CN113502653B

CN113502653B - A tailor device for clothing structural design

Info

Publication number: CN113502653B
Application number: CN202110901547.9A
Authority: CN
Inventors: 李晶晶; 孙里
Original assignee: Jiangxi Institute of Fashion Technology
Current assignee: Jiangxi Institute of Fashion Technology
Priority date: 2021-08-06
Filing date: 2021-08-06
Publication date: 2022-11-08
Anticipated expiration: 2041-08-06
Also published as: CN113502653A

Abstract

The invention relates to the technical field of garment design, in particular to a cutting device for garment structure design, which comprises a first shell, wherein the top of the first shell is fixedly connected with a connecting frame provided with a connecting through hole, first fixing plates are symmetrically fixed on two sides of the first shell, starting protection devices are respectively installed at the bottoms of the two first fixing plates, a handle is fixed at the end part of the first shell, a motor is fixed in the first shell through a screw, and a first rotating shaft is fixed at the end part of an output shaft of the motor. The device can downwards overturn and push out the high-temperature contact through the arrangement of the poking plate and the high-temperature contact when cutting is carried out, the pushed high-temperature contact sweeps over the cloth cutting edge, the cloth is subjected to edge locking under the action of high temperature, and therefore the phenomenon that the cut cloth generates a wire drawing notch due to the breakage of the edge is avoided, and the improvement of the smoothness of the cut cloth is facilitated.

Description

A tailor device for clothing structural design

Technical Field

The invention relates to the field of garment design, in particular to a tailoring device for garment structure design.

Background

The clothing design is designed according to the requirements of a design object, an effect graph and a plane graph are drawn, then the clothing design is made according to the drawing, the whole design process is completed, the clothing design process needs to use the cloth made of different materials, and the cloth needs to be cut to obtain the required size.

The prior art discloses an invention patent in the aspect of partial garment design and cutting, and a Chinese patent with the application number of 201510611670.1 discloses a cloth cutting device, which comprises a machine body, wherein a base is arranged on the machine body in a sliding manner, a cutting assembly is arranged on the base, the cutting assembly comprises a mounting seat, the mounting seat is arranged on the base in a lifting manner, the mounting seat is provided with a cutting piece and a driving assembly for driving the cutting piece to rotate, a friction cutting part is arranged on the peripheral surface of the cutting piece, the cutting piece is provided with a heating assembly for heating the friction cutting part, and an abutting wheel for abutting against the friction cutting part is arranged on the base.

The in-process of prior art tailorring the cloth, through the heating to the cloth to and the control to cutting tool, weakens the cloth and tailors the sharpness of back edge, nevertheless to the part like the cloth of silk and bud silk class, the cloth edge fracture after tailorring for the inside silk thread of cloth is colluded out easily in removal and use, thereby leads to the wire drawing of cloth, influences the use of cloth. To this end, the present invention proposes a cutting device for garment design to solve the above problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a tailoring device for garment structure design.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a cutting device for structural design of clothes comprises a first shell, wherein a connecting frame provided with a connecting through hole is fixedly connected to the top of the first shell, first fixing plates are symmetrically fixed to two sides of the first shell, starting protection devices are installed at the bottoms of the two first fixing plates, a handle is fixed to the end of the first shell, a motor is fixed to the inside of the first shell through screws, a first rotating shaft is fixed to the end portion of an output shaft of the motor, a cutting circular knife is fixed to the outer ring of the first rotating shaft, the bottom of the cutting circular knife penetrates through the bottom of the first shell and extends out, a plurality of supporting blocks matched with the cutting circular knife are fixed to the bottom of the first shell, a high-temperature edge locking device is installed inside the first shell and located at one end, facing the handle, of the cutting circular knife, the high-temperature edge locking device is used for locking edges of anti-drawing wires of cloth cut by the cutting circular knife, a storage battery is installed inside the first shell, and a line identification end of the first shell is fixedly connected with a line identification end portion; when in use, the prior art weakens the sharpness of the edge of the cut cloth by heating the cloth and controlling the cutting tool in the process of cutting the cloth, but for the cloth such as silk and lace, the edge of the cut cloth is broken, so that the silk threads in the cloth are easy to hook out in the moving and using processes, thereby causing the cloth to generate a wire drawing gap and affecting the smoothness and later use of the cloth, the technical proposal can solve the problems, and the specific implementation mode is that the first shell wraps and protects the internal structure of the device, the bottom of the first fixing plate can press the cloth, the smoothness of the cloth in the cutting process is improved, the protection device can be started to protect the device, the cutting circular knife can not contact with the cloth and the workbench when the device is not used, damage to the cloth, the workbench and the cutting circular knife is avoided, the storage battery can provide power for the device, the connecting frame can facilitate the device to be fixedly connected with the electric support when electric control is needed, the motor can drive the first rotating shaft to rotate after being started, the cutting circular knife is driven to rotate after the first rotating shaft rotates, the cloth can be cut after the cutting circular knife rotates, and the cutting line identification end can facilitate an operator to align with a cutting line in the manual operation process, thereby avoiding the deviation in the cutting process, the high-temperature edge locking device can be started when the cutting circular knife cuts, the high temperature is utilized to roast along the flaky edges, the edges of all the cut pieces are burnt and melted and cooled to be bonded, the edge of the cloth after being cut is subjected to high-temperature edge locking, so that the silk thread on the edge of the cloth after being cut cannot generate a notch due to hooking, and the smoothness of the cloth after being cut is improved.

