CN215913439U - Board carving machine for customizing clothes - Google Patents

Abstract

The application relates to the technical field of garment processing, in particular to a carving machine for customized garments, which comprises a rack, a platform, a driving assembly, an adjusting assembly and a carving mechanism, wherein the platform is arranged on the rack, the driving assembly is arranged on the platform, and the carving mechanism comprises a carving plate, a sliding assembly and a fixing assembly; the sliding component comprises a sliding block, two supporting blocks and a cross beam, the two supporting blocks slide on two sides of the platform, and the driving component is connected with the supporting blocks; the cross beam is arranged between the two support blocks, and the adjusting assembly is arranged on the cross beam; the sliding block slides on the crossbeam, fixed subassembly sets up on the sliding block, the board of carving the board with fixed subassembly is connected. The maintenance is conveniently dismantled to this application carving plate spare, has the effect that reduces the wasting of resources.

Description

Board carving machine for customizing clothes

Technical Field

The application relates to the technical field of garment processing, in particular to a carving machine for customizing garments.

Background

At present, the clothing template is one of the most advanced processes in the current clothing production, simplifies and standardizes the complex procedures, improves the efficiency, reduces the reject ratio of quality, improves the stability of quality and production time, and reduces the degree of dependence on high-skill personnel.

Chinese patent No. CN204450647U discloses a template cutting machine, which comprises a frame, wherein a frame is arranged on the frame; the frame is formed into a rectangle with a cavity by four cross bars; a guide rail is arranged on the platform; a cross beam is erected on the guide rail, and a cutting assembly slides on the cross beam; the template is placed on the platform, and the template is carved by the starting and cutting assembly.

In the process of realizing the application, the inventor finds that at least the following problems exist in the technology, when the cutting assembly is integrally damaged, the whole cutting assembly cannot be detached and overhauled, and the damaged cutting assembly can only be discarded, so that the resource waste is caused.

SUMMERY OF THE UTILITY MODEL

In order to reduce the waste of resources, this application provides a carving board machine that customization clothing was used.

The application provides a carving board machine that customization clothing was used adopts following technical scheme:

a plate engraving machine for customizing clothes comprises a rack, a platform, a driving assembly, an adjusting assembly and a plate engraving mechanism, wherein the platform is arranged on the rack, the driving assembly is arranged on the platform, and the plate engraving mechanism comprises a plate engraving part, a sliding assembly and a fixing assembly; the sliding component comprises a sliding block, two supporting blocks and a cross beam, the two supporting blocks slide on the two side walls of the platform respectively, and the driving component is connected with the supporting blocks; the cross beam is arranged between the two support blocks, and the adjusting assembly is arranged on the cross beam; the sliding block slides on the cross beam and is connected with the adjusting component; the fixed subassembly sets up on the sliding block, the board of carving the board with fixed subassembly is connected.

By adopting the technical scheme, the engraving plate piece is fixed on the cross beam through the fixing component, the template is placed on the platform, the driving component drives the supporting block to slide along the platform, the adjusting component drives the engraving plate piece on the cross beam to slide, and the engraving plate piece engraves the template on the platform; when the plate carving piece is damaged, the plate carving machine can be detached and replaced through the fixing assembly, the phenomenon that the whole plate carving machine is abandoned due to the damage of the plate carving piece is reduced, and the resource utilization rate is improved.

Optionally, the fixed subassembly includes mounting panel and mounting bolt, the mounting panel sets up on the carving board piece, mounting bolt passes mounting panel threaded connection is in on the sliding block.

Through adopting above-mentioned technical scheme, carving the board and contradict with the sliding block, mounting bolt passes mounting panel threaded connection on the sliding block, and mounting bolt can be fixed with carving the board, reaches the convenient effect of dismantling of carving the board.

Optionally, a sliding block is slidably arranged on a side wall of the platform, and the driving assembly is connected with the sliding block; the supporting block is provided with a connecting assembly, and the connecting assembly comprises a first connecting plate, a second connecting plate, a connecting bolt and a connecting nut; the first connecting plate is arranged on the supporting block, the second connecting plate is arranged on the sliding block, the connecting bolt sequentially penetrates through the first connecting plate and the second connecting plate, and the connecting nut is in threaded connection with one end, penetrating through the second connecting plate, of the connecting bolt.

