阅读说明：本技术 一种成衣设备 (Ready-made clothe equipment ) 是由 张连凤 于 2021-02-21 设计创作，主要内容包括：本发明提出了一种成衣设备,涉及制衣设备领域。包括：机架、控制模块、人体扫描模块、取料组件、制衣组件和裁剪组件。人体扫描模块、取料组件、制衣组件、裁剪组件均与控制模块电连接。控制模式对人体扫描模块提供的信息进行分析处理并传输指令到取料组件及裁剪组件,取料组件拿取相应的布料传送到制衣组件进行衣物制作,裁剪组件对衣物进行最终裁剪。本发明提出一种成衣设备,其能够扫描人体的体型特征,通过大数据筛选出合适的制作布料后由设备自动抓取布料进行制作成衣,制作效率高并且人体的穿着舒适度和体验感更佳。(The invention provides ready-made clothes equipment, and relates to the field of clothes making equipment. The method comprises the following steps: the clothing cutting machine comprises a rack, a control module, a human body scanning module, a material taking assembly, a clothing making assembly and a cutting assembly. The human body scanning module, the material taking assembly, the clothing making assembly and the cutting assembly are all electrically connected with the control module. The control mode analyzes and processes information provided by the human body scanning module and transmits instructions to the material taking assembly and the cutting assembly, the material taking assembly takes corresponding cloth and transmits the cloth to the clothing making assembly to make clothing, and the cutting assembly finally cuts the clothing. The invention provides a garment making device which can scan the body shape characteristics of a human body, screen out proper cloth making through big data, and automatically grab the cloth by the device to make a garment, so that the making efficiency is high, and the wearing comfort and the experience of the human body are better.)

1. A garment making device is characterized by comprising a rack, a control module, a human body scanning module, a material taking assembly, a garment making assembly and a cutting assembly; the human body scanning module, the material taking assembly, the garment making assembly and the cutting assembly are all electrically connected with the control module;

the human body scanning module is used for scanning human body shape characteristics and then transmitting signals to the control module, and the control module analyzes and processes the signals transmitted by the human body scanning module and then transmits the signals to the material taking assembly and the cutting assembly;

the material taking assembly grabs corresponding cloth after receiving the signal transmitted by the control module and transmits the cloth to the clothing making assembly;

the clothing making assembly makes ready-made clothing after receiving the cloth grabbed by the material fetching assembly and conveys the made clothing to the cutting assembly;

and the cutting assembly cuts the clothes according to the signals transmitted by the control module after receiving the clothes made by the clothes making assembly.

2. A garment apparatus as claimed in claim 1, wherein the body scanning module comprises a mounting frame and at least one camera; the camera is arranged on the mounting frame.

3. A garment apparatus as claimed in claim 2, wherein the mounting frame is provided with a telescopic push rod, and the camera is provided on the telescopic push rod.

4. A garment apparatus as claimed in claim 3, wherein the mounting frame is provided with a chute, and one end of the telescopic push rod is slidably arranged in the chute.

5. A garment apparatus as claimed in claim 1, wherein the take off assembly includes a robotic arm connected to the frame.

6. A garment apparatus as claimed in claim 1, wherein the garment assembly includes a conveyor belt mounted to the frame in driving engagement therewith and a heater fixedly attached to the frame and disposed above the conveyor belt.

7. Garment equipment as claimed in claim 6, characterized in that a fan is provided between the cutting module and the garment module, said fan being connected to the frame.

8. A garment apparatus as claimed in claim 1, wherein the cutting assembly includes a gantry and a laser tube, the gantry being connected to the frame, the laser tube being movably mounted to the gantry.

9. A garment apparatus as claimed in claim 8, wherein the gantry comprises a support, a mount and a mount, the support being connected to the frame; the fixed frame is movably connected with the bracket, and the mounting seat is movably connected with the fixed frame; the laser tube is arranged on the mounting seat.

10. A garment facility according to claim 9, wherein the holder is provided with a first slide rail along its width direction, the support is provided with a first slide block cooperating with the first slide rail, and the support is provided with a first driving assembly for driving the holder to slide along the support; the mounting seat is provided with a second sliding rail along the width direction of the mounting seat, the fixed frame is provided with a second sliding block matched with the second sliding rail, and the fixed frame is provided with a second driving assembly used for driving the mounting seat to slide along the fixed frame; the first slide rail is perpendicular to the second slide rail.