Preferably, the starting protection device comprises two lifting blocks, a lifting groove, a moving groove and a first elastic limiting piece, the lifting blocks are symmetrically and movably inserted into the bottom of the first fixing plate, two groove blocks are symmetrically fixed on the side wall of the lifting blocks, the lifting groove is formed in the first fixing plate and matched with the two groove blocks, a first spring is fixed at the top of the lifting block, the first spring is located in the lifting groove, the top of the lifting block is fixedly connected with the first fixing plate, a first electrifying piece is fixed at the top of the lifting block, a second electrifying piece corresponding to the first electrifying piece is fixed at the top of the lifting groove, a gear ring is sleeved on the outer ring of the lifting block, and the gear ring is rotatably inserted into the first fixing plate, two convex blocks corresponding to the groove blocks are symmetrically fixed on the inner ring of the gear ring, the convex blocks are movably inserted into the groove blocks, racks are arranged on the same sides of the two gear rings, the moving groove is formed in the top of the first fixing plate, the racks are slidably inserted into the moving groove and meshed with the gear rings on the same side, a plurality of connecting rods are fixed on the top of the racks, a pushing plate is fixed on the tops of all the connecting rods, second elastic limiting pieces are symmetrically fixed on two sides of the pushing plate, the first elastic limiting pieces are fixed on the top of the first fixing plate and matched with the second elastic limiting pieces, a rotating disc is rotatably installed at the bottom of the lifting block, and a plurality of first rollers are installed at the bottom of the rotating disc; when the lifting groove is in work, the moving groove can provide space for the movement of the pushing plate and the rack, the pushing plate can drive the connecting rod to move after moving, the connecting rod drives the rack to move, the rack drives the gear ring meshed with the rack to rotate after moving, the gear ring drives the lug to rotate, the lug drives the groove block matched with the lug to rotate after rotating, the groove block is aligned and matched with the lifting groove after rotating, so that the groove block can move up and down in the lifting groove, thereby releasing the locking of the device, the first elastic limiting sheet and the second elastic limiting sheet can be mutually extruded, the position of the push plate can be limited after the push plate is pushed, and the push plate can deform when pushed so that the push plate can move through, after an operator presses the device downwards, the first fixing plate moves downwards, so that the distance between the bottom of the device and the bottom surface is reduced, the cutting circular knife can cut the cloth, meanwhile, the top of the lifting block presses the first spring and moves upwards relative to the first fixing plate, the lifting block drives the first electrifying piece to move upwards, so that the first electrifying piece and the second electrifying piece are contacted with each other, thereby leading the current to flow, starting the device, leading the rotating disc to correspondingly rotate when the device carries out curvilinear movement, thereby adjusting the direction of the first roller, the first roller can support the movement of the device, so that the device can be started after the push plate is moved and the device is pressed, when the pushing plate is not moved, the groove block is not aligned with the lifting groove, the lifting block can not be pushed upwards, thereby avoiding the device from being started after being extruded, the push plate is pressed to start after moving, so that the device can be started and stopped at any time, is convenient to use, thereby being beneficial to protecting the use of the device and avoiding the potential safety hazard caused by the self-starting of the device.

Preferably, the high-temperature serging device comprises a warping plate, the warping plate is rotatably inserted into the first shell, a poking plate is fixed on one side of the warping plate facing the cutting circular knife, a positioning device is connected between the poking plate and the first rotating shaft, the positioning device drives the poking plate to turn upwards and poke when the cutting circular knife rotates to work, a high-temperature contact is fixed on the other side of the warping plate, a fifth spring is fixed on the top of the high-temperature contact, and the top of the fifth spring is fixedly connected with the inside of the first shell; the during operation, first pivot is upwards promoted the stirring board through positioner after rotating, upwards overturn after the stirring board is promoted, thereby it makes the opposite side upset downwards to drive one side upset of wane behind the stirring board upset, one side of wane upset downwards drives the high temperature contact and overturns downwards and stretches out first casing, thereby make the device remove in-process high temperature contact can follow closely the edge glancing at cutting circular knife rear and tailor by the cloth, utilize high temperature along this flaky edge barbecue, iron the edge that makes all these cut-parts burnt and melt after the cool and knot, thereby carry out high temperature lockstitch to the edge of tailorring of cloth, fifth spring can upwards stimulate high temperature contact and withdraw after the device stops, make the device can tailor the cloth, heat the edge of tailorring of cloth, high temperature makes the edge of cloth by high temperature lockstitch, avoid tailorring the back cloth because the wire drawing and produce the breach, thereby be favorable to improving the planarization that the cloth was tailor.

Preferably, the positioning device comprises a screw rod and an arc-shaped slope plate, the screw rod is rotatably inserted into the first shell and fixedly connected with the end of the first rotating shaft, the outer ring of the screw rod is in threaded connection with a truncated cone-shaped rotating roller, a second spring is fixed on one side of the truncated cone-shaped rotating roller, which faces away from the cutting circular knife, the other end of the second spring is fixed with a rotating ring, the rotating ring is rotatably inserted into the first shell, two second fixing plates are fixed on one side edge of the truncated cone-shaped rotating roller, which faces the cutting circular knife, two straight rods are symmetrically fixed between the two second fixing plates, a limiting plate is sleeved on the outer rings of the two straight rods, two third springs are symmetrically fixed on two sides of the limiting plate, all the third springs are movably sleeved on the outer rings of the two straight rods respectively, the arc-shaped slope plate is movably inserted into the first shell, a abdicating groove corresponding to the arc-shaped slope plate is formed in the first shell, and a plurality of fourth springs are fixedly connected with the inside of the abdicating groove; when the device works, the first rotating shaft drives the screw rod to rotate, the screw rod has the tendency of driving the circular truncated cone-shaped rotating roller to rotate when starting to rotate, meanwhile, the circular truncated cone-shaped rotating roller is clamped at one end of the arc-shaped slope plate through the limiting plate, so that the circular truncated cone-shaped rotating roller cannot rotate, the circular truncated cone-shaped rotating roller moves through threaded connection with the screw rod, the circular truncated cone-shaped rotating roller drives the limiting plate to move after extruding the second spring to move, the limiting plate is gradually separated from the arc-shaped slope plate, the circular truncated cone-shaped rotating roller starts to rotate after moving for a certain distance, the rotating ring is rotatably inserted into the first shell, so that the second spring can rotate along with the circular truncated cone-shaped rotating roller, the diameter of the circular truncated cone-shaped rotating roller, which is opposite to one end of the second spring, is larger than the other end, so that the circular truncated cone-shaped rotating roller gradually extrudes and pushes the shifting plate in the moving process, the shifting plate upwards overturns, after the device stops, the second spring pushes the rotating roller to reset, the limiting plate can extrude the third spring to deflect towards two sides in the resetting process, so that the limiting plate cannot reset due to the fact that the limiting plate abuts against the arc-shaped slope plate, the straight rod can limit the limiting plate, the limiting plate is prevented from deflecting towards the outside, the limiting plate rotates along with the round table-shaped rotating roller in the resetting process, the rotating direction of the limiting plate is opposite to that when the limiting plate is separated from the arc-shaped slope plate in a rotating mode, so that the arc-shaped slope plate is gradually extruded along the slope surface of the arc-shaped slope plate through rotation, the arc-shaped slope plate extrudes the fourth spring to move towards the inside of the first shell, a yielding space is provided for passing of the limiting plate, the limiting plate can continuously extrude the arc-shaped slope plate and pass through the rotating and resetting process, the device can push the poking plate to turn upwards while the cutting round cutter rotates to cut, and accordingly the poking plate is stretched out to lock the edge at high temperature, thereby being beneficial to avoiding the generation of gaps on the edge of the cut cloth due to the wiredrawing and improving the smoothness of the cut cloth.

