CN108887766B - Intelligent body shaping clothes capable of sensing body shaping pressure and manufacturing process thereof - Google Patents

Abstract

An intelligent body sculpting garment capable of sensing body shaping pressure, comprising a body and a flexible sensor, the body is provided with a chest sensing area, a waist sensing area, a leg sensing area, and a buttock sensing area, and the four sensing areas are connected to each other. There is a flexible sensor. The flexible sensor includes an outer wrapping layer and an inner conductor inside. The outer wrapping layer includes an upper covering layer and a lower covering layer that are connected up and down. A body cavity is provided in the middle of the junction of the upper and lower covering layers. The body cavity is filled with a flexible inner conductor, the inner conductor is a mixture of glue and conductive powder, the outer wrapping layer is made of insulating material, and the inner conductor is set on the upper and lower covers by injection or screen printing. Between layers, pressure changes in the sensing area change the resistance of the flexible sensor. The design can not only be applied to body-shaping clothes to improve body-shaping effect, but also has good consistency, strong sensitivity and high precision.

Description

An intelligent body-shaping garment capable of sensing body-shaping pressure and its manufacturing process

technical field

The invention relates to a body-shaping garment, in particular to an intelligent body-shaping garment capable of sensing body-shaping pressure and a manufacturing process thereof, and is particularly suitable for improving body-shaping effect, enhancing consistency and improving monitoring sensitivity on the basis of being applicable to body-shaping garments with precision.

Background technique

In recent years, the rapid development of wearable electronic devices has become an important trend in the development of next-generation electronic products. As an important branch of wearable electronic devices, wearable strain sensors should have certain mechanical flexibility, fit, high stretchability, high sensitivity, fast response, and high durability to achieve their wearable characteristics. And its broad application in individual medical treatment, motion detection, human-computer interaction, virtual reality entertainment technology, etc., there is also a great demand in the field of shapewear, which is in direct contact with human skin, has good fit, and can Deformation occurs with the change of the human body. If the deformation can be monitored by external instruments, it will be greatly beneficial to improve the body shaping effect of the body shaper. However, most of the existing technologies use strain sensors based on semiconductors or metal foils, which are not only rigid, cannot be washed and dried with water, are not suitable for use in shapewear, and have low sensitivity, which cannot meet the requirements.

The publication number is CN101393058A, and the invention patent application published on March 25, 2009 discloses a flexible resistive pressure sensor with a woven structure and its application, which is composed of conductive fibers, and the conductive fibers are interwoven to become Woven fabric, all warp yarns of the woven fabric are connected to each other, all the weft yarns of the woven fabric are connected to each other, and the overall resistance between all the warp yarns and all the weft yarns varies with the pressure on the woven fabric . Although this design has the characteristics of being bendable, foldable and even washable, it can be applied to the detection of wearable personal physiological information and status, but it still has the following defects:

The design uses conductive fibers to form the warp and weft of the fabric. It is a new woven product that is separated from the existing fabric. It is difficult to directly apply on the existing fabric, and the application range is narrow, and it is difficult to meet the application requirements of the existing shapewear. , In addition, the consistency of the design is poor, and its resistance is composed of warp and weft itself. Once the external force is large, such as force in the direction of the weft, the adjacent warp will be pulled apart and separated, which is easy to produce gaps. , resulting in a sudden increase in resistance, which hinders normal use, and in the warp direction, even if there is tension, because the warp is far more than the weft, the tension in the warp direction has little effect on the weft and will not have a greater impact on the resistance, so the design is in the When subjected to external force, the direction of the latitude and longitude is greatly affected, and the consistency is weak, resulting in weak sensitivity and poor accuracy. In addition, the design cannot be arranged at the required part of the shapewear according to ergonomic requirements and has no decorative and beautifying function.

SUMMARY OF THE INVENTION

The purpose of the present invention is to overcome the defects and problems in the prior art that it is difficult to apply to body-shaping clothes, has poor consistency, weak sensitivity, and poor accuracy, and provides a kind of body-shaping clothes with good consistency, The invention discloses an intelligent body shaper with high sensitivity, good precision, washable, foldable and drying capable of sensing body shaping pressure and plastic effect and its manufacturing process.

In order to achieve the above purpose, the technical solution of the present invention is: an intelligent body-shaping garment capable of sensing body-shaping pressure, comprising a body of the garment and a plurality of sensors arranged thereon, and the sensors are signal-connected with an external monitoring instrument;

The sensor is a flexible sensor, and the body is provided with a chest sensing area, a waist sensing area, a leg sensing area and a buttock sensing area, and the chest sensing area, waist sensing area, leg sensing area, and hip sensing area are all connected. There is a flexible sensor, the flexible sensor includes an outer wrapping layer and its inner conductor, the outer wrapping layer includes an upper covering layer and a lower covering layer, the bottom surface of the upper covering layer is connected with the top surface of the lower covering layer, and the upper covering layer is , The middle of the junction of the lower cover layer is provided with a body cavity, the length of the body cavity is less than the length of the upper cover layer and the lower cover layer, the body cavity is filled with a flexible inner conductor, and the inner conductor The two ends are respectively connected with the inner ends of the No. 1 connection wire and the No. 2 connection wire. The outer ends of the No. 1 connection wire and the No. 2 connection wire are located outside the outer wrapping layer, and the inner conductor is a mixture of glue and conductive powder. , the outer wrapping layer is made of insulating material.

The conductive powder is carbon nanotubes or nano metal particles or a mixture of the two, the glue is polydimethylsiloxane, and the manufacturing material of the upper covering layer and the lower covering layer is silica gel.

The chest sensing area, waist sensing area, leg sensing area, and hip sensing area are all arc structures.

A manufacturing process of the above-mentioned intelligent body-shaping clothes capable of sensing body-shaping pressure, the manufacturing process comprises the following steps: firstly connecting the upper cover layer and the lower cover layer as a whole, and then injecting the mixture of glue and conductive powder through a syringe The junction of the upper covering layer and the lower covering layer forms an inner conductor. After the injection, the flexible sensor can be obtained. Finally, the flexible sensor is connected to the chest sensing area, waist sensing area, leg sensing area, and hip sensing area. , the intelligent body-shaping clothes that can perceive body-shaping pressure can be obtained.

A manufacturing process of the above-mentioned intelligent body-shaping garment capable of sensing body-shaping pressure, the manufacturing process comprises the following steps: firstly placing a lower cover layer on a plane, then setting a screen frame directly above the lower cover layer, and directly above the screen frame A scraper and scraper B are provided, and then the height of the left and right sides of the screen frame is adjusted by the left longitudinal adjustment device of the screen frame and the right longitudinal adjustment device of the screen frame. After the adjustment, the conductive paste obtained by mixing the glue and the conductive powder It is placed on the top surface of the screen frame, and the conductive paste is located between the scraper A and scraper B, and then the scraper A and scraper B are driven by the longitudinal displacement device and the lateral displacement device to move horizontally and vertically, so as to penetrate the conductive paste. The screen frame is printed on the lower cover layer. After the printing is completed, the upper cover layer is covered on the lower cover layer and the conductive paste printed on it. The conductive paste between the layer and the lower cover layer is the inner conductor, and the flexible sensor can be obtained at this time. Finally, the flexible sensor is connected to the chest sensing area, waist sensing area, leg sensing area, and hip sensing area. The smart body-shaping clothes that can sense body-shaping pressure can be obtained by connecting them.

