CN211036329U

CN211036329U - Fabric serging mechanism

Info

Publication number: CN211036329U
Application number: CN201921091895.9U
Authority: CN
Inventors: 何应标
Original assignee: Foshan City Kehua Smart Quilting Equipment Co Ltd
Current assignee: Foshan City Kehua Smart Quilting Equipment Co Ltd
Priority date: 2019-07-12
Filing date: 2019-07-12
Publication date: 2020-07-17
Anticipated expiration: 2029-07-12

Abstract

The utility model belongs to the sewing machine technique, concretely relates to surface fabric serging mechanism. The utility model relates to a surface fabric serging mechanism, because the setting of surface fabric rotating assembly, when lockstitching the side to the surface fabric four sides, need not artificial rotatory surface fabric can reach the purpose of four sides lockstitching, degree of automation is high, very big satisfying the industrial demand, compare in artifical lockstitching, the accuracy of lockstitching is big, the surface fabric yields is high; meanwhile, the first power driving device and the second power driving device are arranged between the two guide rails, so that the size of the whole fabric rotating mechanism is reduced between the first transmission plate and the fixing frame, the industrial assembly is facilitated, and the production efficiency is accelerated. In addition, the rotating clamping piece in the rotating assembly ensures the rotating accuracy of the rotating shaft, so that the first swing rod and the second swing rod are ensured to drive the fabric to rotate by a certain angle when the fabric is compressed in a rotating mode.

Description

Fabric serging mechanism

Technical Field

The utility model belongs to the technical field of sewing equipment, concretely relates to surface fabric serging mechanism.

Background

The serging machine is a mechanical device for sewing, is generally used for clothing production, sews fabric clothing needing serging, and mechanical sewing is faster and more orderly than manual sewing.

Over the years, the efficiency of the serging machine has been greatly improved, but some problems still remain. The surface fabric lockstitch mechanism in traditional lockstitch machine can not rotate the surface fabric, needs the rotatory surface fabric of staff to this carries out four sides lockstitch to the surface fabric, and is more troublesome, and the efficiency of lockstitch is lower, extravagant labour, and it is inconvenient to use, and the messenger process of giving people has brought certain influence.

Therefore, the problem to be solved is to provide a fabric serging mechanism.

SUMMERY OF THE UTILITY MODEL

The utility model is realized in such a way that the fabric serging mechanism comprises a workbench component, a sewing machine and a fabric rotating component;

the workbench assembly comprises a first workbench, a second workbench and a third workbench; the third workbench is arranged between the first workbench and the second workbench; more specifically, a first fabric conveying assembly is arranged on the first workbench; and a second fabric conveying assembly is arranged on the second workbench. The first fabric conveying assembly comprises a first driving roller, a first driven roller, a first transmission belt and a third power driving device; the first driving roller and the first driven roller are respectively arranged at two sides of the first workbench; two ends of the first transmission belt are respectively sleeved on the first driving roller and the first driven roller; the third power driving device is arranged below the first driving roller, and a power output shaft of the third power driving device is connected with the first driving roller; the second fabric conveying assembly comprises a second driving roller, a second driven roller, a second transmission belt and a fourth power driving device; the second driving roller and the second driven roller are respectively arranged at two sides of the second workbench; two ends of the second transmission belt are respectively sleeved on the second driving roller and the second driven roller; the fourth power driving device is arranged below the second driving roller, and a power output shaft of the fourth power driving device is connected with the second driving roller. More specifically, the third power driving device and the fourth power driving device are motors.

The sewing machine is arranged above the third workbench in a sliding manner; more specifically, a slide rail is arranged above the third workbench, and the sewing machine is slidably arranged above the slide rail.

The fabric rotating component comprises a fixed frame, a lifting assembly and a rotating assembly; the fixed frame is arranged above the third workbench; the lifting assembly is arranged on one side, close to the first workbench, of the upper part of the fixing frame; the rotating assembly is arranged on one side of the lifting assembly, which is far away from the fixed frame. More specifically, the lifting assembly and the rotating assembly are externally covered by a shell.

Preferably, in a specific technical solution, the lifting assembly includes a guide rail, a sliding block, a first driving plate, a second driving plate, and a first power driving device; the two guide rails are arranged on one side, close to the first workbench, of the upper part of the fixing frame; the first driving plate is connected to the two guide rails in a sliding mode through the sliding blocks; the second transmission plate is arranged on one side of the first transmission plate, which is connected with the guide rail in a sliding manner, and is connected with the first transmission plate; the first power driving device is arranged below the second transmission plate, and a power output shaft of the first power driving device is connected with the second transmission plate. More specifically, the first power driving device is an air cylinder.