Technical Field

The invention relates to the technical field of garment manufacturing equipment, in particular to garment manufacturing equipment.

Background

Along with the continuous improvement of living standard of people, the types of clothes are more and more, and the style is more and more complicated. The traditional sewing machine adopting manual sewing has the clothes making speed far away from meeting the requirements of people. In order to increase the garment production efficiency, garment module development equipment and automatic garment machines have been developed. According to the design pattern of the clothes, the template is firstly formed on the clothes making template equipment, the fabric is clamped between the two templates, and the automatic clothes making machine automatically makes the clothes according to the template pattern, so that the clothes making efficiency is greatly improved. However, in the prior art of garment making, the garment template device and the brake garment machine are two distinct devices and are in two distinct industries. In actual production and use, only when a new clothes style exists, a small number of sets of templates need to be manufactured by the clothes making template equipment, and the clothes making template equipment does not work in other large time. Namely, in the actual production, the clothing template equipment has the defects of low utilization rate, high cost, large occupied area and the like. Meanwhile, the size of the fixed clothing making template is only suitable for specific crowds, the requirements of the crowds cannot be met, and the clothes made of the fixed clothing making module are worn by the crowds with different body type characteristics, so that the comfort level and the experience feeling of the clothes are poor.

Disclosure of Invention

The invention aims to provide ready-made clothes equipment which can scan the body shape characteristics of a human body, screen out proper cloth making through big data, and automatically grab the cloth by the equipment to make ready-made clothes, so that the making efficiency is high, and the wearing comfort and experience of the human body are better.

The embodiment of the invention is realized by the following steps:

the embodiment of the invention provides ready-made clothes equipment which comprises a rack, a control module, a human body scanning module, a material taking assembly, a clothes making assembly and a cutting assembly. The human body scanning module, the material taking assembly, the clothing making assembly and the cutting assembly are all electrically connected with the control module.

The human body scanning module is used for transmitting signals to the control module after scanning human body type characteristics, and the control module transmits the signals to the material taking assembly and the cutting assembly after analyzing and processing the signals transmitted by the human body scanning module.

The material taking assembly grabs corresponding cloth and transmits the cloth to the clothing making assembly after receiving the signal transmitted by the control module.

The clothing making assembly makes ready-made clothing after receiving the cloth grabbed by the material fetching assembly and conveys the made clothing to the cutting assembly.

And the cutting assembly cuts the clothes according to the signals transmitted by the control module after receiving the clothes made by the clothes making assembly.

In some embodiments of the present invention, the human body scanning module includes a mounting frame and at least one camera, and the camera is disposed on the mounting frame.

In some embodiments of the present invention, the mounting frame is provided with a telescopic rod, and the camera is provided on the telescopic rod.

In some embodiments of the present invention, the mounting frame is provided with a sliding slot, and one end of the telescopic push rod is slidably disposed in the sliding slot.

In some embodiments of the present invention, the material taking assembly includes a robot arm, and the robot arm is connected to the frame.

In some embodiments of the present invention, the clothing-making assembly includes a conveyor belt and a heater, the conveyor belt is sleeved on the frame and is in transmission connection with the frame, and the heater is fixedly connected with the frame and is disposed above the conveyor belt.

In some embodiments of the present invention, a fan is disposed between the cutting assembly and the garment making assembly, and the fan is connected to the frame.

In some embodiments of the present invention, the cutting assembly includes a gantry and a laser tube, the gantry is connected to the frame, and the laser tube is movably disposed on the gantry.

In some embodiments of the present invention, the gantry includes a bracket, a fixing frame and a mounting base, and the bracket is connected to the frame. The fixed mount is movably connected with the bracket, and the mounting seat is movably connected with the fixed mount. The laser tube is arranged on the mounting seat.