The top of the screen frame is provided with a scraper blade and a scraper blade B connected with the scraper seat plate, the left side of the screen frame is connected with the bottom of the left vertical plate, and the top of the left vertical plate is connected with the inner side of the left horizontal plate. The sides are connected vertically, the top surface of the left horizontal plate is connected with the bottom end of the left longitudinal adjustment device of the screen frame, the right side of the screen frame is superimposed and connected with the top surface of the lower right horizontal plate, and the right side of the lower right horizontal plate is connected in a superimposed manner. The side is vertically connected with the bottom of the right vertical plate, the top of the right vertical plate is vertically connected with the left side of the upper right horizontal plate, and the top surface of the upper right horizontal plate is connected with the bottom of the right vertical adjustment device of the screen frame; The adjustment device includes a single longitudinal frame adjustment device respectively arranged at both ends of the top surface of the left horizontal plate, the right longitudinal adjustment device of the screen frame includes a single longitudinal frame adjustment device respectively arranged at both ends of the top surface of the upper right horizontal plate, the single longitudinal frame adjustment device. The device includes a fixed vertical plate, an inner frame guide rail, an outer frame guide rail, a side adjustment rod and a top adjustment rod. The edge is slidingly matched with the inner side of the inner frame guide rail, the outer side of the fixed vertical plate is slidingly matched with the inner side surface of the outer frame guide rail, the inner frame guide rail and the outer frame guide rail are parallel to each other, and the top of the inner frame guide rail and the outer frame guide rail The two ends of the frame rail seat are connected vertically, the middle part of the top frame rail seat is provided with a top through hole, the top end of the top adjustment rod is set higher than the top frame rail seat, and the bottom end of the top adjustment rod passes through the top through hole and is fixed with the vertical plate. The top of the fixed vertical plate is in contact with the top of the fixed vertical plate, and a vertical adjustment groove is provided at the position near the top of the fixed vertical plate. contact, and the inner side of the top frame back plate is covered and connected with the inner frame guide rail, the outer frame guide rail, and the back side of the top frame rail seat.

The top of the scraper seat plate is connected with a longitudinal displacement device, and the longitudinal displacement device includes a longitudinal cylinder A and a longitudinal cylinder B, the bottoms of the longitudinal cylinder A and the longitudinal cylinder B are all connected with the top surface of the scraper seat plate, and the longitudinal direction of A is connected to the top surface of the scraper seat plate. The output end of the cylinder passes through the scraper seat plate and then passes through the knife block A and the clamping part of A, and then connects with the top of the scraper A. The output end of the longitudinal cylinder B passes through the scraper seat plate and passes through the knife block B and the clamping knife B in turn. The rear part is connected with the top of the scraper B, the scraper A is located on the left side of the scraper B, the knife seat A and the knife block B are parallel to each other, and the side parts of the knife block A and the knife block B are respectively provided with a fixed rotary arm and a fixed rotary arm of B. , A cavity A and a cavity B are respectively opened in the inside of the knife base and the knife block B.

Described nail scraper comprises nail oblique extension section and nail vertical section whose length decreases successively, the top end of nail oblique extension section is connected with the bottom surface of nail clipping blade, and the bottom end of nail oblique extension section is connected with the top of nail vertical section. Connected, the horizontal distance between the oblique extension section A, the junction of the blade section A and the blade section B is greater than the horizontal distance between the vertical section A and the scraper section B, and the distance between the oblique extension section A and the blade section A is larger than the horizontal distance between the vertical section A and the scraper section B. The included angle, and the included angle between the oblique extension section of A and the vertical section of A are all obtuse angles; the clipping part of B includes the upper splint of B, the left arm of B and the right arm of B, and the top surface of the splint of B is the same as the upper splint of B. The bottom of the knife holder of B is connected, the bottom surface of the upper splint of B is connected with the top of the left clamp arm of B and the right clamp arm of B, the left clamp arm of B and the right clamp arm of B are parallel to each other, the left clamp arm of B, the upper splint of B, The right clamp arm is clamped into the upper and lower chambers of B clamp and B clamp, which are connected up and down. The width of the upper cavity of B clamp is greater than the width of the lower cavity of B clamp. The bottom end extends down to just below the B-clamp part.

The top of the scraper seat plate is connected with the lateral displacement device, and the lateral displacement device and the scraper seat plate are slidingly matched in the lateral direction; the top surface of the scraper seat plate is provided with two parallel No. 1 sliding seats and No. 2 sliding seats. The sliding seat and the driving sliding table, the driving sliding table is located between the No. 1 sliding seat and the No. 2 sliding seat; the lateral displacement device includes the No. 1 linear guide rail, the No. 2 linear guide rail and the synchronous belt. The No. 1 linear guide rails are parallel to each other, the outer side of the No. 1 linear guide rail is slidingly matched with the inner side of the No. 1 sliding seat, and the outer side of the No. 2 linear guide rail is slidingly matched with the inner side of the No. 2 sliding seat; the synchronous belt is closed The ring structure, including the left arc belt, the upper straight belt, the right arc belt and the lower straight belt connected in sequence, the left arc belt is wound on the outer periphery of the left side of the left pulley, and the right arc belt is wound on the right side of the right pulley. On the outer periphery, the left and right ends of the upper straight belt are in contact with the tops of the left and right pulleys respectively, and the left and right ends of the lower straight belt are in contact with the bottoms of the left and right pulleys respectively. The bottom surface is connected with the top surface of the driving slide table, the middle part of the right pulley is connected with the middle part of the lower outer drive wheel, and the outer periphery of the lower outer drive wheel is connected with the outer periphery of the upper outer drive wheel through the outer drive belt. The middle of the outer drive wheel is connected with the output end of the servo motor.

The tops of the No. 1 linear guide rail and No. 2 linear guide rail are respectively connected with the No. 1 guide rail fixing plate and the No. 2 guide rail fixing plate. The No. 1 linear guide rail is connected with the No. 2 linear guide rail through the lower splint, and the No. 1 guide rail fixing plate passes The upper splint is connected with the No. 2 guide rail fixing plate. The upper splint and the lower splint are parallel to each other. The upper splint and the lower splint are located between the drive slide and the right pulley. An entrainment cavity is formed between the upper splint and the lower splint. The left end of the straight belt is in contact with the bottom of the left pulley, and the right end of the lower straight belt is in contact with the bottom of the right pulley after passing through the driving slide table and the entrainment cavity in turn.

Compared with the prior art, the beneficial effects of the present invention are:

1. In an intelligent body sculpting garment capable of sensing body sculpting pressure of the present invention and its manufacturing process, flexible sensors are connected to the chest sensing area, waist sensing area, leg sensing area, and hip sensing area on the clothing body. , when the user's chest, waist, legs, and hips move or change in volume, the pressure on the flexible sensor in the corresponding sensing area will change, and the pressure change will change the physical form of the flexible sensor, thereby Change the resistance of the flexible sensor, the change of the resistance will be monitored by the external monitoring instrument in real time, and then the size and direction of the pressure change will be judged, which will help to improve the body sculpting effect. The degree of integration is high, so the data monitored by it has strong immediacy and high accuracy. Therefore, the present invention can not only be applied to body shaping clothes, which is beneficial to improve the body shaping effect, but also has higher sensitivity and better accuracy.

2. In an intelligent body sculpting garment capable of sensing body sculpting pressure and its manufacturing process of the present invention, a body cavity is provided in the middle of the junction of the upper cover layer and the lower cover layer in the flexible sensor, and the body cavity is filled with Flexible inner conductor. The inner conductor is a mixture of glue and conductive powder. When the flexible sensor is under pressure, the shape of the inner conductor will change, especially between the first and second wires. The length of the inner conductor changes the resistance value of the inner conductor. The change of the resistance value can be monitored by external instruments, so as to infer the size and direction of the pressure change. The sensitivity is high, and it is very suitable for monitoring the shape of the body on the shapewear. Pressure changes, in addition, whether it is the tension in the direction of the weft or the direction of the warp, its effect on the inner conductor will not cause a sudden increase in resistance, with good consistency and high accuracy, especially when the conductive powder is carbon nanotubes Or nano metal particles or a mixture of the two, the effect is more significant. Therefore, the present invention not only has high sensitivity and is easy to be applied to shapewear, but also has good consistency and high precision.

