CN112471650A

CN112471650A - Adjustable garment fitting template system

Info

Publication number: CN112471650A
Application number: CN202011339031.1A
Authority: CN
Inventors: 温军; 梁耀灿; 苏结伟; 刘雨
Original assignee: Yyc Industrial Co ltd China
Current assignee: Yyc Industrial Co ltd China
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-03-12

Abstract

The invention discloses an adjustable garment fitting template system, which comprises: the system comprises a computing device, a network side, a server, a client and a template worn by a user, wherein the client comprises data, a processor, a display side and an application program which are configured to be received from the template worn by the user, the server comprises a server processor, a server memory and server data, and the template worn by the user comprises a tensile member, a sensing layer and a sensor; by using an adjustable template that can be contracted, expanded or otherwise adapted to the contour of the consumer's body, the template can effectively measure the length, width and size of the consumer in order to determine the best fit of the garment to the consumer, the template can be automated to detect the consumer's body contour using pressure sensors to sense the best-fitting sensor estimate based on a plurality of template presets, the user entering the best-fit sensor estimate to perceive the proper fit of the garment on the consumer.

Description

Adjustable garment fitting template system

Technical Field

The invention belongs to the technical field of garment templates, and particularly relates to an adjustable garment fitting template system.

Background

The clothing template is one of the most advanced processes in the current clothing production, simplifies and standardizes the complex procedures, improves the efficiency, reduces the quality reject ratio, improves the stability of the quality and the production time, reduces the dependence degree on high-skilled personnel, and needs specific consumer measurement to ensure the proper size of the clothing and comfortable fitting when people buy the clothing on line. However, mass customization of garments using video scanning or input patterns is often inaccurate when used to make garments such as pants, shirts, and the like. In particular, there is a measure of the depth or thickness of the buttocks, torso, etc. In such a case, it often results in many garments being returned to you by the consumer, causing loss.

Disclosure of Invention

It is an object of the present invention to provide an adjustable garment fit template system to address the above background art that, however, when used to make garments such as pants, shirts, and the like, large scale customization of garments using video scanning or input models is often inaccurate. In particular, there is a measure of the depth or thickness of the buttocks, torso, etc. In such a case, it often causes many garments to be returned by the consumer, thereby causing a problem of loss.

In order to achieve the purpose, the invention adopts the following technical scheme: an adjustable garment fit template system, comprising: a computing device, a network side, a server, a client and a template worn by a user, the client comprising data, a processor, a display side and an application configured to be received from a template worn by a user, the server comprising a server processor, server memory and server data, the template worn by the user comprising a tensile member configured to obtain body measurement information of the user, a sensing layer configured to detect an amount of overpressure applied in a given area of the template worn by the user and indicate a distance to the given area of the template worn by the user, and a sensor configured to detect an amount of overpressure applied in the given area of the template worn by the user and indicate a distance to the given area, the client being connected with the template worn by the user, and the client is respectively connected with the server and the computing equipment through the network terminal.

Preferably, the template worn by the user further comprises an elastic material that can conform to the contours of the user's body.

Preferably, the sensitivity field of a first one of the sensors overlaps the sensitivity field of a second one of the sensors, and the sensors are mapped to provide one coordinate of the number of coordinates from the crossing readings of the first and second ones of the sensors.

Preferably, the sensing layer is configured to detect an amount of excess pressure applied in a given area of a template worn by the user and to indicate a distance from the given area of the template worn by the user, the template worn by the user to the skin of the user to obtain body measurement information of the user, a client device coupled to the template worn by the user, the client device configured to receive the body measurement information from the template worn by the user and to determine a size measurement of the template worn by the user.

Preferably, the computing device is further configured to compute cross-section measurements of the template worn by the user based on the mapped coordinates, the cross-section measurements corresponding to body measurements of the user.

Preferably, the computing device is configured to determine a set of dimensions of at least a part of the user based on the body measurement information, and to map a plurality of coordinates to the given area based on the given area, an amount of overpressure applied in the given area and a distance between the given area of the template worn by the user and the skin of the user, wherein the set of dimensions corresponds to a length and a width.

Preferably, the client device is coupled to a template worn by the user, the client device being configured to receive body measurement information from the template worn by the user and to determine dimensional measurements of the template worn by the user and a server in communication with the client device.

Preferably, the elastic material may be adapted to the body contours of the user.

