CN115491894B

CN115491894B - Clothing cloth system of processing

Info

Publication number: CN115491894B
Application number: CN202211262831.7A
Authority: CN
Inventors: 蔡浩雯
Original assignee: Jiangsu Shuaiya Clothing Co ltd
Current assignee: Jiangsu Shuaiya Clothing Co ltd
Priority date: 2022-10-15
Filing date: 2022-10-15
Publication date: 2023-12-05
Anticipated expiration: 2042-10-15
Also published as: CN115491894A

Abstract

The invention relates to the field of cloth processing, in particular to a clothing cloth processing system, which comprises a frame, elastic telescopic rods I, pressing plates, blades, elastic telescopic rods II, a moving seat, telescopic rods I, a moving plate and a cloth roll, wherein two elastic telescopic rods I are fixed on the frame, the pressing plates are fixed at the other ends of the two elastic telescopic rods I, the blades are respectively and fixedly connected to the two pressing plates, the moving seat is slidingly connected to the frame, the two ends of the telescopic rods I are respectively fixed on the moving seat and the frame, the lower end surface of the moving seat is fixedly connected with an elastic telescopic rod II, the moving plate is fixed at the other end of the elastic telescopic rod II, and the cloth roll rotates on the frame; both sides of the moving plate are designed with round corners; the telescopic rod II is fixedly connected to the frame, the other end of the telescopic rod II is fixedly connected with a sliding block, and the sliding block slides on the frame; the invention can fold and overlap the cloth by itself, thereby improving the efficiency of cloth processing.

Description

Clothing cloth system of processing

Technical Field

The invention relates to the field of cloth processing, in particular to a clothing cloth processing system.

Background

More and more people in China gradually get over with the international trend in wearing, and because the cloth used abroad at that time is very bad from China, a plurality of factories for manufacturing clothing cloth are promoted, the development of cloth industry in China is quickened, and in the cloth processing process, the produced cloth is required to be folded and overlapped manually before being cut, so that time and labor are wasted, and the cloth processing efficiency is reduced.

Disclosure of Invention

The invention aims to provide a clothing cloth processing system which can automatically fold and overlap cloth, thereby improving the cloth processing efficiency.

The aim of the invention is achieved by the following technical scheme:

the utility model provides a clothing cloth processing system, which comprises a frame, elastic telescopic rod I, the clamp plate, the blade, elastic telescopic rod II, remove the seat, telescopic rod I, movable plate and cloth roll, be fixed with two elastic telescopic rod I in the frame, the other end of two elastic telescopic rod I all is fixed with the clamp plate, fixedly connected with blade on two clamp plates respectively, sliding connection has the removal seat in the frame, the both ends of telescopic rod I are fixed respectively in removing seat and frame, the terminal surface fixedly connected with elastic telescopic rod II under the removal seat, the movable plate is fixed at the other end of elastic telescopic rod II, the cloth roll rotates in the frame;

both sides of the moving plate are designed with round corners;

the telescopic rod II is fixedly connected to the frame, the sliding block is fixedly connected to the other end of the telescopic rod II, and the sliding block slides on the frame.

Drawings

FIG. 1 is a schematic diagram of the overall construction of a garment material processing system;

FIG. 2 is a schematic view of a partial construction of a garment material processing system;

FIG. 3 is a schematic view of a frame;

FIG. 4 is a schematic diagram of a second embodiment of a frame;

FIG. 5 is a schematic structural view of a platen;

FIG. 6 is a schematic diagram of a platen structure II;

FIG. 7 is a schematic diagram III of the structure of the platen;

fig. 8 is a schematic structural view of a moving plate;

FIG. 9 is a schematic view of the structure of the area of FIG. 2A;

FIG. 10 is a schematic view of a first configuration of a carriage;

FIG. 11 is a second schematic illustration of a carriage structure;

FIG. 12 is a schematic view of the structure of the support bar;

FIG. 13 is a schematic view of the construction of a tooling plate;

fig. 14 is a schematic structural view of a water pipe.