Preferably, a second shell is fixed on one side, facing the handle, of the first shell, the top of the second shell is fixedly connected with the bottom of the handle, an ice cube bin is arranged at the top of the second shell, a second cover plate is inserted into the top of the ice cube bin, an iron wire net is fixed inside the ice cube bin, a heat-conducting metal block is movably inserted into the bottom of the second shell, a plurality of sixth springs are fixed at the top of the heat-conducting metal block, the tops of all the sixth springs are fixedly connected with the inside of the second shell, and the inside of the ice cube bin and the heat-conducting metal block are connected with each other through a communication device; the during operation, the inside of second casing can provide the support with the installation of heat conduction metal block for seting up in ice-cube storehouse, the ice-cube can be placed to the inside in ice-cube storehouse, the second apron can be sealed with the ice-cube storehouse, avoid ice-cube and air contact and melt fast, the wire netting can be right and support, the inside in ice-cube storehouse produces low temperature because the effect of ice-cube, low temperature can conduct through the intercommunication device, thereby cool down the heat conduction metal block, the sixth spring can promote downwards and press the heat conduction metal block, make the surface contact of the heat conduction metal block after the cooling and cloth, carry out rapid cooling to the cloth, avoid the cloth to lead to the excessive damage of roast limit in edge and cause the cloth behind high temperature lockstitching, thereby be favorable to improving planarization and the intact nature after the cloth is tailor.

Preferably, the communicating device comprises a plurality of heat pipes and a flow guide inner groove, all the heat pipes are fixed inside the ice cube bin in an array mode and located below the wire netting, one ends of all the heat pipes are closed, the other ends of all the heat pipes are jointly and fixedly communicated with a first connecting pipe, the end portion of the first connecting pipe penetrates through the second shell and extends out to be provided with the air inlet device, the middle portions of all the heat pipes are fixedly communicated with a second connecting pipe, the end portion of the second connecting pipe is movably inserted into the top of the heat conducting metal block, the flow guide inner groove is formed inside the heat conducting metal block and is communicated with the second connecting pipe, the end portion of the flow guide inner groove is communicated with an air outlet pipe, the bottom of the air outlet pipe is movably inserted into the top of the heat conducting metal block, and the top of the air outlet pipe penetrates through the top of the second shell and extends out; during operation, first connecting pipe can communicate hot blast blowpipe apparatus, hot blast blowpipe apparatus drives the air current and begins to flow by the inside that the external world got into first connecting pipe, the air current that flows gets into the heat pipe through first connecting pipe, the heat pipe is located the inside in ice-cube storehouse, the inside temperature in ice-cube storehouse is at the bottom, the heat pipe cools down the air current of inside through self good heat conductivity, the air current after the cooling gets into the second connecting pipe and gets into the water conservancy diversion inside groove by the second connecting pipe, the water conservancy diversion inside groove is located the inside of heat conduction metal block, thereby microthermal air current is cooled down to heat conduction metal block because the good heat conductivility of heat conduction metal block when the inside of water conservancy diversion inside groove passes through, make the temperature of heat conduction metal block reduce, thereby cool down the surface of cloth through the heat conduction metal block after the cooling, avoid the cloth in time scattering in high temperature lockstitching a border in-process and lead to the hardening of cloth, thereby be favorable to heightening the planarization after the cloth is tailor.

Preferably, the air intake device comprises an air intake, the air intake is arranged on the side wall of the second shell and communicated with the first connecting pipe, a first gear is rotatably inserted into the inner wall of the air intake, first fan blades are fixed on the inner array of the first gear, a second gear is arranged at the bottom of the first gear, the second gear is rotatably inserted into the second shell and meshed with the first gear, second rollers are fixed at both ends of a central shaft of the second gear, and the bottom of the second roller penetrates through the bottom of the second shell and extends out; during operation, the air intake can communicate first connecting pipe and the device outside, the device removes and cuts the in-process second gyro wheel and cloth or workstation contact and is driven the roll, rolling second gyro wheel drives coaxial second gear revolve with it, second gear revolve back drive with it first gear revolve of meshing, first gear revolve back drive its inside first flabellum and rotate, first flabellum rotates the flow of back drive air current, make the air current enter into first connecting pipe by the external world, thereby carry out the conduction of temperature through the air current that flows, thereby be favorable to carrying out rapid cooling and flattening to the surface of cloth, avoid the cloth because the high temperature effect cools off the problem that the cloth that the border department was kept away from to the cloth slow leads to the fact the damage, thereby be favorable to improving smoothness and the integrity after the cloth is cut.

Preferably, the heat conducting metal block extends out towards two sides of one end of the high-temperature contact and is positioned at two sides of the high-temperature contact, a plurality of grooves are formed in the bottom array of the end part of the heat conducting metal block, the end parts of the two groups of grooves at the opposite sides are communicated with third connecting pipes, the bottom of each third connecting pipe is movably inserted into the corresponding heat conducting metal block, an inner groove is formed in the first shell, the other end of each third connecting pipe is fixedly communicated with the inner groove, a second rotating shaft is rotatably inserted into the inner groove, one end of each second rotating shaft is fixedly connected with a screw, a second fan blade is fixedly arranged on the outer ring array of each second rotating shaft, and a plurality of air outlets communicated with the inner groove are formed in the side wall of the first shell; the during operation, the tip of heat conduction metal block extends to the both sides of high temperature contact, can cool down the cloth of high temperature contact both sides, the screw rod drives the second pivot and rotates, the second pivot drives the second flabellum and rotates, pivoted second flabellum drives the air current and flows, the air outlet improves exhaust space for the air current, the intercommunication that the air current that flows passes through the third connecting pipe produces the pressure differential at the recess tip, make the air current of heat conduction metal block both sides flow to the both sides of high temperature contact along the recess, the temperature reduces after the air current that flows passes through the heat conduction metal block, thereby make the temperature reduction of high temperature contact both sides when carrying out the high temperature lock limit, thereby avoid the high temperature of high temperature contact to stretch to the middle part of cloth and cause the excessive problem of roast limit, be favorable to the intact nature after the cloth is tailor.

The invention has the beneficial effects that:

1. according to the invention, through the arrangement of the poking plate and the high-temperature contact, the device can abut against the poking plate when cutting is carried out, the high-temperature contact is pushed out by downward overturning, the pushed high-temperature contact sweeps over the cutting edge of the cloth, the edge of all cut pieces is baked and melted by high temperature, and is sintered, cooled and solidified, and the edge of the cut cloth is subjected to high-temperature edge locking, so that the phenomenon that the cut cloth generates a wire drawing notch due to the breakage of the edge is avoided, the smoothness of the cut cloth is improved, and the later-stage use of the cut cloth is facilitated.

