CN220149801U

CN220149801U - Multifunctional garment flanging device

Info

Publication number: CN220149801U
Application number: CN202321677811.6U
Authority: CN
Inventors: 张新章; 张国勇; 洪祖柏
Original assignee: Zhejiang Kaiku Clothing Technology Co ltd
Current assignee: Zhejiang Kaiku Clothing Technology Co ltd
Priority date: 2023-06-29
Filing date: 2023-06-29
Publication date: 2023-12-08
Anticipated expiration: 2033-06-29

Abstract

The utility model relates to the technical field of hemming devices, in particular to a multifunctional garment hemming device, which can stably pull garment cloth through the cooperation of a traction mechanism and a guide plate, after the garment cloth is pulled to a required length of a hem, the garment cloth is subjected to pre-ironing crease treatment through a fine ironing roller arranged above a guide table, the fine ironing roller can press the garment cloth into a crease groove of the guide table under the driving of a lifting assembly to determine the hem width, and then the heating function of the fine ironing roller is matched, so that the pre-creasing can be formed, the determination and sewing of subsequent creasing are facilitated, and the crease is regular.

Description

Multifunctional garment flanging device

Technical Field

The utility model relates to the technical field of hemming devices, in particular to a multifunctional garment hemming device.

Background

When the clothing is manufactured, cloth hemming sewing is often needed, specifically, the edge of the clothing is hemmed to a required size, and then sewing treatment is carried out. In the process, a unified pre-flanging mode can be adopted, the pre-compaction flanging treatment is carried out, and then the unified sewing is carried out on the pre-compaction flanging treatment. In the garment hemming device disclosed in chinese patent application publication No. CN215628640U, for example, by setting the hemming mechanism, the crease pressing mechanism and the ironing mechanism, automatic hemming and pre-ironing treatment of the hem are realized to maintain stability of the crease. However, in this equipment, owing to utilize the cloth operation on the conveyer belt to the hem platform, turn over the book at promotion cloth, to some soft cloths, it is difficult to advance smoothly to the hem platform to do not have the external force effect, and when promoting the cloth to carry out the hem cloth whereabouts can be irregular, influence hem effect, simultaneously owing to its crease pressure hold mechanism and ironing mechanism of having set up, lead to the complicated process of whole equipment processing, the process is loaded down with trivial details.

Disclosure of Invention

In order to solve the problems, the utility model can carry out pre-ironing treatment on the cloth to stabilize the crease while solving the problem of smoothly pulling the cloth by arranging the traction claw and the fine ironing roller.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a multifunctional clothing hemming device which comprises a conveying belt, a guide table arranged at the end side of the conveying belt and a traction mechanism arranged above the guide table; the traction mechanism comprises a traction claw; the upper part of the guide table is provided with a crease ironing mechanism, the crease ironing mechanism comprises a door type bracket and an electric heating thin ironing roller, the thin ironing roller is arranged on the lower side of the door type bracket through a lifting assembly, and the thin ironing roller is arranged on one side of the guide table close to the conveying belt; and a crease groove matched with the shape of the fine ironing roller is formed in the guide table, so that the fine ironing roller can press the clothes into the crease groove.

Further, the traction mechanism comprises a transverse moving assembly and two traction claws arranged at the left side and the right side of the guide table; each traction claw comprises an upper claw plate and a lower claw plate which are oppositely arranged, and the upper claw plates and the lower claw plates are connected through an adjusting cylinder, so that the upper claw plates and the lower claw plates can be relatively close to or far away from each other; traction claws positioned at two sides are connected through a linkage plate; the linkage plate is connected with the transverse moving assembly, so that the transverse moving assembly can drive the traction claw to move along the top surface of the guide table.

Further, a moving slideway which is penetrated left and right is arranged in the guide table; the movable slideway and the linkage plate are of matched rectangular structures, and the linkage plate is slidably arranged in the movable slideway.

Further, the transverse moving assembly comprises a sliding table, and the sliding table is fixedly connected to the bottom surface of the linkage plate; a sliding table slideway is communicated below the movable slideway in the guide table; the direction of the sliding table slideway is vertical to the linkage plate; the sliding table is arranged in the sliding table slideway in a sliding way; the sliding table is connected with a screw in a threaded manner, the screw is positioned in the sliding table slideway, and one end of the screw positioned in the sliding table slideway is rotationally connected with the sliding table slideway; the other end of the screw rod penetrates through the sliding table slideway and is connected with a motor in a transmission way; the motor is fixed on the side surface of the guide table.

Further, the upper claw plate and the lower claw plate are respectively provided with a fixed seat, the adjusting cylinder is fixed at the bottom of the lower claw plate, and a piston rod of the adjusting cylinder movably penetrates through the fixed seat of the lower claw plate and is connected with the fixed seat of the upper claw plate.

