearings, the second pipes are communicated with the inside of the first pipes, the horizontal portions of the first pipes close to the corresponding first piston rods are provided with first through holes, the first through holes are communicated with the corresponding second sleeves through second connecting pipes, the rear ends of the second pipes are provided with fifth through holes in the front-back direction, and front and back sides in the second pipes are provided with pistons in sealing contact fit with the second pipes, the rear end of the piston is fixedly provided with a large-rear-small wedge block, a group of second through holes which are distributed in an annular equal interval mode are formed in the front side and the rear side of the second pipe, the second through holes are located on the rear side of the corresponding piston, fixing needles with outward needle points are arranged in the second through holes, the needle points of the fixing needles are located in the corresponding second through holes, the inner ends of the fixing needles are wedge-shaped, the inner ends of the fixing needles penetrate through the corresponding second through holes to be in contact fit with the corresponding wedge blocks, first springs are sleeved on the peripheries of the fixing needles, one ends of the first springs are fixedly connected with the side faces of the corresponding fixing needles, the other ends of the first springs are fixedly connected with the outer sides of the inner ends of the corresponding second through holes, discs are arranged on the rear sides of the wedge blocks, the discs are fixedly connected with the inner walls of the second pipe through a plurality of connecting rods, and the discs; the front ends of the second tubes are fixedly sleeved with first gears, the vertical parts of the rear sides of the first tubes are fixedly provided with first motors with output shafts facing backwards, the output shafts of the first motors are fixedly provided with second gears, the second gears are engaged and matched with the corresponding first gears, the front sides of the top surfaces of the second supports are fixedly provided with U-shaped roller feeding boxes with openings facing upwards, a plurality of vertically arranged tubular roller cores are placed in the roller feeding boxes, the inner diameters of the roller cores are larger than the outer diameters of the second tubes, the rear ends of the roller cores are fixedly provided with iron blocks, the left sides of the roller feeding boxes are fixedly provided with arc plates which are concentric with the first rotating shaft, the middle parts of the top surfaces of the bottom plates are fixedly provided with third supports, the front sides of the top surfaces of the third supports are fixedly provided with roller discharging boxes, the roller discharging boxes are positioned on the right sides of the roller feeding boxes, the rear sides of the top surfaces of the second supports and the third supports are fixedly provided with first hydraulic rods with movable ends facing forwards, and the movable ends of the first electromagnets are, the first hydraulic rod that the second support corresponds is coaxial with the roller core that is located into roller case bottommost, goes out the bottom surface right side fixed mounting expansion end second hydraulic rod forward that the roller case was answered, and the expansion end fixed mounting sharp-pointed part of second hydraulic rod cuts off the blade forward, and the controller is fixed to the front of first support, and the controller is connected with the power, and first power device, second power device, first hydraulic rod, second hydraulic rod, the electro-magnet, first motor are equallyd divide and are connected with controller, power respectively.

The novel cloth processing device for garment processing comprises a bottom plate, a fourth support fixedly arranged on the right side of the top surface of the bottom plate, a supporting plate hinged on the left side of the fourth support, an inclined plate fixedly arranged on the bottom surface of the supporting plate, two third through holes distributed up and down arranged on the left side of the inclined plate, a mesh plate fixedly arranged on one side of each third through hole close to the middle part of the bottom plate, a right-side sealed cover body fixedly arranged on the outer side of the right end of each third through hole on the lower part of the inclined plate, a fourth through hole communicated with the third through hole on the lower part of the inclined plate, a water vapor inlet pipe fixedly connected with the outer end of the fourth through hole, a water vapor supply device connected with the other end of the water vapor inlet pipe, a fan fixedly arranged on the outer side of the right end of each third through hole on the upper part of the inclined plate, and a third, the movable end of the third hydraulic rod is hinged to the right side of the supporting plate, the width of the supporting plate and the width of the inclined plate are larger than that of the cloth, and the fan, the water vapor supply device and the third hydraulic rod are respectively connected with the power supply and the controller.

As above, a novel cloth processing device for tailoring, bottom plate top surface middle part set up around penetrating bar pass through the groove, the upper end that the groove was passed through to the bar is the radius angle structure, the groove is passed through to the bar is located first pivot under, the groove is passed through to the bar about between the lateral wall bearing installation several two sets of second pivots, two sets of enemy's pivot is symmetrical along the horizontal central line of bottom plate, every group second pivot includes several second pivots that are equidistant distribution around being, the equal fixed mounting gyro wheel in middle part of second pivot, the top surface of gyro wheel flushes with the top surface of bottom plate, the first sprocket of suit is all fixed to the right side of every group second pivot, the second motor that the output shaft faces left is all fixed to both ends outside around the bar recess, the output shaft fixed mounting second sprocket of second motor, the second sprocket passes through the chain connection between a set of second sprocket and the corresponding, the second motor is equallyd divide and do not respectively with power, The controller is connected.

According to the novel cloth processing device for clothing processing, the electric telescopic rod with the movable end facing left is fixedly installed on the upper portion of the left side of the fourth support, the movable end of the electric telescopic rod is hinged to the arc-shaped pressing plate with the concave surface facing down, the inner side of the pressing plate can be in contact fit with the outer side of the roller core, and the electric telescopic rod is connected with the power source and the controller respectively.

