CN106757819A - Cylindrical shape cut-parts automatic deviation rectifying mechanism - Google Patents

Abstract

The invention discloses a kind of cylindrical shape cut-parts automatic deviation rectifying mechanism.The cylindrical shape cut-parts automatic deviation rectifying mechanism includes base, conical limit wheel, taper driven pulley, limiting plate, rotary shaft, rotary driving part and mobile driver part.Mobile driver part is connected to base for driving base movement；Rotary driving part is located on base and is connected to rotary shaft for driving rotary shaft to rotate；Limiting plate and conical limit wheel are arranged on the rotary shaft, and conical limit wheel is located at the outside of rotary shaft, and limiting plate inwardly and is close in the less one end of conical limit wheel external diameter；Taper driven pulley is also provided on base, and taper driven pulley is arranged with conical limit wheel order, and the less one end of taper driven pulley external diameter is also connected with limiting plate, and taper driven pulley is used to be arranged cylindrical shape cut-parts with conical limit wheel.The cylindrical shape cut-parts automatic deviation rectifying mechanism section time power and quality of production can be ensured.

Description

Cylindrical shape cut-parts automatic deviation rectifying mechanism

Technical field

The present invention relates to field of textile machinery, more particularly to a kind of cylindrical shape cut-parts automatic deviation rectifying mechanism.

Background technology

In clothing sewing, some operation rumbles neck, upper flat machine sleeve, net pin, wing etc. need to enter several layers of columnar cut-parts Row alignment sewing, technical merit requirement of these operations often to workman is higher, and artificial wastes time and energy, and production matter Amount is difficult to ensure that.

The content of the invention

Based on this, it is necessary to which the cylindrical shape cut-parts that providing a kind of section time power and the quality of production can be able to ensure are entangled automatically Inclined mechanism.

A kind of cylindrical shape cut-parts automatic deviation rectifying mechanism, including base, conical limit wheel, taper driven pulley, limiting plate, rotation Axle, rotary driving part and mobile driver part；The mobile driver part is connected to base for driving the base It is mobile；The rotary driving part is located on the base and is connected to the rotary shaft for driving the rotary shaft to turn It is dynamic；The limiting plate and the conical limit wheel are set in the rotary shaft, and the conical limit wheel is located at the rotation The outside of rotating shaft, the limiting plate inwardly and is close in described less one end of conical limit wheel external diameter；The taper driven pulley It is located on the base, the taper driven pulley is arranged with conical limit wheel order, and the taper driven pulley external diameter is smaller One end be also connected with the limiting plate, the taper driven pulley is used to be arranged cylindrical shape cut-parts with the conical limit wheel.

Wherein in one embodiment, also including guide rail, the guide rail is located on the base, the rotary driving part It is slidably connected on the guide rail, the mobile driver part can drive the rotary driving part to be slided along the guide rail It is dynamic.

Wherein in one embodiment, also including sliding seat and gag lever post, the gag lever post be located on the base and With the guide rail parallel, the sliding seat is slidably connected on the guide rail, and the sliding seat is also sheathed on the gag lever post, The rotary driving part is located on the sliding seat, and the mobile driver part can drive the sliding seat to be led along described Rail is slided.

Wherein in one embodiment, the conical limit wheel and the taper driven pulley are located at same horizontal plane On, and the limiting plate at the conical limit wheel aligns with the limiting plate at the taper driven pulley.

Wherein in one embodiment, the position-arresting disk is in the form of annular discs.

Wherein in one embodiment, relative position of the taper driven pulley with the conical limit wheel on the base Put adjustable.

Wherein in one embodiment, also including adjusting code device, the barcode device to be located on the base, the taper Driven pulley is located on the tune code device and can be rotated relative to the tune code device, and the tune code device can adjust described The relative position of taper driven pulley and the conical limit wheel.

