CN113123025A

CN113123025A - Raglan sleeve rotating processing method and processing equipment thereof

Info

Publication number: CN113123025A
Application number: CN202110368670.9A
Authority: CN
Inventors: 白连环
Original assignee: Beijing Baililang Garment Co ltd
Current assignee: Beijing Baililang Garment Co ltd
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2021-07-16
Anticipated expiration: 2041-04-06
Also published as: CN113123025B

Abstract

The application relates to a processing method and processing equipment for sleeve turning of sleeves, relating to the field of garment manufacturing and comprising the following steps of S1: s11, sewing the male buckle and the female buckle; s12, sewing the inner sleeve; and S2, sewing the positive magnet and the negative magnet. The shirt has the advantages that the effect that the sleeves are not easily rotated and the wearing comfort level is good in the wearing process of the fur-wool integrated overcoat.

Description

Raglan sleeve rotating processing method and processing equipment thereof

Technical Field

The application relates to the field of garment manufacturing, in particular to a raglan sleeve rotating processing method and processing equipment thereof.

Background

The existing fur-wool integrated overcoat refers to a leather product with one fur surface and the other leather surface, and is obtained by chemically and mechanically treating animal skins and then modifying the flesh surface of the animal skins similar to the leather surface.

In the wearing process of the fur-integrated overcoat in the related art, as the friction force at the sleeve openings of the fur is larger, the underwear worn by a person can rotate relative to the human body along with the movement of the person, so that the condition of sleeve rotation is caused, and the wearing comfort of the person is influenced.

In view of the above-mentioned related art, the inventors have considered that there is a drawback that the turning of the sleeves is likely to occur when the coat-and-coat garment of the related art is worn, which affects the wearing comfort.

Disclosure of Invention

In order to solve the problem that the wearing comfort is affected by the fact that sleeves are easily rotated when fur and fur integrated overcoat is worn, the application provides a method and equipment for processing sleeves.

The technical scheme adopted by the raglan sleeve rotating processing method and the processing equipment thereof provided by the application is as follows:

a raglan sleeve rotating processing method comprises the following steps:

s1, sewing and fixing a plurality of inner sleeves at the positions, close to the openings, of the cuffs of the overcoat, wherein the inner sleeves form the side faces of the cylinders;

s2, sewing a plurality of positive magnets and a plurality of negative magnets inside the cuffs of the overcoat, sewing the positive magnets at positions close to the cuffs of the overcoat, sewing the negative magnets at positions away from the cuffs of the overcoat, sewing the positive magnets and the negative magnets inside the inner sleeves, sewing the negative magnets at positions close to the cuffs of the overcoat, sewing the positive magnets at positions away from the cuffs of the overcoat, and adsorbing the positive magnets and the negative magnets mutually.

By adopting the technical scheme and the arrangement of the inner sleeves, when a person is in the overcoat, the hair sleeves at the cuffs of the overcoat cannot be directly contacted with the underwear of the person, so that the condition of sleeve rotation is not easy to occur. The positive magnets and the negative magnets are sewn in the cuffs and the inner sleeves of the overcoat, so that the inner sleeves can be conveniently installed in the cuffs of the overcoat by operators.

Preferably, S1 includes the steps of:

s11, sewing a plurality of male buttons at the position, close to one end, of the inner sleeve before the inner sleeve is sewn at the cuff of the overcoat, sewing a plurality of female buttons at the positions, far away from the opening, of the inner periphery and the outer periphery of the cuff of the overcoat, and clamping and matching the male buttons and the female buttons;

s12, the male buckle is matched with the female buckle on the inner circumference of the cuff of the overcoat in a clamping way, and then the inner sleeve is sewn on the cuff of the overcoat.

By adopting the technical scheme, the male buckle and the female buckle are sewn on the inner sleeves and the overcoat cuffs, so that the inner sleeves can be further conveniently detached and cleaned.

