CN106757819B - Automatic deviation rectifying mechanism for cylindrical cut pieces - Google Patents

Abstract

The invention discloses an automatic deviation rectifying mechanism for cylindrical cut pieces. The automatic deviation rectifying mechanism for the cylindrical cut pieces comprises a base, a conical limiting wheel, a conical driven wheel, a limiting plate, a rotating shaft, a rotary driving part and a movable driving part. The moving driving part is connected to the base and used for driving the base to move; the rotary driving part is arranged on the base and connected to the rotating shaft so as to drive the rotating shaft to rotate; the limiting plate and the conical limiting wheel are sleeved on the rotating shaft, the conical limiting wheel is positioned outside the rotating shaft, and one end of the conical limiting wheel with a smaller outer diameter faces inwards and is tightly attached to the limiting plate; the toper is also established on the base from the driving wheel, and the toper is arranged from driving wheel and toper spacing wheel in proper order, and the toper is also connected with the limiting plate from the less one end of driving wheel external diameter, and the toper is used for the cover to establish cylinder cut-parts from driving wheel and toper spacing wheel. The automatic deviation rectifying mechanism for the cylindrical cutting pieces is labor-saving in time and can ensure production quality.

Description

Automatic deviation rectifying mechanism for cylindrical cut pieces

Technical Field

The invention relates to the field of textile machinery, in particular to an automatic deviation rectifying mechanism for cylindrical cut pieces.

Background

In the clothing sewing, some processes rumble neck, go up flat quick-witted sleeve, net foot, net sleeve etc. need align the sewing to the cut-parts of several layers of cylinder, and these processes often require higher to workman's technical level to manual work is wasted time and energy, and production quality is difficult to guarantee.

Disclosure of Invention

Based on this, it is necessary to provide an automatic deviation rectifying mechanism for cylindrical cut pieces, which saves labor and time and ensures production quality.

An automatic deviation rectifying mechanism for cylindrical cut pieces comprises a base, a conical limiting wheel, a conical driven wheel, a limiting plate, a rotating shaft, a rotating driving part and a moving driving part; the movement driving part is connected to the base and used for driving the base to move; the rotary driving part is arranged on the base and connected to the rotating shaft so as to drive the rotating shaft to rotate; the limiting plate and the conical limiting wheel are sleeved on the rotating shaft, the conical limiting wheel is positioned outside the rotating shaft, and one end of the conical limiting wheel with a smaller outer diameter faces inwards and is tightly attached to the limiting plate; the toper is also established from the driving wheel on the base, the toper from the driving wheel with the spacing round of toper is arranged in proper order, the toper is also connected with from the less one end of driving wheel external diameter the limiting plate, the toper from the driving wheel with the spacing round of toper is used for the cover to establish the cylinder cut-parts.

In one embodiment, the mobile terminal further comprises a guide rail, the guide rail is arranged on the base, the rotary driving part is connected to the guide rail in a sliding mode, and the mobile driving part can drive the rotary driving part to slide along the guide rail.

In one embodiment, the sliding device further comprises a sliding seat and a limiting rod, the limiting rod is arranged on the base and is parallel to the guide rail, the sliding seat is connected to the guide rail in a sliding mode, the limiting rod is further sleeved on the sliding seat, the rotating driving part is arranged on the sliding seat, and the moving driving part can drive the sliding seat to slide along the guide rail.

In one embodiment, the conical limiting wheel and the conical driven wheel are located on the same horizontal plane, and the limiting plate at the conical limiting wheel is aligned with the limiting plate at the conical driven wheel.

In one embodiment, the limiting disc is disc-shaped.

In one embodiment, the relative positions of the conical driven wheel and the conical limiting wheel on the base are adjustable.

In one embodiment, the device further comprises a code adjusting device, the code adjusting device is arranged on the base, the conical driven wheel is arranged on the code adjusting device and can rotate relative to the code adjusting device, and the code adjusting device can adjust the relative position of the conical driven wheel and the conical limiting wheel.