Above-mentioned cylindrical shape cut-parts automatic deviation rectifying mechanism, including base, conical limit wheel, taper driven pulley, limiting plate, rotation Rotating shaft, rotary driving part and mobile driver part；The taper driven pulley is used to be arranged cylinder with the conical limit wheel Shape cut-parts, conical top has a limiting plate, and when sewing bilayer cut-parts, taper driven pulley is double with conical limit wheel rotary course Layer cut-parts easily occur misplacing or have side's cut-parts to bounce back so that double-deck cut-parts while while do not align or offset.Add Circle slope is limited when cut-parts is misplaced or is bounced back by the angle formed between circle slope and circular cone, and now cut-parts are in one The effect of individual doubling and no longer slided toward either one, allow cut-parts that justified margin is all kept during whole sewing so that follow-up Sewing effect it is more preferable.

Brief description of the drawings

Fig. 1 is an embodiment multi-layer cylinder shape cut-parts opposite side sewing system schematic；

Fig. 2 is the edge-adjusting device schematic diagram of the multi-layer cylinder shape cut-parts opposite side sewing system shown in Fig. 1；

Schematic diagram when Fig. 3 is removing the first blower and the second blower of edge-adjusting device shown in Fig. 2；

Fig. 4 is that the edge-adjusting device of the multi-layer cylinder shape cut-parts opposite side sewing system shown in Fig. 1 and cut-parts control side device coordinate Schematic diagram；

Fig. 5 is the cut-parts control side device of the multi-layer cylinder shape cut-parts opposite side sewing system shown in Fig. 1；

Fig. 6 is that the cylindrical shape cut-parts automatic deviation rectifying mechanism of the multi-layer cylinder shape cut-parts opposite side sewing system shown in Fig. 1 is illustrated Figure.

Description of reference numerals

10th, multi-layer cylinder shape cut-parts opposite side sewing system；100th, board；110th, work top；200th, edge-adjusting device；210、 Fixed seat；220th, the first location-plate；221st, the first air-out groove；222nd, slot to make way；230th, the second location-plate；240th, the 3rd positioning Plate；241st, the second air-out groove；242nd, slot to make way；250th, the first blower；260th, the second blower；270th, material passing passage；300、 Cylindrical shape cut-parts automatic deviation rectifying mechanism；310th, base；320th, conical limit wheel；330th, taper driven pulley；340th, limiting plate；350、 Rotary shaft；360th, rotary driving part；370th, mobile driver part；380th, guide rail；390th, sliding seat；3100th, gag lever post；400、 Feed device；410th, support；420th, feeding arm；430th, telescopic drive part；440th, feeding driver part；450th, drawing-inroller； 460th, transmission belt；470th, driving wheel；500th, cut-parts control side device；510th, keeper；520th, part is sensed；530th, side member is controlled； 531st, cloth-dragging wheel；532nd, roll drive part；533rd, roller；534th, trailing arm；600th, adjusting means；610th, adjusting rod；620th, adjust Section driver part；700th, sewing device；800th, cylinder assisting rotary apparatus；900th, U-frame.

Specific embodiment

For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing Give presently preferred embodiments of the present invention.But, the present invention can be realized in many different forms, however it is not limited to this paper institutes The embodiment of description.On the contrary, the purpose for providing these embodiments is to make the understanding to the disclosure more thorough Comprehensively.

It should be noted that when element is referred to as " being fixed on " another element, it can directly on another element Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technologies and scientific terms used here by the article with belong to technical field of the invention The implication that technical staff is generally understood that is identical.The term for being used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein "and/or" includes one or more phases The arbitrary and all of combination of the Listed Items of pass.

Shown in Figure 1, the present embodiment relate to a kind of multi-layer cylinder shape cut-parts opposite side sewing system 10.The multi-layer cylinder Shape cut-parts opposite side sewing system 10 includes board 100, edge-adjusting device 200, adjusting means 600, cylindrical shape cut-parts automatic correcting machine Structure 300, feed device 400, cut-parts control side device 500, sewing device 700 and control device.Wherein, edge-adjusting device 200, sanction Piece control side device 500 and the three of adjusting means 600 can also be used alone to constitute multilayer cut-parts automatic edge-adjusting mechanism.

