CN210151342U - Deviation-rectifying feeding mechanism - Google Patents

Abstract

The utility model discloses a feeding mechanism can rectify. The deviation-correctable feeding mechanism comprises a deviation-correcting component, a feeding component and a pressing component; the deviation rectifying assembly comprises a deviation rectifying seat and a deviation rectifying driving part, the deviation rectifying driving part is connected to the deviation rectifying seat and used for driving the deviation rectifying seat to move, the feeding assembly comprises a feeding rolling part and a feeding driving part, the feeding rolling part is rotatably connected to the deviation rectifying seat, the feeding driving part is connected to the feeding rolling part and used for driving the feeding rolling part to rotate, the long axis direction of the feeding rolling part is consistent with the moving direction of the deviation rectifying seat driven by the deviation rectifying driving part, the pressing assembly comprises a pressing rolling part and a pressing driving part, the pressing driving part is arranged on the deviation rectifying seat, the pressing rolling part is rotatably connected to the pressing driving part, and the pressing driving part is used for driving the pressing rolling part to move. The deviation-rectifying feeding mechanism can achieve the purposes of automatic feeding, reduction of labor intensity of workers, automatic completion of rectification and improvement of product quality stability.

Description

Deviation-rectifying feeding mechanism

Technical Field

The utility model relates to a textile sector especially relates to a feeding mechanism can rectify.

Background

In the textile field, the proportion of the knitting list in the clothing factory order increases gradually in recent years, in the sewing process of the knitted round collar shirt, the traditional way of net sleeve process is all through manual operation, the manual operation work load is big, the workman burden is heavier and production efficiency is low, in addition this net sleeve process operation degree of difficulty is big, need the operation workman to carry out artifical pay-off, the situation of sleeve cut-parts skew can often appear in the time of artifical pay-off, behind the sleeve cut-parts skew, traditional way is rectified through the manual work, the manual work is rectified and is wasted time and energy on the one hand, on the other hand rectifying effect is poor, can lead to product quality unstability.

SUMMERY OF THE UTILITY MODEL

Therefore, a deviation-rectifying feeding mechanism is needed to be provided, which can realize automatic feeding, reduce the labor intensity of workers, automatically complete deviation rectifying and improve the stability of product quality.

A feeding mechanism capable of correcting deviation comprises a deviation correcting component, a feeding component and a pressing component; the deviation rectifying assembly comprises a deviation rectifying seat and a deviation rectifying driving part, the deviation rectifying driving part is connected with the deviation rectifying seat to drive the deviation rectifying seat to move, the feeding assembly comprises a feeding rolling part and a feeding driving part, the feeding rolling part is rotatably connected to the deviation rectifying seat, the feeding driving part is connected with the feeding rolling part to drive the feeding rolling part to rotate, the long axis direction of the feeding rolling part is in driving with the deviation rectifying driving part to drive the deviation rectifying seat to move in the same direction, the pressing assembly comprises a pressing rolling part and a pressing driving part, the pressing driving part is arranged on the deviation rectifying seat, the pressing rolling part is rotatably connected to the pressing driving part, and the pressing driving part is used for driving the pressing rolling part to move.

In one embodiment, the deviation correcting assembly further comprises a deviation correcting support and a deviation correcting guide rail, the deviation correcting guide rail is mounted on the deviation correcting seat, the deviation correcting support is connected to the deviation correcting guide rail in a sliding mode, one end of the feeding rolling piece is rotatably connected to the deviation correcting support, and the feeding driving part and the pressing driving part are arranged on the deviation correcting support.

In one embodiment, the deviation-rectifying mechanism further comprises a limiting assembly, and the limiting assembly is mounted on the deviation-rectifying seat and used for limiting the moving position of the deviation-rectifying bracket.

In one embodiment, the limiting assembly comprises a limiting bracket and a position detection part, the limiting bracket is mounted on the deviation rectifying seat, and the position detection part is arranged on the limiting bracket.