As above, a novel cloth processing apparatus for tailoring, a first power device include third motor, first band pulley, second band pulley, the third motor of front side fixed mounting output shaft forward of first support, the first band pulley of output shaft fixed mounting of third motor, the pivot of cloth roller front side is run through first support and is located the outside, the fixed suit second band pulley of cloth roller front side pivot, the second band pulley is located first support preceding, be connected through the belt between first band pulley and the second band pulley, the third motor is connected with power, controller respectively.

As above a novel cloth processing apparatus for tailoring, second power device include fourth motor, third gear, fourth gear, the rear side fixed mounting output shaft of second support fourth motor backward, the output shaft fixed mounting third gear of fourth motor, the rear end of first pivot runs through the second support and is connected with its bearing, the fixed suit fourth gear in rear end of first pivot, third gear and fourth gear meshing cooperation, the fourth motor is connected with power, controller respectively.

The invention has the advantages that: the invention is suitable for the bundling of bulky cloth for clothing, before the cloth is put into use, the outer ends of three first piston rods are positioned on the same arc, the initial state is as shown in figure 1, the outer peripheries of three second pipes are sleeved with roller cores, under the control of a controller, a second power device drives a first rotating shaft to rotate, so that the outer side of the roller core corresponding to one first piston rod is in contact fit with the inner side of an arc-shaped plate, the roller core corresponding to the other first piston rod is in contact with the top surface of a bottom plate, so that the corresponding first sleeve is compressed inwards, the three first sleeves are communicated through a first connecting pipe, so that the air in the first sleeve on the right side is increased, the corresponding first piston rod is extended outwards, the extension of the first piston rod pushes the corresponding first pipe to move outwards, meanwhile, the corresponding second piston rod moves outwards along with the first connecting pipe, and the first pipe is connected with the second connecting pipe through a second connecting pipe, the air in the corresponding first pipe enters the second sleeve, the piston in the second pipe moves forwards, the piston corresponding to the wedge block moves forwards, the second spring corresponding to the wedge block extends, the inner end of each fixing needle is in contact fit with the corresponding wedge block, the wedge block moves forwards to push the corresponding fixing needle to move outwards along the corresponding second through hole, the needle points of all the fixing needles corresponding to the first sleeve on the right side penetrate through the corresponding roller cores and are located outside, a worker winds the head end of cloth roller cloth around the roller core on the right side through the roller core on the lower portion, and the fixing needles corresponding to the roller core on the right side penetrate through the cloth to fix the cloth; when the cloth feeding device is used, the first power device drives the cloth roller to feed cloth to the right side of the bottom plate, the second power device drives the first rotating shaft to rotate, so that the first sleeve pipe positioned at the lower part of the first rotating shaft is in a vertical state, as shown in fig. 8, the first piston rod positioned at the lower part of the first rotating shaft is in a maximum contraction state along the corresponding first sleeve pipe, at the moment, the first piston rod positioned at the right side of the first rotating shaft is in a maximum extension state along the corresponding first sleeve pipe, all the fixing needles corresponding to the first piston rod positioned at the right side of the first rotating shaft are in a maximum extension state, the cloth is in a straightening state, at the moment, the first rotating shaft stops rotating, the first motor corresponding to the first piston rod positioned at the right side of the first rotating shaft works, the second pipe corresponding to be driven by the rotation of the first motor to rotate along with the first piston rod, and, after the cloth is wound, the first motor stops working, the second power device drives the first rotating shaft to continue rotating, when the first rotating shaft drives the roller core wound with the cloth to rotate to the front of the roller box, as shown in fig. 9, the first rotating shaft stops rotating, the roller cores corresponding to all the first piston rods are positioned above the bottom plate and are not contacted with the bottom plate, the extension lengths of the first piston rods corresponding to the three first sleeves are consistent, as the rear ends of the wedge-shaped blocks are connected with the corresponding discs through the second springs, the corresponding piston rods recover under the action of the elastic force of the second springs and the corresponding second piston rods, the corresponding pistons also recover to the original positions, simultaneously, the needle points of all the fixing needles are retracted to the second through holes, the second hydraulic pressure rods extend forwards, the cutting blade moves forwards along with the second hydraulic pressure rod, the cloth positioned on the front side is separated, and the first hydraulic rod positioned on the rear side of the roller box moves forwards, and the electromagnet corresponding to the first hydraulic rod is electrified, the electromagnet adsorbs the iron block corresponding to the roller core which is wound with the cloth, the first hydraulic rod contracts backwards, so that the roller core which is wound with the cloth is pulled to move backwards into the roller outlet box, a worker can transfer the roller core which is wound with the cloth in the roller outlet box, the separated cloth falls to the upper part of the roller core which is positioned at the lowest part of the first rotating shaft under the action of gravity, at the moment, the first rotating shaft continues to rotate, the cloth roller stops conveying the cloth, so that the first sleeve pipe positioned at the upper part of the first rotating shaft is in a vertical state, as shown in figure 10, the second pipe corresponding to the first sleeve pipe positioned at the upper part of the first rotating shaft rotates to the front of the roller inlet box, the first hydraulic rod at the rear side of the roller inlet box extends forwards, the roller core at the lowest part in the roller inlet box pushes the sleeve and the periphery of the second pipe forwards, the first rotating shaft continues to rotate, when the first rotating shaft, because the head end of the cloth cut off before covers above the roller core positioned on the right side of the first rotating shaft, along with the rotation of the first rotating shaft, the first piston rod positioned on the right side of the first rotating shaft extends outwards and the first piston rod positioned on the lower part of the left side of the first rotating shaft contracts, so that the cloth is pulled, the head end of the cloth cut off is close to the roller core positioned on the right side of the first rotating shaft, but the fixing needle in the second pipe corresponding to the roller core positioned on the right side of the first rotating shaft gradually extends outwards while the first rotating shaft rotates, so that in the rotating process of the first rotating shaft, the fixing needle can cut off the head end of the cloth to be fixed on the periphery of the roller core positioned on the right side of the first rotating shaft again, so that the process is repeated, the cloth roll on the periphery of the roller core is repeatedly wound, the roller discharging and roller feeding operations are repeatedly carried out, and the working personnel can, thereby controlling the length of the cloth wound around the outer circumference of the roll core; the invention has reasonable design and ingenious design, adopts the rotation of the first rotating shaft to adjust the extension length of the first piston rod corresponding to the three first sleeves, thereby controlling the state of the fixing needle to fix the roller core, simultaneously, the invention adopts a mode that the first motor drives the second pipe to rotate, namely the fixing needle is used as a fixing device to wind the cloth around the periphery of the roller core, in the process of winding the cloth, the first sleeve pipe positioned at the lower part of the first rotating shaft is in a vertical state, the roller core at the lowest part enables the cloth to be positioned between the roller core and the top surface of the bottom plate, the cloth can be effectively smoothed, the phenomena of folding and unevenness in the winding process are prevented, meanwhile, the invention can control the working time of the first motor, thereby the length of the cloth of control winding in the roller core periphery can be as required the bundling cloth, and easy operation, labour saving and time saving, work efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the view from FIG. 10A;

