CN108887766B

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

Info

Publication number: CN108887766B
Application number: CN201810674823.0A
Authority: CN
Inventors: 邹可权
Original assignee: Guangdong Jianyan Intelligent System Co ltd
Current assignee: Zou Kequan
Priority date: 2018-06-27
Filing date: 2018-06-27
Publication date: 2020-08-18
Anticipated expiration: 2038-06-27
Also published as: CN108887766A

Abstract

The utility model provides a but intelligence clothing of getting into shape of perception pressure, includes the clothing body and flexible sensor, be provided with chest perception district, waist perception district, shank perception district, buttock perception district on the clothing body, all be connected with flexible sensor on these four perception districts, flexible sensor includes outer parcel layer and inside inner conductor, outer parcel layer is including the upper and lower cover layer of connecting, lower cover layer, the middle part of handing-over department of upper and lower cover layer is provided with puts the body cavity, it is filled with flexible inner conductor to put the body cavity intussuseption, inner conductor is the mixture of gluing and conducting powder, outer parcel layer adopts insulating material to make, inner conductor adopts injection or screen printing's mode to set up between upper and lower cover layer, the pressure variation in perception district can change flexible sensor's resistance. The design can be applied to body shaping clothes, is beneficial to improving the body shaping effect, and has the advantages of better consistency, stronger sensitivity and higher accuracy.

Description

Intelligent body shaping clothes capable of sensing body shaping pressure and manufacturing process thereof

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, which are particularly suitable for improving the body shaping effect, enhancing the consistency and improving the monitoring sensitivity and accuracy on the basis of being applied to the body shaping garment.

Background

In recent years, wearable electronic devices have been developed rapidly, and become an important trend for the development of next-generation electronic products. As an important branch of wearable electronic equipment, a wearable strain sensor should have the characteristics of certain mechanical flexibility, fitness, high stretchability, high sensitivity, quick response, high durability and the like, so as to realize the wearable characteristics and wide application thereof in the aspects of individual medical treatment, motion detection, man-machine interaction, virtual reality entertainment technology and the like, wherein the wearable strain sensor also has great demand in the field of body shaping clothes, the body shaping clothes are directly in close contact with the skin of a human body, have good fitness and can deform along with the change of the human body, and if the deformation can be monitored by an external instrument, the improvement of the body shaping effect of the body shaping clothes can be greatly facilitated. However, most of the prior art adopts a strain sensor based on a semiconductor or a metal foil, so that the strain sensor is high in rigidity, cannot be washed and dried, is not suitable for being applied to body shaping clothes, is low in sensitivity and cannot meet requirements.

The invention patent application with the publication number of CN101393058A and the publication date of 2009, 3 and 25 discloses a flexible resistance type pressure sensor with a woven structure and application thereof, wherein the flexible resistance type pressure sensor consists of conductive fibers, the conductive fibers are interwoven into a woven fabric, all warp yarns of the woven fabric are connected with each other, all weft yarns of the woven fabric are connected with each other, and the overall resistance between all the warp yarns and all the weft yarns is changed along with the pressure on the woven fabric. Although this design has the characteristics of being flexible, foldable and even washable, and is suitable for the detection of the physiological information and status of the wearable individual, it still has the following disadvantages:

the warp and weft of the fabric are formed by conductive fibers, the fabric is a new woven product which is separated from the existing fabric, the fabric is difficult to be directly applied to the existing fabric, the application range is narrow, the application requirement of the existing body shaping clothes is difficult to meet, in addition, the consistency of the design is poor, the resistance of the design is formed by the warp and the weft, once the external force applied to the design is large, if the external force is applied to the warp in the weft direction, the adjacent warp can be pulled and separated, gaps are easy to generate, the resistance is suddenly increased, the normal use is prevented, and in the warp direction, even if tension exists, the warp is far more than the weft, the tension in the warp direction has small influence on the weft, and the resistance cannot be greatly influenced, so when the external force is applied to the design, the influence difference between the weft and the warp direction is large, the consistency is weak, and the sensitivity and the accuracy. In addition, the design can not be arranged at the required part of the body-shaping clothes according to the requirement of human engineering and has no decoration and beautification functions.