Through adopting above-mentioned technical scheme, first connecting plate on the supporting shoe is contradicted with the second connecting plate on the slider, and connecting bolt passes first connecting plate and second connecting plate and coupling nut threaded connection in proper order, reaches supporting shoe detachable effect, makes things convenient for the maintenance of carving the board mechanism.

Optionally, the driving assembly includes a rotating motor and a first lead screw, the rotating motor is disposed on the side wall of the platform, and the first lead screw is disposed on an output shaft of the rotating motor; the first lead screw penetrates through the sliding block, and the first lead screw is in threaded connection with the sliding block.

Through adopting above-mentioned technical scheme, start the rotation motor, rotate the motor and drive first lead screw and rotate, first lead screw drives the slider and slides, and the slider drives the supporting shoe and slides, and the supporting shoe drives the crossbeam and slides, and the crossbeam drives the length direction of carving the plate and sliding along the platform.

Optionally, the adjusting assembly includes an adjusting motor and a second lead screw, the adjusting motor is disposed on the cross beam, the second lead screw is disposed on an output shaft of the adjusting motor, the second lead screw passes through the sliding block, and the second lead screw is in threaded connection with the sliding block.

And starting the adjusting motor, wherein the adjusting motor drives the second lead screw to rotate, the second lead screw drives the sliding block to slide, and the sliding block drives the engraving plate to slide along the length direction of the cross beam.

Optionally, the cross beam is rotatably arranged between the two supporting blocks, a mounting cavity is formed in each supporting block, a turning assembly is arranged in each mounting cavity, and each turning assembly is connected with the cross beam.

Through adopting above-mentioned technical scheme, it is less apart from the clearance of platform, inconvenient dismantlement to carve the board, for convenient dismantlement, drives the crossbeam upset with the upset subassembly, and the crossbeam drives and carves the board and rotate to the position that is on a parallel with the platform, and operating personnel dismantles carving the board, has improved the convenience of dismantlement, has improved work efficiency.

Optionally, the overturning assembly includes an overturning motor, a driving gear, a driven gear and a rotating shaft, the overturning motor is arranged on the side wall of the installation cavity, and the driving gear is arranged on an output shaft of the overturning motor; the axis of rotation sets up on the crossbeam, just the axis of rotation is kept away from the one end of crossbeam is located the installation intracavity, driven gear sets up and is located the installation intracavity the axis of rotation is last, driven gear with the driving gear meshing.

Through adopting above-mentioned technical scheme, start the upset motor, the upset motor drives the driving gear and rotates, and the driving gear drives driven gear and rotates, and driven gear drives the axis of rotation and rotates, and the axis of rotation drives the crossbeam upset, reduces the manpower and removes the rotation crossbeam, has improved resource utilization.

Optionally, a dust removal assembly is arranged on the cross beam, the dust removal assembly comprises a dust collection box, a telescopic pipe, a dust collection block and a suction fan, the dust collection box is arranged on the ground, the suction fan is arranged on the dust collection box, the air exhaust end of the suction fan is communicated with the dust collection box, the dust collection block is arranged on the carving plate, and an air inlet is formed in the dust collection block; the telescopic pipe is arranged on the dust collection box, one end of the telescopic pipe, which is far away from the dust collection box, is connected with the dust collection block, and the air inlet is communicated with the telescopic pipe.

By adopting the technical scheme, the suction fan is started, the suction fan sucks air in the dust suction box, and the dust suction box forms negative pressure, so that the air inlet hole in the dust suction block is driven to suck dust, dust carried by the template is reduced, and clothes are polluted.

To sum up, the application comprises the following beneficial technical effects:

1. the engraving plate piece is detachable, so that the phenomenon that the whole equipment is discarded due to damage is reduced, and the resource utilization rate is improved;

2. the turnover assembly drives the cross beam to turn over, and the space for disassembling the engraving plate is enlarged, so that the engraving plate is more convenient to disassemble;

3. the dust collection assembly can collect dust, and pollution of dust carried by the template to clothes is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of a panel cutter for customizing a garment according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a glide assembly in an embodiment of the present application;

fig. 3 is a schematic structural diagram of an overturning assembly in the embodiment of the present application.

