CN110878442B

CN110878442B - Upper cuff machine

Info

Publication number: CN110878442B
Application number: CN201911154458.1A
Authority: CN
Inventors: 李志朝
Original assignee: Strong H Machinery Technology Co ltd
Current assignee: Strong H Machinery Technology Co ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2024-07-12
Anticipated expiration: 2039-11-22
Also published as: CN110878442A

Abstract

The invention discloses an upper cuff machine, which comprises a machine table, wherein a flat seaming machine is fixedly arranged on the machine table, and the flat seaming machine is provided with a needle board table. Compared with the prior art, the invention can replace manual work to realize the operation of sewing cuffs, has high efficiency, and can resist more or less ten manual works.

Description

Upper cuff machine

Technical Field

The invention relates to clothing equipment, in particular to an upper cuff machine.

Background

At present, the clothes processing industry is to manually sew the threaded cuffs on the sleeves, manually stretch the ring-shaped threaded cuffs to the matched width of the cuffs during sewing, and then manually turn the cuffs for sewing, and the common problems are that the tightness of the cuffs in the trend range is different and the efficiency is very low due to inconsistent proficiency of workers.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and discloses an upper cuff machine capable of automatically tightening the thread cuffs and sleeve openings to the same extent in the circumferential range and automatically turning and sewing, which adopts the following technical scheme:

The oversleeve sewing machine comprises a machine table, wherein an oversleeve sewing machine is fixedly arranged on the machine table, and the oversleeve sewing machine is provided with a needle board table, and unlike the prior art, the oversleeve sewing machine further comprises a rotating support mechanism which can support or release sleeves and cuffs which are stacked together, and enables the sleeves and cuffs to rotate back and forth and slide on the upper surface of the needle board table of the oversleeve sewing machine.

Specifically, the rotating support mechanism comprises a first mounting plate arranged on the overedger body, a cylinder body of a first cylinder and the lower end of a support plate are hinged in the middle of the first mounting plate, the support plate is positioned on the right side of the needle plate table, a cylinder rod of the first cylinder is hinged with the middle of the support plate, a driving motor mounting plate and a driving roller mounting plate are fixedly connected to the upper part of the support plate, a driving motor is fixedly arranged on the driving motor mounting plate, a driving synchronous pulley is fixedly arranged on a driving motor shaft of the driving motor, a cloth supporting driving roller with the axial direction being the front-rear direction is pivoted on the driving roller mounting plate, a rotating shaft of the cloth supporting driving roller penetrates through the driving roller mounting plate to fixedly arrange a driven synchronous pulley, and a synchronous belt is wound on the driven synchronous pulley and the driving synchronous pulley; the first free roller and the second free roller are pivoted on the overedger body at the left side of the needle board platform, the axial direction of the first free roller and the second free roller is in the front-back direction, and part of sleeves and cuffs which are stacked together can be sleeved on the first free roller, the second free roller, the needle board platform and the cloth supporting driving roller, and the sleeves can be driven by the cloth supporting driving roller to reciprocate and rotate around and slide on the upper surface of the needle board platform of the overedger.

The other technical scheme of the rotating support mechanism is as follows: the rotary supporting mechanism comprises a first mounting plate arranged on the overedger body, the middle part of the first mounting plate is hinged with the cylinder body of a first cylinder, the end part of the first mounting plate is hinged with the lower end of a supporting plate, the supporting plate is positioned on the right side of the needle plate table, a cylinder rod of the first cylinder is hinged with the middle part of the supporting plate, the upper part of the supporting plate is fixedly connected with a first guide rail which is arranged front and back, the front end of the first guide rail is fixedly connected with an adjusting motor and a first sliding block which are in sliding fit, the motor shaft of the adjusting motor is fixedly connected with a screw rod which is in the front and back direction, the first sliding block is provided with a screw hole which is matched with the screw rod, the first sliding block is fixedly connected with a driving motor mounting plate and a driving roller mounting plate, a driving motor is fixedly connected with a driving synchronous pulley on a driving motor shaft of the driving motor, a cloth supporting roller which is in the front and back direction is pivoted on the driving roller mounting plate, a rotating shaft of the cloth supporting driving roller penetrates through the driving roller mounting plate and is fixedly connected with a driven synchronous pulley, and a driving synchronous belt on the driving synchronous pulley and the driving synchronous pulley; a first free roller and a second free roller which are pivoted on the overedger body at the left side of the needle board platform and have the axial direction of the front and back directions, and part of sleeves and cuffs which are overlapped together can be sleeved on the first free roller, the second free roller, the needle board platform and the cloth supporting driving roller, and can be driven by the cloth supporting driving roller to reciprocate and roll and slide on the upper surface of the needle board platform of the overedger; 2 photoelectric sensors for detecting the positions of sleeves and cuffs on the cloth supporting driving roller are fixedly arranged on the overedger body

Compared with the prior art, the invention can replace manual work to realize the operation of sewing cuffs, has high efficiency, and can resist more or less ten manual works.