Further, a sliding column is arranged on the fixing seat of the lower claw plate, a sliding hole matched with the sliding column is arranged on the fixing seat of the upper claw plate, and the upper side of the sliding column is slidingly arranged in the sliding hole.

Further, a buffer guide plate is arranged at one end side of the guide table, which is close to the conveying belt, and the crease groove is arranged at the joint of the buffer guide plate and the guide table.

Further, the edge of the crease groove is treated with a round angle.

Further, a piston rod of the lifting cylinder is arranged downwards, the tail end of the piston rod is connected with a mounting transverse plate, and mounting hanging plates are arranged on two sides of the mounting transverse plate; two ends of the thin ironing roller are respectively connected to the two mounting hanging plates.

The beneficial effects of the utility model are as follows: compared with the prior art, the multifunctional garment hemming device provided by the utility model has the advantages that the garment cloth can be stably pulled through the cooperation of the traction mechanism and the guide plate, after the garment cloth is pulled to the required length of the hemming, the garment cloth is subjected to pre-ironing crease treatment through the fine ironing roller arranged above the guide table, the fine ironing roller can press the garment cloth into the crease groove of the guide table under the driving of the lifting assembly to determine the hemming width, and the heating function of the fine ironing roller is matched, so that the pre-creasing can be formed, the subsequent crease determination and sewing are facilitated, and the crease is regular; meanwhile, the traction components positioned on the two sides can be synchronously linked to pull the two end sides of the clothing cloth, so that the cloth can move more stably.

Drawings

FIG. 1 is a schematic diagram of the overall axial structure of the present utility model;

FIG. 2 is a schematic diagram of a broken top view structure;

FIG. 3 is a schematic view of the structure taken along the line A-A in FIG. 2;

FIG. 4 is an enlarged schematic view of the structure shown at A in FIG. 3;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 1;

fig. 6 is an enlarged schematic view of the structure at C in fig. 3.

In the figure: 1. a conveyor belt; 2. a guide table; 201. a moving slideway; 202. a slipway slide; 3. a traction mechanism; 301. a traction claw; 3011. an upper claw plate; 3012. a lower claw plate; 3013. a fixing seat; 3014. adjusting a cylinder; 3015. a sliding column; 302. a traversing assembly; 3021. a sliding table; 3022. a screw; 3023. a motor; 3024. a motor base; 303. a linkage plate; 4. a support leg; 5. a crease ironing mechanism; 501. a door type stand; 502. a fine ironing roller; 503. a lifting assembly; 5031. a lifting cylinder; 5032. mounting a transverse plate; 5033. installing a hanging plate; 504. crease grooves; 6. and buffering the guide plate.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model.

The utility model provides a multifunctional clothing hemming device which comprises a conveying belt 1 for conveying clothing and cloth, wherein a guide table 2 and a traction mechanism 3 are arranged at the output end side of the conveying belt 1. The guide table 2 stands on the end side of the conveyor belt 1 through the supporting legs 4, the top surface of the guide table 2 is an inclined surface which inclines upwards, and when the end side of the clothing cloth moves to the end side of the conveyor belt 1, the traction mechanism 3 can traction the end side of the cloth to guide the clothing cloth onto the guide table 2. One end side of the guide table 2, which is close to the conveying belt 1, is provided with a crease ironing mechanism 5, and after the traction mechanism 3 pulls out the cloth for a required flanging distance, the crease ironing mechanism 5 can be pressed down to pre-crease the cloth, so that the follow-up sewing is facilitated.

The crease ironing mechanism 5 is erected above the guide table 2 through a door type vertical frame 501, the crease ironing assembly 5 comprises an electric heating thin ironing roller 502, and the thin ironing roller 502 is arranged on one side, close to the conveying belt 1, of the guide table 2 through a lifting assembly 503. A crease groove 504 matched with the fine ironing roller 502 is arranged on the top surface of the end of the guide table 2, the edge of the crease groove 504 is required to be rounded to prevent the cloth from being scratched, and a protective spacer made of high-temperature resistant materials can be arranged on the edge of the crease groove. When the fine ironing roller 502 is pressed down under the action of the lifting component 503, cloth can be pressed into the crease grooves 504, and the diameters of the fine ironing roller 502 and the crease grooves 504 are smaller, so that crease forming can be facilitated, the fine ironing roller 502 which can be heated is used for preheating to enable crease forming to be performed, crease can be stabilized, after crease pre-ironing forming, the fine ironing roller 502 can be lifted up and reset, and the cloth is taken out for subsequent sewing treatment or direct in-situ ironing treatment.