The automatic deviation rectifying mechanism for the cylindrical cut pieces comprises a base, a conical limiting wheel, a conical driven wheel, a limiting plate, a rotating shaft, a rotating driving part and a moving driving part; the toper from the driving wheel with the spacing wheel of toper is used for the cover to establish the cylinder cut-parts, and the circular cone top has a limiting plate, and when sewing double-deck cut-parts, the toper appears the dislocation easily or has a cut-parts to retract from the driving wheel with the spacing rotatory in-process double-deck cut-parts of toper for the limit of double-deck cut-parts is not alignd or squints. The round slope is added, so that the cut pieces are staggered or retracted and are limited by the angle formed between the round slope and the cone, the cut pieces are in a folding effect at the moment and do not slide towards any direction any more, the cut pieces are kept aligned at the edge in the whole sewing process, and the subsequent sewing effect is better.

Drawings

FIG. 1 is a schematic view of a multi-layer cylindrical panel-to-edge sewing system according to an embodiment;

FIG. 2 is a schematic view of a side-to-side device of the multi-layer cylindrical panel-to-side sewing system shown in FIG. 1;

fig. 3 is a schematic view of the edge aligning device shown in fig. 2 with the first blowpipe and the second blowpipe removed;

FIG. 4 is a schematic view of the edge-facing device and the edge-controlling device of the multi-layer cylindrical cut piece edge-facing sewing system shown in FIG. 1;

FIG. 5 is a panel edge control device of the multi-layer cylindrical panel-to-edge sewing system shown in FIG. 1;

fig. 6 is a schematic view of an automatic deviation rectifying mechanism for cylindrical cut pieces of the multi-layer cylindrical cut piece to side sewing system shown in fig. 1.

Description of the reference numerals

10. A system for sewing the edges of the multiple layers of cylindrical cut pieces; 100. a machine platform; 110. a work table; 200. a side-aligning device; 210. a fixed seat; 220. a first positioning plate; 221. a first air outlet groove; 222. a yielding groove; 230. a second positioning plate; 240. a third positioning plate; 241. a second air outlet groove; 242. a yielding groove; 250. a first air blowing pipe; 260. a second blowpipe; 270. a material passing channel; 300. an automatic deviation rectifying mechanism for the cylindrical cut pieces; 310. a base; 320. a conical limiting wheel; 330. a conical driven wheel; 340. a limiting plate; 350. a rotating shaft; 360. a rotation driving member; 370. a movement driving part; 380. a guide rail; 390. a sliding seat; 3100. a limiting rod; 400. a feeding device; 410. a support; 420. a feeding arm; 430. a telescopic driving member; 440. a feeding drive part; 450. a feed wheel; 460. a transmission belt; 470. a drive wheel; 500. a cutting piece edge control device; 510. a positioning member; 520. an inductive component; 530. a side control component; 531. a mop wheel; 532. a rolling drive member; 533. a roller; 534. a trailing arm; 600. an adjustment device; 610. adjusting a rod; 620. an adjustment drive member; 700. a sewing device; 800. a cylinder auxiliary rotating device; 900. a U-shaped frame.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, the present embodiment relates to a system 10 for edge-to-edge sewing of a multi-layered cylindrical panel. The system 10 for edge-aligning and sewing of the multilayer cylindrical cut pieces comprises a machine table 100, an edge-aligning device 200, an adjusting device 600, an automatic deviation-rectifying mechanism 300 for the cylindrical cut pieces, a feeding device 400, a cut piece edge-controlling device 500, a sewing device 700 and a control device. The edge aligning device 200, the cut piece edge controlling device 500 and the adjusting device 600 can be independently used to form a multi-layer cut piece automatic edge aligning mechanism.