In one embodiment, the position sensing component is a contact travel switch.

In one embodiment, the nip assembly further comprises a nip support, the nip roller is rotatably connected to the nip support, and the nip driving member is connected to the nip support for driving the nip to move therebetween.

In one embodiment, the deviation correcting assembly further comprises a screw structure, and the deviation correcting driving component is connected to the deviation correcting bracket through the screw structure.

In one embodiment, the feeding assembly comprises a feeding driving wheel and a feeding driving belt, the feeding driving wheel is sleeved on the end part of the feeding rolling member, which is matched with the deviation rectifying support, and the feeding driving part is connected with the feeding driving wheel through the feeding driving belt.

In one embodiment, the feeding mechanism further comprises an auxiliary rolling member and an auxiliary seat, the auxiliary rolling member is rotatably connected to the auxiliary seat, the auxiliary seat is used for being installed on a machine table, and the auxiliary rolling member is matched with the feeding rolling member to feed materials.

In one embodiment, the position of the auxiliary seat on the machine table is adjustable.

A deviation-correctable feeding method using the deviation-correctable feeding mechanism comprises the following steps:

placing cut pieces on a feeding rolling member, controlling a pressing driving member to drive a pressing rolling member to move to the feeding rolling member, controlling the feeding driving member to drive the feeding rolling member to rotate so as to drive the pressing rolling member to rotate, and driving the cut pieces to move by matching the feeding rolling member with the pressing rolling member;

when the cut-parts shift, the deviation rectifying driving part is controlled to drive the deviation rectifying seat to move towards the opposite direction of the shifting direction so as to drive the feeding driving part and the pressing driving part to move, and the distance of the deviation rectifying seat driven by the deviation rectifying driving part to move towards the opposite direction of the shifting direction is equal to the distance of the cut-parts shifting.

The deviation-rectifying feeding mechanism can achieve the purposes of automatic feeding, reduction of labor intensity of workers, automatic completion of rectification and improvement of product quality stability. The utility model discloses a feeding mechanism can rectify presses material drive part drive to press the material rolling member to remove through control on sending the rolling member, control pay-off drive part drive pay-off rolling member rotates in order to drive press the material rolling member to rotate, the pay-off rolling member with press the material rolling member cooperation to drive the cut-parts and remove. When cut-parts take place the skew, control deviation correcting driving part drive deviation correcting seat removes in order to drive towards the opposite direction of skew direction pay-off driving part with press material driving part to remove, deviation correcting driving part drive deviation correcting seat equals towards the distance of the opposite direction removal of skew direction cut-parts skew, it is effectual to rectify.

The feeding mechanism capable of rectifying deviation limits the moving position of the rectifying bracket by arranging the limiting component, and places the rectifying bracket to excessively move towards a certain direction.

The position detection component is arranged on the deviation-rectifying feeding mechanism and used for detecting the position of the deviation-rectifying support, and the position of the deviation-rectifying support is moved to exceed a preset position, so that the deviation-rectifying support moves within a preset range.

According to the deviation-rectifying feeding mechanism, the screw rod structure is arranged between the deviation-rectifying support and the deviation-rectifying driving part, so that the deviation-rectifying driving part stably drives the deviation-rectifying support to move, and the purpose of high deviation-rectifying stability is achieved.

Drawings

FIG. 1 is a schematic view of a circular neck sweater mesh sleeve sewing device according to an embodiment;

FIG. 2 is an enlarged view of a portion of the knitting circular neck sweater mesh sleeve sewing device shown in FIG. 1;

fig. 3 is a schematic structural view of a deviation-correctable feeding mechanism in the knitted round-neck sweater net-sleeve sewing device shown in fig. 1.