In the present utility model, the lifting component 503 adopts a lifting cylinder 5031, and can also adopt an electric push rod and a hydraulic cylinder to realize the lifting function. The piston rod of the lifting cylinder 5031 is arranged downwards, the tail end of the piston rod is connected with a mounting transverse plate 5032, two sides of the mounting transverse plate 5032 are provided with mounting hanging plates 5033, and two ends of the thin ironing roller 502 are respectively connected to the two mounting hanging plates 5033. The interior of the fine ironing roller 502 can be heated by adopting an electric heating wire mode, and a power supply cable for the electric heating wire can penetrate through the mounting hanging plate 5033 to be connected to the electric heating wire so as to supply power to heat the fine ironing roller 502.

The width of the guide table 2 is smaller than the width of the conveyor belt 1. The traction mechanism 3 comprises two traction claws 301 and a traversing assembly 302, wherein the two traction claws 301 are symmetrically arranged at the left side and the right side of the guide table 2 so as to effectively grasp and drag two sides of cloth. The two traction claws 301 are connected through a linkage plate 303, and the linkage plate 303 is connected with the traversing assembly 302, so that the traversing assembly 302 can drive the linkage plate 303 to further drive the two traction claws 301 to synchronously move along the top surface of the guide plate 2.

Each traction claw 301 comprises an upper claw plate 3011 and a lower claw plate 3012 which are oppositely arranged, fixing seats 3013 are respectively arranged on the upper claw plate 3011 and the lower claw plate 3012, an adjusting cylinder 3014 is connected between the two fixing seats 3013, a cylinder body of the adjusting cylinder 3014 is fixed at the bottom of the fixing seat 3013 of the lower claw plate 3012, a piston rod of the adjusting cylinder 3014 slides through the fixing seat 3013 and is fixedly connected with the fixing seat 3013 of the upper claw plate 3011, and the upper claw plate 3011 and the lower claw plate 3012 are driven to approach or separate from each other through the expansion and contraction of the adjusting cylinder 3014, so that clamping of cloth is realized. The linkage plate 303 is fixed with a fixed base 3013 provided with an adjusting cylinder 3014 to drive the traction pawls 301 on both sides to move.

A moving slide 201 is arranged in the guide table 2, the moving slide 201 is communicated left and right, the linkage plate 303 is a rectangular mechanism, the shape of the moving slide 201 is matched with that of the linkage plate 303, and the moving slide 201 is parallel to the top surface of the guide plate 2. The linkage plate 303 penetrates through the moving slide way 201 and is in sliding connection with the moving slide way 201, a rectangular slide way 202 is further vertically communicated with the lower side of the moving slide way 201, the top of the slide way 202 is communicated with the moving slide way 201, and the direction of the slide way 202 is vertical to the linkage plate 303. A rectangular sliding table 3021 is slidably connected in the sliding table slideway 202, the sliding table 3021 is fixed with the linkage plate 303, a screw rod 3022 is connected to the sliding table 3021 in a threaded manner, the central axis direction of the screw rod 3022 is consistent with the sliding table slideway 202, and the screw rod 3022 is arranged in the sliding table slideway 202. One end side of the screw 3022, which is located inside the sliding table slideway 202, is rotationally connected with the sliding table slideway 202, and the other end side of the screw 3022 penetrates through the sliding table slideway 303 and is in transmission connection with a motor 3023. The motor 3023 is fixed to the side of the guide table 2 through the motor mount 3024, and thereby the motor 3023 drives the screw 3022 to rotate, and further drives the two traction pawls 301 to move through the slider 3021 and the linkage plate 303. The two traction claws 301 respectively traction the two end sides of the cloth, and can drive the cloth to advance better.

A rotating seat (not shown) for fixing the screw 3022 is provided on the side of the guide table 2, and an output shaft of the motor is rotatably connected to the rotating seat to effectively support the screw 3022 and the output shaft of the motor.

In order to make the relative movement of the upper jaw plate 3011 and the lower jaw plate 3012 more stable, two sliding columns 3015 are further fixedly and vertically arranged on the fixed base 3013 of the lower jaw plate 3012, two sliding holes matched with the sliding columns 3015 are formed in the fixed base 3013 of the upper jaw plate 3011, and the upper sides of the sliding columns 3015 are slidingly connected in the sliding holes so as to ensure the movement stability of the upper jaw plate 3011.

As an alternative embodiment, the traversing assembly 302 may also employ a rack and pinion, a screw slide module, or a cylinder, as long as translation is enabled.

A section of buffer guide plate 6 is connected on one end of the guide table 2 close to the conveying belt 1, and a crease groove 504 is arranged at the joint of the buffer guide plate 6 and the guide table 2.

