CN212764867U - Full-automatic traceless clothes composite melt-cutting all-in-one machine - Google Patents

Abstract

The utility model provides a full-automatic traceless clothes composite melt-cutting integrated machine, which comprises a composite component, a material conveying roller component and an ultrasonic melt-cutting component; the composite assembly transversely sets up the well upper end at the all-in-one, conveying material roller assembly and ultrasonic wave melt and cut the subassembly adjacent and be located the composite assembly below, no trace clothing cloth is carried to ultrasonic wave melt and cut the subassembly through conveying material roller assembly after composite assembly adds the heat bonding and melts and cut, make compound and melt and cut twice process and can move simultaneously on an equipment like this, and the production efficiency is improved, and reduce equipment area, degree of automation is high, can save 2 workman of traditional handicraft, practice thrift the cost of labor.

Description

Full-automatic traceless clothes composite melt-cutting all-in-one machine

Technical Field

The utility model relates to a no trace clothing manufacturing field especially relates to a compound all-in-one of cutting of melting of full-automatic no trace clothing.

Background

The traceless garment is generally traceless underwear, also called seamless underwear, and is produced by adopting novel special equipment to be molded at one time, so that the neck, the waist, the hip and other parts do not need to be seamed, and the traceless garment integrates comfort, body fitting and fashion, and changes into a whole, so that consumers can not feel comfortable. In the existing equipment for producing and manufacturing traceless clothes, compounding and melt-cutting are usually two independent processes, namely, the compounding and melt-cutting are respectively carried out on a compounding machine and a melt-cutting machine, the two processes are two types of equipment which work independently, a cloth component is firstly compounded on the compounding machine, and then the compounded product is manually placed on the melt-cutting machine for melt-cutting, so that the equipment is an intermittent processing mode, the number of manual operations is large, the production efficiency is low, the occupied area of the equipment is large, the volume is heavy, and the equipment cost is high.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough, the utility model provides a compound all-in-one of cutting of melting of full-automatic no trace clothing is through with the complex function with melt on the function integrates an equipment for equipment area is little, and degree of automation is high, can save 2 workman of traditional handicraft, practices thrift the cost of labor.

The full-automatic traceless garment composite melt-cutting all-in-one machine is characterized by comprising a composite assembly, a material conveying roller assembly and an ultrasonic melt-cutting assembly; the composite assembly and the ultrasonic melt-cutting assembly are fixedly connected through the conveying material roller assembly, and the traceless garment fabric is thermally bonded through the composite assembly and then conveyed to the ultrasonic melt-cutting assembly through the conveying material roller assembly for melt-cutting.

Preferably, the cloth conveying device further comprises an automatic cloth conveying assembly, the automatic cloth conveying assembly drives the traceless cloth to move when rotating, and the traceless cloth is conveyed to the composite assembly.

Preferably, the ultrasonic melt-cutting device further comprises a blanking bin, the blanking bin is located at the lower end of the ultrasonic melt-cutting assembly, and traceless cloth materials after melt-cutting of the ultrasonic melt-cutting assembly freely fall into the blanking bin according to the principle of free falling body movement.

Preferably, the composite assembly comprises a feed inlet, and the feed inlet is used for receiving externally transmitted traceless cloth.

Preferably, the composite assembly further comprises a conveying belt and a heating component, the feeding port conveys the received traceless cloth to the conveying belt, and the conveying belt conveys the traceless cloth to the heating component for heating and bonding when rotating.

Preferably, the conveying roller assembly at least comprises one roller, and the roller conveys the traceless cloth from the composite assembly to the ultrasonic melt-cutting assembly.

Preferably, the feeding roller assembly further comprises a roller motor, and the roller motor drives the composite assembly to rotate in the same direction after being electrified.

Preferably, the ultrasonic melt-cutting assembly comprises a material arranging chuck, the material arranging chuck comprises an iron plate and a clamp, the clamp is fixed on the iron plate, the traceless cloth is placed on the iron plate, and one end of the traceless cloth is clamped on the clamp and used for arranging the traceless cloth.

Preferably, the ultrasonic melt-cutting assembly further comprises an ultrasonic vibrator and a cutting edge, the traceless cloth is placed on the cutting edge, and the ultrasonic vibrator is close to the cutting edge until the traceless cloth is combined together for melt-cutting the traceless cloth.

Preferably, the seamless clothes rack further comprises a workbench, wherein a material passing hole is formed in the workbench, and a seamless clothes cloth passes through the material passing hole and is transited from the composite assembly to the conveying roller assembly.

The utility model has the advantages that: the utility model provides a compound all-in-one of cutting of melting of full-automatic no trace clothing, including composite assembly, conveying material roller components and ultrasonic wave cut the subassembly, composite assembly and ultrasonic wave cut the subassembly through conveying material roller components fixed connection, and no trace clothing cloth is carried to ultrasonic wave cut the subassembly through conveying material roller components and is melted and cut after composite assembly adds the heat bonding, makes compound and cut and can move simultaneously on equipment like this, reduces equipment area, and degree of automation is high to practice thrift the cost of labor, improve production efficiency.