Disclosure of Invention

The invention aims to overcome the defects and problems of difficult application to body shaping clothes, poor consistency, weak sensitivity and poor accuracy in the prior art, and provides an intelligent body shaping clothes which can be applied to body shaping clothes, has good consistency, strong sensitivity and good accuracy, can be washed, folded and dried and can sense body shaping pressure and plastic effect, and a manufacturing process thereof.

In order to achieve the above purpose, the technical solution of the invention is as follows: an intelligent body shaping clothes capable of sensing body shaping pressure comprises a clothes body and a plurality of sensors arranged on the clothes body, wherein the sensors are in signal connection with an external monitoring instrument;

the sensor is a flexible sensor, the garment body is provided with a chest sensing area, a waist sensing area, a leg sensing area and a hip sensing area, the chest sensing area, the waist sensing area, the leg sensing area and the hip sensing area are all connected with the flexible sensor, the flexible sensor comprises an outer wrapping layer and an inner conductor inside the outer wrapping layer, the outer wrapping layer comprises 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, a body placing cavity is arranged in the middle of the joint of the upper covering layer and the lower covering layer, the length of the body placing cavity is smaller than that of the upper covering layer and the lower covering layer, a flexible inner conductor is filled in the body placing cavity, two ends of the inner conductor are respectively connected with the inner ends of a first connecting wire and a second connecting wire, the outer ends of the first connecting wire and the second connecting wire are both positioned outside the outer wrapping layer, and the inner conductor is a, the outer wrapping layer is made of insulating materials.

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 and the lower covering layer are made of silica gel.

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

A manufacturing process of the intelligent body-shaping clothes capable of sensing the body-shaping pressure comprises the following steps: the upper covering layer and the lower covering layer are connected into a whole in an up-and-down mode, then the mixture of glue and conductive powder is injected into the joint of the upper covering layer and the lower covering layer through the injector to form an inner conductor, the flexible sensor can be obtained after injection is finished, and finally the flexible sensor is connected with the chest sensing area, the waist sensing area, the leg sensing area and the hip sensing area, so that the intelligent body shaping clothes capable of sensing the body shaping pressure can be obtained.

A manufacturing process of the intelligent body-shaping clothes capable of sensing the body-shaping pressure comprises the following steps: firstly, placing the lower covering layer on a plane, then arranging a screen frame right above the lower covering layer, arranging a first scraper and a second scraper right above the screen frame, then adjusting the height of the left side and the right side of the screen frame by a screen frame left longitudinal adjusting device and a screen frame right longitudinal adjusting device, after the adjustment is finished, then placing conductive paste obtained by mixing glue and conductive powder on the top surface of the screen frame, placing the conductive paste between the first scraper and the second scraper, then driving the first scraper and the second scraper to do transverse and longitudinal movement by a longitudinal displacement device and a transverse displacement device so as to print the conductive paste on the lower covering layer through the screen frame, after the printing is finished, covering the upper covering layer on the lower covering layer and the conductive paste printed on the lower covering layer, at the moment, the upper covering layer and the lower covering layer are connected into a whole up and down, and the conductive paste positioned between the upper covering layer and the lower covering layer is an inner conductor, and finally, connecting the flexible sensor with a chest sensing area, a waist sensing area, a leg sensing area and a hip sensing area to obtain the intelligent body-shaping clothes capable of sensing body-shaping pressure.