In some embodiments of the present invention, the fixing frame is provided with a first sliding rail along a width direction thereof, the bracket is provided with a first sliding block matching with the first sliding rail, and the bracket is provided with a first driving assembly for driving the fixing frame to slide along the bracket. The mounting seat is provided with a second sliding rail along the width direction of the mounting seat, the fixing frame is provided with a second sliding block matched with the second sliding rail, and the fixing frame is provided with a second driving assembly used for driving the mounting seat to slide along the fixing frame. The first slide rail is perpendicular to the second slide rail.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects:

the invention provides ready-made clothes equipment which can scan the body shape characteristics of a human body, screen out proper cloth making through big data, and automatically grab the cloth by the equipment to make ready-made clothes, so that the making efficiency is high, and the wearing comfort and experience of the human body are better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a cross-sectional view of a garment apparatus provided in accordance with an embodiment of the present invention;

fig. 2 is a cross-sectional view of a mounting bracket and a telescopic push rod according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a gantry and a laser tube according to an embodiment of the present invention.

Icon: 1-a frame; 2-a control module; 3-a human body scanning module; 301-a mounting frame; 302-a camera; 303-a telescopic push rod; 304-a chute; 4-a material taking assembly; 401-a robotic arm; 5-making a garment component; 501-a heater; 502-a conveyor belt; 6-cutting the assembly; 601-laser tube; 602-a support; 603-a fixing frame; 604-a mounting seat; 605-a first slide rail; 606-a first slider; 607-a first drive assembly; 608-a second slide rail; 609-a second slider; 610-a second drive assembly; 611-driving the motor; 7-a fan; 8-conveying belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the 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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "upper", "lower", "inside", "outside", etc. are used for indicating the orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention usually place when using, the present invention is only used for convenience of description and simplification of the description, but does not indicate or imply that the devices or elements indicated must have specific orientations, be constructed in specific orientations, and operate, and thus, the present invention should not be construed as being limited. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 by those skilled in the art according to specific situations.

Example 1

Referring to fig. 1 and 2, fig. 1 is a sectional view of a garment apparatus according to an embodiment of the present invention; fig. 2 is a cross-sectional view of a mounting bracket 301 and a telescopic rod 303 according to an embodiment of the present invention.

The embodiment provides a garment apparatus, which comprises a frame 1, a control module 2, a human body scanning module 3, a material taking assembly 4, a garment making assembly 5 and a cutting assembly 6. The human body scanning module 3, the material taking assembly 4, the clothing making assembly 5 and the cutting assembly 6 are all electrically connected with the control module 2.

Human scanning module 3 is used for transmitting signal to control module 2 after the human body type characteristic of scanning, and control module 2 transmits the signal to getting material subassembly 4 and cutting subassembly 6 after carrying out analysis processes to the signal of human scanning module 3 transmission.

The material taking assembly 4 grabs corresponding cloth and transmits the cloth to the clothing assembly 5 after receiving the signal transmitted by the control module 2.

The clothes making component 5 makes ready-made clothes after receiving the cloth grabbed by the material fetching component 4 and conveys the made clothes to the cutting component 6.

The cutting assembly 6 cuts the clothes according to the signals transmitted by the control module 2 after receiving the clothes made by the clothes making assembly 5.

When the garment equipment is used, a human body stands in front of the human body scanning module 3, the human body scanning module 3 completely scans the body type characteristics of the human body and generates corresponding physical sign parameter values, and the physical sign parameter values can include height, three dimensions, skin color and other information. After the scan is completed, the values of the vital signs parameters are transmitted to the control module 2. The control module 2 analyzes the parameters transmitted by the human body scanning module 3 to generate a three-dimensional human body model diagram, and the cloth type and size suitable for the human body are screened out through big data. After proper cloth is screened out, the corresponding storehouse position conveys the required cloth to a designated position, meanwhile, the control module 2 transmits signals to the material taking assembly 4 and the cutting assembly 6, and the signals transmitted to the material taking assembly 4 are specific cloth types, cloth sizes and the like; the signals transmitted to the cutting assembly 6 are partial physical sign parameter values, three-dimensional models and the like of the human body. After the material taking assembly 4 receives the signal transmitted by the control module 2, the corresponding material is grabbed at the corresponding stock position according to the information such as the specific material type, the material distribution size and the like; the material taking assembly 4 delivers the corresponding cloth material to the clothing assembly 5 after the cloth material is picked. The garment making assembly 5 starts to make a garment according to the received cloth, and the optional making method is hot-melt bonding the garment, sewing the garment and the like. After the garment making assembly 5 finishes the garment making process, the made clothes are conveyed to the cutting assembly 6, the cutting assembly 6 performs final cutting on the clothes according to the human body sign parameters and the three-dimensional model transmitted by the control module 2, and redundant corners are cut off to form the final clothes which can be directly worn by a human body. After the final cutting is completed, the laundry is transferred to the placing area by the conveyor belt 8.