Reference numerals: 11. a frame; 12. a platform; 121. a slider; 13. a drive assembly; 131. rotating the motor; 132. a first lead screw; 14. an adjustment assembly; 141. adjusting the motor; 142. a second lead screw; 2. a plate engraving mechanism; 21. plate engraving members; 22. a slipping component; 221. a support block; 222. a cross beam; 223. a slider; 23. a fixing assembly; 231. mounting a plate; 232. installing a bolt; 3. a connecting assembly; 31. a first connecting plate; 32. a second connecting plate; 33. a connecting bolt; 34. a connecting nut; 4. a turnover assembly; 41. turning over a motor; 42. a driving gear; 43. a driven gear; 44. a rotating shaft; 5. a dust removal assembly; 51. a dust collection box; 52. a telescopic pipe; 53. a dust absorption block; 54. a suction fan.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses carving machine that custom-made clothing was used.

Referring to fig. 1, the engraving machine for customizing clothes comprises a frame 11, wherein a platform 12 is arranged on the frame 11, and an engraving mechanism 2 is arranged on the platform 12.

The template is placed on a platform 12 and is engraved by the engraving mechanism 2.

Referring to fig. 1 and 2, the platform 12 is fixedly connected to one end of the frame 11 far away from the ground, two first slide rails are fixedly connected to two sides of the platform 12 in the length direction, and the two first slide rails are connected with a sliding block 121 in a sliding manner.

A driving assembly 13 is arranged on the platform 12, the driving assembly 13 comprises a rotating motor 131, the rotating motor 131 is fixedly connected to the side wall of the platform 12, and the rotating motor 131 is positioned at one end of the platform 12; an output shaft of the rotating motor 131 is connected with a first lead screw 132, the first lead screw 132 is rotatably connected to the side wall of the platform 12, the first lead screw 132 is parallel to the first slide rail, the first lead screw 132 penetrates through the slide block 121, and the first lead screw 132 is in threaded connection with the slide block 121.

The rotating motor 131 is started, the first rotating motor 131 drives the first lead screw 132 to rotate, the first lead screw 132 drives the slider 121 to slide along the first slide rail, and the first slide rail drives the supporting block 221 to slide.

Referring to fig. 1 and 2, the engraving mechanism 2 includes a sliding assembly 22, the sliding assembly 22 includes two supporting blocks 221, and the two supporting blocks 221 respectively abut against the two sliders 121.

The supporting block 221 is provided with a connecting assembly 3, the connecting assembly 3 comprises a first connecting plate 31, the first connecting plate 31 is fixedly connected to one end of the supporting block 221 close to the slider 121, and a first connecting hole is formed in the first connecting plate 31; a second connecting plate 32 is fixedly connected to one side of the sliding block 121 far away from the first sliding rail, and a second connecting hole is formed in the second connecting plate 32; the first connecting plate 31 and the second connecting plate 32 abut against each other; a connecting bolt 33 is arranged on the first connecting plate 31, the connecting bolt 33 sequentially penetrates through the first connecting hole and the second connecting hole, and a nut of the connecting bolt 33 is abutted against the first connecting plate 31; one end of the connecting bolt 33 passing through the second connecting hole is connected with a connecting nut 34 in a threaded manner, and the connecting nut 34 abuts against the second connecting plate 32.

Referring to fig. 1 and 3, a cross beam 222 is rotatably connected between two supporting blocks 221, a mounting cavity is formed in each supporting block 221, a turnover assembly 4 is arranged in each mounting cavity, each turnover assembly 4 comprises a turnover motor 41, each turnover motor 41 is fixedly connected to a side wall of each mounting cavity, and an output shaft of each turnover motor 41 is in keyed connection with a driving gear 42; a rotating shaft 44 is rotatably connected to the supporting block 221, one end of the rotating shaft 44 is located in the installation cavity, and a driven gear 43 is connected to the rotating shaft 44 located in the installation cavity in a key mode; the driven gear 43 is meshed with the driving gear 42; the cross beam 222 is fixedly connected with one end of the rotating shaft 44 far away from the driven gear 43.

The turnover motor 41 is started, the turnover motor 41 drives the driving gear 42 to rotate, the driving gear 42 rotates to drive the driven gear 43 to rotate, the driven gear 43 drives the rotating shaft 44 to rotate, and the rotating shaft 44 drives the cross beam 222 to rotate.