Description of the reference numerals

10: a sewing device for knitting the round-neck sweater net sleeves;

100: a machine platform;

200: a deviation-correctable feeding mechanism; 210: a deviation rectifying component; 211: a deviation rectifying base; 212: a deviation rectifying driving component; 213: a deviation rectifying bracket; 214: a deviation rectifying guide rail; 215: a limiting component; 2151: a limiting bracket; 2152: a position detection section; 220: a feeding assembly; 221: a feed roller; 222: an auxiliary rolling member; 223: an auxiliary seat; 224: an auxiliary drive member; 225: a feeding drive component; 226: a feeding driving wheel; 227: a feeding transmission belt; 230: a material pressing component; 231: a swage roll; 232: a swaging drive component; 233: a material pressing bracket;

300: a sewing mechanism;

400: a spigot fixing mechanism; 410: a spigot fixing arm; 411: a bending section; 420: the spigot fixes the driving part;

500: sewing the platform;

600: a control mechanism; 610: and (6) a control screen.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The 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 secured to 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. When an element is referred to as being "mounted on" another element, it can be directly mounted on the other element or intervening elements may also be present. When an element is referred to as being "on" another element, it can be directly on 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, an embodiment of the present invention provides a circular collar sweater mesh sewing device 10, which includes a machine table 100, a feeding mechanism 200 capable of deviation rectification, a sewing mechanism 300, and a control mechanism 600.

Referring to fig. 1, the feeding mechanism 200 includes a deviation correcting assembly 210, a feeding assembly 220 and a pressing assembly 230. The deviation rectifying assembly 210 includes a deviation rectifying base 211 movably disposed on the machine 100 and a deviation rectifying driving member 212 connected to the deviation rectifying base 211. The control mechanism 600 is electrically connected to the deviation rectifying driving component 212. The deviation rectifying driving component 212 is used for driving the deviation rectifying base 211 to move.

The feeding assembly 220 is connected to the deviation rectifying base 211.

Referring to fig. 3, the nip assembly 230 includes nip rolls 231 and a nip driving part 232. The control mechanism 600 is electrically connected to the pressing driving part 232. The pressing driving part 232 is arranged on the deviation rectifying base 211, the pressing rolling part 231 is rotatably connected to the pressing driving part 232, the pressing driving part 232 is used for driving the pressing rolling part 231 to move, and the pressing rolling part 231 is matched with the feeding component 220 for feeding.

The sewing mechanism 300 is provided on the machine 100 for sewing cut pieces. The control mechanism 600 is electrically connected to the sewing mechanism 300.

Control mechanism 600 includes a control screen 610. The control screen 610 is arranged on the machine table 100, the control screen 610 can perform man-machine interaction with workers, the workers can input relevant parameters through the control screen 610, and the control screen 610 is also used for displaying relevant operation data of the circular-collar shirt mesh-sleeve sewing device 10.

Further, as shown in fig. 3, the feeding assembly 220 includes a feeding roller 221, an auxiliary roller 222, and a feeding driving part 225. The feeding rolling member 221 is rotatably connected to the deviation rectifying base 211, the feeding driving member 225 is connected to the feeding rolling member 221 for driving the feeding rolling member 221 to rotate, and the long axis direction of the feeding rolling member 221 is the same as the moving direction of the deviation rectifying base 211 driven by the deviation rectifying driving member 212. The auxiliary rolling member 222 is rotatably connected to the machine 100, and both the auxiliary rolling member 222 and the feeding rolling member 221 are used for sleeving the cut pieces and feeding the cut pieces in a matching manner. The control mechanism 600 is electrically connected to the feeding driving part 225.

In a specific example, referring to fig. 1, the circular collar sweater mesh sleeve sewing device 10 further includes a sewing platform 500, the sewing platform 500 has a sewing table, the sewing platform 500 is mounted on the machine platform 100 and located below a sewing machine head of the sewing mechanism 300, the sewing table is opposite to a sewing needle of the sewing machine head, and the feeding roller 221 and the auxiliary roller 222 are respectively located at two sides of the sewing platform 500. The sewing device 10 for the knitted round-neck sweater net-sleeve achieves the purpose of improving the sewing effect by arranging the sewing platform 500, the sewing platform 500 is provided with a sewing table top, the sewing table top is opposite to a sewing needle head of a sewing machine head, the feeding rolling pieces 221 and the auxiliary rolling pieces 222 are respectively located on two sides of the sewing platform 500, the sewing platform 500 is located between the feeding rolling pieces 221 and the auxiliary rolling pieces 222, when the feeding rolling pieces 221 feed materials and the auxiliary rolling pieces 222 cooperate to feed materials, manual work is not needed to assist and fix cut pieces on the sewing platform 500, and manpower is saved.