3. In an intelligent body-shaping garment capable of sensing body-shaping pressure of the present invention and its manufacturing process, the left and right sides of the screen frame are respectively connected with the left longitudinal adjustment device of the screen frame and the right longitudinal adjustment device of the screen frame. The vertical adjustment device and the right vertical adjustment device of the screen frame are independent of each other, and can adjust the height of the left side and the right side of the screen frame respectively, which can not only adjust the overall height of the screen frame, but also change the inclination angle of the screen frame to meet the A variety of different printing needs, so as to ensure printing quality and efficiency. Therefore, the present invention not only has strong adjustability and can adjust the height in two positions, but also has better printing quality and higher printing efficiency.

4. In an intelligent body-shaping garment capable of sensing body-shaping pressure of the present invention and its manufacturing process, a lateral displacement device and a longitudinal displacement device are arranged on the top of the scraper seat plate, and the longitudinal displacement device includes a longitudinal cylinder A, a longitudinal cylinder B, A and B. The output end of the vertical cylinder is connected to the top of the scrapers A and B respectively after passing through the scraper base plate. A screen frame is arranged under the scrapers A and B. When using, first place the printing paste on the scrapers A and B. On the screen frame between the two sides, the scrapers A and B are driven to make longitudinal movements respectively, and horizontal reciprocating movements together to complete screen printing. The combination of double scrapers A and B can improve the printing quality of the paste. With the printing efficiency, on this basis, the combination of the vertical and horizontal movements of the squeegee enhances the adjustability of the squeegee, which can not only further improve the printing quality and efficiency, but also expand the scope of application to adapt to more types of pastes with printed fabric. Therefore, the present invention not only has good printing quality and high printing efficiency, but also has strong adjustability and wide application range.

5. In an intelligent body-shaping garment capable of sensing body-shaping pressure and its manufacturing process of the present invention, a No. 1 sliding seat, a driving sliding table, and a No. 2 sliding seat are arranged side by side on the top surface of the scraper seat plate. At the same time, the lateral displacement device includes a No. 1 linear guide, No. 2 linear guide and synchronous belt, the linear guide is slidingly matched with the corresponding sliding seat, and the bottom surface of the lower straight belt in the synchronous belt is connected with the top surface of the driving slide table. The drive wheel, the outer drive belt, and the lower outer drive wheel drive the right pulley to rotate, and then the rotating right pulley drives the left pulley to rotate through the synchronous belt. B scraper movement, this design can not only realize the lateral reciprocating movement of the scraper, but also use the servo motor as the power source to facilitate the switching of the left and right movement directions. In addition, the synchronous belt is used as the medium to drive the scraper seat plate for lateral movement, which is flexible It has a large buffer effect, which can ensure the stability of the movement of the scraper seat plate, which is beneficial to improve the printing quality. Therefore, the present invention has higher stability of lateral movement and better printing effect.

Description of drawings

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

FIG. 2 is a schematic structural diagram of the flexible sensor in FIG. 1 .

FIG. 3 is a schematic structural diagram of an apparatus for printing conductive paste in the present invention.

FIG. 4 is a schematic structural diagram of the left longitudinal adjustment device of the screen frame in FIG. 3 .

FIG. 5 is a schematic structural diagram of the right longitudinal adjustment device of the screen frame in FIG. 3 .

FIG. 6 is a front view of FIG. 3 .

FIG. 7 is a schematic structural diagram of the upper straight belt and the lower straight belt in FIG. 3 .

FIG. 8 is a schematic diagram of the connection between the lower straight belt and the driving slide in FIG. 7 .

FIG. 9 is a schematic structural diagram of the No. 1 linear guide rail and the No. 2 linear guide rail in FIG. 3 .

FIG. 10 is a front view of FIG. 9 .

FIG. 11 is a schematic structural diagram of the scraper seat plate in FIG. 10 .

In the figure: Screen frame 1, A scraper 2, A blade seat 21, A fixed arm 22, A clipping part 23, A cavity 24, A oblique extension 25, A vertical section 26, B scraper 3, B Knife base 31, B fixed rotating arm 32, B clamp part 33, B upper splint 331, B left clamp arm 332, B right clamp arm 333, B clamp upper cavity 334, B clamp lower cavity 335, B cavity 34, Scraper seat plate 4, No. 1 sliding seat 41, No. 2 sliding seat 42, Drive sliding table 43, Longitudinal displacement device 5, A longitudinal cylinder 51, B longitudinal cylinder 52, A cylinder fine adjustment knob 53, B cylinder fine adjustment knob 54, horizontal Displacement device 6, No. 1 linear guide rail 61, No. 1 guide rail fixing plate 611, No. 2 linear guide rail 62, No. 2 guide rail fixing plate 621, synchronous belt 63, left arc belt 631, upper straight belt 632, right arc belt 633, lower Straight belt 634, left pulley 64, right pulley 65, lower outer driving wheel 66, outer driving belt 67, upper outer driving wheel 68, servo motor 69, entrainment cavity 60, upper clamping plate 601, lower clamping plate 602, left screen frame Vertical adjustment device 7, left vertical plate 71, left horizontal plate 72, screen frame right vertical adjustment device 8, right lower horizontal plate 81, right vertical plate 82, right upper horizontal plate 83, vertical frame adjustment device 9, fixed vertical plate 91, Vertical adjustment slot 911, inner frame guide rail 92, outer frame guide rail 93, side adjustment rod 94, top adjustment rod 95, top frame rail seat 96, top through hole 961, top frame back plate 97, outer connection fixing point 98, outer package Layer 10, upper cover layer 101, lower cover layer 102, body cavity 103, inner conductor 11, No. 1 connecting wire 111, No. 2 connecting wire 112, body 12, chest sensing area 121, waist sensing area 122, The leg sensing area 123 , the hip sensing area 124 , and the flexible sensor 13 .

Detailed ways

The present invention will be described in further detail below in conjunction with the description of the drawings and specific embodiments.

Referring to Figures 1-11, a smart body-shaping garment capable of sensing body-shaping pressure includes a garment body 12 and a plurality of sensors arranged thereon, and the sensors are signal-connected to external monitoring instruments;

The sensor is a flexible sensor 13, the body 12 is provided with a chest sensing area 121, a waist sensing area 122, a leg sensing area 123 and a hip sensing area 124, a chest sensing area 121, a waist sensing area 122, and a leg sensing area. The flexible sensor 13 is connected to the area 123 and the buttocks sensing area 124. The flexible sensor 13 includes the outer wrapping layer 10 and the inner conductor 11 inside it. The outer wrapping layer 10 includes an upper covering layer 101 and a lower covering layer 102. The bottom surface of the upper cover layer 101 is connected with the top surface of the lower cover layer 102, and a body cavity 103 is arranged in the middle of the junction of the upper cover layer 101 and the lower cover layer 102, and the length of the body cavity 103 is smaller than that of the upper cover layer. 101. The length of the lower cover layer 102, the body cavity 103 is filled with a flexible inner conductor 11, and the two ends of the inner conductor 11 are respectively connected with the inner ends of the first wire 111 and the second wire 112, The outer ends of the No. 1 connecting wire 111 and the No. 2 connecting wire 112 are located outside the outer wrapping layer 10 , the inner conductor 11 is a mixture of glue and conductive powder, and the outer wrapping layer 10 is made of insulating material.

The conductive powder is carbon nanotubes or nano metal particles or a mixture of the two, the glue is polydimethylsiloxane, and the manufacturing material of the upper covering layer 101 and the lower covering layer 102 is silica gel.

The chest sensing area 121 , the waist sensing area 122 , the leg sensing area 123 , and the hip sensing area 124 are all arc-shaped structures.

A manufacturing process of the above-mentioned intelligent body-shaping clothing capable of sensing body-shaping pressure, the manufacturing process comprises the following steps: firstly connecting the upper covering layer 101 and the lower covering layer 102 as a whole, and then injecting a mixture of glue and conductive powder through a syringe The junction of the upper cover layer 101 and the lower cover layer 102 is injected to form the inner conductor 11. After the injection, the flexible sensor 13 can be obtained. Finally, the flexible sensor 13 is connected to the chest sensing area 121, the waist sensing area 122, the legs The upper sensing area 123 and the buttock sensing area 124 are connected to obtain the intelligent body sculpting clothes that can sense body sculpting pressure.