Referring to shown in Fig. 2 and Fig. 3, the edge-adjusting device 200 includes that fixed seat 210, the first location-plate 220, second are positioned Plate 230, the 3rd location-plate 240, the first blower 250 and the second blower 260.The fixed seat 210 is located at the board On 100；First location-plate 220, second location-plate 230 and the 3rd location-plate 240 are linked in sequence successively In the fixed seat 210, and between first location-plate 220 and second location-plate 230, second location-plate 230 The material passing passage 270 passed through for cut-parts is respectively provided between the 3rd location-plate 240；First blower 250 is connected In first location-plate 220 a towards surface of second location-plate 230, first blower 250 is along the sanction Extend on piece movement route, there are multiple blowholes towards the material passing passage 270 on first blower 250；It is described Second blower 260 is connected to the 3rd location-plate 240 a towards surface of second location-plate 230, and described second blows Airduct 260 has multiple towards the material passing passage along extending on cut-parts movement route on second blower 260 270 blowhole.

Referring to shown in Fig. 2 and Fig. 3, first location-plate 220 has the towards a surface of second location-plate 230 One air-out groove 221, first air-out groove 221 extends to the edge of first location-plate 220 and first air-out groove 221 Both ends extend respectively to the edge of first location-plate 220.The major axis of first air-out groove 221 blows with described first Airduct 250 is parallel.

Referring to shown in Fig. 2 and Fig. 3, the 3rd location-plate 240 has the towards a surface of second location-plate 230 Two air-out grooves 241, second air-out groove 241 extends to the edge of the 3rd location-plate 240.

The both ends of second air-out groove 241 extend respectively to the edge of the 3rd location-plate 240.Described second goes out The major axis of wind groove 241 is parallel with second blower 260.

Referring to shown in Fig. 2 and Fig. 3, the exterior face surface of the first location-plate 220 has slot to make way 222, the slot to make way 222 groove bottom has allows bit port, first blower 250 to be fastened in the slot to make way 222, first blower Blowhole on 250 is directed through the bit port towards the corresponding material passing passage 270 that allows.

Referring to shown in Fig. 2 and Fig. 3, the exterior face surface of the 3rd location-plate 240 also has slot to make way 242, the resigning The groove bottom of groove 242 also has allows bit port, second blower 260 to be fastened in the slot to make way 242, and described second blows Blowhole on airduct 260 is directed through the bit port towards the corresponding material passing passage 270 that allows.First location-plate 220th, second location-plate 230 and the 3rd location-plate 240 are parallel.

Shown in Figure 4, adjusting means 600 has adjusting rod 610 and regulation driver part 620.The regulation drives Part 620 is located on the board 100 and is connected to the adjusting rod 610, and the adjusting rod 610 is also attached to the fixed seat 210, the regulation driver part 620 can drive the fixed seat 210 to move by driving the adjusting rod 610 to move.

Referring to shown in Fig. 1 and Fig. 6, the cylindrical shape cut-parts automatic deviation rectifying mechanism 300 includes base 310, conical limit wheel 320th, taper driven pulley 330, limiting plate 340, rotary shaft 350, rotary driving part 360, mobile driver part 370, tune code dress Put, guide rail 380, sliding seat 390 and gag lever post 3100.Control device is electrically connected at rotary driving part 360, control device It is electrically connected at mobile driver part 370.

Shown in Figure 6, the mobile driver part 370 is connected to base 310 for driving the base 310 to move It is dynamic.The rotary driving part 360 is located on the base 310 and is connected to the rotary shaft 350 for driving the rotation Rotating shaft 350 is rotated；The limiting plate 340 and the conical limit wheel 320 are set in the rotary shaft 350, the cone Shape position-limited wheel 320 is located at the outside of the rotary shaft 350, and described less one end of the external diameter of conical limit wheel 320 inwardly and is close to The limiting plate 340；The taper driven pulley 330 is also provided on the base 310, the taper driven pulley 330 and the cone The order of shape position-limited wheel 320 is arranged, and described less one end of the external diameter of taper driven pulley 330 is also connected with the limiting plate 340, described Taper driven pulley 330 is used to be arranged cylindrical shape cut-parts with the conical limit wheel 320.