FIG. 3 is an enlarged view of a portion of FIG. 1I;

FIG. 4 is an enlarged view of the view from FIG. 9B;

FIG. 5 is an enlarged view of a portion of the fertilizer of FIG. 2 II;

FIG. 6 is an enlarged view of a portion of FIG. 1 III;

FIG. 7 is an enlarged view of the view from FIG. 6C;

FIG. 8 is a first use state diagram of the present invention;

FIG. 9 is a second use state diagram of the present invention;

fig. 10 is a third use state diagram of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A novel cloth processing device for garment processing comprises a base plate 1, a cloth roller 3 in the front-back direction is installed on the left side of the top surface of the base plate 1 through a first support 2, cloth is wound on the periphery of the cloth roller 3, a first power device for driving the cloth roller 3 to rotate is arranged on the front side of the first support 2, a second support 4 is fixedly installed in the middle of the top surface of the base plate 1, a first rotating shaft 5 in the front-back direction is installed in the middle of the front surface of the second support 4, a second power device for driving the first rotating shaft 5 to rotate is further arranged on the second support 4, three first sleeves 6 with outer end openings are installed on the periphery of the front side of the first rotating shaft 5 in an annular and equidistant mode, an included angle between every two adjacent first sleeves 6 is 120 degrees, first piston rods 7 matched with the first sleeves 6 in a sealing contact mode are arranged in the first sleeves 6, the outer ends of the first piston rods 7 are located outside the corresponding first sleeves 6, and the two adjacent first sleeves 6 are communicated through arc-, the front of the first sleeve 6 is fixedly provided with a second sleeve 9 which is parallel to the first sleeve and has an outer end opening, the second sleeve 9 is internally provided with a second piston rod 10 which is in sealing contact with the second sleeve 9, the second piston rod 10 is coaxial with the corresponding second sleeve 9 and can move along the axial direction of the second sleeve in a sealing contact manner, the outer end of the second piston rod 10 is positioned outside the corresponding second sleeve 9, the outer end of the first piston rod 7 is fixedly provided with a C-shaped first pipe 11 with a backward opening, the horizontal end of the first pipe 11 close to the first piston rod 7 is sealed, the outer end of the second piston rod 10 is fixedly connected with the corresponding first pipe 11, the horizontal end of the first pipe 11 far away from the first piston rod 7 is provided with a second pipe 12 with a back end sealed in the front-back direction through a sealing bearing, the second pipe 12 is communicated with the inside of the first pipe 11, the horizontal part of the first pipe 11 close to the corresponding first piston rod 7 is provided with a first through hole, the first through holes 13 are communicated with the corresponding second sleeve 9 through second connecting pipes 14, the rear end of the second pipe 12 is provided with fifth through holes 63 in the front and rear directions, pistons 15 in sealing contact fit with the second through holes are arranged on the front and rear sides in the second pipe 12, rear ends of the pistons 15 are fixedly provided with large-rear-front-small wedge blocks 16, the front and rear sides of the second pipe 12 are provided with a group of second through holes 17 distributed in an annular shape at equal intervals, the second through holes 17 are located on the rear sides of the corresponding pistons 15, fixing needles 18 with outward needle points are arranged in the second through holes 17, the needle points of the fixing needles 18 are located in the corresponding second through holes 17, the inner ends of the fixing needles 18 are wedge-shaped, the inner ends of the fixing needles 18 penetrate through the corresponding second through holes 17 to be in contact fit with the corresponding wedge blocks 16, the peripheries of the fixing needles 18 are sleeved with first springs 19, one ends of the first springs 19 are fixedly connected with the side faces of the corresponding fixing needles 18, the other ends of the first springs 19 are fixedly connected with the outer sides of the inner ends of the corresponding second through holes 17, discs 20 are arranged on the rear sides of the wedge blocks 16, the discs 20 are fixedly connected with the inner wall of the second pipe 12 through a plurality of connecting rods 21, and the discs 20 are connected with the corresponding wedge blocks 16 through second springs 22; the front ends of the second pipes 12 are fixedly sleeved with first gears 23, the vertical parts of the rear sides of the first pipes 11 are fixedly provided with first motors 24 with backward output shafts, the output shafts of the first motors 24 are fixedly provided with second gears 25, the second gears 25 are engaged with the corresponding first gears 23, the front sides of the top surfaces of the second brackets 4 are fixedly provided with U-shaped roller feeding boxes 26 with upward openings, a plurality of vertically arranged tubular roller cores 27 are placed in the roller feeding boxes 26, the inner diameters of the roller cores 27 are larger than the outer diameters of the second pipes 12, the rear ends of the roller cores 27 are fixedly provided with iron blocks 28, the left sides of the roller feeding boxes 26 are fixedly provided with arc plates 31 which are concentric with the first rotating shaft 5, the middle parts of the top surfaces of the bottom plates 1 are fixedly provided with third brackets 33, the front sides of the top surfaces of the third brackets 33 are fixedly provided with roller discharging boxes 32, the roller discharging boxes 32 are positioned at the right sides of the roller feeding boxes 26, and the rear sides of the top surfaces of the second brackets 4 and the third brackets 33 are fixedly provided with first hydraulic rods 29 with forward movable ends, the movable ends of the first hydraulic rods 29 are fixedly provided with electromagnets 30, the first hydraulic rods 29 corresponding to the second support 4 are coaxial with the roller cores 27 positioned at the lowest ends of the roller feeding boxes 26, the right side of the bottom surface of the roller discharging box 32 is fixedly provided with second hydraulic rods 34 with the movable ends facing forwards, the movable ends of the second hydraulic rods 34 are fixedly provided with separation blades 35 with the sharp parts facing forwards, the front of the first support 2 is fixedly provided with a controller 36, the controller 36 is connected with a power supply, and the first power device, the second power device, the first hydraulic rods 29, the second hydraulic rods 34, the electromagnets 30 and the first motor 24 are respectively connected with the controller 36 and the power supply. Before the fabric is put into use, the outer ends of three first piston rods 7 are positioned on the same arc, the initial state is as shown in figure 1, the outer peripheries of three second pipes 12 are sleeved with roller cores 27, under the control of a controller 36, a second power device drives a first rotating shaft 5 to rotate, so that the outer side of the roller core 27 corresponding to one first piston rod 7 is in contact fit with the inner side of an arc-shaped plate 31, the roller core 27 corresponding to the other first piston rod 7 is in contact with the top surface of a bottom plate 1, so that the corresponding first sleeve 6 is compressed towards the inner side, as the three first sleeves 6 are communicated through a first connecting pipe 