Referring to fig. 1 and 2, two second sliding rails are fixedly connected to the cross beam 222 along the length direction thereof, a sliding block 223 is connected to the two second sliding rails in a sliding manner, a carved plate 21 is arranged on the sliding block 223, and the carved plate 21 abuts against the sliding block 223; the carving plate member 21 is provided with a fixing assembly 23, the fixing assembly 23 comprises an installation plate 231, the installation plate 231 is fixedly connected to one side of the carving plate member 21 close to the sliding block 223, a plurality of installation holes are formed in the installation plate 231, and the installation plate 231 is abutted against the sliding block 223; one side of the sliding block 223 close to the carving plate 21 is provided with a plurality of threaded holes, the mounting plate 231 is provided with a mounting bolt 232, and the mounting bolt 232 penetrates through the mounting hole in the mounting plate 231 and is in threaded connection with the threaded hole in the sliding block 223.

Referring to fig. 1 and 3, the adjusting assembly 14 is arranged on the cross beam 222, the adjusting assembly 14 includes a second lead screw 142, the second lead screw 142 is rotatably connected to the cross beam 222, the second lead screw 142 passes through a sliding block 223, the second lead screw 142 is in threaded connection with the sliding block 223, one end of the cross beam 222 is fixedly connected with an adjusting motor 141, the adjusting motor 141 is located between the two second sliding rails, and an output shaft of the adjusting motor 141 is connected with one end of the second lead screw 142.

The adjusting motor 141 is started, the adjusting motor 141 drives the second lead screw 142 to rotate, and the second lead screw 142 drives the sliding block 223 to slide on the cross beam 222.

Referring to fig. 1 and 2, a dust removing assembly 5 is arranged on the ground, the dust removing assembly 5 includes a dust suction box 51, the dust suction box 51 is placed on the ground, a suction fan 54 is fixedly connected to a side wall of the dust suction box 51, an air suction end of the suction fan 54 is communicated with the dust suction box 51, a telescopic pipe 52 is fixedly connected to the dust suction box 51, the telescopic pipe 52 is communicated with the dust suction box 51, a dust suction block 53 is fixedly connected to one end, away from the dust suction box 51, of the telescopic pipe 52, the dust suction block 53 is fixedly connected to one side, close to the adjusting motor 141, of the engraving plate 21, an air inlet cavity is formed in the dust suction block 53, the air inlet cavity is communicated with the telescopic pipe 52, a plurality of air inlet holes are formed in a side wall, close to the platform 12, of the dust suction block 53, and the air inlet holes are communicated with the air inlet cavity.

The implementation principle of the plate engraving machine for customizing the clothes in the embodiment of the application is as follows: the supporting block 221 is abutted against the sliding block 121, and the connecting bolt 33 sequentially penetrates through the first connecting hole and the second connecting hole to be in threaded connection with the connecting nut 34; the carved plate member 21 is abutted against the sliding block 223, and the mounting bolt 232 is threaded in the threaded hole through the mounting hole.

Placing the template on the platform 12, starting the rotating motor 131, driving the first lead screw 132 to rotate by the rotating motor 131, driving the sliding block 121 to slide by the first lead screw 132, driving the supporting block 221 to slide along the length direction of the platform 12 by the sliding block 121, starting the adjusting motor 141, driving the second lead screw 142 to rotate by the adjusting motor 141, driving the sliding block 223 to slide along the length direction of the cross beam 222 by the second lead screw 142, driving the engraving member 21 to slide by the sliding block 223, and engraving the template; the suction fan 54 is started, the suction fan 54 sucks air in the dust suction box 51, negative pressure is formed in the dust suction box 51, and dust enters the air inlet cavity of the dust suction block 53 through the air inlet hole and then tightly enters the dust suction box 51 through the extension tube 52.