Shown in Figure 6, in the present embodiment, the guide rail 380 is located on the base 310, the rotary driving part Part 360 is slidably connected on the guide rail 380, and the mobile driver part 370 can drive the edge of the rotary driving part 360 The guide rail 380 to slide.The gag lever post 3100 is located on the base 310 and parallel with the guide rail 380, the slip Seat 390 is slidably connected on the guide rail 380, and the sliding seat 390 is also sheathed on the gag lever post 3100, and the rotation is driven Dynamic component 360 is located on the sliding seat 390, and the mobile driver part 370 can drive the sliding seat 390 along described Guide rail 380 is slided.The conical limit wheel 320 and the taper driven pulley 330 are located on same horizontal plane, and the cone The limiting plate 340 at shape position-limited wheel 320 aligns with the limiting plate 340 at the taper driven pulley 330.

Shown in Figure 6, in the present embodiment, the position-arresting disk is in the form of annular discs.The taper driven pulley 330 and the cone Relative position of the shape position-limited wheel 320 on the base 310 is adjustable.The barcode device is located on the base 310, the cone Shape driven pulley 330 is located on the tune code device and can be rotated relative to the tune code device, and the tune code device can be adjusted Save the relative position of the taper driven pulley 330 and the conical limit wheel 320.

Referring to shown in Fig. 1, Fig. 4 and Fig. 5, the cut-parts control side device 500 include keeper 510, sensing part 520 and Control side member 530, the keeper 510 is located on the work top 110 of the board 100 and positioned at the fixed seat 210 Top.The sensing part 520 is close to the keeper 510；It is described control side member 530 have cloth-dragging wheel 531, trailing arm 534 with And roll drive part 532.

Referring to shown in Fig. 4 and Fig. 5, trailing arm 534 is located on board 100 and is connected to roll drive part 532.The rolling Driver part 532 is connected to the cloth-dragging wheel 531 for driving the cloth-dragging wheel 531 to move, the roll drive part 532 The sensing part 520 is also electrically connected at, when the sensing part 520 detects the cut-parts on the work top 110 Selvedge deviate the keeper 510 when, the roll drive part 532 drive the cloth-dragging wheel 531 be pressed in the cut-parts and The cloth-dragging wheel 531 is driven to be rotated such that the edge of the cut-parts aligns with the keeper 510.Control device is electrically connected with In sensing part 520；Control device is electrically connected at roll drive part 532.

Shown in Figure 5, in the present embodiment, the sensing part 520 has multiple inductors, multiple inductors It is each provided on the work top 110 of the board 100, at least two inductors are close to the keeper 510, at least There is interval between one inductor and the keeper 510.Control device is electrically connected at inductor.

Shown in Figure 5, in the present embodiment, the control side member 530 also has multiple rollers 533, the roller 533 Diameter of the diameter less than the cloth-dragging wheel 531, multiple rollers 533 are both connected on the cloth-dragging wheel 531, multiple described The axle center of roller 533 is located in the garden circumferential edges of the cloth-dragging wheel 531, sagittal plane and the mop of multiple rollers 533 The sagittal plane of wheel 531 is vertical, and the periphery of multiple scroll wheels protrudes from the periphery of the cloth-dragging wheel 531.Multiple rollings Wheel 533 is uniformly distributed in the circumferential edge of the cloth-dragging wheel 531.