Referring to fig. 2 and 3, the edge-aligning device 200 includes a fixing base 210, a first positioning plate 220, a second positioning plate 230, a third positioning plate 240, a first blowing pipe 250, and a second blowing pipe 260. The fixing seat 210 is disposed on the machine 100; the first positioning plate 220, the second positioning plate 230 and the third positioning plate 240 are sequentially connected to the fixing base 210, and a material passing channel 270 for passing through cut pieces is formed between the first positioning plate 220 and the second positioning plate 230 and between the second positioning plate 230 and the third positioning plate 240; the first air blowing pipe 250 is connected to a surface of the first positioning plate 220 facing the second positioning plate 230, the first air blowing pipe 250 extends along the cutting piece moving path, and the first air blowing pipe 250 is provided with a plurality of air blowing holes facing the material passing channel 270; the second blowpipe 260 is connected in the third positioning board 240 towards a surface of the second positioning board 230, the second blowpipe 260 extends along the cut piece moving path, the second blowpipe 260 is provided with a plurality of blowholes towards the material passing channel 270.

Referring to fig. 2 and 3, a surface of the first positioning plate 220 facing the second positioning plate 230 has a first air-out slot 221, the first air-out slot 221 extends to an edge of the first positioning plate 220, and two ends of the first air-out slot 221 respectively extend to the edge of the first positioning plate 220. The long axis of the first air outlet groove 221 is parallel to the first air blowing pipe 250.

Referring to fig. 2 and 3, a surface of the third positioning plate 240 facing the second positioning plate 230 has a second air outlet slot 241, and the second air outlet slot 241 extends to an edge of the third positioning plate 240.

Two ends of the second air outlet groove 241 extend to the edge of the third positioning plate 240 respectively. The long axis of the second air outlet groove 241 is parallel to the second air blowing pipe 260.

Referring to fig. 2 and 3, the outward surface of the first positioning plate 220 has a yielding groove 222, the groove bottom surface of the yielding groove 222 has a yielding channel, the first blowing pipe 250 is clamped in the yielding groove 222, and the blowing hole on the first blowing pipe 250 passes through the yielding channel and faces the corresponding material passing channel 270.

Referring to fig. 2 and 3, the outward surface of the third positioning plate 240 also has an abdicating groove 242, the groove bottom surface of the abdicating groove 242 also has an abdicating channel, the second blowing pipe 260 is clamped in the abdicating groove 242, and the blowing hole orientation of the second blowing pipe 260 passes through the abdicating channel towards the corresponding material passing channel 270. The first positioning plate 220, the second positioning plate 230 and the third positioning plate 240 are all parallel.

Referring to fig. 4, the adjusting device 600 has an adjusting lever 610 and an adjusting driving part 620. The adjusting driving part 620 is disposed on the machine platform 100 and connected to the adjusting rod 610, the adjusting rod 610 is further connected to the fixing base 210, and the adjusting driving part 620 can drive the fixing base 210 to move by driving the adjusting rod 610 to move.

Referring to fig. 1 and 6, the automatic deviation rectifying mechanism 300 for cylindrical cut pieces comprises a base 310, a conical limiting wheel 320, a conical driven wheel 330, a limiting plate 340, a rotating shaft 350, a rotating driving component 360, a moving driving component 370, a code adjusting device, a guide rail 380, a sliding seat 390 and a limiting rod 3100. The control device is electrically connected to the rotation driving part 360, and the control device is electrically connected to the movement driving part 370.

Referring to fig. 6, the moving driving part 370 is connected to the base 310 for driving the base 310 to move. The rotation driving part 360 is disposed on the base 310 and connected to the rotation shaft 350 for driving the rotation shaft 350 to rotate; the limiting plate 340 and the conical limiting wheel 320 are sleeved on the rotating shaft 350, the conical limiting wheel 320 is located on the outer side of the rotating shaft 350, and the end, with the smaller outer diameter, of the conical limiting wheel 320 faces inwards and is tightly attached to the limiting plate 340; the conical driven wheel 330 is also arranged on the base 310, the conical driven wheel 330 and the conical limiting wheel 320 are sequentially arranged, the smaller outer diameter end of the conical driven wheel 330 is also connected with the limiting plate 340, and the conical driven wheel 330 and the conical limiting wheel 320 are used for sleeving a cylindrical cutting piece.