2. According to the invention, through the arrangement of the ice cube bin and the heat-conducting metal block, ice cubes can be placed in the device, the low temperature of the ice cubes is transmitted through the air flow in the pipeline, so that the temperature of the heat-conducting metal block is reduced, the low-temperature heat-conducting metal block passes through the cloth after being subjected to edge locking after the device moves, so that the cloth is cooled, the phenomenon that the edge of the cloth is hardened due to the fact that the high temperature of the cloth is not timely dissipated in the high-temperature edge locking process is avoided, and the smoothness of the cloth after cutting is favorably improved.

3. According to the invention, through the arrangement of the groove and the second fan blade, the second fan blade is driven to rotate in the use process of the device, the second fan blade drives the airflow to flow, so that the airflow moves to the high-temperature contact along the groove, the temperature of the moving airflow is reduced after passing through the metal heat conducting block, and the edge of the cloth always passes through low-temperature air in the high-temperature seaming process of the high-temperature contact, so that the high-temperature spread of the cloth to the middle part of the cloth in the high-temperature seaming process is avoided, the temperature spread of the high-temperature seaming process is avoided, the middle part of the cloth is melted due to high temperature and generates a hard block after being cooled, and the smoothness of the cloth after being cut is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is another schematic view of the overall structure of the present invention;

FIG. 3 is a schematic structural view of the first fixing plate of the present invention after being sectioned;

FIG. 4 is an enlarged view of a portion of FIG. 3A;

FIG. 5 is an enlarged view of a portion of the structure of FIG. 3B;

FIG. 6 is a schematic overall sectional view of the present invention;

FIG. 7 is an enlarged view of a portion of the structure of FIG. 6 at C;

FIG. 8 is an enlarged view of a portion of the structure of FIG. 7 at D in accordance with the present invention;

FIG. 9 is a schematic view of the overall middle section of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 9 at E in accordance with the teachings of the present invention;

FIG. 11 is a cross-sectional structural view of the first and second housings of the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11 at F in accordance with the teachings of the present invention;

FIG. 13 is a schematic cross-sectional structural view of the first and second housings of the present invention;

FIG. 14 is an enlarged view of a portion of the structure of FIG. 13 at G in accordance with the present invention;

FIG. 15 is a schematic view of another angle structure of the first and second housings of the present invention after further cross-section;

FIG. 16 is an enlarged, fragmentary, schematic structural view taken at H in FIG. 15 in accordance with the present invention;

FIG. 17 is a schematic view of a connection structure of the heat conductive metal block according to the present invention;

FIG. 18 is an enlarged schematic view of a truncated cone-shaped rotatable roller according to the present invention;

FIG. 19 is a schematic view of the present invention, partially enlarged at I in FIG. 3.

Description of reference numerals:

1. a first housing; 2. a second housing; 3. a first fixing plate; 4. a first cover plate; 5. a handle; 6. A lifting block; 7. a groove block; 8. a gear ring; 9. a bump; 10. rotating the disc; 11. a first spring; 12. a first energizing piece; 13. a second energizing sheet; 14. a lifting groove; 15. a first roller; 16. a rack; 17. a connecting rod; 18. a push plate; 19. a moving groove; 20. a first elastic limiting sheet; 21. a second elastic limiting sheet; 22. a motor; 23. a first rotating shaft; 24. cutting a circular knife; 25. a rotating roller in a shape of a circular truncated cone; 26. a screw; 27. a second spring; 28. a rotating ring; 29. a second fixing plate; 2901. a straight rod; 2902. a third spring; 2903. a limiting plate; 30. an arc-shaped slope plate; 3001. a fourth spring; 31. A seesaw; 32. a poking plate; 33. a high temperature contact; 34. a fifth spring; 35. a storage battery; 36. an ice cube bin; 37. a second cover plate; 38. a wire mesh; 39. a heat conducting pipe; 40. a first connecting pipe; 41. a second connection pipe; 42. a heat conductive metal block; 43. a flow guiding inner groove; 44. an air outlet pipe; 45. a sixth spring; 46. an air inlet; 47. a first gear; 48. a first fan blade; 49. a second gear; 50. a second roller; 51. a groove; 52. a third connecting pipe; 53. an inner tank; 54. a second rotating shaft; 55. a second fan blade; 56. an air outlet; 57. a support block; 58. and cutting the line identification end.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The cutting device for the structural design of the garment comprises a first shell 1, wherein a connecting frame 4 provided with a connecting through hole is fixedly connected to the top of the first shell 1, and is characterized in that first fixing plates 3 are symmetrically fixed to two sides of the first shell 1, starting protection devices are installed at the bottoms of the two first fixing plates 3, a handle 5 is fixed to the end of the first shell 1, a motor 22 is fixed to the inside of the first shell 1 through screws, a first rotating shaft 23 is fixed to the end portion of an output shaft of the motor 22, a cutting circular knife 24 is fixed to the outer ring of the first rotating shaft 23, the bottom of the cutting circular knife 24 penetrates through the bottom of the first shell 1 and extends out, a plurality of supporting blocks 57 matched with the cutting circular knife 24 are fixed to the bottom of the first shell 1, a high-temperature edge locking device is installed inside the first shell 1 and located at one end, facing the handle 5, the high-temperature edge locking device is used for performing edge locking on the cut edge of the cut circular knife 24, a storage battery 35 is installed inside the first shell 1, and an end portion of the first shell 1 is connected with a wire identification device 58; when the cloth cutting device works, the sharpness of the edge of the cut cloth is weakened by heating the cloth and controlling the cutting tool in the cloth cutting process in the prior art, however, for the partial cloth like silk and lace, the edge of the cut cloth is broken, so that the silk threads in the cloth are easily hooked out in the moving and using processes, thereby causing the cloth to generate a wire drawing gap and influencing the smoothness and later use of the cloth, the technical scheme can solve the problems, the specific implementation mode is as follows, the first shell 1 wraps and protects the internal structure of the device, the bottom of the first fixing plate 3 can press the cloth, the smoothness of the cloth in the cutting process is improved, the protection device can be started to protect the device, so that the cutting circular knife 24 can not contact with the cloth and a workbench when the device is not used, and the cloth, the workbench and the cutting circular knife 24 are prevented from being damaged, the storage battery 35 can provide a power supply for the device, the connecting frame 4 can facilitate the device to be fixedly connected with an electric bracket when the electric control is needed to work, the motor 22 can drive the first rotating shaft 23 to rotate after being started, the first rotating shaft 23 drives the cutting circular knife 24 to rotate after being rotated, the cutting circular knife 24 can cut the cloth after being rotated, the cutting line identification end 58 can facilitate the manual operation process of an operator to align to a cutting line, so that the deviation in the cutting process is avoided, the high-temperature edge locking device can be started when the cutting circular knife 24 cuts the cloth, the high temperature is utilized to roast along the flaky edge, the edges of all cut pieces are burnt and melted and cooled and then are bonded, the high-temperature edge locking is carried out on the cut cloth edge, and the silk threads on the cut cloth edge can not generate gaps due to hooking, thereby being beneficial to improving the smoothness of the cloth after the cloth is cut.