The invention has the technical effects and advantages that: compared with the prior art, the adjustable garment fitting template system provided by the invention has the following advantages:

the template member can accurately determine the best fit template for the garment on the consumer, the template being made of a highly stretchable material with embedded sensors at various locations, wherein the sensors detect the amount of pressure applied thereto, the template can also be embedded in a tensile member such that when the template is worn by the consumer, the tensile member can contract, expand or otherwise adapt to the physical measurements of the consumer, so that the template can effectively measure the size and shape of the consumer wearing the template, information obtained through the template regarding the size and shape of the consumer is output to a computer or other readout, the template can effectively measure the length, width and size of the consumer by using an adjustable template that can contract, expand or otherwise adapt to the body contours of the consumer, so as to determine the best fit of the garment to the consumer, the template may be automated to detect the body contour of the consumer using a pressure sensor, such that based on a plurality of template presets, the user inputs a best-fit sensor estimate to perceive a proper fit of the garment on the consumer.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases by those skilled in the art, and all other embodiments obtained by those skilled in the art without inventive efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Examples

Referring to fig. 1, the present invention provides a technical solution: an adjustable garment fit template system, comprising: a computing device, a network side, a server, a client and a template worn by a user, the client comprising data, a processor, a display side and an application configured to be received from a template worn by a user, the server comprising a server processor, server memory and server data, the template worn by the user comprising a tensile member configured to obtain body measurement information of the user, a sensing layer configured to detect an amount of overpressure applied in a given area of the template worn by the user and indicate a distance to the given area of the template worn by the user, and a sensor configured to detect an amount of overpressure applied in the given area of the template worn by the user and indicate a distance to the given area, the client being connected with the template worn by the user, and the client is respectively connected with the server and the computing equipment through the network terminal.

In this embodiment, the template may comprise a plurality of sensors configured to obtain body measurement information of the user, the system further comprises a computing device in communication with the plurality of sensors, the computing device may be configured to determine a set of dimensions of at least a part of the user based on the body measurement information, in this regard, the set of dimensions may correspond to a length width, a depth and a dimension of the part of the user, the template may further comprise an elastic material that may adapt to a contour of the body of the user, the sensors are arranged to detect an amount of tension applied in a given area of the template, in this example, the computing device is further configured to map a plurality of coordinates to the given area of the template based on the amount of tension applied in the given area, the contour of the user may be generated by the computing device based on the mapped coordinates, the contour may correspond to the body measurement of the user, the template may comprise a plurality of tensile members, configured to obtain body measurement information of a user, the computing device may be configured to determine a set of dimensions of at least a portion of the user based on the body measurement information, the set of dimensions may correspond to a length, a width, a depth, and a size of the portion of the user, the tensile member may be adjusted in longitudinal and transverse directions, in this example, an input device may be coupled to the template and configured to receive size measurements of the template, the tensile member may be adjusted in response to the input size measurements to conform the template to a body contour of the user, the computing device may be further configured to map a plurality of coordinates to a given region of the template based on the longitudinal and transverse positions of the tensile member, cross-section measurements of the template may be calculated by the computing device based on the mapped coordinates, the cross-section measurements may correspond to body measurements of the user, the template worn by the user, a client device coupled to the template, the template may include a sensing layer configured to obtain body measurement information of the user, the client device may be configured to receive the body measurement information from the template and determine a dimensional measurement of the template, and a server in communication with the client device, the server may be configured to receive the dimensional measurement from the client device and calculate a custom fit of the garment for the user based on the dimensional measurement.

In this embodiment, specifically: the template worn by the user further comprises an elastic material that can conform to the contours of the user's body.

In this embodiment, specifically: the sensitivity field of a first one of the sensors overlaps the sensitivity field of a second one of the sensors, and from the crossing readings of the first and second ones of the sensors, the sensors are mapped to provide one coordinate of the number of coordinates.

In this embodiment, specifically: the sensing layer is configured to detect an amount of excess pressure applied in a given area of a template worn by the user and indicate a distance from the given area of the template worn by the user, the template worn by the user to the skin of the user to obtain body measurement information of the user, a client device coupled to the template worn by the user, the client device configured to receive the body measurement information from the template worn by the user and determine a dimensional measurement of the template worn by the user.

In this embodiment, specifically: the computing device is further configured to compute cross-section measurements of a template worn by the user based on the mapped coordinates, the cross-section measurements corresponding to body measurements of the user.