8, the air in the first sleeve 6 on the right side is increased, so that the corresponding first piston rod 7 is extended towards the outer side, the extension of the first piston rod 7 pushes the corresponding first pipe 11 to move towards the outer side, and the corresponding second piston rod 10 moves towards the outer side, because the first pipe 11 and the second sleeve 6 are connected through the second connecting pipe 14, air in the corresponding first pipe 11 enters the second sleeve 9, meanwhile, the pistons 15 in the second pipe 13 all move forwards, the pistons 15 corresponding to the wedge blocks 16 move forwards along with the forward movement, the second springs 22 corresponding to the wedge blocks 16 extend, the inner ends of the fixing needles 18 are in contact fit with the corresponding wedge blocks 16, the wedge blocks 16 move forwards so as to push the corresponding fixing needles 18 to move outwards along the corresponding second through holes 17, at the moment, needle points of all the fixing needles 18 corresponding to the first sleeve 6 on the right side all pierce through the corresponding roller cores 27 to be located outside, a worker winds the head end of cloth of the cloth roller 3 around the periphery of the roller core 27 on the right side through the roller core 27 on the lower part, and meanwhile, the fixing needles 18 corresponding to the roller core 27 on the right side pierce through the cloth to fix the cloth; when in use, the first power device drives the cloth roller 3 to convey cloth to the right side of the bottom plate 1, the second power device drives the first rotating shaft 5 to rotate, so that the first sleeve 6 positioned at the lower part of the first rotating shaft 5 is in a vertical state, as shown in fig. 8, the first piston rod 7 positioned at the lower part of the first rotating shaft 5 is in a maximum contraction state along the corresponding first sleeve 6, at this time, the first piston rod 7 positioned at the right side of the first rotating shaft 5 is in a maximum extension state along the corresponding first sleeve 6, similarly, all the fixing needles 18 corresponding to the first piston rod 7 positioned at the right side of the first rotating shaft 5 are in a maximum extension state, the cloth is in a straightening state, at this time, the first rotating shaft 5 stops rotating, the first motor 24 corresponding to the first piston rod 7 positioned at the right side of the first rotating shaft 5 works, the rotation of the first motor 24 drives the corresponding second pipe 12 to rotate therewith, and simultaneously, so that the corresponding roller core 27 rotates, so that the cloth is wound around the periphery of the roller core 27, after the cloth is wound, the first motor 24 stops working, the second power device drives the first rotating shaft 5 to continue rotating, when the first rotating shaft 5 drives the roller core 27 wound with the cloth to rotate to the front of the roller box 32, as shown in fig. 9, the first rotating shaft 5 stops rotating, at this time, all the roller cores 27 corresponding to the first piston rods 7 are located above the bottom plate 1 and do not contact with the bottom plate, the extension lengths of the first piston rods 7 corresponding to the three first sleeves 6 are consistent, because the rear ends of the wedge-shaped blocks 16 are connected with the corresponding discs 20 through the second springs 22, under the elastic force of the second springs 22 and the corresponding second piston rods 10 are restored, the corresponding pistons 15 are restored, and simultaneously, the needle points of all the fixed needles 18 are retracted to the second through holes 17, at this time, the second hydraulic rods 34 are extended forward, the cutting blade 35 moves forward along with the cutting blade to cut off the cloth positioned on the front side, the first hydraulic rod 29 positioned on the rear side of the roller outlet box 32 moves forward, the electromagnet 30 corresponding to the first hydraulic rod 29 is electrified, the electromagnet 30 adsorbs the iron block 31 corresponding to the roller core 27 wound with the cloth, the first hydraulic rod 29 contracts back, so that the roller core 27 wound with the cloth is pulled to move backward into the roller outlet box 32, a worker transfers the roller core 27 wound with the cloth in the roller outlet box 32, the cut-off cloth falls to the upper part of the roller core 27 positioned at the lowest part of the first rotating shaft 5 under the action of gravity, at the moment, the first rotating shaft 5 continues to rotate, the cloth roller 3 stops conveying the cloth, so that the first sleeve 6 positioned at the upper part of the first rotating shaft 5 is in a vertical state, as shown in fig. 10, the second sleeve 12 corresponding to the first sleeve 6 positioned at the upper part of the first rotating shaft 5 rotates to the right front of the roller inlet box 26, the first hydraulic rod 29 at the rear side of the feeding roller box 26 extends forwards to push the roller core 27 at the lowest part in the feeding roller box 26 forwards to be sleeved on the periphery of the second pipe 12, the first rotating shaft 5 continues to rotate, when the first rotating shaft 5 rotates to the initial state, because the head end of the cloth which is cut off before is covered above the roller core 27 at the right side of the first rotating shaft 5, along with the rotation of the first rotating shaft 5, the first piston rod 7 at the right side of the first rotating shaft 5 extends outwards and the first piston rod 7 at the left lower part of the first rotating shaft 5 contracts, so that the cloth is pulled, the head end of the cloth which is cut off is close to the roller core 27 at the right side of the first rotating shaft 5, but the fixing needle 18 in the second pipe 12 at the right side corresponding to the roller core 27 of the first rotating shaft 5 gradually extends outwards when the first rotating shaft 5 rotates, so that the fixing needle 18 can fix the head end of the cloth at the periphery of the roller core 27 at the right side of the first rotating shaft 5 again, so as to repeat the above process, repeatedly wind the cloth roll 3 around the roll core 27, and at the same time, repeatedly perform the roll-out and roll-in operations, and at the same time, the worker can control the working time of the first motor 24 according to the required cloth length, thereby controlling the length of the cloth wound around the roll core 27; the invention has reasonable design and ingenious design, adopts the rotation of the first rotating shaft 5 to adjust the extension length of the first piston rods 7 corresponding to the three first sleeves 6 so as to control the state of the fixing needle 18 and further fix the roller core 27, simultaneously adopts a mode that the first motor 24 drives the second pipe 12 to rotate, namely the fixing needle 18 as a fixing device to enable the cloth to be wound around the periphery of the roller core 27, enables the first sleeve 6 positioned at the lower part of the first rotating shaft 5 to be in a vertical state in the cloth winding process, enables the cloth to be positioned between the roller core 27 and the top surface of the bottom plate 1 by the roller core 27 at the lowest part, can effectively smooth the cloth and prevent the phenomena of folding and unevenness in the winding process, and can control the length of the cloth wound around the periphery of the roller core 27 by controlling the working time of the first motor 24 so as to roll the cloth according to requirements, and the operation is simple, the time and the labor are saved, and the working efficiency is high.