Referring to fig. 6, in the present embodiment, the guide rail 380 is disposed on the base 310, the rotation driving member 360 is slidably connected to the guide rail 380, and the moving driving member 370 can drive the rotation driving member 360 to slide along the guide rail 380. The limit rod 3100 is disposed on the base 310 and is parallel to the guide rail 380, the sliding seat 390 is slidably connected to the guide rail 380, the limit rod 3100 is further sleeved on the sliding seat 390, the rotation driving component 360 is disposed on the sliding seat 390, and the movement driving component 370 can drive the sliding seat 390 to slide along the guide rail 380. The conical limiting wheel 320 and the conical driven wheel 330 are located on the same horizontal plane, and the limiting plate 340 at the conical limiting wheel 320 is aligned with the limiting plate 340 at the conical driven wheel 330.

Referring to fig. 6, in the present embodiment, the limiting plate is in a shape of a disk. The relative positions of the conical driven wheel 330 and the conical limiting wheel 320 on the base 310 can be adjusted. The code adjusting device is arranged on the base 310, the conical driven wheel 330 is arranged on the code adjusting device and can rotate relative to the code adjusting device, and the code adjusting device can adjust the relative position of the conical driven wheel 330 and the conical limiting wheel 320.

Referring to fig. 1, 4 and 5, the edge control device 500 includes a positioning member 510, a sensing component 520 and an edge control component 530, wherein the positioning member 510 is disposed on the working platform 110 of the machine platform 100 and above the fixing base 210. The sensing component 520 is tightly attached to the positioning component 510; the edge control member 530 has a cloth trawl wheel 531, a trailing arm 534, and a rolling drive member 532.

Referring to fig. 4 and 5, the trailing arm 534 is disposed on the machine platform 100 and connected to the rolling driving member 532. The rolling driving part 532 is connected in the mop wheel 531 is used for driving the mop wheel 531 to move, the rolling driving part 532 is also electrically connected to the sensing part 520, when the sensing part 520 detects that the selvedge of the cutting piece on the worktable 110 deviates from the positioning piece 510, the rolling driving part 532 drives the mop wheel 531 to press on the cutting piece and drive the mop wheel 531 to rotate so that the edge of the cutting piece is aligned with the positioning piece 510. The control device is electrically connected to the sensing component 520; the control device is electrically connected to the rolling driving member 532.

Referring to fig. 5, in the embodiment, the sensing component 520 has a plurality of sensors, the plurality of sensors are all disposed on the working platform 110 of the machine 100, at least two sensors are attached to the positioning member 510, and a space is provided between at least one sensor and the positioning member 510. The control device is electrically connected to the sensor.

Referring to fig. 5, in this embodiment, the edge control component 530 further has a plurality of rollers 533, a diameter of the rollers 533 is smaller than a diameter of the mop wheel 531, the rollers 533 are all connected to the mop wheel 531, axes of the rollers 533 are located on a circumferential edge of the mop wheel 531, radial surfaces of the rollers 533 are perpendicular to a radial surface of the mop wheel 531, and circumferential edges of the rollers protrude from a circumferential edge of the mop wheel 531. The rollers 533 are uniformly distributed on the circumference of the mop wheel 531.

Referring to fig. 1, the feeding device 400 is disposed on the machine table 100 for driving the body panels on the work table 110 to move. In this embodiment, the feeding device 400 includes a bracket 410, a feeding arm 420, a telescopic driving component 430, a feeding driving component 440, and a feeding wheel 450, wherein the bracket 410 is disposed on the machine platform 100, one end of the feeding arm 420 is hinged to the bracket 410, and the feeding wheel 450 is hinged to the other end of the feeding arm 420; the feeding driving component 440 is used for driving the feeding wheel 450 to rotate; the telescopic driving member 430 is disposed on the bracket 410 and connected to the feeding arm 420 to drive the feeding arm 420 to rotate relative to the bracket 410. The feeding device 400 further comprises a transmission belt and a driving wheel 470, the driving wheel 470 is coaxially hinged to the bracket 410 with the feeding arm 420, the feeding driving member 440 is disposed on the machine table 100 and connected to the driving wheel 470, and the feeding wheel 450 is connected to the driving wheel 470 through the transmission belt 460. The control device is electrically connected to the telescopic driving part 430 and the feeding driving part 440.