The utility model provides a raglan sleeve changes treatment facility, which comprises a supporting fram, the support frame is barrel construction, the top of support frame is provided with the sewing board, the periphery relatively fixed of sewing board and support frame, the periphery department of support frame still is provided with a plurality of tensioning boards, a plurality of tensioning boards set up along the periphery circumference of support frame, tensioning board and support piece relatively fixed, support piece's one end is provided with the adjusting part who adjusts the distance between sewing board and the tensioning board and the support frame, so that raglan sleeve changes treatment facility can all realize convenient and fast the operation of making up the lining sleeve to the overcoat cuff of unidimensional not.

Through adopting above-mentioned technical scheme, operating personnel all overlaps the overcoat cuff and the interior sleeve and establish the periphery department at tensioning plate and sewing plate, then control adjusting part makes tensioning plate and sewing plate carry out the tensioning to overcoat cuff and interior sleeve to make operating personnel can make up the interior sleeve and the cuff of sewing plate department.

Preferably, the adjusting part is including driving motor, driving motor's output shaft fixedly connected with initiative turbine, initiative turbine and support frame normal running fit and axis of rotation are on a parallel with the axis of support frame self, the meshing has a plurality of driven turbines on the initiative turbine, driven turbine's axis of rotation perpendicular to support frame self, sewing plate and tensioning plate are close to one side of support frame and all fixedly are provided with the regulation lead screw, all fixedly on a plurality of driven turbines is provided with the regulating block, a plurality of regulating blocks respectively with a plurality of regulation lead screw thread fit.

Through adopting above-mentioned technical scheme, operating personnel starts driving motor, and driving motor's output shaft drives initiative turbine and rotates, and initiative turbine drives driven turbine and rotates, and driven turbine rotates and makes the regulating block rotate to adjust the lead screw and produce for the regulating block and remove, and then driven backup pad and sewing plate and removed.

Preferably, one side of the sewing plate and one side of the tensioning plate close to the support frame are fixedly provided with a plurality of guide rods, the guide rods are in sliding fit with the support frame, and the sliding axes of the guide rods are perpendicular to the axes of the support frame.

Through adopting above-mentioned technical scheme, the setting of guide bar has improved the stability that tensioning plate and sewing plate removed for the support frame, has also improved the support stability to the cuff of establishing to the cover simultaneously.

Preferably, one side of the sewing plate, which is away from the support frame, is arranged in a plane, and the plane of the sewing plate, which is away from the support frame, is parallel to the axis of the support frame.

By adopting the technical scheme, the arrangement of the sewing plate plane facilitates the sewing operation of an operator on the position to be sewn.

Preferably, the sewing plate is arranged in an arc shape along the two sides of the circumferential direction of the support frame, and the arc-shaped concave surface faces the support frame.

By adopting the technical scheme, the arc-shaped arrangement of the two sides of the sewing plate can enable the sewing plate to better adapt to the shape of the hair sleeves along the two sides of the circumferential direction of the support frame, and the damage caused by the straight sides of the sewing plate in the hair sleeves is reduced.

Preferably, one side of the tensioning plate, which is far away from the supporting frame, is provided with a buffer plate, a plurality of buffer springs are arranged between the buffer plate and the tensioning plate, and two ends of each buffer spring are fixedly connected with one side, which is close to the buffer plate and the tensioning plate, respectively.

Through adopting above-mentioned technical scheme, buffer board and buffer spring's setting for when guaranteeing to establish the hair sleeve with the surface fabric tensioning is effectual, made things convenient for operating personnel to establish the periphery department at buffer board and make up the board with hair sleeve and surface fabric cover.

Preferably, one side of the buffer board close to the tensioning plate is fixedly provided with a telescopic rod, one side of the tensioning plate close to the buffer board is fixedly provided with a telescopic loop bar, one end of the telescopic rod departing from the buffer board is inserted into the telescopic loop bar, and the telescopic rod is in sliding fit with the telescopic loop bar and is perpendicular to the axis of the support piece in the sliding direction.

Through adopting above-mentioned technical scheme, the setting of telescopic link and flexible loop bar has reduced the buffer board for the slip of support frame, has improved the stability of buffer board circumference position on the support frame to play the tensioning effect of dog ailer buffer board to rag sleeve and surface fabric.