The foregoing embodiments are merely examples of the present utility model, and the scope of the present utility model includes, but is not limited to, the forms and styles of the foregoing embodiments, and any suitable changes or modifications made by those skilled in the art, which are consistent with the claims of the present utility model, shall fall within the scope of the present utility model.

Claims

1. The utility model provides a multi-functional clothing hem device which characterized in that: comprises a conveying belt (1), a guide table (2) arranged at the end side of the conveying belt (1) and a traction mechanism (3) arranged above the guide table (2); the traction mechanism (3) comprises a traction claw (301); the automatic feeding device is characterized in that a crease ironing mechanism (5) is arranged above the guide table (2), the crease ironing mechanism (5) comprises a door-type bracket (501) and an electric heating thin ironing roller (502), the thin ironing roller (502) is arranged on the lower side of the door-type bracket (501) through a lifting assembly (503), and the thin ironing roller (502) is arranged on one side, close to the conveying belt (1), of the guide table (2); crease grooves (504) matched with the shape of the fine ironing roller (502) are formed in the guide table (2), so that the fine ironing roller (502) can press clothes into the crease grooves (504).

2. The multifunctional garment hemming device of claim 1 wherein: the traction mechanism (3) comprises a transverse moving assembly (302) and two traction claws (301) arranged at the left side and the right side of the guide table (2); each traction claw (301) comprises an upper claw plate (3011) and a lower claw plate (3012) which are oppositely arranged, wherein the upper claw plates (3011) and the lower claw plates (3012) are connected through an adjusting cylinder (3014) so that the upper claw plates (3011) and the lower claw plates (3012) can be relatively close to or far away from each other; traction claws (301) positioned at two sides are connected through a linkage plate (303); the linkage plate (303) is connected with the traversing assembly (302) so that the traversing assembly (302) can drive the traction claw (301) to move along the top surface of the guide table (2).

3. The multifunctional garment hemming device of claim 2 wherein: a moving slideway (201) which is penetrated left and right is arranged in the guide table (2); the movable slideway (201) and the linkage plate (303) are of matched rectangular structures, and the linkage plate (303) is slidably arranged in the movable slideway (201).

4. A multi-functional garment hemming device according to claim 3 wherein: the transverse moving assembly (302) comprises a sliding table (3021), and the sliding table (3021) is fixedly connected to the bottom surface of the linkage plate (303); a sliding table slideway (202) is communicated below the movable slideway (201) in the guide table (2); the direction of the sliding table slideway (202) is vertical to the linkage plate (303); the sliding table (3021) is arranged in the sliding table slideway (202) in a sliding way; the sliding table (3021) is connected with a screw rod (3022) in a threaded manner, the screw rod (3022) is located in the sliding table slideway (202), and one end of the screw rod (3022) located in the sliding table slideway (202) is rotationally connected with the sliding table slideway (202); the other end of the screw rod (3022) penetrates through the sliding table slideway (202) and is connected with a motor (3023) in a transmission way; the motor (3023) is fixed to the side surface of the guide table (2).

5. The multifunctional garment hemming device of claim 2 wherein: the upper claw plate (3011) and the lower claw plate (3012) are respectively provided with a fixed seat (3013), the adjusting cylinder (3014) is fixed at the bottom of the lower claw plate (3012), and a piston rod of the adjusting cylinder (3014) movably penetrates through the fixed seat (3013) of the lower claw plate (3012) and is connected with the fixed seat (3013) of the upper claw plate (3011).

6. The multifunctional garment hemming device of claim 5 wherein: the fixed seat (3013) of the lower claw plate (3012) is provided with a sliding column (3015), the fixed seat (3013) of the upper claw plate (3011) is provided with a sliding hole matched with the sliding column (3015), and the upper side of the sliding column (3015) is slidingly arranged in the sliding hole.

7. The multifunctional garment hemming device of claim 1 wherein: one end side of the guide table (2) close to the conveying belt (1) is provided with a buffer guide plate (6), and the crease groove (504) is arranged at a joint of the buffer guide plate (6) and the guide table (2).

8. The multifunctional garment hemming device of claim 7 wherein: rounded corners are adopted at the edge of the crease grooves (504).

9. The multifunctional garment hemming device of claim 1 wherein: the lifting assembly (503) comprises a lifting cylinder (5031), a piston rod of the lifting cylinder (5031) is downwards arranged, a mounting transverse plate (5032) is connected to the tail end of the piston rod, and mounting hanging plates (5033) are arranged on two sides of the mounting transverse plate (5032); two ends of the thin ironing roller (502) are respectively connected to two mounting hanging plates (5033).