In a specific example, referring to fig. 1 and 2, the circular sweater net sleeve sewing device 10 further includes a seam allowance fixing mechanism 400. The spigot securement mechanism 400 includes a spigot securement arm 410 and a spigot securement drive member 420. The first end of the first rabbet fixing arm 410 is connected with the rabbet fixing driving component 420, the second end of the first rabbet fixing arm 410 is bent to the bent part 411 and extends towards the first end, and the length of the bent part 411 is equal to the width of the rabbet of the cutting piece. The control mechanism 600 is electrically connected to the spigot fixing drive member 420.

The sewing device 10 for the knitted round-neck sweater net sleeve realizes the purpose of fixing the seam allowance of the cut piece by arranging the seam allowance fixing mechanism 400. The seam allowance fixing mechanism 400 comprises a seam allowance fixing arm 410 and a seam allowance fixing driving part 420, wherein a first end of the seam allowance fixing arm 410 is connected with the seam allowance fixing driving part 420, a second end of the seam allowance fixing arm 410 is bent to a bending part 411 and extends towards the first end, the length of the bending part 411 is equal to the width of a seam allowance of a cut piece, the cut piece is sleeved in front of the feeding rolling part 221 and the auxiliary rolling part 222, the seam allowance fixing driving part 420 drives the seam allowance fixing arm 410 to move forwards to a position between the feeding rolling part 221 and the auxiliary rolling part 222, when the cut piece is sleeved in the feeding rolling part 221 and the auxiliary rolling part 222, the seam allowance fixing driving part 420 drives the seam allowance fixing arm 410 to reset, the bending part 411 of the seam allowance fixing arm 410 can hook the seam allowance of the cut piece, because the length of the bending part 411 is equal to the width of the seam allowance of the cut piece, the seam, the seam allowance fixing arm 410 can keep the width of the seam allowance of the cutting piece unchanged, and the purpose of fixing the seam allowance is achieved.

In one embodiment, the deviation rectification assembly 210 further comprises a deviation rectification bracket 213 and a deviation rectification rail 214. The deviation rectifying guide rail 214 is installed on the deviation rectifying base 211, the deviation rectifying support 213 is slidably connected on the deviation rectifying guide rail 214, one end of the feeding rolling member 221 is rotatably connected on the deviation rectifying support 213, and the feeding driving member 225 and the pressing driving member 232 are both arranged on the deviation rectifying support 213.

Optionally, the correctable mechanism further comprises a spacing assembly 215. The limiting component 215 is installed on the deviation rectifying base 211 for limiting the moving position of the deviation rectifying bracket 213. The sewing device 10 for the knitted round-neck sweater mesh sleeve limits the moving position of the deviation rectifying support 213 by arranging the limiting component 215, and prevents the deviation rectifying support 213 from excessively moving towards a certain direction.

In a particular example, the spacing assembly 215 includes a spacing bracket 2151 and a position detection component 2152. The limit bracket 2151 is mounted on the deviation rectifying base 211, and the position detection part 2152 is arranged on the limit bracket 2151. The control mechanism 600 is electrically connected to the position detecting member 2152. The knitted round-neck sweater mesh sleeve sewing device 10 is provided with the position detection component 2152 for detecting the position of the deviation correction bracket 213, and the position for placing the deviation correction bracket 213 moves beyond a preset position, so that the deviation correction bracket 213 moves within a preset range.