Preferably, the buffer board is arc setting, and the arc concave surface of buffer board is towards the support frame.

Through adopting above-mentioned technical scheme, the buffer board that the arc set up can be better the cylindrical shape of laminating hair sleeve, improved the area of contact of buffer board and hair sleeve to make the buffer board can be better play the effect that supports the tensioning to the hair sleeve.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the inner sleeves, the male buttons, the positive magnets and the like are arranged, so that the generation of the rotating sleeves is reduced, the wearing comfort of the fur-integrated overcoat is improved, and meanwhile, the inner sleeves and the sleeve openings can be conveniently dismounted and cleaned by operators;

2. the arrangement of the supporting component and the adjusting component facilitates the sewing of the inner sleeves by operators to be fixed at the sleeve openings of the large clothes, and the operation convenience of the operators is improved.

Drawings

Fig. 1 is a schematic structural view of the raglan sleeve rotating processing device of the present application;

FIG. 2 is a schematic diagram of a structure intended to illustrate the remote operation of the adjustment assembly of the present application;

fig. 3 is a schematic view of a raglan sleeve turning process;

fig. 4 is a schematic partial cross-sectional view of fig. 3, intended to illustrate the fit of the inner sleeve to the cuff of the coat.

Description of reference numerals: 1. overcoat cuffs; 2. a sleeve; 21. a male buckle; 22. a female buckle; 23. a positive magnet; 24. a counter magnet; 3. a support assembly; 31. a sewing plate; 311. a needle avoiding groove; 32. a tension plate; 33. a buffer plate; 34. a buffer spring; 35. a telescoping member; 351. a telescopic rod; 352. a telescopic loop bar; 36. a support frame; 4. an adjustment assembly; 41. adjusting the lead screw; 42. an adjusting block; 43. a guide bar; 44. a drive member; 441. a drive motor; 442. an active turbine; 443. a driven turbine.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a raglan sleeve rotating processing method and processing equipment thereof.

Referring to fig. 1 and 2, a sleeve rotator cuff treatment apparatus includes a support assembly 3 and an adjustment assembly 4. The supporting component 3 is fixedly arranged below the sewing machine so as to play a role of supporting and sewing the inner sleeve 2 to the overcoat cuff 1 needing to be sewn with the inner sleeve 2, and the adjusting component 4 is arranged on one side of the supporting component 3 so as to adjust the size of the supporting component 3 and meet the requirements of supporting and sewing the inner sleeve 2 to the overcoat cuff 1 in different circumferential directions.

Referring to fig. 1, the supporting member 3 includes a sewing plate 31, a tension plate 32, a buffer plate 33, a buffer spring 34, an expansion member 35, and a supporting frame 36. The fixed below that sets up at sewing machine of support frame 36, support frame 36 is tube structure, sewing plate 31 sets up the top at support frame 36, offer on the sewing plate 31 and carry out the needle groove 311 that keeps away that the sewing machine needle passes, sewing plate 31 is along support frame 36 circumference both ends arc and deviate from support frame 36 one side for planar setting, the arc concave surface at sewing plate 31 both ends is towards support frame 36, the plane that sewing plate 31 deviates from support frame 36 is on a parallel with the axis of support frame 36 self. The tension plate 32 is provided with a plurality of tension plates 32, the number of the tension plates 32 is three in the embodiment, three tension plates 32 and the sewing plate 31 are uniformly arranged along the periphery of the support frame 36, the tension plates 32 and the support frame 36 are relatively fixed, and the relative distance can be changed under the driving of the adjusting assembly 4.