The ready-made clothe equipment that this embodiment provided, its size characteristic that can scan the human body picks the cloth automatically by equipment after selecting suitable preparation cloth through big data and makes the ready-made clothe, and the preparation is efficient and human wearing comfort level and experience sense are better.

The human body scanning module 3 of the present embodiment includes a mounting frame 301 and at least one camera 302. The camera 302 is arranged on the mounting frame 301. When the garment equipment is used, a human body stands in front of the human body scanning module 3, the human body is scanned in all directions through the camera 302 fixed on the mounting frame 301, and finally corresponding human body parameters and a human body model are output.

Optionally, the camera 302 is an infrared high-speed dome camera; the infrared high-speed dome camera has the following characteristics: the design is compact and attractive, the double-bearing high-strength structure is adopted, the low-power-consumption design is adopted, the operation is stable, the noise is low, the design of an imported large-torque stepping motor is accurate in positioning, the design is ingenious, and the installation and the debugging are convenient. And the infrared lamp and multiplying power distance matching algorithm adjusts the brightness of the infrared lamp according to the multiplying power and the distance, so that the image reaches an ideal state. The multi-angle LED lamp is configured, infrared lamps with different angles can be automatically and intelligently adjusted according to the change of the visual angle of the lens, an infrared light source is effectively utilized, the service life of the infrared lamp is prolonged (the service life of the infrared lamp reaches 3 ten thousand hours), the fogging phenomenon of the transparent cover is perfectly solved, and the LED lamp can adapt to different climatic environments. The acrylic optical ball cover is adopted, so that the light transmission is good, no deformation is caused, and the best light transmission effect can be achieved while the waterproof and dustproof effects are achieved. The ball body is completely sealed, so that the aging of components is effectively avoided, and the waterproof effect is good.

The mounting rack 301 of this embodiment is provided with a telescopic push rod 303, and the camera 302 is provided on the telescopic push rod 303. When the garment equipment is used, a human body stands in front of the human body scanning module 3, the human body is scanned through the camera 302 arranged at one end of the telescopic push rod 303, the telescopic push rod 303 can freely stretch and retract, a proper distance is kept between the camera 302 and the human body all the time, and information obtained through scanning is more accurate and appropriate.

Optionally, telescopic rod 303 chooses for use electric telescopic handle, and electric telescopic handle has following advantage: the electric telescopic rod has larger load and smaller volume, and can realize small volume and strong thrust; the industrial protection level of the electric telescopic rod is high, and the service life is long; the electric telescopic rod has no noise pollution and stable operation.

Optionally, the telescopic push rod 303 is a hydraulic push rod, and the hydraulic push rod has the following advantages: the hydraulic push rod adopts full hydraulic transmission, has sensitive action and stable operation, can effectively slow down external impact force, and has accurate stroke control; the hydraulic push rod can be actuated with load.

The mounting bracket 301 of this embodiment is provided with a sliding slot 304, and one end of the telescopic push rod 303 is slidably disposed in the sliding slot 304. As shown in fig. 2, when the garment apparatus of this embodiment is used, a human body stands in front of the human body scanning module 3, the human body is scanned by the camera 302 disposed at one end of the telescopic rod 303, the telescopic rod 303 can slide along the sliding slot 304, so that the camera 302 can scan the human body in all directions, and the accuracy of scanning information is ensured.

Example 2

This example differs from example 1 in that: the material taking assembly 4 comprises a mechanical arm 401, and the mechanical arm 401 is connected with the rack 1.