A manufacturing process of the above-mentioned intelligent body shaping clothing capable of sensing body shaping pressure, the manufacturing process comprises the following steps: firstly placing a lower cover layer 102 on a plane, and then setting a screen frame 1 just above the lower cover layer 102, the screen frame A scraper 2 and scraper B 3 are arranged directly above 1, and then the height of the left and right sides of the screen frame 1 is adjusted by the left longitudinal adjustment device 7 of the screen frame and the right longitudinal adjustment device 8 of the screen frame. The conductive paste obtained by mixing with the conductive powder is placed on the top surface of the screen frame 1, and the conductive paste is located between the A scraper 2 and the B scraper 3, and then the A scraper 2 and the second scraper are driven by the longitudinal displacement device 5 and the lateral displacement device 6. The squeegee 3 moves horizontally and vertically to print the conductive paste on the lower cover layer 102 through the screen frame 1. After printing, the upper cover layer 101 is covered on the lower cover layer 102 and the conductive paste printed thereon. , at this time, the upper cover layer 101 and the lower cover layer 102 are connected up and down as a whole, and the conductive paste located between the upper cover layer 101 and the lower cover layer 102 is the inner conductor 11, and the above-mentioned The flexible sensor 13 is finally connected with the chest sensing area 121 , waist sensing area 122 , leg sensing area 123 , and hip sensing area 124 to obtain the intelligent body sculpting clothing that can sense body shaping pressure.

A scraper 2 and a scraper 3 connected to the scraper seat plate 4 are arranged directly above the screen frame 1. The left side of the screen frame 1 is connected with the bottom of the left vertical plate 71. The top is vertically connected with the inner side of the left horizontal plate 72, the top surface of the left horizontal plate 72 is connected with the bottom end of the left longitudinal adjustment device 7 of the screen frame, and the right side of the screen frame 1 is connected with the lower right horizontal plate 81. The top surface is superimposed and connected, the right side of the lower right horizontal plate 81 is vertically connected with the bottom of the right vertical plate 82, the top of the right vertical plate 82 is vertically connected with the left side of the upper right horizontal plate 83, and the top surface of the upper right horizontal plate 83 is vertically connected to the bottom of the right vertical plate 82. The bottom of the right longitudinal adjustment device 8 of the screen frame is connected; the left longitudinal adjustment device 7 of the screen frame includes a single longitudinal frame adjustment device 9 respectively arranged at both ends of the top surface of the left transverse plate 72, and the right longitudinal adjustment device 8 of the screen frame It includes a single longitudinal frame adjusting device 9 respectively arranged at both ends of the top surface of the upper right horizontal plate 83. The single longitudinal frame adjusting device 9 includes a fixed vertical plate 91, an inner frame guide rail 92, an outer frame guide rail 93, a side adjustment rod 94 and a top adjustment rod. 95, the bottom end of the fixed vertical plate 91 is vertically connected with the top surface of the left horizontal plate 72 or the right upper horizontal plate 83, the inner side of the fixed vertical plate 91 is slidingly matched with the inner side of the inner frame guide rail 92, and the fixed vertical plate 91 The outer side of the inner frame guide rail 92 and the outer frame guide rail 93 are parallel to each other, and the top ends of the inner frame guide rail 92 and the outer frame guide rail 93 are respectively vertically connected with the two ends of the top frame rail seat 96 The middle of the top frame rail seat 96 is provided with a top through hole 961, the top end of the top adjustment rod 95 is set higher than the top frame rail seat 96, and the bottom end of the top adjustment rod 95 passes through the top through hole 961 and is connected to the fixed vertical plate 91. The top ends of the fixed vertical plate 91 are in contact with each other, and a vertical adjustment groove 911 is formed on the fixed vertical plate 91 near the top end. One end of the side adjustment rod 94 is located outside the fixed vertical plate 91. The top frame back plate 97 is in contact, and the inner side surface of the top frame back plate 97 is covered and connected with the inner frame guide rail 92 , the outer frame guide rail 93 , and the back surface of the top frame rail seat 96 .

The top of the scraper seat plate 4 is connected with a longitudinal displacement device 5, and the longitudinal displacement device 5 includes a longitudinal cylinder 51 and a longitudinal cylinder 52. The bottoms of the longitudinal cylinder A and the longitudinal cylinder 52 are all connected to the scraper seat plate. The top surface of 4 is connected, the output end of the longitudinal cylinder 51 of A is connected to the top of the scraper 2 after passing through the scraper seat plate 4, and then through the blade seat 21 and the clip part 23 of A in turn, and the output end of the longitudinal cylinder 52 of B is connected to the top of the scraper 2. After passing through the scraper seat plate 4, it is connected with the top of the second scraper 3 after passing through the second knife seat 31 and the second knife part 33 in turn. A fixed arm 22 and B fixed arm 32 are respectively provided on the sides of the A knife seat 21 and the second knife seat 31, and the inner part of the first knife seat 21 and the second knife seat 31 are respectively provided with a through-through A cavity 24 and a second air cavity. Cavity 34.

The nail scraper 2 includes a nail oblique extension 25 and a nail vertical section 26 whose lengths are successively reduced. The top end of the nail oblique extension 25 is connected with the bottom surface of the nail clip part 23. The top of the vertical section A is connected to each other, and the horizontal distance between the oblique extension section 25, the junction of the clipping part 23 and the clipping part 33 is greater than the horizontal distance between the vertical section 26 and the scraper 3, The angle between the oblique extension section 25 and the knife section 23, and the angle between the oblique section 25 and the vertical section 26 are obtuse angles; the knife section 33 includes the upper plywood 331 , B left clamp arm 332 and B right clamp arm 333, the top surface of B upper splint 331 is connected with the bottom of B knife seat 31, the bottom surface of B upper splint 331 is connected with B left clamp arm 332, B right clamp arm 333 top Connected, B left clamp arm 332, B right clamp arm 333 are parallel to each other, B left clamp arm 332, B upper splint 331, B right clamp arm 333 are clamped into a B clamp upper cavity 334 and B clamp lower cavity which are connected up and down. 335, the width of the upper cavity 334 of the B clip is larger than the width of the lower cavity 335 of the B clip, and the inner part of the lower cavity 335 of the B clip is embedded with the top of the B scraper 3, and the bottom end of the B scraper 3 extends down to just below the B clip knife portion 33.

The top of the scraper seat plate 4 is connected with the lateral displacement device 6, and the lateral displacement device 6 and the scraper seat plate 4 are slidably matched in the lateral direction; the top surface of the scraper seat plate 4 is provided with two parallel No. 1s. The sliding seat 41, the second sliding seat 42 and the driving sliding table 43, the driving sliding table 43 is located between the first sliding seat 41 and the second sliding seat 42; the lateral displacement device 6 includes the first linear guide rail 61, the second linear guide The guide rail 62 and the timing belt 63, the No. 1 linear guide 61 and the No. 2 linear guide 62 are parallel to each other, the outer side of the No. 1 linear guide 61 and the inner side of the No. The outer side is slidingly matched with the inner side of the second sliding seat 42; the timing belt 63 is a closed annular structure, including the left arc belt 631, the upper straight belt 632, the right arc belt 633 and the lower straight belt 634, which are connected in sequence. The left arc belt 631 is wound on the outer periphery of the left side of the left pulley 64, the right arc belt 633 is wound on the outer periphery of the right side of the right pulley 65, and the left and right ends of the upper straight belt 632 are The top of the pulley 65 is in contact, the left and right ends of the lower straight belt 634 are in contact with the bottom of the left pulley 64 and the right pulley 65 respectively, the bottom surface of the lower straight belt 634 is connected with the top surface of the driving slide 43, and the right belt The middle part of the wheel 65 is connected with the middle part of the lower outer driving wheel 66, the outer circumference of the lower outer driving wheel 66 is connected with the outer circumference of the upper outer driving wheel 68 through the outer driving belt 67, and the middle part of the upper outer driving wheel 68 is connected with the outer circumference of the upper outer driving wheel 68. The outputs of the servo motors 69 are connected.