As an embodiment of the invention, the starting protection device comprises two lifting blocks 6, a lifting groove 14, a moving groove 19 and a first elastic limiting sheet 20, wherein the lifting blocks 6 are symmetrically and movably inserted at the bottom of a first fixing plate 3, two groove blocks 7 are symmetrically fixed on the side wall of the lifting blocks 6, the lifting groove 14 is arranged inside the first fixing plate 3 and matched with the two groove blocks 7, a first spring 11 is fixed at the top of the lifting block 6, the first spring 11 is arranged inside the lifting groove 14 and fixedly connected with the first fixing plate 3 at the top, a first electrifying sheet 12 is fixed at the top of the lifting block 6, a second electrifying sheet 13 corresponding to the first electrifying sheet 12 is fixed at the top of the lifting groove 14, a gear ring 8 is sleeved on the outer ring of the lifting block 6, the gear ring 8 is rotatably inserted inside the first fixing plate 3, two convex blocks 9 corresponding to the groove block 7 are symmetrically fixed on the inner ring of the gear ring 8, the convex blocks 9 are movably inserted into the groove block 7, racks 16 are arranged on the same sides of the two gear rings 8, a moving groove 19 is formed in the top of the first fixing plate 3, the racks 16 are slidably inserted into the moving groove 19 and meshed with the gear rings 8 on the same sides, a plurality of connecting rods 17 are fixed on the top of the racks 16, a pushing plate 18 is fixed on the tops of all the connecting rods 17, second elastic limiting pieces 21 are symmetrically fixed on two sides of the pushing plate 18, a plurality of first elastic limiting pieces 20 are fixed on the top of the first fixing plate 3 and matched with the second elastic limiting pieces 21, a rotating disc 10 is rotatably installed at the bottom of the lifting block 6, and a plurality of first idler wheels 15 are installed at the bottom of the rotating disc 10; when the device works, the moving groove 19 can provide a space for the movement of the pushing plate 18 and the rack 16, the pushing plate 18 can drive the connecting rod 17 to move after moving, the connecting rod 17 drives the rack 16 to move, the rack 16 drives the gear ring 8 meshed with the rack 16 to rotate after moving, the gear ring 8 drives the lug 9 to rotate, the lug 9 drives the groove block 7 matched with the lug 9 to rotate after rotating, the groove block 7 is aligned and matched with the lifting groove 14 after rotating, so that the groove block 7 can move up and down in the lifting groove 14, the locking of the device is released, the first elastic limiting sheet 20 and the second elastic limiting sheet 21 can be mutually extruded, the position of the pushing plate 18 can be limited after the pushing plate 18 is pushed, the pushing plate 18 can be deformed to enable the pushing plate 18 to move through when the pushing plate 18 is pushed, after an operator presses the device downwards, the first fixing plate 3 moves downwards, so that the distance between the bottom of the device and the bottom surface is reduced, so that the cutting circular knife 24 can cut the cloth, and at the same time, the top of the lifting block 6 extrudes the first spring 11 and moves upwards relative to the first fixing plate 3, the lifting block 6 drives the first electrifying piece 12 to move upwards, so that the first electrifying piece 12 and the second electrifying piece 13 are contacted with each other, thereby circulating the current, and the starting device, the rotating disc 10 rotates correspondingly when the device moves in a curve, thereby adjusting the direction of the first roller 15, the first roller 15 can support the movement of the device, so that the device can be started after the pushing plate 18 is moved and pressed, when the pushing plate 18 is not moved, the groove block 7 is not aligned with the lifting groove 14, the lifting block 6 cannot be pushed upwards, thereby preventing the device from being started after being extruded, and the device is pressed to be started after the pushing plate 18 is moved, so that the device can be started at any time, the use is convenient, so that the use of the device is protected, and potential safety hazards caused by self-starting of the device are avoided.

As an embodiment of the present invention, the high temperature serging device includes a rocker 31, the rocker 31 is rotatably inserted into the first housing 1, a toggle plate 32 is fixed on one side of the rocker 31 facing the cutting circular knife 24, a positioning device is connected between the toggle plate 32 and the first rotating shaft 23, the positioning device drives the toggle plate 32 to turn upwards and toggle when the cutting circular knife 24 rotates, a high temperature contact 33 is fixed on the other side of the rocker 31, a fifth spring 34 is fixed on the top of the high temperature contact 33, and the top of the fifth spring 34 is fixedly connected with the inside of the first housing 1; the during operation, upwards promote toggle plate 32 through positioner after first pivot 23 rotates, toggle plate 32 is upwards overturned after being promoted, thereby toggle plate 32 upwards overturns after the upset drives one side of wane 31 upwards upset and makes the opposite side overturn downwards, one side of wane 31 upset drives high temperature contact 33 and overturns downwards and stretches out first casing 1, thereby make device remove in-process high temperature contact 33 can follow closely cut the edge grazing of cutting circular knife 24 rear and cutting by the cloth, utilize high temperature to roast along this flaky edge, iron the edge that makes all these cut-parts burnt and melt after cooling and knot, thereby carry out high temperature lock limit to the cutting edge of cloth, fifth spring 34 can withdraw after the device stops to pulling high temperature contact 33, make the device can be when cutting out the cloth, heat the cutting edge of cloth, high temperature makes the edge of cloth by high temperature lock limit, avoid cutting out the cloth because the wire drawing and produce the breach, thereby be favorable to improving the planarization of cloth.