A first scraper and a second scraper which are connected with the scraper seat plate are arranged right above the net frame, the left side edge of the net frame is connected with the bottom of the left vertical plate, the top of the left vertical plate is vertically connected with the inner side edge of the left transverse plate, the top surface of the left transverse plate is connected with the bottom end of the left longitudinal adjusting device of the net frame, the right side edge of the net frame is overlapped and connected with the top surface of the right lower transverse plate, the right side edge of the right lower transverse plate 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 edge of the right upper transverse plate, and the top surface of the right upper transverse plate is connected with the bottom; the net frame left longitudinal adjusting device comprises single longitudinal frame adjusting devices respectively arranged at two ends of the top surface of a left transverse plate, the net frame right longitudinal adjusting device comprises single longitudinal frame adjusting devices respectively arranged at two ends of the top surface of a right transverse plate, each single longitudinal frame adjusting device comprises a fixed vertical plate, an inner frame guide rail, an outer frame guide rail, a side adjusting rod and a top adjusting rod, the bottom end of each fixed vertical plate is vertically connected with the top surface of the left transverse plate or the right transverse plate, the inner side edge of each fixed vertical plate is in sliding fit with the inner side surface of the inner frame guide rail, the outer side edge of each fixed vertical plate is in sliding fit with the inner side surface of the outer frame guide rail, the inner frame guide rails and the outer frame guide rails are parallel to each other, the top ends of the inner frame guide rails and the outer frame guide rails are respectively and vertically connected with two ends of a top frame rail seat, a top through hole is formed in the middle part of the, the position that is close to its top on the fixed riser has seted up perpendicular adjustment tank, and the one end of side regulation pole is located the outside of fixed riser, and the other end of side regulation pole contacts with the top frame backplate after wearing to erect the adjustment tank, and the medial surface of top frame backplate and inside casing guide rail, frame guide rail, the back of top frame rail seat all cover and be connected.

The top of scraper bedplate is connected with longitudinal displacement device, and this longitudinal displacement device includes first longitudinal cylinder and second longitudinal cylinder, the bottom of first longitudinal cylinder, second longitudinal cylinder all is connected with the top surface of scraper bedplate, the output of first longitudinal cylinder is worn through behind the scraper bedplate in proper order through first blade holder, be connected with the top of first scraper behind the first double-layered sword portion, the output of second longitudinal cylinder is worn through behind the scraper bedplate in proper order through second blade holder, be connected with the top of second scraper behind the second double-layered sword portion, the first scraper is located the left side of second scraper, first blade holder, second blade holder are parallel to each other, the lateral part of first blade holder, second blade holder is provided with first fixed spiral arm, second fixed spiral arm respectively, first cavity and the second cavity that link up are seted up respectively to the inside of first blade holder, second blade holder.

The first scraper comprises a first obliquely extending section and a first vertical section, the lengths of the first obliquely extending section and the first vertical section are sequentially reduced, the top end of the first obliquely extending section is connected with the bottom surface of the first knife clamping part, the bottom end of the first obliquely extending section is connected with the top end of the first vertical section, the horizontal distance between the joint of the first obliquely extending section and the first knife clamping part and the second knife clamping part is larger than the horizontal distance between the first vertical section and the second scraper, and the included angle between the first obliquely extending section and the first knife clamping part and the included angle between the first obliquely extending section and the first vertical section are obtuse angles; the second clamping cutter part comprises a second upper clamping plate, a second left clamping arm and a second right clamping arm, the top surface of the second upper clamping plate is connected with the bottom of the second cutter holder, the bottom surface of the second upper clamping plate is connected with the top end of the second left clamping arm and the top end of the second right clamping arm, the second left clamping arm and the second right clamping arm are parallel to each other, a second left clamping cavity and a second lower clamping cavity which are communicated with each other are formed by the second upper clamping arm, the second upper clamping plate and the second right clamping arm, the width of the second clamping cavity is greater than the width of the second lower clamping cavity, the top end of a second scraper is embedded in the second lower clamping cavity, and the bottom end of the second.