Shown in Figure 1, the feed device 400 is located on the board 100 for driving the work top 110 On shirt body cut-parts movement.In the present embodiment, the feed device 400 has support 410, feeding arm 420, telescopic drive Part 430, feeding driver part 440 and drawing-inroller 450, the support 410 are located on the board 100, the feeding arm 420 one end is hinged on the support 410, and the drawing-inroller 450 is hinged on the other end of the feeding arm 420；It is described to send Material driver part 440 is used to drive the drawing-inroller 450 to rotate；The telescopic drive part 430 be located on the support 410 and The feeding arm 420 is connected to for driving the feeding arm 420 to be rotated relative to the support 410.The feed device 400 also have conveyer belt and driving wheel 470, and the driving wheel 470 is coaxial with the feeding arm 420 to be articulated with the support 410, the feeding driver part 440 is located on the board 100 and is connected to the driving wheel 470, and the drawing-inroller 450 leads to The transmission belt 460 is crossed to be connected with the driving wheel 470.Control device is electrically connected at the driving of telescopic drive part 430, feeding Part 440.

It is shown in Figure 1, the sewing device 700 be used for sewing from two cut-parts of the material passing passage 270, come from The cylindrical shape cut-parts on the conical limit wheel 320 and the shirt body on the work top 110 from the board 100 are cut out Piece.Control device is electrically connected at sewing device 700.

It is shown in Figure 1, in the present embodiment, it is also provided with cylinder assisting rotary apparatus 800 and U-frame 900, cylinder Assisting rotary apparatus 800 connect U-frame 900, and because shirt body is more long, the cut-parts of shirt body clothing body are by cylinder assisting rotary apparatus during sewing 800 cooperation U-frames 900 are clamped, and during sewing, cylinder assisting rotary apparatus 800 rotate, and drive the rotation of shirt body, reduce sewing resistance. Control device is electrically connected at cylinder assisting rotary apparatus 800.

Above-mentioned multi-layer cylinder shape cut-parts opposite side sewing system 10, when in use, comprises the following steps：

The cut-parts of neck portion namely cylindrical shape cut-parts of sweat shirt are placed on workman the cone of cylindrical shape cut-parts automatic deviation rectifying mechanism 300 On shape position-limited wheel 320 and taper driven pulley 330, cylindrical shape cut-parts are supportted by conical limit wheel 320 and taper driven pulley 330 Open.

Two-layer cut-parts of the neck portion cut-parts of sweat shirt near the front end of sewing device 700 are respectively sleeved in edge-adjusting device 200 In upper and lower two material passing passages 270.

The neck position of shirt body is still the conical limit wheel 320 and cone for being enclosed within cylindrical shape cut-parts automatic deviation rectifying mechanism 300 Cover whole crew neck on shape driven pulley 330, and conical limit wheel 320 by cylindrical shape cut-parts automatic deviation rectifying mechanism 300 and It is strutted on taper driven pulley 330, and the neck portion position of shirt body is placed on work top 110 simultaneously, is dragged by drawing-inroller 450 during motion And aid in correction.

Before the sewing of sewing device 700, conical limit wheel 320 first dallies, and high-ranking military officer and shirt body come to limiting plate 340 automatically Put, now first correction is completed, and sewing device 700 starts sewing.

Subband cloth roller 533 can be moved up and down under the control of cylinder, and clothing can be aided in downwardly against cut-parts and when rolling Car drives cut-parts to roll.

Because shirt body is more long, the cut-parts of shirt body clothing body are clamped by the U-frame of cylinder assisting rotary apparatus during sewing.During sewing, Cylinder assisting rotary apparatus rotate, and drive the rotation of shirt body, reduce sewing resistance.

The correction of whole crew neck and shirt body is mainly rectified a deviation by conical limit wheel 320.

Circular neck and shirt body or bottom etc. are enclosed within the control side circular cone at two ends during sewing, rotary power drives taper Position-limited wheel 320 is rotated, and due to the taper of conical limit wheel 320, one is produced to spacing to cut-parts when conical limit wheel 320 is rotated The power in the direction of plate 340, so with the rotation of conical limit wheel 320, the cut-parts of skew are moved to the direction of limiting plate 340 gradually, Until be limited plate 340 withstanding, positioning is realized.