As an embodiment of the present invention, the positioning device includes a screw 26 and an arc-shaped slope plate 30, the screw 26 is rotatably inserted into the first housing 1 and fixedly connected to an end of the first rotating shaft 23, an outer ring of the screw 26 is in threaded connection with a truncated cone-shaped rotating roller 25, one side of the truncated cone-shaped rotating roller 25, which faces away from the cutting circular knife 24, is fixed with a second spring 27, the other end of the second spring 27 is fixed with a rotating ring 28, the rotating ring 28 is rotatably inserted into the first housing 1, one side edge of the truncated cone-shaped rotating roller 25, which faces the cutting circular knife 24, is fixed with two second fixing plates 29, two straight rods 2901 are symmetrically fixed between the two second fixing plates 29, a limiting plate 2903 is commonly sleeved on outer rings of the two straight rods 2901, two third springs 2902 are symmetrically fixed on both sides of the limiting plate 2903, all the third springs 2902 are respectively movably sleeved on outer rings of the two straight rods 2901, the arc-shaped slope plate 30 is movably inserted into the first housing 1, an arc-shaped slope plate 30 corresponding to the arc-shaped slope plate 30, and a plurality of the slope plate 30 are connected to a plurality of the fourth slope plate 1; during operation, the first rotating shaft 23 drives the screw rod 26 to rotate, the screw rod 26 has a tendency of driving the circular truncated cone-shaped rotating roller 25 to rotate when starting to rotate, meanwhile, the circular truncated cone-shaped rotating roller 25 is clamped at one end of the arc-shaped slope plate 30 through the limiting plate 2903, so that the circular truncated cone-shaped rotating roller 25 cannot rotate, the circular truncated cone-shaped rotating roller 25 moves through threaded connection with the screw rod 26, the circular truncated cone-shaped rotating roller 25 extrudes the second spring 27 to move and then drives the limiting plate 2903 to move, the limiting plate 2903 is gradually separated from the arc-shaped slope plate 30, the circular truncated cone-shaped rotating roller 25 starts to rotate after moving for a certain distance, the rotating ring 28 is rotatably inserted in the first shell 1, so that the second spring 27 can rotate along with the circular truncated cone-shaped rotating roller 25, the diameter of the circular truncated cone-shaped rotating roller 25 opposite to one end of the second spring 27 is larger than the other end, and the circular truncated cone-shaped rotating roller 25 gradually extrudes and pushes the poking plate 32 in the moving process, the toggle plate 32 is enabled to be turned upwards, after the device is stopped, the second spring 27 pushes the rotating roller 25 to reset, the limiting plate 2903 can extrude the third spring 2902 to deflect towards two sides in the resetting process, so that the limiting plate 2903 is prevented from being abutted against the arc-shaped slope plate 30 to prevent the limiting plate 2903 from being reset, the straight rod 2901 can limit the limiting plate 2903 to prevent the limiting plate 2903 from deflecting towards the outside, the limiting plate 2903 rotates along with the circular truncated cone-shaped rotating roller 25 in the resetting process, the rotating direction of the limiting plate 2903 is opposite to that when the limiting plate 2903 rotates to be separated from the arc-shaped slope plate 30, the arc-shaped slope plate 30 is gradually extruded along the slope-shaped surface of the arc-shaped slope plate 30 through rotation, the arc-shaped slope plate 30 extrudes the fourth spring 3001 to move towards the inside of the first shell 1, a yielding space is provided for the passing of the limiting plate 2903, and the limiting plate 3 can continuously extrude the arc-shaped slope plate 30 and pass through in the rotating resetting process, therefore, the device can push the poking plate 32 to turn upwards while the cutting circular knife 24 rotates for cutting, so that the poking plate 32 extends out for high-temperature edge locking, thereby being beneficial to avoiding the generation of gaps on the edge of the cloth after cutting due to wire drawing and being beneficial to improving the flatness of the cloth after cutting.

As an embodiment of the present invention, a second casing 2 is fixed on one side of the first casing 1 facing the handle 5, the top of the second casing 2 is fixedly connected with the bottom of the handle 5, an ice cube bin 36 is opened on the top of the second casing 2, a second cover plate 37 is inserted on the top of the ice cube bin 36, a wire mesh 38 is fixed inside the ice cube bin 36, a heat conducting metal block 42 is movably inserted on the bottom of the second casing 2, a plurality of sixth springs 45 are fixed on the top of the heat conducting metal block 42, the tops of all the sixth springs 45 are fixedly connected with the inside of the second casing 2, and the inside of the ice cube bin 36 and the heat conducting metal block 42 are connected with each other through a communication device; the during operation, the inside of second casing 2 can provide the support with heat conduction metal block 42's installation for seting up of ice-cube storehouse 36, the ice-cube can be placed to the inside of ice-cube storehouse 36, second apron 37 can be sealed with ice-cube storehouse 36, avoid ice-cube and air contact and melt fast, wire netting 38 can be right and support, the inside of ice-cube storehouse 36 produces low temperature because of the effect of ice-cube, low temperature can conduct through the intercommunication device, thereby cool down heat conduction metal block 42, sixth spring 45 can promote downwards and press heat conduction metal block 42, make the surface contact of heat conduction metal block 42 after the cooling and cloth, carry out rapid cooling to the cloth, avoid the cloth to lead to the excessive damage of roast limit and cause the cloth in edge high temperature behind the high temperature lock limit, thereby be favorable to improving planarization and integrity after the cloth is tailor.

As an embodiment of the present invention, the communicating device includes a plurality of heat pipes 39 and an inner guiding groove 43, all the heat pipes 39 are fixed inside the ice cube bin 36 in an array and located below the wire mesh 38, one end of all the heat pipes 39 is closed and the other end is fixedly communicated with a first connecting pipe 40, an end of the first connecting pipe 40 penetrates through the second housing 2 and extends out to install an air inlet device, a second connecting pipe 41 is fixedly communicated with a middle portion of all the heat pipes 39, an end of the second connecting pipe 41 is movably inserted on a top of the heat conducting metal block 42, the inner guiding groove 43 is opened inside the heat conducting metal block 42 and is communicated with the second connecting pipe 41, an end of the inner guiding groove 43 is communicated with an air outlet pipe 44, a bottom of the air outlet pipe 44 is movably inserted on a top of the heat conducting metal block 42, and a top of the air outlet pipe 44 penetrates through a top of the second housing 2 and extends out; when the air cooling device works, the first connecting pipe 40 can be communicated with the air inlet device, the air inlet device drives air flow to enter the first connecting pipe 40 from the outside and start to flow, the flowing air flow enters the heat conduction pipe 39 through the first connecting pipe 40, the heat conduction pipe 39 is located inside the ice cube bin 36, the temperature of the inside air flow is cooled through the heat conduction pipe 39 with good heat conductivity, the cooled air flow enters the second connecting pipe 41 and enters the flow guide inner groove 43 through the second connecting pipe 41, the flow guide inner groove 43 is located inside the heat conduction metal block 42, when the low-temperature air flow passes through the flow guide inner groove 43, the heat conduction metal block 42 is cooled due to the good heat conduction performance of the heat conduction metal block 42, the temperature of the heat conduction metal block 42 is reduced, the surface of cloth is cooled through the cooled heat conduction metal block 42, the phenomenon that the edge of the cloth is hardened due to the fact that the high temperature of the cloth is not timely dissipated in the high-temperature edge locking process is avoided, and the flatness after the cloth is favorably improved in cutting.