Further, the cloth supporting driving roller is located between the upper plane and the lower plane of the needle board table, the position of the first free roller is slightly higher than the upper plane of the needle board table, and the position of the second free roller is slightly lower than the lower plane of the needle board table. Thus, drag of the sleeves and cuffs stacked together on the needle board table can be reduced.

Further, a guide rail arranged in the left-right direction is fixedly arranged on the overedger body and is in sliding fit with a slide block, the slide block is fixedly provided with the first mounting plate, and the left-right relative position of the first mounting plate and the guide rail can be adjusted and locked. The position of the cloth supporting driving roller can be adjusted by adopting the linear guide rail, so that the cloth supporting driving roller is suitable for different cuff sizes.

Further, a second mounting plate is fixedly arranged on the machine body of the overedger above the needle board table, a cylinder body of a second cylinder which is arranged up and down is fixedly arranged on the second mounting plate, a third mounting plate is fixedly arranged on a cylinder rod of the second cylinder, a travel switch for detecting bone positions and the middle part of a hinged travel switch collision block are fixedly arranged on the third mounting plate, and an induction wheel is pivoted at the lower end of the travel switch collision block. The sleeve and the bone position of the cuff are convenient to be stacked together.

Further, a first air blowing pipe is fixedly arranged on the needle board table, and an air outlet of the first air blowing pipe faces forwards.

Further, a second air blowing pipe is fixedly arranged on the third mounting plate, and an air outlet of the second air blowing pipe faces backwards. The first air blowing pipe and the second air blowing pipe blow the joint bone position reversely and then sew the joint bone position, and when the forward joint bone position is sewn, the air blowing pipe does not work.

Further, a fourth mounting plate is fixedly arranged on the machine body of the overedger on the right side of the needle board bench, cylinder bodies of a third cylinder, a fourth cylinder and a fifth cylinder which are arranged front and back are fixedly arranged on the fourth mounting plate, cylinder rods of the third cylinder, the fourth cylinder and the fifth cylinder penetrate through the fourth mounting plate and respectively fixedly arrange a front left upper push plate, an air blowing plate and a right lower push plate, the left upper push plate is used for pushing a stitched cuff away from the needle board bench and cutting a stitch, a plurality of air outlet holes are formed in the air blowing plate and used for preventing the cloth from curling in the sewing process, and the right lower push plate is used for pushing the cuff after thread cutting to a material collecting position. The sewn cuffs are not required to be taken down manually, and the automation degree is higher.

Further, the controller comprises a start switch, an encoder and an inductor, the controller can control the driving motor, adjust the rotation time and the rotation speed of the motor, control the action time and the duration of the first cylinder, the second cylinder, the third cylinder, the fourth cylinder and the fifth cylinder, and control the seam starting time and the sewing circle number of the overedger. Thus, a plurality of different control buttons are not needed for operation, and the degree of automation is higher.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention.

Fig. 2 is a partial enlarged view of fig. 1.

Fig. 3 is a schematic view of another view of fig. 1.

Fig. 4 is a partial enlarged view of fig. 3.

Fig. 5 is a schematic structural view of the main components of embodiment 2 of the present invention.

Fig. 6 is a schematic view of another view structure of fig. 5.

Detailed Description

An embodiment 1, as shown in fig. 1-4, of an upper cuff machine, comprising a machine table 1, wherein an overedger 2 is fixedly arranged on the machine table 1, the overedger 1 is provided with a needle plate table 21, a first mounting plate 3 on the machine body of the overedger 2, a cylinder body of a first cylinder 4 and the lower end of an end hinged supporting plate 5 are hinged in the middle of the first mounting plate 3, the supporting plate 5 is positioned on the right side of the needle plate table 21, a cylinder rod of the first cylinder 4 is hinged with the middle of the supporting plate 5, a driving motor mounting plate 8 and a driving roller mounting plate 71 are fixedly connected at the upper part of the supporting plate 5, a driving motor 6 is fixedly arranged on the driving motor shaft of the driving motor 6, a cloth supporting driving roller 7 with the axial direction being the front-back direction is pivoted on the driving roller mounting plate 71, the rotating shaft of the cloth supporting roller 7 penetrates through the mounting plate 71 to fixedly arrange a driven synchronous pulley, and a synchronous belt 9 is wound on the driven synchronous pulley and the driving synchronous pulley; the first free roller 11 and the second free roller 12 are pivoted on the machine body of the overedger 2 at the left side of the needle board platform 21 in the front-back direction, and part of sleeves and cuffs which are overlapped together can be sleeved on the first free roller 11, the second free roller 12, the needle board platform 21 and the cloth supporting driving roller 7, and can be driven by the cloth supporting driving roller 7 to reciprocate and slide on the upper surface of the needle board platform 21 of the overedger.