Preferably, in a specific technical solution, the rotating assembly includes a second power driving device, a first transmission gear, a second transmission gear, a rotating shaft, a first swing link, and a second swing link; the second power driving device is fixed below the second transmission plate; the first transmission gear is sleeved on a power output shaft of the second power driving device; the rotating shaft is rotatably arranged on one side of the first transmission plate, which is far away from the guide rail; the second transmission gear is sleeved above the rotating shaft and meshed with the first transmission gear; the first swing rod and the second swing rod are arranged at the lower end of the rotating shaft. More specifically, the second power driving device is a motor.

Preferably, in a specific technical solution, the rotation assembly further includes a rotation blocking member; the rotary clamping piece is sleeved on the outer wall of the rotating shaft. More specifically, the rotary clamping piece comprises a connecting part and a sector part; the connecting part is sleeved on the outer wall of the rotating shaft; the fan-shaped part is connected with the connecting part. In detail, as the rotary clamping piece is sleeved on the outer wall of the rotating shaft, when the rotating shaft is driven by the second power driving device to rotate, the rotating shaft can be ensured to accurately rotate for a certain angle each time by controlling the sector arc length of the sector part in the rotary clamping piece; more specifically, the second transmission gear is a sector gear matched with the clamping piece, and the first transmission gear can drive the rotating shaft to rotate through meshing only in a sector area of the second transmission gear.

Preferably, in a specific technical scheme, the first swing link and the second swing link are vertically arranged at the lower end of the rotating shaft, so that the first swing link and the second swing link can drive the fabric to rotate by 90 degrees.

Preferably, in a specific technical solution, the workbench assembly further comprises a working panel; the working panel is arranged above the third working table.

Preferably, in a specific embodiment, the heights of the first workbench, the second workbench and the working panel are the same.

Preferably, in a specific technical solution, the workbench assembly further comprises a fourth workbench; the height of the fourth workbench is the same as that of the first workbench, the second workbench and the working panel, and the fourth workbench is arranged on one side of the first workbench and the second workbench. More specifically, a fourth material conveying assembly is arranged on the fourth workbench; the fourth fabric conveying component comprises a third driving roller, a third driven roller, a third transmission belt and a fifth power driving device; the third driving roller and the third driven roller are respectively arranged at two sides of the fourth worktable; two ends of the third transmission belt are respectively sleeved on the third driving roller and the third driven roller; the fifth power driving device is arranged below the third driving roller, and a power output shaft of the fifth power driving device is connected with the third driving roller. Further, the fifth power driving device is a motor.

The utility model relates to a working principle of surface fabric serging mechanism: the fabric is conveyed to the working panel through the first working table, at the moment, the sewing end of the sewing machine sews one side edge of the fabric, then the fabric enters the second working table, after the side edge of the fabric close to the sewing end of the sewing machine completely leaves the sewing end of the sewing machine, the lifting assembly in the fabric rotating assembly drives the rotating assembly to move downwards, then the rotating assembly presses the fabric tightly in the downward process, at the moment, the first swing rod and the second swing rod rotate under the driving of the second power driving device, in the utility model, the first swing rod and the second swing rod rotate 90 degrees anticlockwise under the driving of the second power driving device, so as to drive the fabric pressed tightly by the swing rod assembly to rotate 90 degrees, thus the fabric returns to the first working table, then the conveying of the first working table is carried out, the sewing machine is utilized to sew and lock the other side edges of the fabric, at the moment, the fabric rotating assembly resets to prepare for the next rotating work; it should be noted that, in the process that the first swing rod and the second swing rod compress the fabric, rotate the fabric and return to the first workbench, the first workbench and the second workbench stop conveying the fabric, that is, the third power driving device and the fourth power driving device stop working to avoid affecting the rotation of the fabric, in addition, the fourth workbench is arranged at one side of the first workbench and the second workbench, and in the process that the swing rod assembly compresses the fabric, rotate the fabric and return to the first workbench, the fourth fabric conveying mechanism on the fourth workbench rotates counterclockwise, so that the fabric can rotate and return to the first workbench conveniently; meanwhile, it should be noted that the rotating clamping piece in the rotating assembly ensures the rotating accuracy of the rotating shaft, so that the first swing rod and the second swing rod are ensured to drive the fabric to rotate by a certain angle when the fabric is compressed by rotation.