Referring to fig. 1, the sewing device 700 is used for sewing cut pieces from the two material passing channels 270, the cylindrical cut pieces from the conical limiting wheel 320 and shirt cut pieces from the working table 110 of the machine table 100. The control device is electrically connected to the sewing device 700.

Referring to fig. 1, in the embodiment, a cylinder auxiliary rotating device 800 and a U-shaped frame 900 are further provided, the cylinder auxiliary rotating device 800 is connected with the U-shaped frame 900, because the shirt body is longer, the clothes pieces of the shirt body are clamped by the cylinder auxiliary rotating device 800 and the U-shaped frame 900 in sewing, and during sewing, the cylinder auxiliary rotating device 800 rotates to drive the shirt body to rotate, so that the sewing resistance is reduced. The control device is electrically connected to the cylinder auxiliary rotating device 800.

When in use, the system 10 for sewing the edges of the multiple cylindrical cut pieces comprises the following steps:

the worker sleeves the collar part cut pieces of the round collar shirt, namely the cylindrical cut pieces, on the conical limiting wheel 320 and the conical driven wheel 330 of the cylindrical cut piece automatic deviation rectifying mechanism 300, and the conical limiting wheel 320 and the conical driven wheel 330 are used for spreading the cylindrical cut pieces.

Two layers of cut pieces of the collar part of the round collar sweater, which are close to the front end of the sewing device 700, are respectively sleeved in the upper and lower material passing channels 270 of the opposite side device 200.

The collar position of the shirt body is still covered on the conical limiting wheel 320 and the conical driven wheel 330 of the cylindrical cut-parts automatic deviation rectifying mechanism 300 to cover the whole circular collar, and is opened by the conical limiting wheel 320 and the conical driven wheel 330 of the cylindrical cut-parts automatic deviation rectifying mechanism 300, the collar position of the shirt body is simultaneously covered on the working table surface 110, and the shirt body is dragged by the feeding wheel 450 during movement to assist in deviation rectification.

Before the sewing device 700 sews, the conical limiting wheel 320 idles, the collar and the shirt body automatically lean against the position of the limiting plate 340, at this time, the primary deviation rectification is completed, and the sewing device 700 starts sewing.

The auxiliary cloth-carrying roller 533 can move up and down under the control of the cylinder, and can assist the sewing machine to drive the cut-parts to roll when pressing the cut-parts downwards and rolling.

Because the shirt body is longer, the cut pieces of the shirt body are clamped by the U-shaped frame of the cylinder auxiliary rotating device during sewing. During sewing, the cylinder auxiliary rotating device rotates to drive the shirt body to rotate, so that the sewing resistance is reduced.

The deviation of the whole collar and shirt body is mainly corrected by the conical limiting wheel 320.

During sewing, circular collars, shirt bodies or shirt feet and the like are sleeved on the edge control cones at two ends, the conical limiting wheel 320 is driven to rotate by rotary power, and due to the conical shape of the conical limiting wheel 320, force towards the direction of the limiting plate 340 is generated on the cutting pieces when the conical limiting wheel 320 rotates, so that the deviated cutting pieces gradually move towards the direction of the limiting plate 340 along with the rotation of the conical limiting wheel 320 until being propped by the limiting plate 340, and the positioning is realized.

The spacing wheel 320 of toper has one to be used for spacing round slope face, and when sewing double-deck cut-parts, dislocation appears easily in the double-deck cut-parts of rotatory in-process or has a cut-parts to retract for the limit of double-deck cut-parts does not align or the skew. The round slope surface is added, so that the cut pieces are staggered or retracted and are limited by the angle formed between the round slope surface and the cone, and the cut pieces are in a folding effect and do not slide in any direction, so that the cut pieces are kept aligned at the edge in the whole sewing process. So that the sewing effect is better.

