CN216338693U

CN216338693U - Cloth cutting machine for clothing production

Info

Publication number: CN216338693U
Application number: CN202123178240.5U
Authority: CN
Inventors: 赵善彬
Original assignee: Tianjin Xinxuyuan Garment Co ltd
Current assignee: Tianjin Xinxuyuan Garment Co ltd
Priority date: 2021-12-16
Filing date: 2021-12-16
Publication date: 2022-04-19
Anticipated expiration: 2031-12-16

Abstract

The utility model relates to a cloth cutting machine for clothing production. The device comprises a rack, wherein two translation bases are arranged on the rack, a cross beam is arranged between the translation bases, and a translation driving assembly is arranged on one of the translation bases; a cloth cutting assembly is arranged on the cross beam; the cloth cutting assembly comprises a transverse moving substrate, and a transverse moving driving assembly is arranged at the rear part of the transverse moving substrate; a door-shaped frame is fixedly arranged at the front part of the transverse moving substrate, and a cutter substrate is arranged at the bottom of the door-shaped frame; a guide rod is arranged in the door-shaped frame, a lifting slide block is arranged on the guide rod, an axle seat is arranged on the lifting slide block, and a rotary table is arranged at the front end of the axle seat; the upper part of the cutter substrate is provided with a rotary base, the lower part of the cutter substrate is provided with a cutter base, the rotary base and the cutter base are internally provided with a cutter in a penetrating way, the upper end of the cutter is provided with a rotary connector, and the rotary connector is connected with the turntable by adopting a connecting rod. The cloth cutting machine is reasonable in structural design and high in cloth cutting efficiency.

Description

Cloth cutting machine for clothing production

Technical Field

The utility model belongs to the technical field of garment processing equipment, and particularly relates to a cloth cutting machine for garment production.

Background

The cloth cutting machine is generally used in the field of clothing processing, and is used for cutting cloth, generally, continuous cloth is cut in a segmented mode, and coiled cloth is divided into a plurality of cloth sections so as to facilitate subsequent processing operation. The cloth cutting machine generally comprises a table for supporting the cloth and a cloth cutting device for cutting the cloth, wherein the cloth cutting device moves along a set path to complete the sectional cutting processing of the cloth.

The action of the existing cloth cutting machine is complex, after the cutting operation of cutting a cloth section is carried out, the cloth cutting device and the cutting tool bit are reset to the original position, then the cloth roll is unreeled again, and the cloth cutting device is started again to move and the cutting tool bit is cut to make the cutting action. The cloth cutting machine with the operation mode is low in cloth cutting efficiency, the requirement for large-scale processing of clothes is difficult to meet, and the structure of the cloth cutting machine needs to be optimally designed so as to improve the cloth cutting efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides the cloth cutting machine for producing the clothes, which is reasonable in structural design and high in cloth cutting processing efficiency, and aims to solve the technical problems in the prior art.

The technical scheme adopted by the utility model for solving the technical problems in the prior art is as follows: a cloth cutting machine for clothing production comprises a rack, wherein two translation bases which are oppositely arranged and can reciprocate along the length direction of the rack are arranged on the rack, a cross beam is arranged between the two translation bases, and a translation driving assembly is arranged on one translation base; a cloth cutting assembly which reciprocates along the length direction of the beam is arranged on the beam; the cloth cutting assembly comprises a transverse moving substrate, and a transverse moving driving assembly is arranged at the rear part of the transverse moving substrate; a door-shaped frame is fixedly arranged at the front part of the transverse moving substrate, and a cutter substrate is arranged at the bottom of the door-shaped frame; a guide rod is arranged in the door-shaped frame, a lifting slide block is arranged on the guide rod, an axle seat is arranged on the lifting slide block, and a rotary table is arranged at the front end of the axle seat; the rotary cutter comprises a cutter base, a rotary connector, a first driving assembly, a second driving assembly, a rotary base and a rotary connecting rod, wherein the rotary base is arranged on the upper portion of the cutter base plate, the cutter base is arranged on the lower portion of the cutter base plate, a cutter penetrates through the rotary base and the cutter base, the rotary connector is arranged at the upper end of the cutter, the rotary connector is connected with a rotary table through the connecting rod, and the rotary cutter further comprises a first driving assembly for driving the rotary table and a second driving assembly for driving the rotary base.