The cloth supporting driving roller 7 is located between the upper plane and the lower plane of the needle plate table 21, the position of the first free roller 11 is slightly higher than the upper plane of the needle plate table 21, and the position of the second free roller 12 is slightly lower than the lower plane of the needle plate table 21.

The overedger 2 is characterized in that a guide rail 22 arranged in the left-right direction is fixedly arranged on a machine body of the overedger 2, a sliding block is matched with the guide rail 22 in a sliding mode, the sliding block is fixedly provided with a first mounting plate 3 in a scratching mode, and the left-right relative position of the first mounting plate 3 and the guide rail 22 can be adjusted and locked.

A second mounting plate 23 is fixedly arranged on the machine body of the overedger 2 above the needle board bench 21, a cylinder body of a second cylinder 10 which is vertically arranged is fixedly arranged on the second mounting plate 23, a third mounting plate 24 is fixedly arranged on a cylinder rod of the second cylinder 10, a travel switch 16 for detecting bone positions and the middle part of a hinged travel switch collision block 17 are fixedly arranged on the third mounting plate 24, and an induction wheel 15 is pivoted at the lower end of the travel switch collision block 17.

A first air blowing pipe 13 is fixedly arranged on the needle board table 21, and an air outlet of the first air blowing pipe 13 faces forward.

The third mounting plate 24 is fixedly provided with a second air blowing pipe 14, and the air outlet of the second air blowing pipe 14 faces backwards.

The right side of the needle board bench 21 is provided with a fourth mounting plate 25 fixedly arranged on the machine body of the overedger 2, the fourth mounting plate 25 is provided with cylinders of a third cylinder 18, a fourth cylinder 19 and a fifth cylinder 20 which are arranged front and back, cylinder rods of the third cylinder 18, the fourth cylinder 19 and the fifth cylinder 20 penetrate through the fourth mounting plate 25 and are respectively provided with a front left upper push plate, an air blowing plate 27 and a right lower push plate 26, the left upper push plate is used for pushing a stitched cuff away from the needle board bench 21 and cutting a stitch, the air blowing plate 27 is provided with a plurality of air outlet holes for preventing cloth from curling in the sewing process, and the right lower push plate 26 is used for pushing the cut cuff to a collecting position.

The controller 28 comprises a start switch, an encoder and an inductor, the motor rotation time and the motor rotation speed can be controlled, the action time and the duration time of the first cylinder, the second cylinder, the third cylinder, the fourth cylinder and the fifth cylinder are controlled, and the seam starting time and the sewing circle number of the overedger are controlled.

When the cloth stretching machine is used, after sleeves and cuff cloth which are stacked together are sleeved on the first free roller, the needle board table, the cloth stretching driving roller and the second free roller, the controller is started, and the first cylinder pushes the cloth stretching driving roller to stretch the cloth tightly. The sensing wheel falls down to sense the joint bone position. When the reverse joint bone position is sewn, the first air blowing pipe and the second air blowing pipe blow the joint bone position reversely and then sew, and when the forward joint bone position is sewn, the air blowing pipe does not work. Meanwhile, the motor drives the cloth supporting driving roller to rotate and act together with teeth to move the cloth forward for sewing. After the whole circle is sewn, the sensing wheel senses the seam positions, the needle count is counted, the front pushing plate pushes out the cloth, the thread ends are cut off, and the cut-off material pushing plate pushes out the cloth and then receives the cloth.

When the cloth is sleeved on the free roller and the cloth supporting driving roller, the sleeve opening is sleeved, the air blowing plate is pushed out above the sleeve opening after the sleeve opening is sleeved, the cloth is sleeved on the air blowing plate, and the air blowing plate blows to prevent the cloth from curling in the sewing process. Because the structures of all cloth supporting driving rollers with different cuff sizes adopt linear slide rails, the positions of the cloth supporting driving rollers can be adjusted to be suitable for different cuff sizes.