Preferably, the position detecting member 2152 is a contact type stroke switch.

In a particular example, the nip assembly 230 further includes a nip mount 233. The nip rolling member 231 is rotatably connected to the nip holder 233, and the nip driving member 232 is connected to the nip holder 233 for driving the nip to move therebetween.

Optionally, the deviation rectifying assembly 210 further comprises a lead screw structure. The deviation rectifying driving part 212 is connected to the deviation rectifying bracket 213 through a lead screw structure. According to the sewing device 10 for the knitted round-neck sweater mesh sleeves, the screw rod structure is arranged between the deviation rectifying support 213 and the deviation rectifying driving part 212, so that the deviation rectifying driving part 212 stably drives the deviation rectifying support 213 to move, and the purpose of high deviation rectifying stability is achieved.

In one particular example, the feed assembly 220 includes a feed drive wheel 226 and a feed drive belt 227. The feeding driving wheel 226 is sleeved and connected with the end part of the feeding rolling member 221 matched with the deviation rectifying bracket 213, and the feeding driving part 225 is connected with the feeding driving wheel 226 through a feeding driving belt 227.

Further, the auxiliary roller 222 and the auxiliary seat 223 are adjustable on the machine table 100, and the distance between the auxiliary roller 222 and the feeding roller 221 can be adjusted to adapt to cut pieces with different sizes, such as sleeve cut pieces with different calibers.

Further, the feeding assembly 220 further includes an auxiliary driving member 224, the auxiliary roller 222 is rotatably connected to an auxiliary seat 223, the auxiliary seat 223 is movably connected to the machine table 100, the auxiliary seat 223 is connected to the auxiliary driving member 224, the auxiliary driving member 224 is installed on the machine table 100, and the auxiliary driving member 224 is used for driving the auxiliary seat 223 to move, so as to achieve the adjustable interval between the auxiliary roller 222 and the feeding roller 221.

A method for sewing the knitted round-neck sweater net sleeves by using the knitted round-neck sweater net sleeve sewing device 10 is used for sewing sleeve cut pieces, and comprises the following steps:

the cut-parts are sleeved on the feeding rolling part 221 and the auxiliary rolling part 222, the control mechanism 600 controls the pressing driving part 232 to drive the pressing rolling part 231 to move to the feeding rolling part, controls the feeding driving part 225 to drive the feeding rolling part 221 to rotate so as to drive the pressing rolling part 231 to rotate, and the feeding rolling part 221 and the pressing rolling part 231 are matched to drive the cut-parts to move.

The cut-parts are sleeved on the feeding rolling part 221 and the auxiliary rolling part 222, the control mechanism 600 controls the spigot fixing driving part 420 to drive the spigot fixing arm 410 to move forwards between the feeding rolling part 221 and the auxiliary rolling part 222, when the cut-parts are sleeved on the feeding rolling part 221 and the auxiliary rolling part 222, the control mechanism 600 controls the spigot fixing driving part 420 to drive the spigot fixing arm 410 to reset, the bending part 411 of the spigot fixing arm 410 can hook the spigot of the cut-parts, because the length of the bending part 411 is equal to the width of the spigot of the cut-parts, when the cut-parts move forwards, the width of the spigot of the cut-parts cannot be changed, the width of the spigot of the cut-parts can be kept unchanged by the spigot fixing arm 410, and the purpose of fixing the spigot is achieved.

The control mechanism 600 controls the sewing mechanism 300 to sew the cut pieces.

When the cut pieces shift, the deviation rectifying driving component 212 is controlled to drive the deviation rectifying base 211 to move towards the opposite direction of the shifting direction so as to drive the feeding component 220 and the pressing driving component 232 to move, and the distance that the deviation rectifying driving component 212 drives the deviation rectifying base 211 to move towards the opposite direction of the shifting direction is equal to the distance that the cut pieces shift.