As an embodiment of the present invention, the air intake device includes an air intake 46, the air intake 46 is opened on the side wall of the second housing 2 and is communicated with the first connecting pipe 40, a first gear 47 is rotatably inserted into the inner wall of the air intake 46, first blades 48 are fixed in an array manner inside the first gear 47, a second gear 49 is arranged at the bottom of the first gear 47, the second gear 49 is rotatably inserted inside the second housing 2 and is engaged with the first gear 47, second rollers 50 are fixed at both ends of a central shaft of the second gear 49, and the bottom of the second rollers 50 penetrates through the bottom of the second housing 2 and extends out; during operation, the air inlet 46 can be communicated with the first connecting pipe 40 and the outside of the device, the device moves to cut in the process that the second roller 50 is in contact with the cloth or the workbench to be driven to roll, the rolling second roller 50 drives the second gear 49 coaxial with the rolling second roller to rotate, the second gear 49 drives the first gear 47 meshed with the second roller to rotate after rotating, the first gear 47 drives the first fan blade 48 inside the first gear to rotate after rotating, the first fan blade 48 drives the air flow to flow after rotating, so that the air flow enters the first connecting pipe 40 from the outside, temperature conduction is carried out through the flowing air flow, rapid cooling and flattening are favorably carried out on the surface of the cloth, the problem that the cloth is cooled too slowly due to high temperature effect and damages the cloth far away from the edge is avoided, and the flatness and integrity of the cloth after being cut are favorably improved.

As an embodiment of the present invention, the heat conducting metal block 42 extends out towards both sides of one end of the high temperature contact 33 and is located at both sides of the high temperature contact 33, a plurality of grooves 51 are formed in a bottom array of an end portion of the heat conducting metal block 42, end portions of opposite sides of the two groups of grooves 51 are both communicated with a third connecting pipe 52, a bottom of the third connecting pipe 52 is movably inserted into the heat conducting metal block 42, an inner groove 53 is formed in the first housing 1, the other end of the third connecting pipe 52 is fixedly communicated with the inner groove 53, a second rotating shaft 54 is rotatably inserted into the inner groove 53, one end of the second rotating shaft 54 is fixedly connected with the screw 26, a second fan blade 55 is fixed in an outer ring array of the second rotating shaft 54, and a plurality of air outlets 56 communicated with the inner groove 53 are formed in a side wall of the first housing 1; during operation, the end of the heat conducting metal block 42 extends to the two sides of the high-temperature contact 33, the cloth on the two sides of the high-temperature contact 33 can be cooled, the screw 26 drives the second rotating shaft 54 to rotate, the second rotating shaft 54 drives the second fan blade 55 to rotate, the rotating second fan blade 55 drives the airflow to flow, the air outlet 56 improves the exhausted space for the airflow, the flowing airflow generates pressure difference at the end of the groove 51 through the communication of the third connecting pipe 52, so that the airflow on the two sides of the heat conducting metal block 42 flows to the two sides of the high-temperature contact 33 along the groove 51, the temperature of the flowing airflow is reduced after passing through the heat conducting metal block 42, so that the temperature of the two sides of the high-temperature contact 33 is reduced while high-temperature edge locking is performed, the problem that the high temperature of the high-temperature contact 33 is spread to the middle of the cloth to cause excessive edge baking is avoided, and the integrity of the cloth after cutting is facilitated.

The working principle of the invention is as follows: in the prior art, the sharpness of the edge of the cut cloth is weakened by heating the cloth and controlling a cutting tool in the process of cutting the cloth, however, for the partial cloth like silk and lace, the edge of the cut cloth is broken, so that silk threads in the cloth are easy to hook out in the moving and using processes, thereby causing the cloth to generate a wire drawing gap and affecting the smoothness and later use of the cloth, the technical proposal can solve the problems, and the specific implementation mode is that the first shell 1 wraps and protects the internal structure of the device, the bottom of the first fixing plate 3 can press the cloth, the smoothness of the cloth in the cutting process is improved, the protection device can be started to protect the device, so that the cutting circular knife 24 can not contact with the cloth and the workbench when the device is not used, the damage to the cloth, the workbench and the cutting circular knife 24 is avoided, the storage battery 35 can provide power for the device, the connecting frame 4 can facilitate the device to be fixedly connected with the electric bracket when the electric control work is needed, the motor 22 can drive the first rotating shaft 23 to rotate after being started, the cutting circular knife 24 is driven to rotate after the first rotating shaft 23 rotates, the cloth can be cut after the cutting circular knife 24 rotates, the cutting line identification end 58 can facilitate an operator to align a cutting line in the manual operation process, thereby avoiding the deviation in the cutting process, the high-temperature edge locking device can be started when the cutting circular knife 24 cuts, the high temperature is utilized to roast along the flaky edges, the edges of all the cut pieces are burnt and melted and cooled to be bonded, the edge of the cloth after being cut is subjected to high-temperature edge locking, so that the silk thread on the edge of the cloth after being cut cannot generate a notch due to hooking, and the smoothness of the cloth after being cut is improved.

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

Claims

1. A cutting device for the structural design of garments, comprising a first shell (1), the top of the first shell (1) is fixedly connected with a connecting frame (4) provided with a connecting through hole, it is characterized in that first fixing plates (3) are symmetrically fixed at two sides of the first shell (1), starting protection devices are respectively installed at the bottoms of the two first fixing plates (3), a handle (5) is fixed at the end part of the first shell (1), a motor (22) is fixed in the first shell (1) through a screw, a first rotating shaft (23) is fixed at the end part of an output shaft of the motor (22), a cutting circular knife (24) is fixed on the outer ring of the first rotating shaft (23), the bottom of the cutting circular knife (24) penetrates through the bottom of the first shell (1) and extends out, a plurality of supporting blocks (57) matched with the cutting circular knives (24) are fixed at the bottom of the first shell (1), a high-temperature serging device is arranged in the first shell (1), the high-temperature serging device is positioned at one end of the cutting circular knife (24) facing the handle (5), the high-temperature serging device carries out wiredrawing-preventing serging on the cloth cut by the cutting circular knife (24), a storage battery (35) is arranged in the first shell (1), a cutting line recognition end (58) is fixedly connected to the end part of the first shell (1);