Embodiment 2, as another upper cuff machine shown in fig. 5-6, unlike embodiment 1, the rotating support mechanism comprises a first mounting plate 3 arranged on the machine body of the overedger 2, the middle part of the first mounting plate 3 is hinged with the cylinder body of a first cylinder 4, the lower end of an end hinged support plate 5, the support plate 5 is positioned on the right side of the needle plate table 21, the cylinder rod of the first cylinder 4 is hinged with the middle part of the support plate 5, the upper part of the support plate 5 is fixedly connected with a first guide rail 51 arranged front and back, the front end of the first guide rail 51 is fixedly connected with an adjusting motor 53 and is in sliding fit with a first sliding block 52, the motor shaft fixedly connected with the adjusting motor 53 is fixedly connected with a screw 54 in the front and back direction, the first sliding block 52 is provided with a screw hole matched with the screw rod 54, the first sliding block 52 is fixedly connected with a driving motor mounting plate 8 and a driving roller mounting plate 71, a driving motor 6 is fixedly arranged on the driving motor mounting plate 8, a driving synchronous pulley is fixedly arranged on a driving motor shaft of the driving motor 6, a cloth supporting driving roller 7 with the axial direction being the front-back direction is pivoted on the driving roller mounting plate 71, the cloth supporting driving roller 7 is not in a truncated cone shape with the small front end and the big rear end, but in a cylindrical shape with the consistent front-back diameter, a rotating shaft of the cloth supporting driving roller 7 penetrates through the driving roller mounting plate 71 to fixedly arrange a driven synchronous pulley, and a synchronous belt 9 is wound on the driven synchronous pulley and the driving synchronous pulley; a first free roller 11 and a second free roller 12 which are pivoted on the machine body of the overedger 2 at the left side of the needle board platform 21 and have the axial direction of the front and back directions, and part of sleeves and cuffs which are overlapped together can be sleeved on the first free roller 11, the second free roller 12, the needle board platform 21 and the cloth supporting driving roller 7, and can be driven by the cloth supporting driving roller 7 to reciprocate and slide on the upper surface of the needle board platform 21 of the overedger; a plurality of photoelectric sensors 55 for detecting the positions of sleeves and cuffs on the cloth supporting driving roller 7 are fixedly arranged on the overedger 2.

The cloth supporting driving roller 7 can be enabled to move forwards and backwards through controlling the forward and backward rotation of the adjusting motor, the wrapping positions of the sleeves and the cuffs can be automatically adjusted by matching with the detection of the photoelectric sensor 55, the efficiency is higher, and the positioning is more accurate.

Claims

1. The utility model provides an go up cuff machine, includes board (1), set firmly overedger (2) on board (1), its characterized in that: the hemming machine also comprises a hemming mechanism which can prop up or release sleeves and cuffs which are stacked together, and enable the sleeves and cuffs to reciprocate and slide on the upper surface of a needle board table (21) of the hemming machine; the rotating support mechanism comprises a first mounting plate (3) arranged on a machine body of the overedger (2), a cylinder body of a first cylinder (4) and the lower end of a support plate (5) are hinged in the middle of the first mounting plate (3), the support plate (5) is positioned on the right side of a needle plate table (21), a cylinder rod of the first cylinder (4) is hinged with the middle of the support plate (5), a driving motor mounting plate (8) and a driving roller mounting plate (71) are fixedly connected to the upper part of the support plate (5), a driving motor (6) is fixedly arranged on the driving motor mounting plate (8), a driving synchronous pulley is fixedly arranged on a driving motor shaft of the driving motor (6), a cloth supporting driving roller (7) which is axially arranged on the driving roller mounting plate (71) in the front-back direction is pivoted, a rotating shaft of the cloth supporting driving roller (7) penetrates through the driving roller mounting plate (71) to fixedly arrange a driven synchronous pulley, and a synchronous belt (9) is wound on the driven synchronous pulley and the driving synchronous pulley; a first free roller (11) and a second free roller (12) which are pivoted on the machine body of the overedger (2) at the left side of the needle plate table (21) and have the axial direction of the front and back directions, and part of sleeves and cuffs which are overlapped together can be sleeved on the first free roller (11), the second free roller (12), the needle plate table (21) and the cloth supporting driving roller (7), and can be driven by the cloth supporting driving roller (7) to rotate back and forth and slide on the upper surface of the needle plate table (21) of the overedger;