The tops of the No. 1 linear guide rail 61 and the No. 2 linear guide rail 62 are respectively connected with the No. 1 guide rail fixing plate 611 and the No. 2 guide rail fixing plate 621, and the No. 1 linear guide rail 61 is connected with the No. 2 linear guide rail 62 through the lower splint 602. The No. 1 guide rail fixing plate 611 is connected to the No. 2 guide rail fixing plate 621 through the upper splint 601. The upper splint 601 and the lower splint 602 are parallel to each other. The upper splint 601 and the lower splint 602 are located between the drive slide 43 and the right pulley 65. Between the upper splint 601 and the lower splint 602, an entrainment cavity 60 is sandwiched, the left end of the lower straight belt 634 is in contact with the bottom of the left pulley 64, and the right end of the lower straight belt 634 passes through the driving slide 43 and the entrainment cavity in turn. After 60, it comes into contact with the bottom of the right pulley 65.

The principle of the present invention is described as follows:

Referring to Figure 1 and Figure 2, in the present invention, flexible sensors are provided on the chest sensing area, waist sensing area, leg sensing area, and hip sensing area on the body, and the inner conductor in the flexible sensor is glue, conductive When the powder mixture is produced, whether it is an injection process or a screen printing process, the glue and conductive powder are first mixed into conductive paste, and then injected or printed. After all operations are completed, The conductive paste is fixed in the body cavity between the upper cover layer and the lower cover layer. At this time, it is the inner conductor. The inner conductor has strong elasticity and its shape can change with the external pulling force. , the degree of change is large, so it is called "liquid metal". When the shape of the inner conductor changes, its own resistance will also change. The present invention uses the corresponding relationship between the shape change and the resistance change to monitor the pressure change of the body-shaping part, so as to be applied to the body-shaping clothes. , to improve the body sculpting effect.

Referring to Fig. 2-Fig. 5, the left side of the screen frame is connected to the bottom end of the left vertical adjustment device of the screen frame through the left vertical plate and the left horizontal plate in sequence, and the right side of the screen frame is connected to the bottom end of the left vertical adjustment device of the screen frame in turn through the lower right horizontal plate and the right horizontal plate. The vertical plate and the upper right horizontal plate are connected with the bottom of the right longitudinal adjustment device of the screen frame, and the lower right horizontal plate, the right vertical plate and the right upper horizontal plate form a Z-shaped structure. The left longitudinal adjustment device of the screen frame and the right longitudinal adjustment device of the screen frame are composed of the longitudinal frame adjustment device. The longitudinal frame adjustment device includes the fixed vertical plate, the inner frame guide rail, the outer frame guide rail, the top frame rail seat, the top frame back plate, and the side adjustment device. Rod and top adjustment rod, when applied, the inner frame guide rail, outer frame guide rail, and top frame rail seat are fixed, and the fixed vertical plate slides up and down along the inner frame guide rail and outer frame guide rail to realize height adjustment. The close contact between the rod and the back plate of the top frame, and the close contact between the top adjustment rod and the fixed vertical plate are abutted to fix the adjustment effect.

Referring to Figure 6-Figure 10, the top of the No. 1 linear guideway is connected to the No. 1 guide rail fixing plate, and the top of the No. 2 linear guide rail is connected to the No. 2 guide rail fixing plate. The No. 1 and No. 2 guide rail fixing plates are preferably L-shaped structures. It is beneficial to the installation and fixing of No. 1 and No. 2 linear guide rails. The right end of No. 1 linear guide rail is connected with the right end of No. 2 linear guide rail through the lower splint, and the right end of No. 1 guide rail fixing plate is connected with the right end of No. 2 guide rail fixing plate through the upper splint. connected, the upper splint and the lower splint are parallel to each other, the upper splint and the lower splint are located between the driving slide table and the right pulley, and an entrainment cavity is sandwiched between the upper splint and the lower splint. After connecting, pass through the entrainment cavity first, and then contact the bottom of the right pulley. The entrainment cavity has a stable effect on the lower straight through it, which can avoid the jitter of the synchronous belt during transmission, thus ensuring the stability of the lateral movement of the scraper. sex. The hardness of the scraper A is greater than the hardness of scraper B, preferably the manufacturing material of scraper A is metal, and the scraper B is made of plastic.

Example 1:

1-11, the sensor is a flexible sensor 13, and the body 12 is provided with a chest sensing area 121, a waist sensing area 122, a leg sensing area 123, a hip sensing area 124, a chest sensing area 121, and a waist sensing area 121. The sensing area 122, the leg sensing area 123, and the buttock sensing area 124 are all connected with a flexible sensor 13, the flexible sensor 13 includes an outer wrapping layer 10 and an inner conductor 11 inside, and the outer wrapping layer 10 includes an upper cover layer 101 and the lower cover layer 102, the bottom surface of the upper cover layer 101 is connected with the top surface of the lower cover layer 102, the middle part of the junction of the upper cover layer 101 and the lower cover layer 102 is provided with a body cavity 103, the body cavity 103 The length of 103 is less than the length of the upper covering layer 101 and the lower covering layer 102, the body cavity 103 is filled with a flexible inner conductor 11, and the two ends of the inner conductor 11 are respectively connected with the first wire 111 and the second wire. The inner ends of 112 are connected, the outer ends of No. 1 connecting wire 111 and No. 2 connecting wire 112 are located outside the outer wrapping layer 10, the inner conductor 11 is a mixture of glue and conductive powder, and the outer wrapping layer 10 is made of insulating material. to make. Preferably, the conductive powder is carbon nanotubes or nano-metal particles or a mixture of the two, the glue is polydimethylsiloxane, and the manufacturing material of the upper covering layer 101 and the lower covering layer 102 is silica gel. Preferably, the chest sensing area 121 , the waist sensing area 122 , the leg sensing area 123 , and the hip sensing area 124 are all arc-shaped structures.

There are two manufacturing processes for the above-mentioned smart shapewear that can sense body shaping pressure, as shown below.

The first type: first connect the upper cover layer 101 and the lower cover layer 102 as a whole, and then inject the mixture of glue and conductive powder into the junction of the upper cover layer 101 and the lower cover layer 102 through a syringe to form the inner conductor 11 , the flexible sensor 13 can be obtained after the injection is completed, and finally the flexible sensor 13 is connected with the chest sensing area 121, the waist sensing area 122, the leg sensing area 123, and the buttock sensing area 124, and then the flexible sensor 13 can be obtained. A smart shapewear that senses the pressure of body shaping.

The second type: first place the lower cover layer 102 on a plane, then set a screen frame 1 just above the lower cover layer 102, and set a scraper 2 and a scraper 3 directly above the screen frame 1, and then pass the screen frame left The longitudinal adjustment device 7 and the right longitudinal adjustment device 8 of the screen frame adjust the height of the left and right sides of the screen frame 1. After the adjustment is completed, the conductive paste obtained by mixing the glue and the conductive powder is placed on the top surface of the screen frame 1. The conductive paste is located between A scraper 2 and B scraper 3, and then drives the first scraper 2 and B scraper 3 to move horizontally and vertically through the longitudinal displacement device 5 and the lateral displacement device 6, so as to pass the conductive paste through the screen frame 1. It is printed on the lower cover layer 102. After the printing is completed, the upper cover layer 101 is covered on the lower cover layer 102 and the conductive paste printed thereon. At this time, the upper cover layer 101 and the lower cover layer 102 are connected up and down as a whole. The conductive paste located between the upper cover layer 101 and the lower cover layer 102 is the inner conductor 11 , and the flexible sensor 13 can be obtained at this time. Finally, connect the flexible sensor 13 to the chest sensing area 121 and the waist sensing area 122 , the leg sensing area 123 and the buttocks sensing area 124 are connected to obtain the intelligent body sculpting clothes that can sense body sculpting pressure.