Specifically, as shown in fig. 3, a fourth bracket 37 is fixedly mounted on the right side of the top surface of the bottom plate 1, a support plate 38 is hinged to the left side of the fourth bracket 37, an inclined plate 39 is fixedly mounted on the bottom surface of the support plate 38, two vertically distributed third through holes 40 are formed in the left side of the inclined plate 39, a mesh plate 41 is fixedly mounted on one side of each third through hole 40 close to the middle of the bottom plate 1, a right-side sealed cover 42 is fixedly mounted on the outer side of the right end of the third through hole 40 located at the lower part of the inclined plate 39, the cover 42 is communicated with the third through hole 40 located at the lower part of the inclined plate 39, a fourth through hole 43 is formed in the right side of the cover 42, the outer end of the fourth through hole 43 is fixedly connected to one end of a steam inlet pipe 44, the other end of the steam inlet pipe 44 is connected to a steam supply device, a fan 45 is fixedly mounted on the outer side of the right end of, the movable end of the third hydraulic rod 46 is hinged with the right side of the supporting plate 38, the widths of the supporting plate 38 and the inclined plate 39 are larger than the width of the cloth, and the fan 45, the water vapor supply device and the third hydraulic rod 46 are respectively connected with the power supply and the controller 36. In the use process, when the first motor 24 drives the second pipe 12 to rotate so that the roller core 27 winds the cloth, the cloth moves upwards, the third hydraulic rod 46 extends under the control of the controller 36, the left side surface of the inclined plate 39 is in contact fit with the right side of the stretched cloth, meanwhile, the water vapor supply device conveys water vapor into the water vapor inlet pipe 44, the water vapor is sprayed to the cloth from the mesh plate 41 at the lower part of the inclined plate 39, the cloth is ironed, meanwhile, the cloth moves upwards, the air blower 45 blows the ironed cloth through the mesh plate 41 at the upper part of the inclined plate 39 to dry, and therefore the ironing and leveling of the cloth are achieved when the cloth is split.