The utility model has the advantages and positive effects that:

compared with the existing cloth cutting machine, the cloth cutting machine with reasonable structural design for clothing production achieves the technical effect that after cloth cutting of one cloth section, the cloth section is automatically reset to the original position for next cloth cutting through the cloth cutting device capable of moving in a reciprocating and translation mode, and achieves a continuous and circulating cloth cutting process. Through setting up the cloth cutting subassembly that can be along the reciprocal sideslip of crossbeam removal, realized continuous type, circulating cloth cutting processing action. Through making the cutter install in gyration base and cutter base and the top of cutter is connected with the carousel through gyration connector and connecting rod, make the cutter can controlled accent the direction, like this when the in-process that the cloth cutting assembly made the sideslip removal from one end to the other end accomplishes once more cutting the cloth, reach the in-process that the cloth cutting assembly turned the direction and the cloth cutting assembly made the sideslip removal that resets again and accomplish cutting of cloth, the cloth cutting assembly accomplishes twice cloth cutting operation in the in-process that once reciprocates promptly, therefore greatly promoted the efficiency of cloth cutting processing, satisfy the requirement of clothing mass production processing to equipment.

Preferably: the rotary connector comprises an inner sleeve and an outer sleeve which can rotate relatively, the upper end of the inner sleeve is hinged with the lower end of the connecting rod, the upper end of the connecting rod is eccentrically hinged with the turntable, and the lower end of the outer sleeve is fixedly connected with the upper end of the cutter.

Preferably: the rotary base comprises a rotary platform which is arranged on the cutter substrate by adopting a shaft seat, and the middle part of the rotary platform is provided with a strip-shaped hole for the cutter to pass through; the second driving assembly is a rotary motor arranged on the cutter substrate, a driving gear is arranged on a motor shaft of the rotary motor, teeth are arranged on the side part of the rotary platform, and the driving gear is meshed with the rotary platform; the cutter base comprises a rotary block which is arranged at the bottom of the cutter substrate by adopting a support and a shaft seat, and a strip-shaped hole for the cutter to pass through is formed in the middle of the rotary block.

Preferably: the first driving assembly is a cutter driving motor arranged on the back of the lifting slide block, and a motor shaft of the cutter driving motor is in butt joint connection with a rotating shaft of the rotating disc.

Preferably: the transverse moving mechanism comprises a transverse moving rack and a transverse moving guide rail, a transverse moving slide block which moves along the transverse moving guide rail is arranged at the bottom of a transverse moving base plate, a transverse moving driving assembly comprises a top driving master gear and a top driving transmission gear which are coaxially arranged at the rear part of the transverse moving base plate, the top driving transmission gear is in meshing transmission with the transverse moving rack, and a transverse moving driving motor which drives the top driving master gear is further arranged on a cutter base plate.

Preferably: a translation rack and a translation guide rail are arranged on the side part of the frame; the translation base includes that the inboard installs the translation curb plate of translation slider, and translation drive assembly includes coaxial arrangement's side drive master gear and side drive gear on the translation curb plate, and translation slider removes along the translation guide rail, and side drive gear meshes the transmission with the translation rack.

Preferably: the front parts of the two translation bases are respectively provided with a cloth unreeling assembly, the cloth unreeling assembly comprises a support fixed with the translation bases, the root of the support is provided with a coaxial root belt pulley and a root transmission gear, the outer end of the support is provided with a coaxial end belt pulley and a cloth shaft sleeve, the root transmission gear is meshed with the translation rack on the side for transmission, and the root belt pulley and the end belt pulley are in belt transmission.

Preferably: a straight table top is arranged at the top of the frame, and the edge of the table top is fixedly connected with the frame.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the cloth cutting apparatus of FIG. 1;

FIG. 3 is a schematic view of the translating base and cloth cutting assembly of FIG. 2, from a lower perspective;

fig. 4 is a schematic view of the cloth cutting assembly of fig. 2, from an upper perspective.