The sewing device 10 for the knitted round-neck sweater net sleeves can achieve the purposes of low process difficulty, short worker training time, high production efficiency and high quality stability. The utility model discloses a knitting round collar shirt net sleeve sewing device 10 presses material rolling member 231 to remove to sending the subassembly through system material pressing drive part 232 drive, and control pay-off subassembly 220 moves and rotates in order to drive material rolling member 231, and pay-off subassembly 220 drives cut-parts with pressing the cooperation of material rolling member 231 and removes. The sewing mechanism 300 is controlled to sew the cut pieces, when the cut pieces deviate, the deviation rectifying driving component 212 is controlled to drive the deviation rectifying seat 211 to move towards the reverse direction of the deviation direction so as to drive the feeding component 220 and the pressing driving component 232 to move, the deviation rectifying driving component 212 drives the deviation rectifying seat 211 to move towards the reverse direction of the deviation direction for a distance equal to the deviation distance of the cut pieces, and deviation rectification is completed while feeding and sewing.

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 represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A feeding mechanism capable of correcting deviation is characterized by comprising a deviation correcting component, a feeding component and a pressing component; the deviation rectifying assembly comprises a deviation rectifying seat and a deviation rectifying driving part, the deviation rectifying driving part is connected with the deviation rectifying seat to drive the deviation rectifying seat to move, the feeding assembly comprises a feeding rolling part and a feeding driving part, the feeding rolling part is rotatably connected to the deviation rectifying seat, the feeding driving part is connected with the feeding rolling part to drive the feeding rolling part to rotate, the long axis direction of the feeding rolling part is in driving with the deviation rectifying driving part to drive the deviation rectifying seat to move in the same direction, the pressing assembly comprises a pressing rolling part and a pressing driving part, the pressing driving part is arranged on the deviation rectifying seat, the pressing rolling part is rotatably connected to the pressing driving part, and the pressing driving part is used for driving the pressing rolling part to move.

2. The feeding mechanism of claim 1, wherein the deviation correcting assembly further comprises a deviation correcting bracket and a deviation correcting guide rail, the deviation correcting guide rail is mounted on the deviation correcting seat, the deviation correcting bracket is slidably connected to the deviation correcting guide rail, one end of the feeding roller is rotatably connected to the deviation correcting bracket, and the feeding driving part and the pressing driving part are both arranged on the deviation correcting bracket.

3. The feeding mechanism of claim 2, further comprising a limiting component mounted on the deviation rectifying base for limiting the moving position of the deviation rectifying bracket.

4. The feeding mechanism of claim 3, wherein the position limiting assembly comprises a position limiting bracket and a position detecting component, the position limiting bracket is mounted on the position rectifying seat, and the position detecting component is arranged on the position limiting bracket.

5. The feeding mechanism of claim 4, wherein the position detecting member is a contact type travel switch.

6. The feeding mechanism with the deviation rectifying function according to any one of claims 1 to 5, wherein the nip assembly further comprises a nip support, the nip rolling member is rotatably connected to the nip support, and the nip driving member is connected to the nip support for driving the nip to move therebetween.

7. The feeding mechanism of any one of claims 2 to 5, wherein the deviation correcting assembly further comprises a screw structure, and the deviation correcting driving member is connected to the deviation correcting bracket through the screw structure.

8. The feeding mechanism of any one of claims 2 to 5, wherein the feeding assembly comprises a feeding driving wheel and a feeding driving belt, the feeding driving wheel is sleeved on the end of the feeding rolling member engaged with the deviation correcting bracket, and the feeding driving member is connected with the feeding driving wheel through the feeding driving belt.

9. The feeding mechanism with the function of rectifying the deviation of any one of claims 1 to 5, further comprising an auxiliary rolling member and an auxiliary seat, wherein the auxiliary rolling member is rotatably connected to the auxiliary seat, the auxiliary seat is used for being installed on a machine table, and the auxiliary rolling member is matched with the feeding rolling member to feed.

10. The feeding mechanism of claim 9, wherein the auxiliary seat is adjustable on the machine platform.

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