When the garment manufacturing apparatus of this embodiment is used, after the material taking assembly 4 receives the signal transmitted by the control module 2, the mechanical arm 401 fixed to the frame 1 starts to operate according to the specific information such as the type of fabric and the size of fabric, and the corresponding fabric is grabbed at the corresponding storage position.

The mechanical arm 401 has the following advantages: the labor is saved, and when the manipulator works, only one person needs to watch the equipment, so that the use of personnel and the expenditure of personnel cost are relatively reduced; the safety of the mechanical arm is high, the mechanical arm works by simulating the action of a person, and casualties cannot be caused when the mechanical arm works in an emergency, so that the safety problem is ensured to a certain extent; the mechanical arm is low in error rate, the mechanical arm is used for producing goods according to certain data, the mechanical arm can automatically stop working after the required data is reached, and the production efficiency is effectively improved.

Optionally, the material taking assembly 4 is a Kinova and Jaco mechanical arm. The Jaco three-finger light-weight mechanical arm is composed of a mechanical arm with 6 degrees of freedom and finger-shaped clamping fingers with three degrees of freedom, and is light in weight, simple to control, and very safe and friendly to human-computer interaction.

Example 3

This example differs from example 1 in that: the clothing-making assembly 5 of this embodiment includes the conveyer belt 502 and the heater 501, and the conveyer belt 502 cover is located frame 1 and is connected with frame 1 transmission, and the heater 501 is fixed connection and is located the conveyer belt 502 top with frame 1.

After the clothing making assembly 5 receives the cloth conveyed by the material taking assembly 4, the cloth is directly placed on the conveyor belt 502, the conveyor belt 502 is driven relative to the rack 1 to drive the cloth to move to the position below the heater 501, the heater 501 carries out hot melt adhesion on the cloth to form clothing, the hot melt adhesion principle is the same as that of the existing hot melt adhesion machine, and redundant description is omitted here.

Optionally, the heater 501 is a radiant microwave heater, and the radiant microwave heater has the following advantages: the radiation type microwave heater bonding ready-made clothes can obtain excellent effect even if the bonding is carried out at the temperature of bottom crossing; the microwave has stronger penetrating power, can carry out multi-layer bonding, and improves the bonding efficiency; the radiation type microwave heater can effectively solve the problem of glue leakage when being used for bonding ready-made clothes, and the hot melt glue is prevented from leaking to the outer surfaces of the clothes.

In the present embodiment, the hot-melt adhesive garment is only one form of garment making, and in other embodiments, the garment may be made by sewing or the like.

In the embodiment, a fan 7 is arranged between the cutting assembly 6 and the clothing making assembly 5, and the fan 7 is connected with the frame 1. After the heater 501 is used for bonding the fabric into a garment, the fabric is conveyed to the lower part of the fan 7, and the fan 7 is used for rapidly cooling the bonded fabric, so that the bonded fabric is cooled as soon as possible, and other subsequent operations on the fabric are facilitated.

The existing hot melt bonding equipment is generally cooled in air, namely naturally cooled, so that the cooling speed is slow, and the clothes-making efficiency is reduced.

Example 4

This example differs from example 1 in that: subassembly 6 is tailor to this embodiment includes portal frame and laser pipe 601, and the portal frame is connected with frame 1, and the portal frame is located in the activity of laser pipe 601.

When the garment making device of the embodiment is used, after the garment making assembly 5 completes garment making operation and conveys finished clothes to the cutting assembly 6, the laser tube 601 cuts redundant parts of the clothes according to human body sign parameters and the three-dimensional model transmitted by the control module 2, so that the cut clothes and a human body have perfect fit, and the wearing comfort of the human body is improved.

The laser pipe 601 has the following advantages: the cutting quality is good, the heat affected zone is small, and the cutting surface is smooth and beautiful; the cutting efficiency is high; the cutting speed is high, and the clothes do not need to be clamped and fixed during cutting, so that the time is saved; non-contact cutting, low noise, small vibration and no pollution in the cutting process.