In the figure:

comprises a frame 101; an elastic telescopic rod I102; a pressing plate 103; a blade 104; an elastic telescopic rod II 105; a movable base 106; a telescopic rod I107; a moving plate 108; a cloth roll 109;

a slider 201; a telescopic rod II 202;

a carriage 301; telescoping rod iii 302; a lifting plate 303; a cutter 304;

a support bar 401; rotating the lever 402; a motor I403;

a processing plate 501; a spring 502; a buffer plate 503; a standard plate 504; motor ii 505; a drive wheel 506;

an atomizing water pump 601; a water pipe 602.

Detailed Description

As shown in fig. 1-8:

the two elastic telescopic rods I102 are fixedly connected to the lower end face of the machine frame 101, two sliding long holes are formed in the machine frame 101, two pressing plates 103 are fixedly connected to the lower end faces of the two elastic telescopic rods I102 respectively, the two pressing plates 103 are respectively and slidably connected to sliding grooves in the machine frame 101, one end of each telescopic rod I107 is fixedly arranged on the side face of the corresponding movable seat 106, the two pressing plates 103 are respectively and tightly pressed against the machine frame 101, a first slope and a second slope are formed in the two pressing plates 103, the first slope is formed between the lower end faces of the pressing plates 103 and the side faces, the second slope is formed between the upper end faces of the pressing plates 103 and the side faces, the first slope and the second slope are respectively intersected with the lower end faces of the pressing plates 103, two blades 104 are respectively and fixedly connected to the two pressing plates 103, the cutting edges of the two blades 104 face the second slope of the two pressing plates 103 respectively, the movable seat 106 is slidably connected to the sliding grooves in the machine frame 101, one end of each telescopic rod I107 is fixedly arranged on the side face of the corresponding movable seat 106, the other end of each telescopic rod I107 is fixedly arranged on the machine frame 101, the other end of each elastic telescopic rod II 105 is fixedly connected to the lower end face of the corresponding movable seat 106, the other end 108 of the corresponding telescopic rod II is fixedly connected to the corresponding telescopic rod II, the other end 103 is fixedly arranged on the corresponding telescopic rod 108, the other end 108 is fixedly connected to the other end of the telescopic rod I103, the corresponding telescopic rod I107, the two blades 108 is fixedly connected to the corresponding telescopic rod 108, the two blades are respectively and the two blades 108 are respectively and tightly move between the two blades 103 and the two blades are respectively and tightly move between the two blades and the two blades 104 are respectively and rotatably arranged on the corresponding two slopes and the corresponding two slopes, and are respectively, and are rotatably arranged on the corresponding two slide shafts, and are respectively and are fixedly arranged, and are respectively and rotatably and are respectively and rotatably and fixedly connected to the corresponding to the two slide rod and is.

The third sloping slopes on both sides of the moving plate 108 are rounded at the intersection with the lower end surface of the moving plate 108.

The initial position of the moving plate 108 is between one of the pressing plates 103 and the blade 104 fixed on the moving plate, one end of the cloth on the cloth roll 109 is arranged below the left pressing plate 103 by an operator and is pressed by the pressing plate 103, at the moment, a layer of cloth is arranged below the left pressing plate 103, the telescopic rod I107 is started, the moving seat 106 is driven to slide in the sliding groove by the shortening of the telescopic rod I107, the moving plate 108 moves on the right pressing plate 103 on the frame 101, during the moving process of the moving plate 108, the moving plate 108 firstly passes through a second slope of the left pressing plate 103 to reach the other side of the left pressing plate 103, at the moment, the moving plate 108 presses the cloth, the moving plate 108 continuously moves to drive the cloth to approach the other pressing plate 103, when the moving plate 108 contacts with the first slope of the right pressing plate 103, the upper end face and the lower end face of the moving plate 108 are wrapped by the cloth, and the moving plate 108 continuously moves, the right pressing plate 103 is lifted by the first slope of the right pressing plate 103, then the cloth is cut off when the cloth contacts the cutting edge of the blade 104 by coming between the right pressing plate 103 and the right blade 104 from the lower side of the right pressing plate 103, at the moment, two layers of cloth are pressed down by the right pressing plate 103, the telescopic rod I107 continues to run, the moving plate 108 is moved to the left pressing plate 103 by the second slope of the right pressing plate 103, the cloth is driven to move in the moving process of the moving plate 108, the moving plate 108 passes through the lower side of the left pressing plate 103 by the first slope of the left pressing plate 103, the moving plate 108 is made to come between the left pressing plate 103 and the left blade 104, at the same time, the left blade 104 cuts off the cloth, at the moment, the lower part of the left pressing plate 103 is provided with three layers of cloth, the cloth can be overlapped in layers, the aim of folding and overlapping the cloth by itself is achieved, the efficiency of cloth processing is increased.