Specifically, as shown in fig. 6, a front-back through strip-shaped through groove 47 is formed in the middle of the top surface of the bottom plate 1 in the embodiment, the upper end of the strip-shaped through groove 47 is of a rounded corner structure, the strip-shaped through groove 47 is located under the first rotating shaft 5, a plurality of two groups of second rotating shafts 48 are bearing-mounted between the left and right side walls of the strip-shaped through groove 47, the two groups of enemy rotating shafts 48 are symmetrical along the horizontal center line of the bottom plate, each group of second rotating shafts 48 includes a plurality of second rotating shafts 48 which are distributed at equal intervals in the front-back direction, rollers 49 are fixedly mounted in the middle of the second rotating shafts 48, the top surface of the rollers 49 is flush with the top surface of the bottom plate 1, a first sprocket 50 is fixedly sleeved on the right side of each group of second rotating shafts 48, a second motor 51 with an output shaft facing to the left is fixedly mounted on the outer sides of the front and back ends of the strip-shaped groove 47, the second motors 51 are each connected to a power source and the controller 36, respectively. When first motor 24 drive second pipe 12 makes the winding cloth of corresponding roller core 27, first sleeve 6 that is located first pivot 5 lower part is in vertical state, the roller core 27 that vertical first sleeve 6 corresponds makes the cloth and bottom plate 1 top surface contact, simultaneously the top surface of gyro wheel 49 all with the outside contact cooperation of cloth, simultaneously under controller 36's control, second motor 51 all begins work, because be connected through chain 53 between second sprocket 52 and the a set of first sprocket 50 that corresponds, the rotation of second motor 51 drives the gyro wheel 49 that corresponds the group and rotates to the outside of bottom plate 1, thereby can straighten out the cloth that contacts with bottom plate 1 to both sides.

Further, as shown in fig. 1, an electric telescopic rod 61 with a movable end facing to the left is fixedly installed at the upper portion of the left side of the fourth bracket 37 according to the embodiment, the movable end of the electric telescopic rod 61 is hinged to an arc-shaped pressing plate 62 with a concave surface facing downwards, the inner side of the pressing plate 62 can be in contact fit with the outer side of the roller core 27, and the electric telescopic rod 61 is respectively connected with a power supply and the controller 36. When the first motor 24 drives the second tube 12 to wind the corresponding roller core 27 on the cloth, the inner side of the pressing plate 62 is in contact fit with the outer side of the roller core 27, so that the cloth can be wound on the outer side of the roller core 27 more compactly and smoothly.

Furthermore, as shown in fig. 1, the first power device according to this embodiment includes a third motor 54, a first pulley 55, and a second pulley 56, the third motor 54 with its output shaft facing forward is fixedly installed on the front side of the first bracket 2, the first pulley 55 is fixedly installed on the output shaft of the third motor 54, the rotating shaft on the front side of the cloth roller 3 passes through the first bracket 2 and is located outside, the second pulley 56 is fixedly sleeved on the rotating shaft on the front side of the cloth roller 3, the second pulley 56 is located in front of the first bracket 2, the first pulley 55 and the second pulley 56 are connected by a belt 57, and the third motor 54 is respectively connected with the power supply and the controller 36. In use, under the control of the controller 36, the third motor 54 rotates, and the first belt wheel 55 and the second belt wheel 56 are connected through the belt 57, so that the cloth roller 3 rotates to the right side to discharge cloth.