Buffer plate 33 and tensioning plate 32 one-to-one, buffer plate 33 are the arc setting, and the arc concave surface of buffer plate 33 is towards support frame 36. The buffer springs 34 are provided in plurality, two buffer springs 34 are provided between the buffer plate 33 and the tension plate 32 in this embodiment, one end of each buffer spring 34 is fixedly connected with one side of the buffer plate 33 close to the tension plate 32, and the other end of each buffer spring 34 is fixedly connected with one side of the tension plate 32 close to the buffer plate 33. The number of the telescopic members 35 is plural, and in this embodiment, one telescopic member 35 is disposed between the buffer plate 33 and the tension plate 32, and the telescopic member 35 is disposed between the two buffer springs 34. The extensible member 35 is including telescopic link 351 and flexible loop bar 352, and one side fixed connection that one end of telescopic link 351 and buffer board 33 are close to the tensioning plate 32, and in telescopic link 351's the other end inserted into flexible loop bar 352, telescopic link 351 and flexible loop bar 352 sliding fit and the axis of slip direction perpendicular to support frame 36 self, flexible loop bar 352 deviates from one side fixed connection that one end and the tensioning plate 32 of telescopic link 351 are close to the buffer board 33.

The operator can sew the raglan sleeve and the material to be sewed together on the periphery of the buffer board 33 and the sewing board, and the position to be sewed faces the needle avoiding groove 311 on the sewing board. The arrangement of the buffer plate 33 and the buffer spring 34 ensures that the tensioning effect of the hair sleeves and the fabric is good, and meanwhile, the hair sleeves and the fabric are conveniently sleeved on the peripheries of the buffer plate 33 and the sewing plate by an operator. The telescopic rod 351 and the telescopic sleeve rod 352 are arranged, so that the sliding of the buffer plate 33 relative to the support frame 36 is reduced, the stability of the circumferential position of the buffer plate 33 on the support frame 36 is improved, and the tensioning effect of the dog Allan buffer plate 33 on raglan sleeves and fabrics is achieved.

Referring to fig. 2, the adjusting assembly 4 includes an adjusting screw 41, an adjusting block 42, a guide rod 43, and a driving member 44. The driving member 44 includes a driving motor 441, a driving turbine 442, and a driven turbine 443. The driving motor 441 is installed on one axial side of the supporting frame 36, an output shaft of the driving motor 441 is fixedly connected with the driving turbine 442, the driving turbine 442 is in rotating fit with the supporting frame 36, and a rotating axis of the driving turbine 442 is parallel to an axis of the supporting frame 36. The driven turbines 443 are provided with four, four driven turbines 443 are evenly distributed at the outer periphery of the driving turbine 442, the driven turbines 443 are meshed with the driving turbine 442, the driven turbines 443 are rotatably fitted with the support frame 36, and the rotation axis is perpendicular to the axis of the support frame 36 itself.

The number of the adjusting blocks 42 is four, the four adjusting blocks 42 are respectively fixedly connected with one sides of the four driven turbines 443 away from the driving turbine 442, the adjusting blocks 42 are in rotating fit with the supporting frame 36, and the rotating axes of the adjusting blocks 42 are perpendicular to the axes of the supporting frame 36. The adjusting screw rods 41 correspond to the adjusting blocks 42 one by one, the adjusting screw rods 41 are arranged in the adjusting blocks 42 in a penetrating mode and are in threaded fit with the adjusting blocks 42, and one ends, departing from the driven turbines 443, of the adjusting screw rods 41 are fixedly connected with the tensioning plate 32 and the sewing plate 31. The adjusting screw rods 41 are arranged at the positions of the tensioning plate 32 and the sewing plate 31 close to the driving worm gear 442, the four guide rods 43 are respectively arranged at the positions of the tensioning plate 32 and the sewing plate 31 far away from the driving worm gear 442, one end of each guide rod 43 is fixedly bonded with the tensioning plate 32 or the sewing plate 31, the other end of each guide rod 43 is in sliding fit with the support frame 36, and the sliding axis is perpendicular to the axis of the support frame 36.

When the inner sleeves 2 of the hair sleeves with different circumferential sizes need to be sewn, an operator starts the driving motor 441, an output shaft of the driving motor 441 drives the driving turbine 442 to rotate, the driving turbine 442 drives the driven turbine 443 to rotate, the driven turbine 443 rotates to enable the adjusting block 42 to rotate, so that the adjusting screw 41 moves relative to the adjusting block 42, the peripheral diameter of the supporting plate and the outer diameter of the sewing plate 31 are shortened or enlarged, and the hair sleeves with different circumferential sizes can be sleeved and sewn.