Conical limit wheel 320 has one domatic for spacing circle, when sewing bilayer cut-parts, double-deck cut-parts in rotary course Easily there is dislocation or there are side's cut-parts to bounce back so that double-deck cut-parts while while do not align or offset.It is domatic plus circle So that being limited by the domatic angle formed and circular cone between of circle when cut-parts dislocation or retraction, now cut-parts are in one The effect of doubling and no longer toward either one slide, allow cut-parts all to keep justified margin during whole sewing.Make sewing effect More preferably.

Conical limit wheel 320 plays overall correction to crew neck and shirt body and acts on, but conical limit wheel during sewing 320 is distant with the sewing machine pin of sewing needle device, also to have cut-parts control side device 500 to carry out to the correction of neck portion layer cloth Coordinate.Neck portion is filled in the upper and lower material passing passage 270 of cut-parts control side device 500 near sewing machine pin position during sewing, cut-parts control side First blower 250 and the second blower 260 of device 500 are dried, blowing out after-blow in material passing passage 270, incited somebody to action The edge of the cut-parts in material passage 270 is positioned, in order to prevent blowing from excessively causing cut-parts in the inside of material passing passage 270 arch Rise, there is provided the first air-out groove 221 and the second air-out groove 241 are for leaking out, excessive wind is discharged, it is ensured that cut-parts are put down It is whole.

Sensing part 520 is used for controlling cut-parts marginal position, cloth-dragging wheel 531 not to be pressed on cut-parts when flat, works as induction part Part 520 senses after cut-parts skew that cloth-dragging wheel 531 receives signal and then pushes and rotate, correction cut-parts position.Cloth-dragging wheel 531 Active bull wheel circumferential edges at be uniformly distributed equipped with roller 533, roller 533 can be rotated along the center of circle of itself.

The surface that cloth-dragging wheel 531 and circumference obtain small roller 533 is smooth, to ensure not triggering cut-parts table during mop The filament in face.The movement during correction of cloth-dragging wheel 531 to cut-parts forward has certain resistance, easily becomes when cut-parts are PANEL KNITTINGs Shape is stretched, and influences sewing effect.So in the circumferential edge of cloth-dragging wheel 531 plus the roller 533 that can be rotated along itself center of circle, cut-parts Cloth-dragging wheel 531 is pushed down and rolled by roller 533 if cut-parts and cloth-dragging wheel 531, the smooth outer surface of roller 533 subtract when mobile Few cloth-dragging wheel 531 and the frictional force of cut-parts so that operated during cut-parts sewing more smoother.

Above-mentioned multi-layer cylinder shape cut-parts opposite side sewing system 10, it is adaptable to the operation of cylindrical shape cut-parts splicing, workman is only Need to by cylindrical shape cut-parts be set on conical limit wheel 320 then can, other contraposition, sewing can voluntarily be completed by machine, mainly Can be used for the cylindrical shape cut-parts piece operations such as rumble neck, upper flat machine sleeve, net pin, wing.Above-mentioned edge-adjusting device 200 can control two-layer Cut-parts, cloth-dragging wheel 531 controls one layer of cut-parts, and multilayer cut-parts automatic edge-adjusting mechanism has three layers of cut-parts of control altogether.If desired for control more It is to be capable of achieving that multilayer cut-parts can increase cut-parts control side device 500 and/or edge-adjusting device 200 according to the principle.There is provided cylinder Shape cut-parts automatic deviation rectifying mechanism 300, conical top has a limiting plate 340, when sewing bilayer cut-parts when, taper driven pulley 330 with Double-deck cut-parts easily occur misplacing or have side's cut-parts to bounce back in the rotary course of conical limit wheel 320 so that double-deck cut-parts While while do not align or offset.It is subject to be formed between circle slope and circular cone when cut-parts is misplaced or is bounced back plus circle slope Angle limitation, now cut-parts are in the effect of doubling and are no longer slided toward either one, allow cut-parts in whole sewing process In all keep justified margin so that follow-up sewing effect is more preferable.