The utility model relates to a surface fabric serging mechanism, because the setting of surface fabric rotating assembly, when lockstitching the side to the surface fabric four sides, need not artificial rotatory surface fabric can reach the purpose of four sides lockstitching, degree of automation is high, very big satisfying the industrial demand, compare in artifical lockstitching, the accuracy of lockstitching is big, the surface fabric yields is high; meanwhile, the first power driving device and the second power driving device are arranged between the two guide rails, so that the size of the whole fabric rotating mechanism is reduced between the first transmission plate and the fixing frame, the industrial assembly is facilitated, and the production efficiency is accelerated. In addition, the rotating clamping piece in the rotating assembly ensures the rotating accuracy of the rotating shaft, so that the first swing rod and the second swing rod are ensured to drive the fabric to rotate by a certain angle when the fabric is compressed in a rotating mode.

Drawings

Fig. 1 is an overall schematic view of a fabric serging mechanism according to the present invention;

fig. 2 is a schematic view of one of the mechanisms of a fabric rotating assembly (with the outer cover removed) according to the present invention;

fig. 3 is a schematic structural view of a fabric rotating assembly (excluding the outer cover and the first driving plate) in the fabric serging mechanism according to the present invention;

fig. 4 is a schematic structural view of a fabric rotating assembly (excluding the outer cover, the first driving plate and a part of the rotating assembly) in the fabric serging mechanism according to the present invention;

fig. 5 is an overall schematic view of the fabric serging mechanism according to the present invention, except for the first workbench, the second workbench, the fabric rotating assembly, and the fourth workbench;

fig. 6 is a schematic view of a first workbench, a second workbench and a fourth workbench in the fabric serging mechanism according to the present invention;

fig. 7 is a schematic view of the rotary clamping member in the fabric serging mechanism according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

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

Referring to fig. 1 to 7, in order to illustrate a preferred embodiment of the present invention, the embodiment disclosed in the present invention is implemented as follows, and the fabric serging mechanism comprises a worktable assembly 1, a sewing machine 2 and a fabric rotating assembly 3;

the workbench assembly 1 comprises a first workbench 11, a second workbench 12 and a third workbench 13; the third worktable 13 is arranged between the first worktable 11 and the second worktable 12; more specifically, a first fabric conveying assembly is arranged on the first workbench 11; and a second fabric conveying assembly is arranged on the second workbench 12. The first fabric conveying assembly comprises a first driving roller, a first driven roller, a first transmission belt 111 and a third power driving device; the first driving roller and the first driven roller are respectively arranged at two sides of the first workbench 11; two ends of the first transmission belt 111 are respectively sleeved on the first driving roller and the first driven roller; the third power driving device is arranged below the first driving roller, and a power output shaft of the third power driving device is connected with the first driving roller; the second fabric conveying assembly comprises a second driving roller, a second driven roller, a second transmission belt 121 and a fourth power driving device; the second driving roller and the second driven roller are respectively arranged at two sides of the second workbench 12; two ends of the second transmission belt 121 are respectively sleeved on the second driving roller and the second driven roller; the fourth power driving device is arranged below the second driving roller, and a power output shaft of the fourth power driving device is connected with the second driving roller. More specifically, the third power driving device and the fourth power driving device are motors. The first facing conveying assembly and the second facing conveying assembly are well known in the art, and are not shown in detail in the drawings, and the connection relationship of the above components is only used for reference.

The sewing machine 2 is arranged above the third working table 13 in a sliding way; more specifically, a slide rail is provided above the third table 13, and the sewing machine 2 is slidably provided above the slide rail.

The fabric rotating component 3 comprises a fixed frame 31, a lifting assembly 32 and a rotating assembly 33; the fixed frame 31 is arranged above the third workbench 13; the lifting assembly 32 is arranged on one side of the upper part of the fixed frame 31 close to the first workbench 11; the rotating assembly 33 is disposed on a side of the lifting assembly 32 away from the fixed frame. More specifically, the lifting assembly 32 and the rotating assembly 33 are externally covered by a housing 34.