The implementation principle of the raglan sleeve rotating processing equipment in the embodiment of the application is as follows: when sewing the sleeve rotating sleeve, an operator firstly starts the driving piece 44 to enable the adjusting block 42 to rotate, so that the adjusting screw 41 drives the sewing plate 31 and the tensioning plate 32 to move towards the direction far away from or close to the support frame 36, after the adjusting screw moves to a proper axial size, the operator sets the sleeve rotating sleeve at the periphery of the buffer plate 33 and the sewing plate 31, and the sleeve rotating sewing is performed on the sleeve rotating sleeve.

The embodiment of the application also discloses a raglan sleeve rotating processing method, which comprises the following steps with reference to fig. 3 and 4:

s1, sewing and fixing a plurality of inner sleeves 2 at the positions, close to the openings, of the overcoat cuffs 1, wherein the plurality of inner sleeves 2 form the side faces of the cylinder;

s11, sewing a plurality of male buttons 21 at the position, close to one end, of the inner sleeve 2 before the inner sleeve 2 is sewn at the position of the overcoat cuff 1, sewing a plurality of female buttons 22 at the positions, deviated from the openings, of the inner periphery and the outer periphery of the overcoat cuff 1, and clamping and matching the male buttons 21 and the female buttons 22;

s12, after the male buckle 21 is matched with the female buckle 22 on the inner periphery of the overcoat cuff 1 in a clamping mode, the inner sleeve 2 is sewn on the overcoat cuff 1;

s2, sewing a plurality of positive magnets 23 and a plurality of counter magnets 24 inside the overcoat cuff 1, sewing the positive magnets 23 at positions close to the overcoat cuff 1, sewing the counter magnets 24 at positions away from the overcoat cuff 1, sewing the plurality of positive magnets 23 and the plurality of counter magnets 24 inside the inner sleeve 2, sewing the counter magnets 24 at positions close to the overcoat cuff 1, sewing the positive magnets 23 at positions away from the overcoat cuff 1, and adsorbing the positive magnets 23 and the counter magnets 24 mutually.

The implementation principle of the raglan sleeve rotating processing method in the embodiment of the application is as follows: the arrangement of the inner sleeves 2 ensures that the hair sleeves at the cuffs 1 of the overcoat can not be directly contacted with the underwear of a person when the person is in the overcoat, so that the condition of sleeve rotation is not easy to occur. By sewing the male buckle 21 and the female buckle 22 on the inner sleeve 2 and the overcoat cuff 1, the inner sleeve 2 can be conveniently disassembled and assembled by people, thereby being convenient for cleaning. The positive magnet 23 and the negative magnet 24 are sewn inside the overcoat cuff 1 and the inner sleeve 2, so that the effect of pre-positioning the male buckle 21 and the female buckle 22 on the inner sleeve 2 and the overcoat cuff 1 can be further realized, and the installation of the inner sleeve 2 in the overcoat cuff 1 by an operator is further facilitated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A raglan sleeve rotating processing method is characterized by comprising the following steps:

s1, sewing and fixing a plurality of inner sleeves (2) at the positions, close to the openings, of the cuffs (1) of the overcoat, wherein the plurality of inner sleeves (2) form the side faces of the cylinder;

s2, a plurality of positive magnets (23) and a plurality of negative magnets (24) are sewn inside the overcoat cuff (1), the positive magnets (23) are sewn at positions close to the overcoat cuff (1), the negative magnets (24) are sewn at positions far away from the overcoat cuff (1), a plurality of positive magnets (23) and a plurality of negative magnets (24) are also sewn inside the inner sleeve (2), the negative magnets (24) are sewn at positions close to the overcoat cuff (1) of the inner sleeve (2), the positive magnets (23) are sewn at positions far away from the overcoat cuff (1), and the positive magnets (23) and the negative magnets (24) are adsorbed to each other.