In this embodiment, specifically: the computing device is configured to determine a set of dimensions of at least a portion of the user based on the body measurement information, and to map a plurality of coordinates to the given area based on the given area, an amount of overpressure applied in the given area, and a distance between the given area of the template worn by the user and the skin of the user, wherein the set of dimensions corresponds to a length and a width.

In this embodiment, specifically: the client device is coupled to the template worn by the user, the client device configured to receive body measurement information from the template worn by the user and determine dimensional measurements of the template worn by the user and a server in communication with the client device.

In this embodiment, specifically: the elastic material may conform to the body contours of the user.

Working principle or structural principle: the template may include embedded tensile members such that when the template is worn by a consumer, the tensile members may contract, expand or otherwise adapt to the consumer's body measurements, in one aspect, the template may be made of a highly stretchable material with embedded sensors at various locations, wherein the sensors detect the amount of pressure exerted thereon, and thus the tensile members or sensors effectively measure the length width and size of the consumer, in which regard the consumer's body shape may include the consumer's body depth, gentle contours, and comfortable range of motion that is difficult to quantify by computer vision or other measurement methods, information about the consumer's body measurements obtained through the template may be output to a computer or other readout and used by the consumer to determine whether other garments fit, in some aspects, the consumer may also provide manual input to the template or computer to identify a suitable preference, for example, a more comfortable fit in some areas and a looser fit in other areas, wherein the template may include a plurality of sensors configured to obtain body measurement information of the user, the system further including a computing device in communication with the plurality of sensors, the computing device may be configured to determine a set of dimensions of at least a portion of the user based on the body measurement information, the computing device may be further configured to map a plurality of coordinates to a given area of the template based on the longitudinal and lateral positions of the tensile member, cross-sectional measurements of the template may be calculated by the computing device based on the mapped coordinates, the cross-sectional measurements may correspond to the body measurements of the user, the template worn by the user, a client device coupled to the template and a server in communication with the client device, the template may include a sensing layer configured to obtain the body measurement information of the user, the client device may be configured to receive body measurement information from the template and determine a dimensional measurement of the template, and the server may be configured to receive the dimensional measurement from the client device and calculate a custom fit of the garment for the user based on the dimensional measurement.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. An adjustable clothing fitting template system which is characterized in that: the method comprises the following steps: a computing device, a network side, a server, a client and a template worn by a user, the client comprising data, a processor, a display side and an application configured to be received from a template worn by a user, the server comprising a server processor, server memory and server data, the template worn by the user comprising a tensile member configured to obtain body measurement information of the user, a sensing layer configured to detect an amount of overpressure applied in a given area of the template worn by the user and indicate a distance to the given area of the template worn by the user, and a sensor configured to detect an amount of overpressure applied in the given area of the template worn by the user and indicate a distance to the given area, the client being connected with the template worn by the user, and the client is respectively connected with the server and the computing equipment through the network terminal.

2. The adjustable garment fit template system of claim 1, wherein: the template worn by the user further comprises an elastic material that can conform to the contours of the user's body.

3. The adjustable garment fit template system of claim 1, wherein: the sensitivity field of a first one of the sensors overlaps the sensitivity field of a second one of the sensors, and from the crossing readings of the first and second ones of the sensors, the sensors are mapped to provide one coordinate of the number of coordinates.

4. The adjustable garment fit template system of claim 1, wherein: the sensing layer is configured to detect an amount of excess pressure applied in a given area of a template worn by the user and indicate a distance from the given area of the template worn by the user, the template worn by the user to the skin of the user to obtain body measurement information of the user, a client device coupled to the template worn by the user, the client device configured to receive the body measurement information from the template worn by the user and determine a dimensional measurement of the template worn by the user.

5. The adjustable garment fit template system of claim 1, wherein: the computing device is further configured to compute cross-section measurements of a template worn by the user based on the mapped coordinates, the cross-section measurements corresponding to body measurements of the user.

6. The adjustable garment fit template system of claim 1, wherein: the computing device is configured to determine a set of dimensions of at least a portion of the user based on the body measurement information, and to map a plurality of coordinates to the given area based on the given area, an amount of overpressure applied in the given area, and a distance between the given area of the template worn by the user and the skin of the user, wherein the set of dimensions corresponds to a length and a width.

7. The adjustable garment fit template system of claim 1, wherein: the client device is coupled to the template worn by the user, the client device configured to receive body measurement information from the template worn by the user and determine dimensional measurements of the template worn by the user and a server in communication with the client device.

8. The adjustable garment fit template system of claim 1, wherein: the elastic material may conform to the body contours of the user.