The top of the scraper seat plate is connected with a transverse displacement device, and the transverse displacement device is in sliding fit with the scraper seat plate along the transverse direction; the top surface of the scraper seat plate is provided with a first sliding seat, a second sliding seat and a driving sliding table which are parallel to each other in pairs, and the driving sliding table is positioned between the first sliding seat and the second sliding seat; the transverse displacement device comprises a first linear guide rail, a second linear guide rail and a synchronous belt, wherein the first linear guide rail and the second linear guide rail are parallel to each other, the outer side surface of the first linear guide rail is in sliding fit with the inner side surface of the first sliding seat, and the outer side surface of the second linear guide rail is in sliding fit with the inner side surface of the second sliding seat; the hold-in range is confined loop configuration, including the left arc area that connects gradually, go up the straight area, right arc area and straight area down, left side arc area twines on the left periphery of left band pulley is enclosed, right side arc area twines on the periphery on right band pulley right side, go up the straight area about both ends respectively with left band pulley, the top of right band pulley contacts, both ends respectively with left band pulley about the straight area down, the bottom of right band pulley contacts, the bottom surface of straight area is connected with the top surface of drive slip table down, the middle part of right band pulley is connected with the middle part of outer wheel of driving down, the outer periphery of outer wheel of driving down carries out belt drive cooperation through outer belt and the outer periphery of last outer wheel of driving down, the middle part of going up outer wheel of driving is connected with servo motor's output.

Linear guide, No. two linear guide's top respectively with a guide fixed plate, No. two guide fixed plates correspond and are connected, a linear guide is connected with No. two linear guide through the lower plate, a guide fixed plate is connected with No. two guide fixed plates through the punch holder, the lower plate is parallel to each other, the punch holder, the lower plate all is located between drive slip table and the right band pulley, the punch holder, it smugglies the chamber secretly to press from both sides between the lower plate, the left end of lower straight band contacts with the bottom of left band pulley, the right-hand member of lower straight band is worn through the drive slip table in proper order, smuggle the bottom contact with right band pulley behind the chamber secretly.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to an intelligent body shaping clothes capable of sensing body shaping pressure and a manufacturing process thereof, wherein flexible sensors are connected with a chest sensing area, a waist sensing area, a leg sensing area and a hip sensing area on a clothes body, when the intelligent body shaping clothes are applied, when the chest, the waist, the legs and the hip of a user act or change the volume, the pressure applied to the flexible sensors in the corresponding sensing areas can be changed, the pressure change can change the physical form of the flexible sensors, so that the resistance of the flexible sensors can be changed, the change of the resistance can be instantly monitored by an external monitoring instrument, the size and the direction of the pressure change can be further judged, the body shaping effect can be favorably improved, and as the deformation of the physical form of the flexible sensors completely changes along with the change of the pressure, the fitting degree is higher, the instantaneity of data monitored by the flexible sensors is higher, and the accuracy is higher. Therefore, the invention can be applied to body shaping clothes, is beneficial to improving the body shaping effect, and has stronger sensitivity and better accuracy.

2. The invention relates to an intelligent body shaping clothes capable of sensing body shaping pressure and a manufacturing process thereof, wherein a body placing cavity is arranged in the middle of the joint of an upper covering layer and a lower covering layer in a flexible sensor, a flexible inner conductor is filled in the body placing cavity, the inner conductor is a mixture of glue and conductive powder, when the intelligent body shaping clothes is used, when the pressure applied to the flexible sensor is changed, the shape of the inner conductor can be changed, particularly the length between a first connecting wire and a second connecting wire, so that the resistance value of the inner conductor is changed, the change of the resistance value can be monitored by an external instrument, so that the size, the direction and the like of the pressure change can be deduced, the sensitivity is higher, the intelligent body shaping clothes is very suitable for monitoring the pressure change of a body shaping part on the body shaping clothes, in addition, no matter whether the tension force is in the weft direction or the warp direction, the effect on the inner conductor can not cause sudden resistance, the precision is higher, and especially when 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 effect is more remarkable. Therefore, the invention has the advantages of high sensitivity, easy application to body shaping clothes, good consistency and high accuracy.

3. In the intelligent body-shaping clothes capable of sensing body-shaping pressure and the manufacturing process thereof, the left side edge and the right side edge of the screen frame are respectively connected with the left longitudinal adjusting device and the right longitudinal adjusting device of the screen frame, the left longitudinal adjusting device and the right longitudinal adjusting device of the screen frame are mutually independent, the left side edge and the right side edge of the screen frame can be respectively subjected to height adjustment, the integral height of the screen frame can be adjusted, and the inclination angle of the screen frame can be changed to meet various printing requirements, so that the printing quality and efficiency are ensured. Therefore, the adjustable height adjusting mechanism has the advantages of strong adjustability, capability of adjusting the height at two positions, good printing quality and high printing efficiency.