Description of the drawings:

FIG. 1 is an overall structure of the present invention;

FIG. 2 is a detailed structural diagram of the composite assembly of the present invention;

fig. 3 is a concrete structure diagram of the ultrasonic fusion cutting assembly of the present invention.

The main element symbols are as follows:

1. a composite component; 11. a feed inlet; 12. a conveyor belt; 13. a heating member; 2. a conveying material roller assembly; 21. a roller; 3. An ultrasonic melt cutting assembly; 31. a material arranging chuck; 311. iron plate 312, clip; 32. an ultrasonic vibrator; 33. a blade; 4. an automatic cloth feeding assembly; 5. a blanking bin; 6. a work bench.

Detailed Description

In order to make the present invention clearer, the present invention will be further described with reference to the accompanying drawings.

In particular to a full-automatic traceless clothes composite melt-cutting integrated machine, which comprises a composite component 1, a conveying roller component 2 and an ultrasonic melt-cutting component 3; composite assembly 1 and ultrasonic wave melt-cutting subassembly 3 are through conveying material roller assembly 2 fixed connection, it is concrete, composite assembly 1 transversely sets up the well upper end at the all-in-one, conveying material roller assembly 2 is adjacent to be located composite assembly 1 below with ultrasonic wave melt-cutting subassembly 3, no trace clothing cloth is carried to ultrasonic wave melt-cutting subassembly 3 through conveying material roller assembly 2 and is melted and cut after composite assembly 1 heating bonding, conveying material roller assembly 2 is located the left side of ultrasonic wave melt-cutting subassembly, through setting composite assembly 1 and ultrasonic wave melt-cutting subassembly 3 on same equipment, by conveying roller assembly 2 no trace clothing cloth of transition between this, make no trace clothing cloth compound and melt-cutting two processes can move simultaneously, the production efficiency is improved, the cost of labor is saved.

In this embodiment, still including sending cloth subassembly 4 automatically, it removes to drive no trace clothing cloth when sending cloth subassembly 4 to rotate automatically, convey no trace clothing cloth to composite assembly 1, it is concrete, send cloth subassembly 4 automatically to be located composite assembly 1's upper left side, with composite assembly 1 according to the same direction operation, send cloth subassembly 4 automatically to transmit no trace cloth and elastic cord to composite assembly 1, send the cloth subassembly 4 automatically and be equipped with and send the cloth motor, after the circular telegram, send the cloth motor and operate according to the same direction with composite assembly 1, can convey no trace clothing cloth to composite assembly 1 automatically like this.

In this embodiment, still include blanking storehouse 5, blanking storehouse 5 is located the lower extreme that the subassembly 3 was cut to the ultrasonic wave melt, and the no trace clothing cloth after the subassembly 3 was cut to the ultrasonic wave melt freely descends to the blanking according to the principle of free fall motion, in 5, when the no trace clothing cloth in blanking storehouse 5 is piled up, convenience of customers once takes for production efficiency.

In this embodiment, composite component 1 includes feed inlet 11, and feed inlet 11 is used for receiving the no trace clothing cloth of outside conveying, and is concrete, and feed inlet 11 is used for receiving the no trace clothing cloth of automatic cloth feeding component 4 conveying, and feed inlet 11 includes two sets of two boards of superpose together, and the gap in the middle of two boards is the crack, and is concrete, and the all-in-one during operation, no trace clothing cloth passes through from first group crack, and the elastic cord passes through from second group crack, can guarantee like this that no trace clothing cloth and elastic cord can convey composite component 11 simultaneously.

In this embodiment, the composite assembly 1 further includes a conveyor belt 12 and a heating component 13, the feed inlet 11 transmits the received traceless cloth material to the conveyor belt 12, the conveyor belt 12 conveys the traceless cloth material to the heating component 13 for heating and bonding when rotating, and specifically, the elastic belt and the traceless cloth material are conveyed to the heating component 13 together, so that the elastic belt and the traceless cloth material are bonded together by the heating component 13, thereby forming an integral traceless cloth material.

In this embodiment, the feeding roller assembly 2 comprises at least one roller 21, and the roller 21 conveys the traceless cloth from the composite assembly 1 to the ultrasonic fusion cutting assembly 3, specifically, the feeding roller assembly 2 comprises three rollers 21 in this embodiment, so that the traceless cloth is transited to the ultrasonic fusion cutting assembly 3 around the three rollers 21.

In this embodiment, conveying material roller assembly 2 still includes the gyro wheel motor (the drawing is not made), and inside the all-in-one was arranged in to the gyro wheel motor, the gyro wheel motor circular telegram back drove compound subassembly 1 and makes compound subassembly 1 and conveying material roller assembly 2 according to the same direction operation, through setting up the gyro wheel motor, can make no trace clothing cloth automatic carry to ultrasonic wave melt-cut subassembly 3 from compound subassembly 1, does not need manual operation, has liberated both hands.