The rounded corner design on the movable plate 108 can reduce the abrasion to the cloth in the process of moving the movable plate 108 with the cloth, and ensures the quality of the overlapped cloth.

As shown in fig. 9:

one end of a telescopic rod II 202 is fixedly connected to the frame 101, a sliding block 201 is fixedly connected to the other end of the telescopic rod II 202, the lower end face of the sliding block 201 slides with the frame 101, a fourth slope is arranged on the sliding block 201, a fifth slope is arranged on the part, located at the lower end of the elastic telescopic rod I102, of the left pressing plate 103, and the fourth slope is opposite to the fifth slope and has the same gradient.

Before folding cloth, start telescopic link II 202, drive slider 201 through the extension of telescopic link II 202 and slide on frame 101, finally slider 201 can stretch into the below of left side pressure plate 103 through fourth slope and fifth slope, and then jack-up left side pressure plate 103, in left side pressure plate 103 by the jack-up period, operating personnel place the below of left side pressure plate 103 with the cloth on the cloth roll 109, then shrink the telescopic link, put down left side pressure plate 103, get into and press the cloth under left side pressure plate 103, can let operating personnel not hard lift up left side pressure plate 103 like this, and more can guarantee operating personnel's safety.

As shown in fig. 10 and 11:

the machine frame 101 is provided with a chute, a sliding frame 301 is arranged in the chute of the machine frame 101 in a sliding manner, a sliding long hole is formed in the sliding frame 301, the lower end face of a telescopic rod III 302 is fixedly connected to the sliding frame 301, the telescopic rod III 302 is vertically arranged, a lifting plate 303 is fixedly connected to the upper face of the telescopic rod III 302, the lifting plate 303 slides in the sliding long hole of the sliding frame 301, the lifting plate 303 is horizontally arranged, two cutters 304 are respectively fixed to two sides of the lifting plate 303, two cutters 304 are vertically arranged, the cutting edges of the two cutters 304 face downwards, and arc chamfer angles are respectively arranged on the two cutters 304.

After the cloth is overlapped, starting a telescopic rod III 302, and shrinking the telescopic rod III 302 to drive a lifting plate 303 to move downwards in a sliding long hole of a sliding frame 301, so as to drive two cutters 304 to move downwards, wherein the overlapped cloth can be cut by the two cutters 304 in the downward moving process, and the step of cutting the cloth singly is omitted; the cut cloth is then pressed by the lifting plate 303, preventing the cloth from falling off due to external factors.

The circular arc chamfer that sets up on two cutters 304, the cloth is in overlapping in-process when, if contacted two cutters 304, because the buffering of two circular arc chamfers can not make the cloth cut off in the middle of, has guaranteed the stability of device operation.

As shown in fig. 12:

the lower terminal surface rotation of frame 101 is connected with bracing piece 401, and bracing piece 401 sets up in elasticity telescopic link II 105 below, and bracing piece 401 remains as vertical state throughout, and frame 101 lower terminal surface rotation is connected with dwang 402, and dwang 402 sets up in telescopic link II 202 below, and the lower terminal surface of dwang 402 is the chamfer design, and frame 101 side-mounting has motor I403, and dwang 402 and motor I403 output shaft rotation connection.