the high-temperature serging device comprises a warping plate (31), the warping plate (31) is rotatably inserted into the first shell (1), a poking plate (32) is fixed on one side, facing the cutting circular knife (24), of the warping plate (31), a positioning device is connected between the poking plate (32) and the first rotating shaft (23), the positioning device drives the poking plate (32) to turn upwards and poke when the cutting circular knife (24) rotates to work, a high-temperature contact (33) is fixed on the other side of the warping plate (31), a fifth spring (34) is fixed on the top of the high-temperature contact (33), and the top of the fifth spring (34) is fixedly connected with the inside of the first shell (1);

first casing (1) is fixed with second casing (2) towards one side of handle (5), the top of second casing (2) and the bottom fixed connection of handle (5), ice cube storehouse (36) have been seted up at the top of second casing (2), the top of ice cube storehouse (36) is inserted and is equipped with second apron (37), the inside of ice cube storehouse (36) is fixed with wire netting (38), the bottom activity of second casing (2) is inserted and is equipped with heat conduction metal block (42), the top of heat conduction metal block (42) is fixed with a plurality of sixth springs (45), and is whole the inside fixed connection of the top of sixth spring (45) and second casing (2), through intercommunication device interconnect between the inside of ice cube storehouse (36) and heat conduction metal block (42).

2. The cutting device for clothing structure design according to claim 1, characterized in that the starting protection device comprises two lifting blocks (6) and lifting grooves (14), a moving groove (19), a first elastic limiting piece (20), the lifting blocks (6) are symmetrically and movably inserted at the bottom of the first fixing plate (3), two groove blocks (7) are symmetrically fixed on the side wall of the lifting blocks (6), the lifting grooves (14) are arranged in the first fixing plate (3) and matched with the two groove blocks (7), a first spring (11) is fixed at the top of the lifting blocks (6), the first spring (11) is located in the lifting grooves (14) and fixedly connected with the first fixing plate (3), a first electrified piece (12) is fixed at the top of the lifting blocks (6), a second electrified piece (13) corresponding to the first electrified piece (12) is fixed at the top of the lifting grooves (14), a gear ring (8) is sleeved on the lifting blocks (6), a rotating gear ring (8) is inserted in the inner ring (9), and two gear rings (7) are arranged at the same side of the inner gear ring (7), the top of first fixed plate (3) is seted up in shifting chute (19), rack (16) slide insert locate shifting chute (19) inside and mesh mutually with ring gear (8) of homonymy, the top of rack (16) is fixed with a plurality of connecting rods (17), and is whole the top of connecting rod (17) is fixed with slurcam (18) jointly, the bilateral symmetry of slurcam (18) is fixed with spacing piece of second elasticity (21), and is a plurality of spacing piece of first elasticity (20) are fixed in the top of first fixed plate (3) and cooperate with spacing piece of second elasticity (21), rolling disc (10) are installed in the bottom rotation of elevator (6), a plurality of first gyro wheels (15) are installed to the bottom of rolling disc (10).

3. The cutting device for clothing design according to claim 1, wherein the positioning device comprises a screw (26) and an arc-shaped slope plate (30), the screw (26) is rotatably inserted in the first housing (1) and fixedly connected with the end of the first rotating shaft (23), the outer ring of the screw (26) is in threaded connection with a truncated cone-shaped rotating roller (25), one side of the truncated cone-shaped rotating roller (25) opposite to the cutting circular knife (24) is fixedly provided with a second spring (27), the other end of the second spring (27) is fixedly provided with a rotating ring (28), the rotating ring (28) is rotatably inserted in the first housing (1), the truncated cone-shaped rotating roller (25) is fixedly provided with two second fixing plates (29) towards the edge of one side of the cutting circular knife (24), two straight rods (1) are symmetrically fixed between the two second fixing plates (29), two outer rings of the two straight rods (2903) are commonly sleeved with a limiting plate (2903), two sides of the limiting plates (2903) are symmetrically fixed with two third fixing plates (2902), and the two arc-shaped springs 2902 are respectively sleeved on the inner side of the arc-shaped rotating shaft (2901), and the first housing (30) is provided with a straight rod (2902), arc ramp (30) and the inside fixedly connected with a plurality of fourth springs (3001) of groove of stepping down.

4. The cutting device for clothing structure design according to claim 1, characterized in that the communication device comprises a plurality of heat conduction pipes (39) and an inner diversion groove (43), all the heat conduction pipes (39) are fixed in the ice cube bin (36) in an array and are located below the wire mesh (38), one end of all the heat conduction pipes (39) is closed and the other end is fixedly communicated with a first connection pipe (40), the end of the first connection pipe (40) penetrates through the second shell (2) and extends out to be installed with an air intake device, the middle of all the heat conduction pipes (39) is fixedly communicated with a second connection pipe (41), the end of the second connection pipe (41) is movably inserted in the top of the heat conduction metal block (42), the inner diversion groove (43) is opened in the heat conduction metal block (42) and is communicated with the second connection pipe (41), the end of the inner diversion groove (43) is communicated with an air outlet pipe (44), the bottom of the air outlet pipe (44) is movably inserted in the top of the heat conduction metal block (42), and the top of the second connection pipe (44) penetrates through the top of the shell (2) and extends out.

5. The cutting device for clothing structure design according to claim 4, wherein the air intake device comprises an air intake (46), the air intake (46) is arranged on the side wall of the second shell (2) and communicated with the first connecting pipe (40), a first gear (47) is inserted into the inner wall of the air intake (46) in a rotating manner, first fan blades (48) are fixed on the inner array of the first gear (47), a second gear (49) is arranged at the bottom of the first gear (47), the second gear (49) is inserted into the second shell (2) in a rotating manner and meshed with the first gear (47), second rollers (50) are fixed at two ends of a central shaft of the second gear (49), and the bottom of the second rollers (50) penetrates through the bottom of the second shell (2) and extends out.

6. The cutting device for clothing structure design according to claim 1, wherein the heat conducting metal block (42) extends out towards two sides of one end of the high temperature contact (33) and is located on two sides of the high temperature contact (33), the bottom array of the end portion of the heat conducting metal block (42) is provided with a plurality of grooves (51), the end portions on opposite sides of two groups of grooves (51) are communicated with a third connecting pipe (52), the bottom of the third connecting pipe (52) is movably inserted into the interior of the heat conducting metal block (42), the interior of the first casing (1) is provided with an interior groove (53), the other end of the third connecting pipe (52) is fixedly communicated with the interior groove (53), the interior of the interior groove (53) is rotatably inserted with a second rotating shaft (54), one end of the second rotating shaft (54) is fixedly connected with the screw rod (26), the exterior ring array of the second rotating shaft (54) is fixed with a second fan blade (55), and the side wall of the first casing (1) is provided with a plurality of interior grooves (56) communicated with the air outlets (53).