The conical limiting wheel 320 plays an integral role in correcting the deviation of the circular collar and the shirt body, but the distance between the conical limiting wheel 320 and a sewing needle of a sewing needle device is far in the sewing process, and the deviation correction of the double-layer cloth of the collar part is matched with a cut-part edge control device 500. Collar portion is close to clothing sewing needle position and is packed in cut-parts accuse limit device 500 during sewing, down in the material passageway 270, cut-parts accuse limit device 500's first blast pipe 250 and second blast pipe 260 are bloied, blow out after coming out to blow in the material passageway 270, the edge of the cut-parts in the material passageway 270 will be crossed is fixed a position, in order to prevent to blow too much to make the cut-parts arch up in passing material passageway 270 the inside, first air-out groove 221 and second air-out groove 241 have been set up in order to be used for the wind, discharge too much wind, guarantee that the cut-parts are leveled.

The sensing component 520 is used for controlling the edge position of the cut piece, the mop wheel 531 is not pressed on the cut piece at ordinary times, and when the sensing component 520 senses the deviation of the cut piece, the mop wheel 531 presses down and rotates to correct the position of the cut piece after receiving a signal. The circumferential edge of the driving bull wheel of the mop wheel 531 is uniformly provided with rollers 533, and the rollers 533 can rotate along the circle center of the rollers.

The surfaces of the mop wheel 531 and the small-circumference roller 533 are smooth to ensure that the filaments on the surface of the cut pieces are not caught during the mop process. When the mop wheel 531 is used for correcting deviation, certain resistance is provided for the forward movement of the cut pieces, and when the cut pieces are knitted cut pieces, the cut pieces are easy to deform and stretch, so that the sewing effect is influenced. Therefore, the roller 533 which can rotate along the center of circle of the mop wheel 531 is added on the circumferential edge of the mop wheel 531, when the cut piece moves, the friction force between the mop wheel 531 and the cut piece is reduced by the rolling of the roller 533 and the smooth outer surfaces of the mop wheel 531 and the roller 533 when the mop wheel 531 presses the cut piece, so that the cut piece can rotate more smoothly in the sewing process.

Foretell multilayer cylinder cut-parts opposite side sewing system 10 is applicable to the process of cylinder cut-parts concatenation, the workman only need with the cylinder cut-parts cover to the spacing wheel 320 of toper then can, other counterpoints, the sewing all can be accomplished by the machine by oneself, mainly can be used to cylindrical cut-parts piece sewing processes such as rumble neck, last flat machine sleeve, net foot, net sleeve. The above-mentioned opposite side device 200 can control two-layer cut pieces, the mop wheel 531 controls one-layer cut piece, and the automatic opposite side mechanism of the multi-layer cut piece controls three-layer cut pieces altogether. If more layers of panels need to be controlled, it is possible to add panel edge control means 500 and/or edge facing means 200 according to the principles described. The automatic deviation rectifying mechanism 300 for the cylindrical cut pieces is arranged, the limiting plate 340 is arranged at the top of the cone, and when the double-layer cut pieces are sewn, the conical driven wheel 330 and the conical limiting wheel 320 are staggered easily in the rotating process of the double-layer cut pieces or one cut piece retracts, so that the edges of the double-layer cut pieces are not aligned or deviated. The round slope is added, so that the cut pieces are staggered or retracted and are limited by the angle formed between the round slope and the cone, the cut pieces are in a folding effect at the moment and do not slide towards any direction any more, the cut pieces are kept aligned at the edge in the whole sewing process, and the subsequent sewing effect is better.