Example 2:

The basic content is the same as that of Example 1, except that:

A scraper 2 and a scraper 3 connected to the scraper seat plate 4 are arranged directly above the screen frame 1. The left side of the screen frame 1 is connected with the bottom of the left vertical plate 71. The top is vertically connected with the inner side of the left horizontal plate 72, the top surface of the left horizontal plate 72 is connected with the bottom end of the left longitudinal adjustment device 7 of the screen frame, and the right side of the screen frame 1 is connected with the lower right horizontal plate 81. The top surface is superimposed and connected, the right side of the lower right horizontal plate 81 is vertically connected with the bottom of the right vertical plate 82, the top of the right vertical plate 82 is vertically connected with the left side of the upper right horizontal plate 83, and the top surface of the upper right horizontal plate 83 is vertically connected to the bottom of the right vertical plate 82. The bottom of the right longitudinal adjustment device 8 of the screen frame is connected; the left longitudinal adjustment device 7 of the screen frame includes a single longitudinal frame adjustment device 9 respectively arranged at both ends of the top surface of the left transverse plate 72, and the right longitudinal adjustment device 8 of the screen frame It includes a single longitudinal frame adjusting device 9 respectively arranged at both ends of the top surface of the upper right horizontal plate 83. The single longitudinal frame adjusting device 9 includes a fixed vertical plate 91, an inner frame guide rail 92, an outer frame guide rail 93, a side adjustment rod 94 and a top adjustment rod. 95, the bottom end of the fixed vertical plate 91 is vertically connected with the top surface of the left horizontal plate 72 or the right upper horizontal plate 83, the inner side of the fixed vertical plate 91 is slidingly matched with the inner side of the inner frame guide rail 92, and the fixed vertical plate 91 The outer side of the inner frame guide rail 92 and the outer frame guide rail 93 are parallel to each other, and the top ends of the inner frame guide rail 92 and the outer frame guide rail 93 are respectively vertically connected with the two ends of the top frame rail seat 96 The middle of the top frame rail seat 96 is provided with a top through hole 961, the top end of the top adjustment rod 95 is set higher than the top frame rail seat 96, and the bottom end of the top adjustment rod 95 passes through the top through hole 961 and is connected to the fixed vertical plate 91. The top ends of the fixed vertical plate 91 are in contact with each other, and a vertical adjustment groove 911 is formed on the fixed vertical plate 91 near the top end. One end of the side adjustment rod 94 is located outside the fixed vertical plate 91. The top frame back plate 97 is in contact, and the inner side surface of the top frame back plate 97 is covered and connected with the inner frame guide rail 92 , the outer frame guide rail 93 , and the back surface of the top frame rail seat 96 .

When applying, firstly unscrew the top adjusting rod 95 upward to make the top adjusting rod 95 and the fixed vertical plate 91 separate from each other, and then unscrew the side adjusting rod 94 outward to make the side adjusting rod 94 and the top frame back plate 97 separate from each other , and then drive the fixed vertical plate 91 to slide up and down along the inner frame guide rail 92 and the outer frame guide rail 93 until it slides to the preset position, and then screw the side adjustment rod 94 inward to make the side adjustment rod 94, the top frame back plate 97 are in contact with each other, and then the top adjusting rod 95 is screwed down so that the top adjusting rod 95 and the fixed vertical plate 91 are in contact with each other.

Example 3:

The basic content is the same as that of Example 2, except that:

The top of the scraper seat plate 4 is connected with a longitudinal displacement device 5, and the longitudinal displacement device 5 includes a longitudinal cylinder 51 and a longitudinal cylinder 52. The bottoms of the longitudinal cylinder A and the longitudinal cylinder 52 are all connected to the scraper seat plate. The top surface of 4 is connected, the output end of the longitudinal cylinder 51 of A is connected to the top of the scraper 2 after passing through the scraper seat plate 4, and then through the blade seat 21 and the clip part 23 of A in turn, and the output end of the longitudinal cylinder 52 of B is connected to the top of the scraper 2. After passing through the scraper seat plate 4, it is connected with the top of the second scraper 3 after passing through the second knife seat 31 and the second knife part 33 in turn. A fixed arm 22 and B fixed arm 32 are respectively provided on the sides of the A knife seat 21 and the second knife seat 31, and the inner part of the first knife seat 21 and the second knife seat 31 are respectively provided with a through-through A cavity 24 and a second air cavity. Cavity 34. The top of the scraper seat plate 4 is connected with the lateral displacement device 6, and the lateral displacement device 6 and the scraper seat plate 4 are slidably matched in the lateral direction; the top surface of the scraper seat plate 4 is provided with two parallel No. 1s. The sliding seat 41, the second sliding seat 42 and the driving sliding table 43, the driving sliding table 43 is located between the first sliding seat 41 and the second sliding seat 42; the lateral displacement device 6 includes the first linear guide rail 61, the second linear guide The guide rail 62 and the timing belt 63, the No. 1 linear guide 61 and the No. 2 linear guide 62 are parallel to each other, the outer side of the No. 1 linear guide 61 and the inner side of the No. The outer side is slidingly matched with the inner side of the second sliding seat 42; the timing belt 63 is a closed annular structure, including the left arc belt 631, the upper straight belt 632, the right arc belt 633 and the lower straight belt 634, which are connected in sequence. The left arc belt 631 is wound on the outer periphery of the left side of the left pulley 64, the right arc belt 633 is wound on the outer periphery of the right side of the right pulley 65, and the left and right ends of the upper straight belt 632 are The top of the pulley 65 is in contact, the left and right ends of the lower straight belt 634 are in contact with the bottom of the left pulley 64 and the right pulley 65 respectively, the bottom surface of the lower straight belt 634 is connected with the top surface of the driving slide 43, and the right belt The middle part of the wheel 65 is connected with the middle part of the lower outer driving wheel 66, the outer circumference of the lower outer driving wheel 66 is connected with the outer circumference of the upper outer driving wheel 68 through the outer driving belt 67, and the middle part of the upper outer driving wheel 68 is connected with the outer circumference of the upper outer driving wheel 68. The outputs of the servo motors 69 are connected.

When applying, first place the screen frame 1 directly under the scraper 2 and scraper B 3, and the bottom of the screen frame 1 is the table X2, and then operate the left longitudinal adjustment device 7 of the screen frame to adjust the height of the left side of the screen frame 1. , At the same time, operate the right longitudinal adjustment device 8 of the screen frame to adjust the height of the right side of the screen frame 1. After the adjustment is completed, it is the initial position. 2. Set lower than scraper B 3, and then place the slurry used for screen printing on screen frame 1. The slurry is located between scraper A 2 and scraper B The air cylinder 51 is driven to run downward for a preset distance and then stops. At this time, there is a gap between the scraper 2 and the screen frame 1, and then the lateral displacement device 6 drives the scraper 2 and scraper B to run to the right together until the Stop when the screen frame 1 stops at the right end, and then, the vertical cylinder 52 drives the scraper 3 to go down until the bottom end of the scraper 3 contacts the top surface of the screen frame 1. At the same time, the vertical cylinder 51 drives the scraper 2 to go up until the The scraper 2 is higher than the scraper 3, and the lateral displacement device 6 drives the scraper 2 and scraper 3 to run to the left together until they stop at the left end of the screen frame 1. Then, the longitudinal cylinder 51 drives the scraper 2 to go down, B longitudinal cylinder 52 drives B scraper 3 to go up, and stops when A scraper 2 is lower than B scraper 3, and then continues to repeat the previous left and right round-trip printing operations, until the operation is stopped when the slurry is insufficient, and then restores A scraper 2 and B scraper 3 to the initial position to complete the reset.