Preferably, in a specific embodiment, the lifting assembly 32 includes a guide rail 321, a sliding block 322, a first driving plate 323, a second driving plate 324, and a first power driving device 325; two guide rails 321 are arranged, and the two guide rails 321 are arranged on one side, close to the first workbench 11, of the upper part of the fixed frame 31; the first driving plate 323 is slidably connected to the two guide rails 321 through the slide block 322; the second driving plate 324 is disposed at one side of the first driving plate 323 slidably connected to the guide rail 321, and is connected to the first driving plate 323; the first power driving device 325 is disposed below the second transmission plate 324, and a power output shaft of the first power driving device 325 is connected to the second transmission plate 324. More specifically, the first power driving device 325 is a cylinder.

Preferably, in a specific embodiment, the rotating assembly 33 includes a second power driving device 331, a first transmission gear 332, a second transmission gear 333, a rotating shaft 334, a first swing link 335 and a second swing link 336; the second power driving device 331 is fixed below the second transmission plate 324; the first transmission gear 332 is sleeved on the power output shaft of the second power driving device 331; the rotating shaft 334 is rotatably disposed on a side of the first driving plate away from the guide rail 321; the second transmission gear 333 is sleeved above the rotating shaft 334, and the second transmission gear 333 is meshed with the first transmission gear 332; the first swing link 335 and the second swing link 336 are disposed at the lower end of the rotating shaft 334. More specifically, the second power driving device 331 is a motor.

Preferably, in a specific embodiment, the rotating assembly 33 further includes a rotating detent 337; the rotary clamping piece 337 is sleeved on the outer wall of the rotating shaft 334. More specifically, the rotation blocking member 337 includes a connecting portion 3371 and a sector portion 3372; the connecting part 3371 is sleeved on the outer wall of the rotating shaft 334; the fan portion 3372 is connected to the connection portion 3371. In detail, since the rotation blocking member 337 is sleeved on the outer wall of the rotation shaft 334, when the rotation shaft 334 is driven to rotate by the second power driving device 331, the rotation shaft 334 can be ensured to rotate a certain angle each time by controlling the length of the sector-shaped arc of the sector-shaped portion 3372 in the rotation blocking member 337, when the rotation shaft 334 rotates, the rotation blocking member 337 rotates therewith, and when the rotation shaft 334 and the rotation blocking member 337 rotate a certain angle, the sector-shaped portion 3372 in the rotation blocking member 337 abuts against the first transmission plate, and the rotation stops; more specifically, the second transmission gear 333 is a sector gear that is engaged with the locking member, and the first transmission gear 332 can drive the rotation shaft 334 to rotate only in the sector area of the second transmission gear 333 through meshing.

Preferably, in a specific embodiment, the first swing link 335 and the second swing link 336 are perpendicular to each other and disposed at the lower end of the rotating shaft 334, so as to ensure that the first swing link 335 and the second swing link 336 can drive the fabric to rotate by 90 degrees.

Preferably, in a specific embodiment, the table assembly 1 further comprises a work panel 14; the work panel 14 is provided above the third table 13.

Preferably, in a specific embodiment, the heights of the first table 11, the second table 12 and the work panel 14 are the same.

Preferably, in a specific embodiment, the table assembly 1 further comprises a fourth table 15; the height of the fourth worktable 15 is the same as the height of the first worktable 11, the second worktable 12 and the working panel 14, and the fourth worktable 15 is arranged at one side of the first worktable 11 and the second worktable 12. More specifically, a fourth material conveying assembly is arranged on the fourth worktable 15; the fourth fabric conveying component comprises a third driving roller, a third driven roller, a third transmission belt 151 and a fifth power driving device; the third driving roller and the third driven roller are respectively arranged at two sides of the fourth worktable 15; two ends of the third transmission belt 151 are respectively sleeved on the third driving roller and the third driven roller; the fifth power driving device is arranged below the third driving roller, and a power output shaft of the fifth power driving device is connected with the third driving roller. Further, the fifth power driving device is a motor.