Foretell multilayer cylinder cut-parts opposite side sewing system 10 has set up cut-parts accuse limit device 500, and cut-parts accuse limit device 500 plays the effect of accuse limit in automatic sewing, and when the cut-parts skew predetermineeing the track, mop wheel 531 clockwise or anticlockwise rotation makes the cut-parts be close to or keep away from the location limit, makes the selvedge of cut-parts near and parallel with the location limit all the time, has guaranteed the quality of sewing. The edge control device 500 can also be applied to other automatic clothes-making processes requiring automatic positioning of cut pieces. The edge aligning device 200 is arranged, and the edge aligning device 200 comprises a fixed seat 210, a first positioning plate 220, a second positioning plate 230, a third positioning plate 240, a first air blowing pipe 250 and a second air blowing pipe 260; the first positioning plate 220, the second positioning plate 230 and the third positioning plate 240 are sequentially connected to the fixing seat 210, material passing channels 270 for passing the cut pieces are arranged between the first positioning plate 220 and the second positioning plate 230 and between the second positioning plate 230 and the third positioning plate 240, the two cut pieces pass through the two material passing intervals respectively, and the two material passing channels 270 are used for limiting and positioning the two cut pieces, so that the manual assistance for positioning the two layers of cut pieces is saved; first blowpipe 250 is connected and is being in first locating plate 220 orientation a surface of second locating plate 230, a plurality of blowholes towards material passageway 270 have on the first blowpipe 250, second blowpipe 260 is connected on a surface of third locating plate 240 towards second locating plate 230, a plurality of blowholes towards material passageway 270 have on the second blowpipe 260, blow through blowhole, make the cut-parts of crossing in the material passageway 270 to hug closely fixing base 210 location in real time, practiced thrift artifical location, also make subsequent sewing efficiency improve, the sewing quality obtains guaranteeing.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. An automatic deviation rectifying mechanism for cylindrical cut pieces is characterized by comprising a base, a conical limiting wheel, a conical driven wheel, a limiting plate, a rotating shaft, a rotating driving part and a moving driving part; the movement driving part is connected to the base and used for driving the base to move; the rotary driving part is arranged on the base and connected to the rotating shaft so as to drive the rotating shaft to rotate; the limiting plate and the conical limiting wheel are sleeved on the rotating shaft, the conical limiting wheel is positioned outside the rotating shaft, and one end of the conical limiting wheel with a smaller outer diameter faces inwards and is tightly attached to the limiting plate; the conical driven wheel is also arranged on the base and can rotate relative to the base, the conical driven wheel and the conical limiting wheel are sequentially arranged, the limiting plate is also connected to the end with the smaller outer diameter of the conical driven wheel, and the conical driven wheel and the conical limiting wheel are used for sleeving cylindrical cut pieces;

Wherein, the spacing round of toper has one to be used for spacing round slope face, round slope face with form the angle restriction between the circular cone of the spacing round of toper, cut-parts are in the effect of a fifty percent discount and no longer slide toward arbitrary side this moment to make double-deck cut-parts all keep the edge to align at whole sewing in-process.

2. The automatic deviation rectifying mechanism for cylindrical cut pieces according to claim 1, further comprising a guide rail, wherein the guide rail is arranged on the base, the rotary driving component is slidably connected to the guide rail, and the movable driving component can drive the rotary driving component to slide along the guide rail.

3. The automatic mechanism of rectifying of cylinder cut-parts according to claim 2, characterized in that, still include sliding seat and gag lever post, the gag lever post is established on the base and with the guide rail is parallel, sliding seat sliding connection is in on the guide rail, just the sliding seat still overlaps and locates the gag lever post, rotary drive part establishes on the sliding seat, it can drive to remove drive part the sliding seat along the guide rail slides.

4. The automatic deviation rectifying mechanism for cylindrical cut pieces according to any one of claims 1 to 3, wherein the conical limiting wheel and the conical driven wheel are located on the same horizontal plane, and the limiting plate at the conical limiting wheel is aligned with the limiting plate at the conical driven wheel.

5. The automatic deviation rectifying mechanism for cylindrical cut pieces according to any one of claims 1 to 3, wherein the limiting disc is disc-shaped.

6. The automatic deviation rectifying mechanism for cylindrical cut pieces according to any one of claims 1-3, wherein the relative positions of the conical driven wheel and the conical limiting wheel on the base are adjustable.

7. The automatic mechanism of rectifying of cylinder cut-parts according to claim 6, characterized in that still includes transfers the sign indicating number device, transfer the sign indicating number device to establish on the base, the toper is established from the driving wheel transfer the sign indicating number device on and can for transfer the sign indicating number device to rotate, transfer the sign indicating number device can adjust the toper follow the driving wheel with the relative position of the spacing wheel of toper.

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