The gantry of this embodiment includes a bracket 602, a fixing frame 603, and a mounting base 604, and the bracket 602 is connected to the rack 1. The fixing frame 603 is movably connected with the bracket 602, and the mounting seat 604 is movably connected with the fixing frame 603. Laser pipe 601 is located mount 604. When the clothes making assembly 5 finishes clothes making operation and conveys the finished clothes to the cutting assembly 6, the laser pipe 601 arranged on the mounting seat 604 cuts redundant parts of the clothes according to human body sign parameters and three-dimensional models transmitted by the control module 2, and because the mounting seat 604 is movably connected with the fixing frame 603, and the fixing frame 603 is movably connected with the support 602, the laser pipe 601 can be ensured to move in the transverse direction and the longitudinal direction of the rack 1, and the reasonable accuracy of a cutting area is ensured.

The fixing frame 603 of this embodiment is provided with a first slide rail 605 along the width direction thereof, the bracket 602 is provided with a first slider 606 engaged with the first slide rail 605, and the bracket 602 is provided with a first driving assembly 607 for driving the fixing frame 603 to slide along the bracket 602. The mounting seat 604 is provided with a second slide rail 608 along the width direction thereof, the fixing frame 603 is provided with a second slide block 609 matched with the second slide rail 608, and the fixing frame 603 is provided with a second driving assembly 610 for driving the mounting seat 604 to slide along the fixing frame 603. The first slide rail 605 is perpendicular to the second slide rail 608.

As shown in fig. 3, the laser tube 601 is fixed to the mounting base 604, the mounting base 604 is provided with a second sliding rail 608 along the width direction thereof, the fixing frame 603 is provided with a second sliding block 609 matched with the second sliding rail 608, the fixing frame 603 is provided with a second driving component 610 for driving the mounting base 604 to slide along the fixing frame 603, wherein the second driving component 610 includes a driving motor 611 and a lead screw, mounting holes matched with the lead screw are formed in both the mounting base 604 and the fixing frame 603, the lead screw sequentially passes through the mounting holes to connect the mounting base 604 with the fixing frame 603, when the driving motor 611 starts to work, the lead screw is driven to start moving, and the lead screw drives the mounting base 604 to move along the width direction of the rack 1, so that the laser tube 601 can move along the width direction of the rack. The screw transmission principle is the prior art, and redundant description is omitted here.

The fixed frame 603 has a first slide rail 605 along the width direction thereof, the bracket 602 has a first slide block 606 engaged with the first slide rail 605, and the bracket 602 has a first driving assembly 607 for driving the fixed frame 603 to slide along the bracket 602. The first driving assembly 607 comprises a driving motor 611 and a lead screw, mounting holes matched with the lead screw are formed in the support 602 and the fixing frame 603, the lead screw sequentially penetrates through the mounting holes to connect the support 602 with the fixing frame 603, when the driving motor 611 starts to work, the lead screw drives the fixing frame 603 to move along the length direction of the rack 1, and therefore the laser tube 601 can move in the length mode of the rack 1 to cut.

In summary, the embodiments of the present invention provide a garment apparatus, which includes a frame 1, a control module 2, a human body scanning module 3, a material taking assembly 4, a garment making assembly 5, and a cutting assembly 6. The human body scanning module 3, the material taking assembly 4, the clothing making assembly 5 and the cutting assembly 6 are all electrically connected with the control module 2.

Human scanning module 3 is used for transmitting signal to control module 2 after the human body type characteristic of scanning, and control module 2 transmits the signal to getting material subassembly 4 and cutting subassembly 6 after carrying out analysis processes to the signal of human scanning module 3 transmission.

The material taking assembly 4 grabs corresponding cloth and transmits the cloth to the clothing assembly 5 after receiving the signal transmitted by the control module 2.

The clothes making component 5 makes ready-made clothes after receiving the cloth grabbed by the material fetching component 4 and conveys the made clothes to the cutting component 6.

The cutting assembly 6 cuts the clothes according to the signals transmitted by the control module 2 after receiving the clothes made by the clothes making assembly 5.

The invention provides ready-made clothes equipment which can scan the body shape characteristics of a human body, screen out proper cloth making through big data, and automatically grab the cloth by the equipment to make ready-made clothes, so that the making efficiency is high, and the wearing comfort and experience of the human body are better.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.