The utility model relates to a working principle of surface fabric serging mechanism: the fabric is conveyed to the working panel 14 through the first working table 11, at the moment, the sewing end of the sewing machine 2 sews one side edge of the fabric, and then the fabric enters the second working table 12, after the side edge of the fabric close to the sewing end of the sewing machine 2 completely leaves the sewing end of the sewing machine 2, the lifting assembly 32 in the fabric rotating component 3 drives the rotating assembly 33 to move downwards, then the rotating component presses the fabric tightly through the first swing rod 335 and the second swing rod 336 in the rotating component, at the moment, the first swing rod 335 and the second swing rod 336 rotate under the driving of the second power driving device 331, in the utility model, the first swing rod 335 and the second swing rod 336 rotate 90 degrees anticlockwise under the driving of the second power driving device 331, so as to drive the fabric pressed tightly through the swing rod assembly to rotate 90 degrees, so that the fabric returns to the first working table 11, and then the fabric is conveyed through the first working table 11, sewing and serging are carried out on other side edges of the fabric by using the sewing machine 2, and the fabric rotating assembly 3 is reset at the moment to prepare for the next rotating work; it should be noted that, in the process that the first swing rod 335 and the second swing rod 336 compress the fabric, rotate the fabric and return to the first workbench 11, the first workbench 11 and the second workbench 12 stop conveying the fabric, that is, the third power driving device and the fourth power driving device stop working to avoid affecting the rotation of the fabric, in addition, the fourth workbench 15 is arranged at one side of the first workbench 11 and the second workbench 12, and in the process that the swing rod assembly compresses the fabric, rotate the fabric and return to the first workbench 11, the fourth fabric conveying mechanism on the fourth workbench 15 rotates counterclockwise to facilitate the rotation and return of the fabric to the first workbench 11; meanwhile, it should be noted that the rotation blocking member 337 in the rotation assembly 33 ensures the rotation accuracy of the rotation shaft 334, so as to ensure that the first swing link 335 and the second swing link 336 rotate to press the fabric and drive the fabric to rotate by a certain angle.

The above description is only for the preferred embodiment of the present invention, and the structure is not limited to the above-mentioned shape, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Surface fabric lockstitch mechanism, its characterized in that: the fabric serging mechanism comprises a workbench component, a sewing machine and a fabric rotating component;

the workbench assembly comprises a first workbench, a second workbench and a third workbench; the third workbench is arranged between the first workbench and the second workbench;

the sewing machine is arranged above the third workbench in a sliding manner;

the fabric rotating component comprises a fixed frame, a lifting assembly and a rotating assembly; the fixed frame is arranged above the third workbench; the lifting assembly is arranged on one side, close to the first workbench, of the upper part of the fixing frame; the rotating assembly is arranged on one side of the lifting assembly, which is far away from the fixed frame;

the lifting assembly comprises a guide rail, a sliding block, a first transmission plate, a second transmission plate and a first power driving device; the two guide rails are arranged on one side, close to the first workbench, of the upper part of the fixing frame; the first driving plate is connected to the two guide rails in a sliding mode through the sliding blocks; the second transmission plate is arranged on one side of the first transmission plate, which is connected with the guide rail in a sliding manner, and is connected with the first transmission plate; the first power driving device is arranged below the second transmission plate, and a power output shaft of the first power driving device is connected with the second transmission plate;

the rotating assembly comprises a second power driving device, a first transmission gear, a second transmission gear, a rotating shaft, a first swing rod and a second swing rod; the second power driving device is fixed below the second transmission plate; the first transmission gear is sleeved on a power output shaft of the second power driving device; the rotating shaft is rotatably arranged on one side of the first transmission plate, which is far away from the guide rail; the second transmission gear is sleeved above the rotating shaft and meshed with the first transmission gear; the first swing rod and the second swing rod are arranged at the lower end of the rotating shaft.

2. A fabric serging mechanism according to claim 1, wherein: the rotating assembly also comprises a rotating clamping piece; the rotary clamping piece is sleeved on the outer wall of the rotating shaft.

3. A fabric serging mechanism according to claim 2, wherein: the rotary clamping piece comprises a connecting part and a sector part; the connecting part is sleeved on the outer wall of the rotating shaft; the fan-shaped part is connected with the connecting part.

4. A fabric serging mechanism according to claim 3, wherein: the second transmission gear is a sector gear.

5. A fabric serging mechanism according to claim 1, wherein: the first swing rod and the second swing rod are arranged at the lower end of the rotating shaft in a mutually vertical mode.

6. A fabric serging mechanism according to claim 1, wherein: the workbench component also comprises a working panel; the working panel is arranged above the third working table.

7. A fabric serging mechanism according to claim 6, wherein: the heights of the first workbench, the second workbench and the working panel are the same.

8. A fabric serging mechanism according to claim 7, wherein: the workbench component also comprises a fourth workbench; the height of the fourth workbench is the same as that of the first workbench, the second workbench and the working panel, and the fourth workbench is arranged on one side of the first workbench and the second workbench.