The rotary supporting mechanism comprises a first mounting plate (3) arranged on a machine body of the overedger (2), a cylinder body of a first cylinder (4) and the lower end of a supporting plate (5) are hinged in the middle of the first mounting plate (3), the supporting plate (5) is positioned on the right side of a needle plate table (21), a cylinder rod of the first cylinder (4) is hinged with the middle of the supporting plate (5), a first guide rail (51) which is fixedly connected with the upper part of the supporting plate (5) and is arranged front and back, an adjusting motor (53) and a first sliding block (52) are fixedly connected with the front end of the first guide rail (51), a screw rod (54) which is axially fixedly connected with a motor shaft of the adjusting motor (53) in the front and back direction is arranged, a screw hole which is matched with the screw rod (54) is formed in the first sliding block (52), a driving motor mounting plate (8) and a driving roller mounting plate (71) are fixedly connected with the first sliding block (52), a driving motor (6) is fixedly connected with the driving motor shaft of the driving motor (6), a driving pulley (71) is fixedly connected with a driving pulley (6), a driving pulley (7) is fixedly connected with a driving pulley (7) and the driving pulley (71) is fixedly connected with the driving pulley (71) in the front and back direction of the driving pulley (71), a synchronous belt (9) is wound on the driven synchronous belt pulley and the driving synchronous belt pulley; a first free roller (11) and a second free roller (12) which are pivoted on the machine body of the overedger (2) at the left side of the needle plate table (21) and have the axial direction of the front and back directions, and part of sleeves and cuffs which are overlapped together can be sleeved on the first free roller (11), the second free roller (12), the needle plate table (21) and the cloth supporting driving roller (7), and can be driven by the cloth supporting driving roller (7) to rotate back and forth and slide on the upper surface of the needle plate table (21) of the overedger; a plurality of photoelectric sensors (55) for detecting the positions of sleeves and cuffs of the cloth supporting driving roller (7) are fixedly arranged on the machine body of the overedger (2);

The cloth supporting driving roller (7) is positioned between the upper plane and the lower plane of the needle plate table (21), the position of the first free roller (11) is slightly higher than the upper plane of the needle plate table (21), and the position of the second free roller (12) is slightly lower than the lower plane of the needle plate table (21);

A second guide rail (22) which is arranged in the left-right direction is fixedly arranged on the overedger (2) body, a second sliding block (33) is in sliding fit with the second guide rail (22), a first mounting plate (3) is fixedly arranged on the second sliding block (33), and the left-right relative position of the first mounting plate (3) and the second guide rail (22) can be adjusted and locked.

2. An upper cuff machine as defined in claim 1, wherein: the needle plate table (21) is characterized in that a second mounting plate (23) is fixedly arranged on the machine body of the overedger (2), a cylinder body of a second cylinder (10) which is vertically arranged is fixedly arranged on the second mounting plate (23), a third mounting plate (24) is fixedly arranged on a cylinder rod of the second cylinder (10), a travel switch (16) for detecting a bone position and the middle part of a travel switch collision block (17) in a hinged shape are fixedly arranged on the third mounting plate (24), and an induction wheel (15) is pivoted at the lower end of the travel switch collision block (17).

3. An upper cuff machine as defined in claim 1, wherein: a first air blowing pipe (13) is fixedly arranged on the needle plate table (21), and an air outlet hole is designed on the side surface of the first air blowing pipe (13), faces the cloth moving direction and is 40-50 degrees with the plane, and is used for reversing bones of sleeves.

4. An upper cuff machine as defined in claim 2, wherein: the third mounting plate (24) is fixedly provided with a second air blowing pipe (14), the side surface of the second air blowing pipe (14) is provided with an air outlet hole, and the air outlet hole faces the cloth moving direction and is 40-50 degrees with the plane, so that the sleeve is used for reversing bones.

5. An upper cuff machine as defined in claim 2, wherein: the right side of the needle plate table (21) is fixedly provided with a fourth mounting plate (25) on the machine body of the overedger (2), the fourth mounting plate (25) is fixedly provided with a third cylinder (18), a fourth cylinder (19) and a fifth cylinder (20) which are arranged front and back, cylinder rods of the third cylinder (18), the fourth cylinder (19) and the fifth cylinder (20) penetrate through the fourth mounting plate (25) and respectively fixedly provided with a front left upper push plate, an air blowing plate (27) and a right lower push plate (26), the left upper push plate is used for pushing a sewn cuff away from the needle plate table (21) and cutting a suture, the air blowing plate (27) is provided with a plurality of air outlet holes for preventing the cloth from curling in the sewing process, and the right lower push plate (26) is used for pushing the cuff after cutting the suture to a collecting position.

6. An upper cuff machine as defined in claim 1, wherein: the controller (28) comprises a start switch, an encoder and an inductor, the drive motor can be controlled, the rotation time and the rotation speed of the motor can be adjusted, the action time and the duration of the first cylinder, the second cylinder, the third cylinder, the fourth cylinder and the fifth cylinder can be controlled, and the seam starting time and the sewing turns of the overedger can be controlled.