Above-mentioned multi-layer cylinder shape cut-parts opposite side sewing system 10, there is provided cut-parts control side device 500, cut-parts control side device 500 play a part of to control side in sewing is automated, and when cut-parts deviate predetermined trajectory, cloth-dragging wheel 531 is clockwise or counterclockwise Rotate to cause that cut-parts are close to or remotely located side, the selvedge of cut-parts is abutted and parallel with positioning side all the time, it is ensured that car The quality of seam.Above-mentioned cut-parts control side device 500 is also applicable in other clothing automation procedures for needing cut-parts to be automatically positioned In.There is provided edge-adjusting device 200, edge-adjusting device 200 includes fixed seat 210, the first location-plate 220, the second location-plate 230, the Three location-plates 240, the first blower 250 and the second blower 260；First location-plate 220, the second location-plate 230 and Three location-plates 240 are linked in sequence in fixed seat 210 successively, and between the first location-plate 220 and the second location-plate 230, second The material passing passage 270 passed through for cut-parts is respectively provided between the location-plate 240 of location-plate 230 and the 3rd, two cut-parts pass through respectively In two punishment in advance intervals, two material passing passages 270 are used for two spacing and positioning of cut-parts, have saved human assistance two-layer cut-parts Positioning；First blower 250 is connected to the first location-plate 220 a towards surface of second location-plate 230, the first blowing There are multiple blowholes towards material passing passage 270, the second blower 260 is connected to the 3rd location-plate 240 towards the on pipe 250 One surface of two location-plates 230, has multiple blowholes towards material passing passage 270, by blowhole on the second blower 260 Blowing so that the cut-parts in material passing passage 270 can in real time be close to fixed seat 210 and position, and saved and have been positioned manually, and also make The sewing efficiency for obtaining subsequently is improved, and sewing quality is guaranteed.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the invention, and its description is more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Shield scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (7)

1. a kind of cylindrical shape cut-parts automatic deviation rectifying mechanism, it is characterised in that including base, conical limit wheel, taper driven pulley, limit Position plate, rotary shaft, rotary driving part and mobile driver part；The mobile driver part is connected to base for driving The base movement；The rotary driving part is located on the base and is connected to the rotary shaft for driving the rotation Axis of rotation；The limiting plate and the conical limit wheel are set in the rotary shaft, and the conical limit wheel is located at The outside of the rotary shaft, the limiting plate inwardly and is close in described less one end of conical limit wheel external diameter；The taper from Driving wheel is also provided on the base and can be suitable with the conical limit wheel relative to the base rotation, the taper driven pulley Sequence is arranged, and described less one end of taper driven pulley external diameter is also connected with the limiting plate, the taper driven pulley and the cone Shape position-limited wheel is used to be arranged cylindrical shape cut-parts.

2. cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 1, it is characterised in that described to lead also including guide rail Rail is located on the base, and the rotary driving part is slidably connected on the guide rail, and the mobile driver part can drive The rotary driving part is moved along the slide.

3. cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 2, it is characterised in that also including sliding seat and limit Position bar, the gag lever post be located on the base and with the guide rail parallel, the sliding seat is slidably connected on the guide rail, And the sliding seat is also sheathed on the gag lever post, the rotary driving part is located on the sliding seat, the mobile driving Part can drive the sliding seat along the slide.

4. the cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 1-3 any one, it is characterised in that the taper Position-limited wheel and the taper driven pulley are located on same horizontal plane, and the limiting plate at the conical limit wheel and institute State the limiting plate alignment at taper driven pulley.

5. the cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 1-3 any one, it is characterised in that described spacing Disk is in the form of annular discs.

6. the cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 1-3 any one, it is characterised in that the taper Relative position of the driven pulley with the conical limit wheel on the base is adjustable.

7. cylindrical shape cut-parts automatic deviation rectifying mechanism according to claim 6, it is characterised in that also including adjusting code device, institute State barcode device to be located on the base, the taper driven pulley is located on the tune code device and can be relative to the tune code Device is rotated, the relative position for adjusting code device to adjust the taper driven pulley and the conical limit wheel.