The initial state of the rotating rod 402 is a forward inclined state, after the lifting plate 303 compresses the cut cloth, the motor I403 is started, the rotating rod 402 is driven to rotate on the frame 101 through the rotation of the output shaft of the motor I403, and then the rotating rod 402 is changed from the inclined state to the vertical state, so that the whole frame 101 is in the inclined state, when the frame 101 is changed into the inclined state, the sliding frame 301 slides forward with the overlapped cloth due to gravity and is separated from the position under the upper cover of the frame 101, and an operator can more conveniently process the overlapped cloth; after the frame 101 is tilted, the fine dust generated by cutting the cloth by the two blades 104 and the two cutters 304 slides forward along with the tilted frame 101, so that the operator can clean the fine dust more easily.

As shown in fig. 13:

the front end fixedly connected with processing board 501 of frame 101, the front and back length of processing board 501 is the same with the front and back length of frame 101, be provided with the slip elongated slot on the processing board 501, the slip elongated slot of processing board 501 communicates with the spout on the frame 101, and the width degree of depth of slip elongated slot and spout is the same, the front end of processing board 501 slides there is buffer board 503, the length of buffer board 503 is the same with processing board 501, the one end of a plurality of springs 502 is all fixed on processing board 501, the other end of a plurality of springs 502 is all fixed on buffer board 503.

After the frame 101 is inclined, the sliding frame 301 slides from the frame 101 to the processing plate 501, and finally, the sliding frame 301 is all positioned on the processing plate 501, and in the sliding process of the sliding frame 301, the sliding frame 301 is contacted with the buffer plate 503, and the sliding frame 301 is stopped under the buffer action of the buffer plate 503 and the springs 502, so that the damage to equipment caused by the impact force generated when the sliding frame 301 slides downwards is avoided.

As shown in fig. 13:

the processing board 501 is provided with a lifting groove, the standard board 504 slides in the lifting groove of the processing board 501, one side of the standard board 504 far away from the stand 101 is provided with meshing teeth, the processing board 501 is rotationally connected with a driving wheel 506, the driving wheel 506 is in meshing connection with the standard board 504 through the meshing teeth, the upper end face of the processing board 501 is provided with a motor II 505, and an output shaft of the motor II 505 is fixedly connected with the driving wheel 506.

After the sliding frame 301 is all located on the processing plate 501, the motor I403 is started, the rotating rod 402 is driven to rotate through the output shaft of the motor I403, the rotating rod 402 is changed to be in an inclined state from a vertical state, the machine frame 101 and the processing plate 501 are further enabled to be in a horizontal state, the telescopic rod III 302 is started, the lifting plate 303 is driven to move upwards through extension of the telescopic rod III 302, accordingly, the lifting plate 303 is enabled to be free from pressing overlapped cloth, the sliding frame 301 is pushed out of the processing plate 501 through an operator, the motor II 505 is started, the driving wheel 506 is driven to drive the standard plate 504 through rotation of the motor II 505, the standard plate 504 is enabled to move downwards, and finally the overlapped cloth is pressed on the processing plate 501.

As shown in fig. 13:

the track groove is arranged on the upper end surface of the standard plate 504, the track groove passes through the standard plate 504, and the track groove is in a specific shape.

After the standard plate 504 presses the overlapped cloth onto the processing plate 501, an operator cuts the overlapped cloth by using a cutting device through a track groove of the standard plate 504, and the track groove can increase accuracy in cutting.

As shown in fig. 13:

the two landslide settings are in the both sides of processing board 501, and the highest point of two landslide is in the up end of processing board 501, and the bottommost point of two landslide is in the lower terminal surface of processing board 501, and the distance between the upper edge of two landslide is less than the distance between the lower edge of two landslide, and the distance between the upper edge of two landslide equals the distance between two cutters 304.