Furthermore, as shown in fig. 2, the second power device according to this embodiment includes a fourth motor 58, a third gear 59, and a fourth gear 60, the fourth motor 58 with its output shaft facing backward is fixedly installed at the rear side of the second bracket 4, the third gear 59 is fixedly installed at the output shaft of the fourth motor 58, the rear end of the first rotating shaft 5 penetrates through the second bracket 4 and is connected with the second bracket 4 through a bearing, the fourth gear 60 is fixedly sleeved at the rear end of the first rotating shaft 5, the third gear 59 is engaged with the fourth gear 60, and the fourth motor 58 is respectively connected with the power source and the controller 36. In use, under the control of the controller 36, the fourth motor 58 rotates, and the fourth motor 58 rotates as the third gear 59 meshes with the fourth gear 60, thereby rotating the first rotating shaft 5.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a novel cloth processing apparatus for tailoring which characterized in that: comprises a bottom plate (1), a cloth roller (3) in the front-back direction is installed on the left side of the top surface of the bottom plate (1) through a first support (2), cloth is wound on the periphery of the cloth roller (3), a first power device for driving the cloth roller (3) to rotate is arranged on the front side of the first support (2), a second support (4) is fixedly installed in the middle of the top surface of the bottom plate (1), a first rotating shaft (5) in the front-back direction is installed in the middle of the front surface of the second support (4), a second power device for driving the first rotating shaft (5) to rotate is further arranged on the second support (4), three first sleeves (6) with openings at outer ends are installed on the periphery of the front side of the first rotating shaft (5) in an annular equidistant mode, the included angle between every two adjacent first sleeves (6) is 120 degrees, first piston rods (7) in the first sleeves (6) are in sealed contact fit with the first sleeves, and the outer ends of the first piston rods (7) are all located outside the corresponding, two adjacent first sleeves (6) are communicated through an arc-shaped first connecting pipe (8), second sleeves (9) with outer end openings and parallel to the first sleeves are fixedly installed in front of the first sleeves (6), second piston rods (10) in sealing contact fit with the second sleeves are arranged in the second sleeves (9), the second piston rods (10) are coaxial with the corresponding second sleeves (9) and can move in sealing contact along the axial direction of the second sleeves, the outer ends of the second piston rods (10) are located outside the corresponding second sleeves (9), C-shaped first pipes (11) with backward openings are fixedly installed at the outer ends of the first piston rods (7), the horizontal ends, close to the first piston rods (7), of the first pipes (11) are closed, the outer ends of the second piston rods (10) are fixedly connected with the corresponding first pipes (11), second pipes (12) with rear ends, close to the front and rear ends, far away from the first piston rods (7), of the first pipes (11) are installed through sealing bearings, the second pipe (12) is communicated with the inside of the first pipe (11), the first through holes (13) are formed in the horizontal part of the first pipe (11) close to the corresponding first piston rod (7), the first through holes (13) are communicated with the corresponding second sleeve (9) through a second connecting pipe (14), fifth through holes (63) in the front and back directions are formed in the rear end of the second pipe (12), pistons (15) in sealing contact fit with the second pipe are arranged on the front and back sides in the second pipe (12), wedge blocks (16) with large rear ends and small front ends are fixedly arranged on the rear ends of the pistons (15), a group of second through holes (17) which are distributed in an annular shape at equal intervals are formed in the front and back sides of the second pipe (12), the second through holes (17) are located on the rear sides of the corresponding pistons (15), fixing needles (18) with outward needle points are arranged in the second through holes (17), and the needle points of the fixing needles (18) are located in the corresponding second through holes (17), the inner ends of the fixing pins (18) are wedge-shaped, the inner ends of the fixing pins (18) penetrate through the corresponding second through holes (17) to be in contact fit with the corresponding wedge-shaped blocks (16), first springs (19) are sleeved on the peripheries of the fixing pins (18), one ends of the first springs (19) are fixedly connected with the side faces of the corresponding fixing pins (18), the other ends of the first springs (19) are fixedly connected with the outer sides of the inner ends of the corresponding second through holes (17), discs (20) are arranged on the rear sides of the wedge-shaped blocks (16), the discs (20) are fixedly connected with the inner wall of the second pipe (12) through a plurality of connecting rods (21), and the discs (20) are connected with the corresponding wedge-shaped blocks (16) through second springs (22); the front ends of the second pipes (12) are fixedly sleeved with first gears (23), the vertical parts of the rear sides of the first pipes (11) are fixedly provided with first motors (24) with output shafts facing backwards, the output shafts of the first motors (24) are fixedly provided with second gears (25), the second gears (25) are engaged and matched with the corresponding first gears (23), the front sides of the top surfaces of the second supports (4) are fixedly provided with U-shaped roller feeding boxes (26) with upward openings, a plurality of vertically arranged tubular roller cores (27) are placed in the roller feeding boxes (26), the inner diameters of the roller cores (27) are larger than the outer diameters of the second pipes (12), the rear ends of the roller cores (27) are fixedly provided with iron blocks (28), the left sides of the roller feeding boxes (26) are fixedly provided with arc plates (31) which are concentric with the first rotating shaft (5), the middle parts of the top surfaces of the bottom plates (1) are fixedly provided with third supports (33), and the front sides of the top surfaces of the third supports (33) are fixedly provided with roller boxes (32), the roller discharging box (32) is located on the right side of the roller feeding box (26), first hydraulic rods (29) with movable ends facing forwards are fixedly installed on the rear sides of the top surfaces of the second support (4) and the third support (33), electromagnets (30) are fixedly installed on the movable ends of the first hydraulic rods (29), the first hydraulic rods (29) corresponding to the second support (4) are coaxial with roller cores (27) located at the lowest ends of the roller feeding box (26), second hydraulic rods (34) with movable ends facing forwards are fixedly installed on the right side of the bottom surface of the roller discharging box (32), partition blades (35) with sharp parts facing forwards are fixedly installed on the movable ends of the second hydraulic rods (34), a controller (36) is fixedly installed in the front of the first support (2), the controller (36) is connected with a power source, and the first power device, the second power device, the first hydraulic rods (29), the second hydraulic rods (34), the electromagnets (30) and the first motor (24) are evenly distributed with the controller (36) respectively, And (5) connecting a power supply.