Claims (9)

1. The utility model provides a but perception clothing of getting into shape intelligence of pressure, includes clothing body (12) and a plurality of sensors that set up on it, and the sensor carries out signal connection, its characterized in that with outside monitoring instrument:

the sensor is a flexible sensor (13), the clothes body (12) is provided with a chest sensing area (121), a waist sensing area (122), a leg sensing area (123) and a hip sensing area (124), the chest sensing area (121), the waist sensing area (122), the leg sensing area (123) and the hip sensing area (124) are all connected with the flexible sensor (13), the flexible sensor (13) comprises an outer wrapping layer (10) and an inner conductor (11) inside the outer wrapping layer (10), the outer wrapping layer (10) comprises an upper covering layer (101) and a lower covering layer (102), the bottom surface of the upper covering layer (101) is connected with the top surface of the lower covering layer (102), a body placing cavity (103) is arranged in the middle of the joint of the upper covering layer (101) and the lower covering layer (102), and the length of the body placing cavity (103) is smaller than that of the upper covering layer (101) and the lower covering layer (102), the body placing cavity (103) is filled with a flexible inner conductor (11), two ends of the inner conductor (11) are respectively connected with the inner ends of a first electric wire (111) and a second electric wire (112), the outer ends of the first electric wire (111) and the second electric wire (112) are respectively positioned outside the outer wrapping layer (10), the inner conductor (11) is a mixture of glue and conductive powder, and the outer wrapping layer (10) is made of an insulating material;

the intelligent body-shaping clothes capable of sensing the body-shaping pressure is manufactured according to the following manufacturing process:

firstly, a lower covering layer (102) is arranged on a plane, a screen frame (1) is arranged right above the lower covering layer (102), a first scraper (2) and a second scraper (3) are arranged right above the screen frame (1), then conductive slurry obtained by mixing glue and conductive powder is arranged on the top surface of the screen frame (1) through a screen frame left longitudinal adjusting device (7) and a screen frame right longitudinal adjusting device (8), the conductive slurry is positioned between the first scraper (2) and the second scraper (3), then the first scraper (2) and the second scraper (3) are driven to move transversely and longitudinally through a longitudinal displacement device (5) and a transverse displacement device (6) so as to print the conductive slurry on the lower covering layer (102) through the screen frame (1), and after printing, an upper covering layer (101) is covered on the lower covering layer (102) and the conductive slurry printed on the lower covering layer (102), at the moment, the upper covering layer (101) and the lower covering layer (102) are connected into a whole up and down, the conductive slurry positioned between the upper covering layer (101) and the lower covering layer (102) is an inner conductor (11), the flexible sensor (13) can be obtained at the moment, and finally the flexible sensor (13) is connected with the chest sensing area (121), the waist sensing area (122), the leg sensing area (123) and the hip sensing area (124), so that the intelligent body shaping clothes capable of sensing the body shaping pressure can be obtained;

a first scraper (2) and a second scraper (3) which are connected with a scraper seat plate (4) are arranged right above the net frame (1), the left side edge of the net frame (1) is connected with the bottom of a left vertical plate (71), the top of the left vertical plate (71) is vertically connected with the inner side edge of a left transverse plate (72), the top surface of the left transverse plate (72) is connected with the bottom end of a left longitudinal adjusting device (7) of the net frame, the right side edge of the net frame (1) is connected with the top surface of a right lower transverse plate (81) in an overlapping manner, the right side edge of the right lower transverse plate (81) is vertically connected with the bottom of a right vertical plate (82), the top of the right vertical plate (82) is vertically connected with the left side edge of a right upper transverse plate (83), and the top surface of the right upper transverse plate (83) is connected with the bottom of a right longitudinal adjusting; the net frame left longitudinal adjusting device (7) comprises single longitudinal frame adjusting devices (9) respectively arranged at two ends of the top surface of a left transverse plate (72), the net frame right longitudinal adjusting device (8) comprises single longitudinal frame adjusting devices (9) respectively arranged at two ends of the top surface of a right upper transverse plate (83), each longitudinal frame adjusting device (9) comprises a fixed vertical plate (91), an inner frame guide rail (92), an outer frame guide rail (93), a side adjusting rod (94) and a top adjusting rod (95), the bottom end of each fixed vertical plate (91) is vertically connected with the top surface of the left transverse plate (72) or the right upper transverse plate (83), the inner side edge of each fixed vertical plate (91) is in sliding fit with the inner side surface of each inner frame guide rail (92), the outer side edge of each fixed vertical plate (91) is in sliding fit with the inner side surface of each outer frame guide rail (93), each inner frame guide rail (92) and each outer frame guide rail (93, The top of frame guide rail (93) is connected with the both ends of top frame rail seat (96) are perpendicular respectively, top through hole (961) have been seted up at the middle part of top frame rail seat (96), the top of top regulation pole (95) is higher than top frame rail seat (96) setting, the bottom of top regulation pole (95) is worn through top through hole (961) back and is contacted with the top of fixed riser (91), perpendicular adjustment tank (911) have been seted up at the position of nearly its top on fixed riser (91), the one end of side regulation pole (94) is located the outside of fixed riser (91), the other end of side regulation pole (94) is worn through perpendicular adjustment tank (911) back and is contacted with top frame backplate (97), and the medial surface and inside frame guide rail (92) of top frame backplate (97), frame guide rail (93), the back of top frame rail seat (96) all covers the connection.

2. The intelligent body-shaping clothes capable of sensing body-shaping pressure according to claim 1, wherein: the conductive powder is carbon nano tubes or nano metal particles or a mixture of the carbon nano tubes and the nano metal particles, the glue is polydimethylsiloxane, and the upper covering layer (101) and the lower covering layer (102) are made of silica gel.

3. The intelligent body-shaping clothes capable of sensing body-shaping pressure according to claim 1, wherein: the chest sensing area (121), the waist sensing area (122), the leg sensing area (123) and the hip sensing area (124) are all arc-shaped structures.

4. A manufacturing process of intelligent body-shaping clothes capable of sensing body-shaping pressure as claimed in claim 1, 2 or 3, wherein the manufacturing process comprises the following steps:

firstly, a lower covering layer (102) is arranged on a plane, a screen frame (1) is arranged right above the lower covering layer (102), a first scraper (2) and a second scraper (3) are arranged right above the screen frame (1), then conductive slurry obtained by mixing glue and conductive powder is arranged on the top surface of the screen frame (1) through a screen frame left longitudinal adjusting device (7) and a screen frame right longitudinal adjusting device (8), the conductive slurry is positioned between the first scraper (2) and the second scraper (3), then the first scraper (2) and the second scraper (3) are driven to move transversely and longitudinally through a longitudinal displacement device (5) and a transverse displacement device (6) so as to print the conductive slurry on the lower covering layer (102) through the screen frame (1), and after printing, an upper covering layer (101) is covered on the lower covering layer (102) and the conductive slurry printed on the lower covering layer (102), at the moment, the upper covering layer (101) and the lower covering layer (102) are connected into a whole up and down, the conductive slurry between the upper covering layer (101) and the lower covering layer (102) is the inner conductor (11), the flexible sensor (13) can be obtained at the moment, and finally the flexible sensor (13) is connected with the chest sensing area (121), the waist sensing area (122), the leg sensing area (123) and the hip sensing area (124), so that the intelligent body shaping clothes capable of sensing the body shaping pressure can be obtained.