In this embodiment, the ultrasonic melt-cutting component 3 includes the material arranging chuck 31, the material arranging chuck 31 includes an iron plate 311 and a clip 312, the clip 312 is fixed on the iron plate 311, the traceless clothing fabric is placed on the iron plate 311, one end of the traceless clothing fabric is clamped on the clip 312 for arranging the traceless clothing fabric, and the material arranging chuck 31 is arranged, so that the traceless clothing fabric can be prevented from being turned over and broken down in the composite melt-cutting process, and the fusion-cutting is not facilitated.

In this embodiment, the ultrasonic melt-cutting assembly 3 further includes an ultrasonic vibrator 32 and a cutting edge 33, when the ultrasonic melt-cutting assembly is in operation, the traceless cloth is placed on the cutting edge 33, the ultrasonic vibrator 32 is close to the cutting edge 33 until the traceless cloth is combined together, so that the traceless cloth can be melt-cut, specifically, the ultrasonic melt-cutting assembly 3 further includes a melt-cutting motor and an air cylinder, the melt-cutting motor can drive the air cylinder to move left and right, the distance between the left and right sides of the air cylinder can be set in advance according to requirements, when the traceless cloth is melt-cut, the traceless cloth moves from left to right along with the air cylinder, when the air cylinder moves to the right end, the ultrasonic vibrator 32 is close to the cutting edge 33 until the traceless cloth is combined together, at this time, melt-cut is achieved, after melt-cut, the ultrasonic vibrator 32 moves vertically upward, and is far away from the cutting edge 33, at this time, the, the left-right movement distance of the cylinder is generally the standard size of the seamless cloth fusion cutting, for example, when the seamless cloth is used for making underpants, the left-right movement distance of the cylinder can be 44CM, which is S code; 46CM, M code; 48CM, L code.

In this embodiment, still include workstation 6, workstation 6 separates composite component 1 from conveying material roller assembly 2, ultrasonic wave fused cutting subassembly 3, is equipped with material passing hole 61 on workstation 6, and no trace clothing cloth passes material passing hole 61, and the transition is expected from composite component 1 to conveying material roller assembly 2.

The utility model has the advantages that: the utility model provides a compound all-in-one of cutting of melting of full-automatic no trace clothing melts with composite assembly and ultrasonic wave and cuts the subassembly setting on same platform equipment, by conveying roller components seamless clothing cloth and elastic cord of transition between this for compound and melt and cut this twice process and can move simultaneously, improved production efficiency, and equipment area is little, and degree of automation is high, can save 2 workman of traditional handicraft, practices thrift the cost of labor.

The above disclosure is only for the specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be made by those skilled in the art should fall within the protection scope of the present invention.

Claims (10)

1. A full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized by comprising a composite assembly, a conveying roller assembly and an ultrasonic melt-cutting assembly; the composite assembly and the ultrasonic melt-cutting assembly are fixedly connected through the conveying material roller assembly, and the traceless garment fabric is thermally bonded through the composite assembly and then conveyed to the ultrasonic melt-cutting assembly through the conveying material roller assembly for melt-cutting.

2. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized by further comprising an automatic cloth feeding assembly, wherein the automatic cloth feeding assembly drives traceless clothes to move when rotating, and conveys the traceless clothes to the composite assembly.

3. The full-automatic traceless clothes composite melt-cutting all-in-one machine according to claim 1, further comprising a blanking bin, wherein the blanking bin is located at the lower end of the ultrasonic melt-cutting assembly, and traceless clothes cloth melted and cut by the ultrasonic melt-cutting assembly freely falls into the blanking bin according to a free falling body movement principle.

4. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized in that the composite assembly comprises a feed inlet, and the feed inlet is used for receiving traceless clothes and cloth materials conveyed from the outside.

5. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized by further comprising a conveying belt and a heating component, wherein the feeding hole conveys the received traceless clothes cloth onto the conveying belt, and the conveying belt conveys the traceless clothes cloth to the heating component for heating and bonding when rotating.

6. The full-automatic traceless clothes composite melt-cutting all-in-one machine as claimed in claim 1, wherein the conveying roller assembly at least comprises one roller, and the roller conveys traceless clothes cloth from the composite assembly to the ultrasonic melt-cutting assembly.

7. The full-automatic traceless clothes composite melt-cutting all-in-one machine as claimed in claim 1, wherein the conveying roller assembly further comprises a roller motor, and the roller motor drives the composite assembly to run in the same direction after being electrified.

8. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized in that the ultrasonic melt-cutting assembly comprises a material arranging chuck, the material arranging chuck comprises an iron plate and a clamp, the clamp is fixed on the iron plate, traceless clothes and cloth are placed on the iron plate, and one end of the traceless clothes and cloth is clamped on the clamp and used for arranging the traceless clothes and cloth.

9. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized in that the ultrasonic melt-cutting assembly further comprises an ultrasonic vibrator and a cutting edge, traceless clothes cloth is arranged on the cutting edge, and the ultrasonic vibrator is close to the cutting edge until the traceless clothes cloth is combined together for melt-cutting the traceless clothes cloth.

10. The full-automatic traceless clothes composite melt-cutting all-in-one machine is characterized by further comprising a workbench, wherein a material passing hole is formed in the workbench, and traceless clothes cloth passes through the material passing hole and is transited from the composite assembly to the conveying roller assembly.

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