In the figure:

1. a frame; 2. a translation rack; 3. a translation guide rail; 4. a cloth unwinding assembly; 4-1, a root belt pulley; 4-2, a bracket; 4-3, end belt pulley; 4-4, distributing a shaft sleeve; 4-5, a root transmission gear; 5. a translation base; 5-1, translating the side plate; 5-2, translating the sliding block; 5-3, side-driving main gear; 5-4, a side drive transmission gear; 6. a cross beam; 7. transversely moving the rack; 8. transversely moving the guide rail; 9. a cloth cutting assembly; 9-1, top drive main gear; 9-2, a top drive transmission gear; 9-3, transversely moving the sliding block; 9-4, transversely moving the substrate; 9-5, a door-shaped frame; 9-6, a cutter substrate; 9-7, a cutter base; 9-8, a transverse moving driving motor; 9-9, a guide rod; 9-10, a turntable; 9-11, connecting rod; 9-12, a rotary motor; 9-13, a rotary connector; 9-14, a rotating base; 10. a table-board.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are described in detail.

Referring to fig. 1 and 2, the cloth cutting machine for producing clothes of the present invention includes a frame 1, a cloth cutting device mounted on the frame 1, and a cloth cutting assembly 9 mounted on the cloth cutting device. The frame 1 is made of metal section bars by welding, in the embodiment, a straight table top 10 is installed at the top of the frame 1, and the edge of the table top 10 is fixedly connected with the frame 1. The cut fabric sections are manually picked up on the table top 10. The whole cloth cutting device makes reciprocating translation movement along the length direction of the rack 1, and the cloth cutting assembly 9 makes reciprocating translation movement on the cloth cutting device.

Two translation bases 5 which are oppositely arranged and can reciprocate along the length direction of the machine frame 1 are arranged on the machine frame 1, and a translation driving component is arranged on one translation base 5.

As shown in the drawing, a translation rack 2 and a translation guide rail 3 are mounted on each of the right and left sides of the housing 1.

Referring to fig. 3, it can be seen that: the translation base 5 comprises a translation side plate 5-1, the inner side of which is provided with a translation sliding block 5-2, and the translation driving assembly comprises a side driving main gear 5-3 and a side driving transmission gear 5-4 which are coaxially arranged on the translation side plate 5-1, wherein the translation sliding block 5-2 moves along the translation guide rail 3, and the side driving transmission gear 5-4 is in meshing transmission with the translation rack 2. As shown in the figure, the side drive main gear 5-3 is located on the inner side of the translational side plate 5-1, and the side drive transmission gear 5-4 is located on the outer side of the translational side plate 5-1. The translation driving assembly further comprises a translation driving motor (not shown in the figure), further, a rotating shaft is installed on the translation side plate 5-1 through a shaft seat, a driving gear in meshing transmission with the side driving main gear 5-3 is installed at the outer end of the rotating shaft, the translation driving motor is installed on the inner side of the translation side plate 5-1, and a motor shaft of the translation driving motor is in butt joint connection with the rotating shaft.

The translation driving motor drives the driving gear to rotate, the driving gear drives the side driving main gear 5-3 and the side driving transmission gear 5-4 to rotate, and the side driving transmission gear 5-4 is matched with the translation rack 2 to drive the whole translation base 5 to move.

A cross beam 6 is arranged between the two translation bases 5, and two ends of the cross beam 6 are respectively welded and fixed with the translation side plates 5-1 of the two translation bases 5. A cloth cutting unit 9 is mounted on the cross beam 6 to reciprocate in the longitudinal direction of the cross beam 6.

Referring to fig. 3 and 4, it can be seen that:

the cloth cutting assembly 9 comprises a transverse moving base plate 9-4, a transverse moving driving assembly is arranged at the rear part of the transverse moving base plate 9-4, and the cloth cutting assembly 9 reciprocates along the cross beam under the driving action of the transverse moving driving assembly.