When operating personnel cut the overlapped cloth, cut off leftover materials and scraps slide out of the processing plate 501 through two landslide surfaces, so that most of the scraps and the leftover materials can not stay on the processing plate 501, and the equipment is cleaned by the operating personnel more conveniently.

As shown in fig. 14:

an atomization water pump 601 is arranged on the upper end face of the machine frame 101, a water pipe 602 is connected to the lower end face of the atomization water pump 601, the water pipe 602 penetrates through the machine frame 101, a transverse water outlet is formed in the lower end of the water pipe 602, and the length of the water outlet is identical to the width of cloth.

When equipment overlaps the cloth again, start atomizing water pump 601, atomize water again via the delivery port of water pipe 602 and discharge through atomizing water pump 601, increase cloth and peripheral humidity, prevent that the cloth from accumulating static in the in-process of metal friction, prevent that static from damaging equipment and causing the injury to operating personnel.

Claims

1. A clothing cloth processing system, characterized in that: the automatic feeding device comprises a frame (101), elastic telescopic rods I (102), pressing plates (103), blades (104), elastic telescopic rods II (105), a movable seat (106), telescopic rods I (107), a movable plate (108) and a cloth roll (109), wherein the two elastic telescopic rods I (102) are fixed on the frame (101), the pressing plates (103) are respectively fixed at the other ends of the two elastic telescopic rods I (102), the blades (104) are respectively and fixedly connected with the two pressing plates (103), the movable seat (106) is slidably connected on the frame (101), the two ends of the telescopic rods I (107) are respectively fixed on the movable seat (106) and the frame (101), the elastic telescopic rods II (105) are fixedly connected to the lower end face of the movable seat (106), the movable plate (108) is fixed at the other ends of the elastic telescopic rods II (105), and the cloth roll (109) rotates on the frame (101);

both sides of the moving plate (108) are of a rounded design;

the telescopic device further comprises a sliding block (201) and a telescopic rod II (202), wherein the telescopic rod II (202) is fixedly connected to the frame (101), the sliding block (201) is fixedly connected to the other end of the telescopic rod II (202), and the sliding block (201) slides on the frame (101);

the automatic cutting machine further comprises a sliding frame (301), a telescopic rod III (302), lifting plates (303) and cutters (304), wherein the sliding frame (301) slides in the machine frame (101), the telescopic rod III (302) is vertically fixed on the sliding frame (301), the lifting plates (303) are fixedly connected to the upper end face of the telescopic rod III (302), and two cutters (304) are fixed on two sides of the lifting plates (303);

still include bracing piece (401), dwang (402) and motor I (403), bracing piece (401) rotate and connect below frame (101), dwang (402) rotate and connect below frame (101), motor I (403) are installed in frame (101) side and motor I (403) output shaft and dwang (402) rotate and are connected.

2. A clothing cloth processing system as claimed in claim 1 wherein: the device further comprises a processing plate (501), springs (502) and a buffer plate (503), wherein the processing plate (501) is fixedly connected to the frame (101), the buffer plate (503) slides on the processing plate (501), and two ends of the springs (502) are respectively fixed on the processing plate (501) and the buffer plate (503).

3. A clothing cloth processing system as claimed in claim 2, wherein: the motor II (505) is installed on the upper end face of the machining plate (501) and drives the transmission wheel (506).

4. A clothing cloth processing system as claimed in claim 3 wherein: the standard plate (504) is provided with track grooves.

5. A clothing cloth processing system as claimed in claim 4 wherein: two landslide are arranged on two sides of the processing plate (501).

6. A clothing cloth processing system as claimed in claim 5 wherein: the device also comprises an atomization water pump (601) and a water pipe (602), wherein the atomization water pump (601) is arranged on the upper end face of the frame (101), and the water pipe (602) penetrates through the frame (101) to be connected with the atomization water pump (601).