5. The manufacturing process of the intelligent body-shaping clothes capable of sensing body-shaping pressure as claimed in claim 4, wherein: a first scraper (2) and a second scraper (3) which are connected with a scraper seat plate (4) are arranged right above the net frame (1), the left side edge of the net frame (1) is connected with the bottom of a left vertical plate (71), the top of the left vertical plate (71) is vertically connected with the inner side edge of a left transverse plate (72), the top surface of the left transverse plate (72) is connected with the bottom end of a left longitudinal adjusting device (7) of the net frame, the right side edge of the net frame (1) is connected with the top surface of a right lower transverse plate (81) in an overlapping manner, the right side edge of the right lower transverse plate (81) is vertically connected with the bottom of a right vertical plate (82), the top of the right vertical plate (82) is vertically connected with the left side edge of a right upper transverse plate (83), and the top surface of the right upper transverse plate (83) is connected with the bottom of a right longitudinal adjusting; the net frame left longitudinal adjusting device (7) comprises single longitudinal frame adjusting devices (9) respectively arranged at two ends of the top surface of a left transverse plate (72), the net frame right longitudinal adjusting device (8) comprises single longitudinal frame adjusting devices (9) respectively arranged at two ends of the top surface of a right upper transverse plate (83), each longitudinal frame adjusting device (9) comprises a fixed vertical plate (91), an inner frame guide rail (92), an outer frame guide rail (93), a side adjusting rod (94) and a top adjusting rod (95), the bottom end of each fixed vertical plate (91) is vertically connected with the top surface of the left transverse plate (72) or the right upper transverse plate (83), the inner side edge of each fixed vertical plate (91) is in sliding fit with the inner side surface of each inner frame guide rail (92), the outer side edge of each fixed vertical plate (91) is in sliding fit with the inner side surface of each outer frame guide rail (93), each inner frame guide rail (92) and each outer frame guide rail (93, The top of frame guide rail (93) is connected with the both ends of top frame rail seat (96) are perpendicular respectively, top through hole (961) have been seted up at the middle part of top frame rail seat (96), the top of top regulation pole (95) is higher than top frame rail seat (96) setting, the bottom of top regulation pole (95) is worn through top through hole (961) back and is contacted with the top of fixed riser (91), perpendicular adjustment tank (911) have been seted up at the position of nearly its top on fixed riser (91), the one end of side regulation pole (94) is located the outside of fixed riser (91), the other end of side regulation pole (94) is worn through perpendicular adjustment tank (911) back and is contacted with top frame backplate (97), and the medial surface and inside frame guide rail (92) of top frame backplate (97), frame guide rail (93), the back of top frame rail seat (96) all covers the connection.

6. The manufacturing process of the intelligent body-shaping clothes capable of sensing body-shaping pressure as claimed in claim 5, wherein: the top of the scraper seat plate (4) is connected with a longitudinal displacement device (5), the longitudinal displacement device (5) comprises a longitudinal air cylinder (51) and a longitudinal air cylinder (52) B, the bottoms of the longitudinal air cylinder (51) and the longitudinal air cylinder (52) B are connected with the top surface of the scraper seat plate (4), the output end of the longitudinal air cylinder (51) A penetrates through the scraper seat plate (4) and then sequentially passes through a scraper seat (21) and a scraper clamping part (23) and then is connected with the top of a scraper (2), the output end of the longitudinal air cylinder (52) B penetrates through the scraper seat plate (4) and then sequentially passes through a scraper seat (31) and a scraper clamping part (33) and then is connected with the top of a scraper (3), the scraper (2) is located on the left side of the scraper (3) B, the scraper seat (21) and the scraper seat (31) are parallel to each other, and the side parts of the scraper seat (21) and the scraper seat (31) are respectively provided with a fixed rotary, The second fixed rotating arm (32), the first cutter holder (21) and the second cutter holder (31) are respectively provided with a first cavity (24) and a second cavity (34) which are communicated.

7. The manufacturing process of the intelligent body-shaping clothes capable of sensing body-shaping pressure as claimed in claim 6, wherein: the scraper A (2) comprises an obliquely extending section A (25) and a vertical section A (26), the lengths of the obliquely extending section A (25) and the vertically extending section A (26) are sequentially reduced, the top end of the obliquely extending section A (25) is connected with the bottom surface of the cutter clamping part A (23), the bottom end of the obliquely extending section A (25) is connected with the top end of the vertically extending section A (26), the horizontal distance between the joint of the obliquely extending section A (25) and the cutter clamping part A (23) and the cutter clamping part B (33) is larger than the horizontal distance between the vertically extending section A (26) and the cutter clamping part B (3), the included angle between the obliquely extending section A (25) and the cutter clamping part A (23) and the included angle between the obliquely extending section A (25) and the vertically extending section A (26) are obtuse; the second clamping cutter part (33) comprises a second upper clamping plate (331), a second left clamping arm (332) and a second right clamping arm (333), the top surface of the second upper clamping plate (331) is connected with the bottom of the second cutter holder (31), the bottom surface of the second upper clamping plate (331) is connected with the second left clamping arm (332) and the top end of the second right clamping arm (333), the second left clamping arm (332) and the second right clamping arm (333) are parallel to each other, the second left clamping arm (332), the second upper clamping plate (331) and the second right clamping arm (333) are clamped into a second clamping upper cavity (334) which is communicated with each other from top to bottom, a second clamping lower cavity (335), the width of the second clamping upper cavity (334) is greater than that of the second clamping lower cavity (335), the top end of the second clamping lower cavity (335) is embedded with a second scraper (3), and the bottom end of the second scraper (3) extends to.

8. The manufacturing process of the intelligent body-shaping clothes capable of sensing body-shaping pressure as claimed in claim 5, wherein: the top of the scraper seat plate (4) is connected with a transverse displacement device (6), and the transverse displacement device (6) is in sliding fit with the scraper seat plate (4) along the transverse direction; the top surface of the scraper seat plate (4) is provided with a first sliding seat (41), a second sliding seat (42) and a driving sliding table (43) which are parallel to each other in pairs, and the driving sliding table (43) is positioned between the first sliding seat (41) and the second sliding seat (42); the transverse displacement device (6) comprises a first linear guide rail (61), a second linear guide rail (62) and a synchronous belt (63), the first linear guide rail (61) and the second linear guide rail (62) are parallel to each other, the outer side surface of the first linear guide rail (61) is in sliding fit with the inner side surface of the first sliding seat (41), and the outer side surface of the second linear guide rail (62) is in sliding fit with the inner side surface of the second sliding seat (42); the synchronous belt (63) is of a closed annular structure and comprises a left arc belt (631), an upper straight belt (632), a right arc belt (633) and a lower straight belt (634) which are sequentially connected, the left arc belt (631) is wound on the outer periphery of the left side of the left belt wheel (64), the right arc belt (633) is wound on the outer periphery of the right side of the right belt wheel (65), the left end and the right end of the upper straight belt (632) are respectively connected with the left belt wheel (64), the top of the right belt wheel (65) is contacted, the left end and the right end of the lower straight belt (634) are respectively contacted with the bottoms of the left belt wheel (64) and the right belt wheel (65), the bottom surface of the lower straight belt (634) is connected with the top surface of the driving sliding table (43), the middle part of the right belt wheel (65) is connected with the middle part of the lower external driving wheel (66), the outer periphery of the lower external driving wheel (66) is in belt transmission fit with the outer periphery of the upper external driving wheel (68) through an external driving belt (67), and the middle part of the upper external driving wheel (68) is connected with the output end of the servo motor (69).

9. The manufacturing process of the intelligent body-shaping clothes capable of sensing body-shaping pressure according to claim 8, wherein the manufacturing process comprises the following steps: the tops of the first linear guide rail (61) and the second linear guide rail (62) are respectively and correspondingly connected with the first guide rail fixing plate (611) and the second guide rail fixing plate (621), linear guide (61) is connected with No. two linear guide (62) through lower plate (602), No. one guide fixed plate (611) is connected with No. two guide fixed plate (621) through upper plate (601), lower plate (602) are parallel to each other, upper plate (601), lower plate (602) all are located between drive slip table (43) and right band pulley (65), it has clamp area chamber (60) to press from both sides between upper plate (601), lower plate (602), the left end of lower straight band (634) contacts with the bottom of left band pulley (64), the right-hand member of lower straight band (634) is worn through drive slip table (43) in proper order, contact with the bottom of right band pulley (65) behind clamp area chamber (60).

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