In the embodiment, a transverse moving rack 7 and a transverse moving guide rail 8 are arranged on a cross beam 6, a transverse moving slider 9-3 moving along the transverse moving guide rail 8 is arranged at the bottom of a transverse moving substrate 9-4, a transverse moving driving assembly comprises a top driving main gear 9-1 and a top driving transmission gear 9-2 which are coaxially arranged at the rear part of the transverse moving substrate 9-4, the top driving transmission gear 9-2 is in meshing transmission with the transverse moving rack 7, and a transverse moving driving motor for driving the top driving main gear 9-1 is also arranged on a cutter substrate 9-4.

As shown in the figure, the traverse driving motor drives the top driving main gear 9-1 to rotate, the top driving main gear 9-1 drives the top driving transmission gear 9-2 to rotate, the top driving main gear 9-1 is positioned above the traverse baseplate 9-4, and the top driving transmission gear 9-2 is positioned below the traverse baseplate 9-4.

A door-shaped frame 9-5 is arranged and fixed at the front part of the transverse moving substrate 9-4, and a cutter substrate 9-6 is arranged at the bottom of the door-shaped frame 9-5. A guide rod 9-9 is arranged in the door-shaped frame 9-5, a lifting slide block is arranged on the guide rod 9-9, a rotating shaft is arranged on the lifting slide block through a shaft seat, and a rotating disc 9-10 is arranged at the front end of the rotating shaft. The device also comprises a first driving component for driving the turntables 9-10 to rotate, in the embodiment, the first driving component is a cutter driving motor arranged at the back of the lifting slide block, and a motor shaft of the cutter driving motor is in butt joint connection with the rotating shaft of the turntables 9-10.

Through arranging the guide rods 9-9 and the lifting slide block and installing the rotary tables 9-10 and the cutter driving motor on the lifting slide block, the heights of the rotary tables 9-10 and the cutter driving motor can be conveniently adjusted. Specifically, after the lifting slide block and the accessory parts thereof are moved to a proper height position on the guide rods 9-9, the lifting slide block is positioned by using lateral positioning screws, so that the lifting slide block is fixed at the set height position.

A rotary base 9-14 is arranged on the upper part of the cutter base plate 9-6, a cutter base 9-7 is arranged on the lower part of the cutter base plate, a flat cutter is arranged in the rotary base 9-14 and the cutter base 9-7 in a penetrating way, a rotary connector 9-13 is arranged at the upper end of the cutter, and the rotary connector 9-13 is connected with the rotary table 9-10 by a connecting rod 9-11. The rotary bases 9-14 and the cutter bases 9-7 can rotate, and the upper ends of the cutters are connected with the connecting rods 9-11 through the rotary connectors 9-13, so that when the rotary bases 9-14 and the cutter bases 9-7 drive the cutters to rotate, the effective connection between the cutters and the connecting rods 9-11 can still be guaranteed.

In this embodiment, the rotary connector 9-13 includes an inner sleeve and an outer sleeve capable of rotating relatively, the upper end of the inner sleeve is hinged to the lower end of the connecting rod 9-11, the upper end of the connecting rod 9-11 is eccentrically hinged to the rotary table 9-10, and the lower end of the outer sleeve is fixedly connected to the upper end of the cutter. Thus, when the rotary table 9-10 rotates, the connecting rod 9-11 is eccentrically hinged with the rotary table, so that the connecting rod 9-11 can generate reciprocating push-pull action on the rotary connecting head 9-13 and the cutter below, and accordingly the lower end of the cutter generates continuous cutting action on the cloth.

In the implementation, the rotary base 9-14 comprises a rotary platform which is arranged on the cutter substrate 9-6 by adopting a shaft seat, and the middle part of the rotary platform is provided with a strip-shaped hole for the cutter to pass through; the cutter base 9-7 comprises a rotary block which is arranged at the bottom of the cutter base plate 9-6 by adopting a bracket and a shaft seat, and the middle part of the rotary block is provided with a strip-shaped hole for the cutter to pass through. When the cutter does the cutting action, the cutter moves in the strip-shaped holes on the rotary bases 9-14 and the cutter bases 9-7 in an inserting mode, when the rotary bases 9-14 are driven to rotate in a rotating mode, the cutter rotates along with the rotary bases, and the cutter bases 9-7 at the bottom of the rotary bases rotate along with the rotary bases.