2. The raglan sleeve rotating processing device according to claim 2, wherein S1 comprises the steps of:

s11, sewing a plurality of male buttons (21) at the position, close to one end, of the inner sleeve (2) before the inner sleeve (2) is sewn at the position of the overcoat cuff (1), sewing a plurality of female buttons (22) at the positions, deviated from the openings, of the inner periphery and the outer periphery of the overcoat cuff (1), and clamping and matching the male buttons (21) and the female buttons (22);

s12, the male buckle (21) is matched with the female buckle (22) on the inner periphery of the overcoat cuff (1) in a clamping mode, and then the inner sleeve (2) is sewn on the overcoat cuff (1).

3. A raglan sleeve changes sleeve treatment facility characterized by: including support frame (36), support frame (36) are tube structure, the top of support frame (36) is provided with sewing plate (31), sewing plate (31) and the periphery relatively fixed of support frame (36), the periphery department of support frame (36) still is provided with a plurality of tensioning plates (32), the periphery circumference setting of support frame (36) is followed in a plurality of tensioning plates (32), tensioning plate (32) and support piece relatively fixed, support piece's one end is provided with adjustment assembly (4) of adjusting distance between sewing plate (31) and tensioning plate (32) and support frame (36), so that the hair sleeve changes sleeve treatment facility and can all realize the operation of convenient and fast making up interior sleeve (2) to not unidimensional overcoat cuff (1).

4. The raglan sleeve turning processing apparatus according to claim 3, wherein: the adjusting assembly (4) comprises a driving motor (441), an output shaft of the driving motor (441) is fixedly connected with a driving turbine (442), the driving turbine (442) is in running fit with the supporting frame (36) and the rotating axis of the driving turbine (442) is parallel to the axis of the supporting frame (36), a plurality of driven turbines (443) are meshed on the driving turbine (442), the rotating axis of the driven turbines (443) is perpendicular to the axis of the supporting frame (36), adjusting screw rods (41) are fixedly arranged on one sides, close to the supporting frame (36), of the sewing plate (31) and the tensioning plate (32), adjusting blocks (42) are fixedly arranged on the driven turbines (443), and the adjusting blocks (42) are in threaded fit with the adjusting screw rods (41) respectively.

5. The raglan sleeve turning processing apparatus according to claim 4, wherein: the sewing plate (31) and one side of the tensioning plate (32) close to the support frame (36) are fixedly provided with a plurality of guide rods (43), and the guide rods (43) are in sliding fit with the support frame (36) and the sliding axes are perpendicular to the axes of the support frame (36).

6. The raglan sleeve turning processing apparatus according to claim 3, wherein: one side that sewing plate (31) deviates from support frame (36) is the plane setting, and the plane that sewing plate (31) deviates from support frame (36) one side is on a parallel with the axis of support frame (36) self.

7. The raglan sleeve turning processing apparatus according to claim 6, wherein: the sewing plate (31) is arranged in an arc shape along the two circumferential sides of the support frame (36), and the arc-shaped concave surface faces the support frame (36).

8. The raglan sleeve turning processing apparatus according to claim 3, wherein: one side of the tensioning plate (32) departing from the supporting frame (36) is provided with a buffer plate (33), a plurality of buffer springs (34) are arranged between the buffer plate (33) and the tensioning plate (32), and two ends of each buffer spring (34) are fixedly connected with one side of the buffer plate (33) and one side of the tensioning plate (32) which are close to each other.

9. The raglan sleeve turning processing apparatus according to claim 8, wherein: the buffer board (33) is close to one side of tensioning plate (32) and is fixedly provided with telescopic link (351), one side of tensioning plate (32) close to buffer board (33) is fixedly provided with telescopic loop bar (352), one end of telescopic link (351) departing from buffer board (33) is inserted into telescopic loop bar (352), and telescopic link (351) and telescopic loop bar (352) sliding fit and the axis of sliding direction perpendicular to support piece self.

10. The raglan sleeve turning processing apparatus according to claim 8, wherein: buffer board (33) are the arc setting, and the arc concave surface of buffer board (33) is towards support frame (36).