2. The novel cloth processing device for garment processing according to claim 1, wherein: a fourth bracket (37) is fixedly arranged on the right side of the top surface of the bottom plate (1), a supporting plate (38) is hinged on the left side of the fourth bracket (37), an inclined plate (39) is fixedly arranged on the bottom surface of the supporting plate (38), two third through holes (40) which are distributed up and down are formed in the left side of the inclined plate (39), a mesh plate (41) is fixedly arranged on one side, close to the middle part of the bottom plate (1), in each third through hole (40), a right-side sealed cover body (42) is fixedly arranged on the outer side of the right end of each third through hole (40) positioned on the lower part of the inclined plate (39), the cover body (42) is communicated with the third through holes (40) positioned on the lower part of the inclined plate (39), a fourth through hole (43) is formed in the right side of the cover body (42), the outer end of the fourth through hole (43) is fixedly connected with one end of a water vapor inlet pipe (44), the other end of the water vapor inlet pipe (44), the lower part of the left side of the fourth support (37) is hinged with a third hydraulic rod (46) with an inclined movable end facing upwards, the movable end of the third hydraulic rod (46) is hinged with the right side of the support plate (38), the widths of the support plate (38) and the inclined plate (39) are greater than the width of cloth, and the fan (45), the water vapor supply device and the third hydraulic rod (46) are respectively connected with a power supply and the controller (36).

3. The novel cloth processing device for garment processing according to claim 1, wherein: the middle part of the top surface of the bottom plate (1) is provided with a front and back through strip-shaped through groove (47), the upper end of the strip-shaped through groove (47) is of a fillet structure, the strip-shaped through groove (47) is positioned under a first rotating shaft (5), a plurality of two groups of second rotating shafts (48) are arranged between the left side wall and the right side wall of the strip-shaped through groove (47) in a bearing mode, the two groups of enemy rotating shafts (48) are symmetrical along the horizontal central line of the bottom plate, each group of second rotating shafts (48) comprises a plurality of second rotating shafts (48) which are distributed at equal intervals in the front and back, the middle part of each second rotating shaft (48) is fixedly provided with a roller (49), the top surface of each roller (49) is flush with the top surface of the bottom plate (1), the right side of each group of second rotating shafts (48) is fixedly sleeved with a first chain wheel (50), the outer sides of the front and back two ends of each strip-shaped groove (, the second chain wheels (52) are connected with a corresponding group of first chain wheels (50) through chains (53), and the second motors (51) are respectively connected with a power supply and a controller (36).

4. The novel cloth processing device for garment processing according to claim 2, wherein: the left upper portion of fourth support (37) fixed mounting expansion end electric telescopic handle (61) towards the left side, the expansion end articulated installation concave surface curved clamp plate (62) down of electric telescopic handle (61), the inboard of clamp plate (62) can be with the outside contact cooperation of roller core (27), electric telescopic handle (61) are connected with power, controller (36) respectively.

5. The novel cloth processing apparatus for clothing processing as claimed in claim 1, 2 or 3, wherein: the first power device comprises a third motor (54), a first belt wheel (55) and a second belt wheel (56), the third motor (54) with an output shaft facing forward is fixedly installed on the front side of the first support (2), the first belt wheel (55) is fixedly installed on the output shaft of the third motor (54), a rotating shaft on the front side of the cloth roller (3) penetrates through the first support (2) and is located outside, the second belt wheel (56) is fixedly sleeved on the rotating shaft on the front side of the cloth roller (3), the second belt wheel (56) is located in front of the first support (2), the first belt wheel (55) is connected with the second belt wheel (56) through a belt (57), and the third motor (54) is respectively connected with a power supply and the controller (36).

6. The novel cloth processing apparatus for clothing processing as claimed in claim 1, 2 or 3, wherein: the second power device comprises a fourth motor (58), a third gear (59) and a fourth gear (60), the fourth motor (58) with an output shaft facing backwards is fixedly installed on the rear side of the second support (4), the third gear (59) is fixedly installed on the output shaft of the fourth motor (58), the rear end of the first rotating shaft (5) penetrates through the second support (4) and is connected with a bearing of the second support, the fourth gear (60) is fixedly sleeved on the rear end of the first rotating shaft (5), the third gear (59) is meshed with the fourth gear (60) in a matched mode, and the fourth motor (58) is respectively connected with a power source and the controller (36).