The cutting machine is characterized by further comprising a second driving assembly for driving the rotary bases 9-14, the second driving assembly is a rotary motor 9-12 installed on the cutter base plate 9-6, a driving gear is installed on a motor shaft of the rotary motor 9-12, teeth are arranged on the side portion of the rotary platform, the driving gear is meshed with the rotary platform, when the direction of the cutter needs to be adjusted, the rotary motor 9-12 drives the rotary bases 9-14 and the cutter bases 9-7 to rotate 180 degrees, and the cutter also rotates 180 degrees and faces the opposite direction.

The front parts of the two translation bases 5 are provided with cloth unwinding assemblies 4, a cloth roll is loaded between the two cloth unwinding assemblies 4, and the cloth roll is actively unwound along with the movement of the cloth cutting device from one end of the rack 1 to the other end. In this embodiment, the cloth unwinding assembly 4 includes a support 4-2 fixed to a translation side plate 5-1 of the translation base 5, a root belt pulley 4-1 and a root transmission gear 4-5 which are coaxial are installed at a root of the support 4-2, an end belt pulley 4-3 and a cloth shaft sleeve 4-4 which are coaxial are installed at an outer end of the support 4-2, the root transmission gear 4-5 is in meshing transmission with the translation rack 2 at the side, and the root belt pulley 4-1 and the end belt pulley 4-3 are in belt transmission. Thus, when the translation base 5 moves along the translation track 3, due to the transmission effect between the root transmission gear 4-5 and the translation rack 2, the root belt pulley 4-1 rotates, and then the end belt pulley 4-3 drives the cloth shaft sleeves 4-4 to rotate, and the cloth roll loaded between the two cloth shaft sleeves 4-4 synchronously rotates to unreel the cloth.

The working process is as follows:

loading a cloth roll between two cloth unwinding assemblies 4; starting the cloth cutting machine, wherein the cloth cutting machine makes translational movement from one end of the rack 1 to the other end, a cloth roll is unreeled, the unreeled cloth is flatly laid on the table top 10, the cloth cutting device stops moving after the cloth roll reaches the other end, then the cloth cutting assembly 9 moves in a transverse manner from one end of the cross beam 6 to the other end, and in the moving process, the cutter driving motor drives the cutter to move up and down through the rotary disc 9-10 and the connecting rod 9-11 to cut the cloth; the cloth cutting assembly 9 is stopped after moving to the other end of the cross beam 6;

then the cloth cutting device reversely translates to the initial position, in the process, as the cloth roll reversely rotates, the cloth cannot be unreeled, meanwhile, the position of the cloth cutting assembly 9 is kept still, and the cutter rotates 180 degrees;

after the cloth cutting device moves to the initial position, the translation action is repeated, in the process, the cloth roll is unreeled again, and the cloth cutting assembly 9 moves from the other end of the cross beam 6 to the initial position in a transverse moving mode to finish the cutting of the cloth; the above steps are repeated to continuously cut the cloth, and a plurality of cloth segments are obtained and are overlaid and spread on the table top 10.

Claims

1. A cloth cutting machine for clothing production is characterized in that: the device comprises a rack (1), wherein two translation bases (5) which are oppositely arranged and can reciprocate along the length direction of the rack (1) are arranged on the rack (1), a cross beam (6) is arranged between the two translation bases (5), and a translation driving assembly is arranged on one translation base (5); a cloth cutting assembly (9) which reciprocates along the length direction of the beam (6) is arranged on the beam (6);

the cloth cutting assembly (9) comprises a transverse moving substrate (9-4), and a transverse moving driving assembly is arranged at the rear part of the transverse moving substrate (9-4); a door-shaped frame (9-5) is fixedly arranged at the front part of the transverse moving substrate (9-4), and a cutter substrate (9-6) is arranged at the bottom of the door-shaped frame (9-5); a guide rod (9-9) is arranged in the door-shaped frame (9-5), a lifting slide block is arranged on the guide rod (9-9), a shaft seat is arranged on the lifting slide block, and a rotary table (9-10) is arranged at the front end of the shaft seat; the cutting machine comprises a rotary base (9-14) arranged on the upper portion of a cutter base plate (9-6), a cutter base (9-7) arranged on the lower portion of the cutter base plate, a cutter penetrating through the rotary base (9-14) and the cutter base (9-7), a rotary connector (9-13) arranged at the upper end of the cutter, a connecting rod (9-11) connected between the rotary connector (9-13) and a rotary table (9-10), a first driving assembly driving the rotary table (9-10) and a second driving assembly driving the rotary base (9-14).