When the engraving member 21 is damaged or needs to be maintained, the overturning motor 41 is driven, the overturning motor 41 drives the driving gear 42 to rotate, the driving gear 42 drives the driven gear 43 to rotate, the driven gear 43 drives the rotating shaft 44 to rotate, the rotating shaft 44 drives the beam 222 to rotate, and the beam 222 rotates to a proper position to maintain the engraving member 21; after the maintenance is finished, the turnover motor 41 rotates reversely, and the beam 222 rotates to the initial position.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A carving machine for customizing clothes comprises a rack (11), a platform (12), a driving component (13), an adjusting component (14) and a carving mechanism (2), wherein the platform (12) is arranged on the rack (11), and the driving component (13) is arranged on the platform (12), and is characterized in that the carving mechanism (2) comprises a carving piece (21), a sliding component (22) and a fixing component (23); the sliding assembly (22) comprises a sliding block (223), two supporting blocks (221) and a cross beam (222), the two supporting blocks (221) slide on two side walls of the platform (12) respectively, and the driving assembly (13) is connected with the supporting blocks (221); the cross beam (222) is arranged between the two supporting blocks (221), and the adjusting component (14) is arranged on the cross beam (222); the sliding block (223) slides on the cross beam (222), and the sliding block (223) is connected with the adjusting component (14); the fixed component (23) is arranged on the sliding block (223), and the carving piece (21) is connected with the fixed component (23).

2. The engraving machine for customizing clothes according to claim 1, characterized in that said fixing assembly (23) comprises a mounting plate (231) and a mounting bolt (232), said mounting plate (231) being arranged on said engraving member (21), said mounting bolt (232) being screwed on said sliding block (223) through said mounting plate (231).

3. Engraving machine for customized garments according to claim 2, characterized in that the side walls of said platform (12) are slidably provided with a slider (121), said driving assembly (13) being connected to said slider (121); the supporting block (221) is provided with a connecting assembly (3), and the connecting assembly (3) comprises a first connecting plate (31), a second connecting plate (32), a connecting bolt (33) and a connecting nut (34); the first connecting plate (31) is arranged on the supporting block (221), the second connecting plate (32) is arranged on the sliding block (121), the connecting bolt (33) sequentially penetrates through the first connecting plate (31) and the second connecting plate (32), and the connecting nut (34) is in threaded connection with one end, through which the connecting bolt (33) penetrates through the second connecting plate (32).

4. Engraving machine for customized garments according to claim 3, characterized in that said driving assembly (13) comprises a rotating motor (131) and a first lead screw (132), said rotating motor (131) being arranged on the side wall of said platform (12), said first lead screw (132) being arranged on the output shaft of said rotating motor (131); the first lead screw (132) penetrates through the sliding block (121), and the first lead screw (132) is in threaded connection with the sliding block (121).

5. The engraving machine for customizing clothes of claim 1, wherein the adjusting assembly (14) comprises an adjusting motor (141) and a second lead screw (142), the adjusting motor (141) is arranged on the cross beam (222), the second lead screw (142) is arranged on an output shaft of the adjusting motor (141), the second lead screw (142) passes through the sliding block (223), and the second lead screw (142) is in threaded connection with the sliding block (223).

6. The engraving machine for customizing clothes according to claim 1, wherein the beam (222) is rotatably arranged between two supporting blocks (221), a mounting cavity is formed in each supporting block (221), a turning assembly (4) is arranged in each mounting cavity, and the turning assembly (4) is connected with the beam (222).

7. The engraving machine for customizing clothes according to claim 6, characterized in that said overturning assembly (4) comprises an overturning motor (41), a driving gear (42), a driven gear (43) and a rotating shaft (44), said overturning motor (41) is arranged on the side wall of said mounting cavity, said driving gear (42) is arranged on the output shaft of said overturning motor (41); the rotating shaft (44) is arranged on the cross beam (222), one end, far away from the cross beam (222), of the rotating shaft (44) is located in the installation cavity, the driven gear (43) is arranged on the rotating shaft (44) located in the installation cavity, and the driven gear (43) is meshed with the driving gear (42).

8. The engraving machine for customizing clothes according to claim 1, wherein a dust removal assembly (5) is arranged on the cross beam (222), the dust removal assembly (5) comprises a dust suction box (51), a telescopic pipe (52), a dust suction block (53) and a suction fan (54), the dust suction box (51) is arranged on the ground, the suction fan (54) is arranged on the dust suction box (51), the air suction end of the suction fan (54) is communicated with the dust suction box (51), the dust suction block (53) is arranged on the engraving plate member (21), and an air inlet hole is formed in the dust suction block (53); the telescopic pipe (52) is arranged on the dust collection box (51), one end, far away from the dust collection box (51), of the telescopic pipe (52) is connected with the dust collection block (53), and the air inlet hole is communicated with the telescopic pipe (52).

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