2. The cloth cutter for clothing production as claimed in claim 1, wherein: the rotary connector (9-13) comprises an inner sleeve and an outer sleeve which can rotate relatively, the upper end of the inner sleeve is hinged with the lower end of the connecting rod (9-11), the upper end of the connecting rod (9-11) is eccentrically hinged with the rotary table (9-10), and the lower end of the outer sleeve is fixedly connected with the upper end of the cutter.

3. The cloth cutter for clothing production as claimed in claim 2, wherein: the rotary base (9-14) comprises a rotary platform which is arranged on the cutter substrate (9-6) by adopting a shaft seat, and the middle part of the rotary platform is provided with a strip-shaped hole for the cutter to pass through; the second driving assembly is a rotary motor (9-12) arranged on the cutter substrate (9-6), a driving gear is arranged on a motor shaft of the rotary motor (9-12), teeth are arranged on the side of the rotary platform, and the driving gear is meshed with the rotary platform; the cutter base (9-7) comprises a rotary block which is arranged at the bottom of the cutter base plate (9-6) by adopting a support and a shaft seat, and the middle part of the rotary block is provided with a strip-shaped hole for the cutter to pass through.

4. The cloth cutter for clothing production as claimed in claim 3, wherein: the first driving component is a cutter driving motor arranged on the back of the lifting slide block, and a motor shaft of the cutter driving motor is in butt joint connection with a rotating shaft of the rotating disc (9-10).

5. The cloth cutter for clothing production as claimed in claim 4, wherein: the transverse moving mechanism is characterized in that a transverse moving rack (7) and a transverse moving guide rail (8) are installed on the transverse beam (6), a transverse moving slider (9-3) moving along the transverse moving guide rail (8) is installed at the bottom of a transverse moving base plate (9-4), a transverse moving driving assembly comprises a top driving main gear (9-1) and a top driving transmission gear (9-2) which are coaxially installed at the rear part of the transverse moving base plate (9-4), the top driving transmission gear (9-2) is in meshing transmission with the transverse moving rack (7), and a transverse moving driving motor (9-8) for driving the top driving main gear (9-1) is further installed on the cutter base plate (9-6).

6. The cloth cutter for clothing production as claimed in claim 5, wherein: a translation rack (2) and a translation guide rail (3) are arranged on the side part of the frame (1); the translation base (5) comprises a translation side plate (5-1) with a translation sliding block (5-2) arranged on the inner side, the translation driving assembly comprises a side driving main gear (5-3) and a side driving transmission gear (5-4) which are coaxially arranged on the translation side plate (5-1), the translation sliding block (5-2) moves along the translation guide rail (3), and the side driving transmission gear (5-4) is in meshing transmission with the translation rack (2).

7. The cloth cutter for clothing production as claimed in claim 6, wherein: the cloth unreeling component (4) is mounted at the front parts of the two translation bases (5), the cloth unreeling component (4) comprises a support (4-2) fixed with the translation bases (5), a root belt pulley (4-1) and a root transmission gear (4-5) which are coaxial are mounted at the root part of the support (4-2), a coaxial end belt pulley (4-3) and a cloth shaft sleeve (4-4) are mounted at the outer end of the support (4-2), the root transmission gear (4-5) is in meshing transmission with the translation rack (2) at the side, and the root belt pulley (4-1) and the end belt pulley (4-3) are in belt transmission.

8. The cloth cutter for clothing production as claimed in claim 7, wherein: a straight table top (10) is arranged at the top of the frame (1), and the edge of the table top (10) is fixedly connected with the frame (1).