4. The invention relates to an intelligent body shaping clothes capable of sensing body shaping pressure and a manufacturing process thereof, wherein a transverse displacement device and a longitudinal displacement device are arranged at the top of a scraper seat plate, the longitudinal displacement device comprises a first longitudinal cylinder and a second longitudinal cylinder, the output ends of the first and second longitudinal cylinders penetrate through the scraper seat plate and are respectively connected with the tops of a first scraper and a second scraper, a screen frame is arranged below the first scraper and the second scraper, when the intelligent body shaping clothes are used, printing slurry is firstly placed on the screen frame between the first scraper and the second scraper, then the first scraper and the second scraper are driven to respectively do longitudinal movement and do transverse reciprocating movement together to complete screen printing, the matching mode of the first scraper and the second scraper can improve the printing quality and the printing efficiency of the slurry, on the basis, the longitudinal movement and the transverse movement of the scrapers are combined, the adjustability of the scrapers is enhanced, the printing quality and the printing efficiency can be further improved, but also can expand the application range to adapt to more kinds of sizing agents and printed fabrics. Therefore, the invention has the advantages of better printing quality, higher printing efficiency, stronger adjustability and wider application range.

5. The invention relates to an intelligent body shaping clothes capable of sensing body shaping pressure and a manufacturing process thereof, wherein a first sliding seat, a driving sliding table and a second sliding seat are arranged on the top surface of a scraper seat plate side by side, a transverse displacement device comprises a first linear guide rail, a second linear guide rail and a synchronous belt, the linear guide rails are in sliding fit with the corresponding sliding seats, the bottom surface of a lower straight belt in the synchronous belt is connected with the top surface of the driving sliding table, when in use, a servo motor drives a right belt wheel to rotate after sequentially passing through an upper external driving wheel, an external driving belt and a lower external driving wheel, then the rotating right belt wheel drives a left belt wheel to rotate through the synchronous belt, the rotating synchronous belt drives a first scraper and a second scraper to move sequentially through the driving sliding table and the scraper seat plate, the design not only can realize the transverse reciprocating movement of the scrapers, but also takes the servo motor as a power source to be beneficial to the, the synchronous belt is used as an intermediary for driving the scraper seat plate to move transversely, belongs to flexible force transmission, has a large buffering effect, can ensure the stability of the movement of the scraper seat plate, and is beneficial to improving the printing quality. Therefore, the invention has higher stability of transverse movement and better printing effect.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the flexible sensor of fig. 1.

Fig. 3 is a schematic structural view of an apparatus for printing conductive paste according to the present invention.

Fig. 4 is a schematic structural view of the left longitudinal adjusting device of the net frame in fig. 3.

Fig. 5 is a schematic structural view of the right longitudinal adjusting device of the screen frame in fig. 3.

Fig. 6 is a front view of fig. 3.

Fig. 7 is a schematic structural view of the upper and lower straight belts in fig. 3.

Fig. 8 is a schematic view of the connection of the lower straight belt and the drive slide table in fig. 7.

Fig. 9 is a schematic structural view of the first linear guide rail and the second linear guide rail in fig. 3.

Fig. 10 is a front view of fig. 9.

Figure 11 is a schematic view of the construction of the doctor blade holder plate of figure 10.

In the figure: the device comprises a net frame 1, a first scraper 2, a first cutter holder 21, a first fixed rotating arm 22, a first cutter clamping part 23, a first cavity 24, a first inclined extension section 25, a first vertical section 26, a second scraper 3, a second cutter holder 31, a second fixed rotating arm 32, a second cutter clamping part 33, a second upper clamping plate 331, a second left clamping arm 332, a second right clamping arm 333, a second clamping upper cavity 334, a second clamping lower cavity 335, a second cavity 34, a scraper seat plate 4, a first sliding seat 41, a second sliding seat 42, a driving sliding table 43, a longitudinal displacement device 5, a first longitudinal cylinder 51, a second longitudinal cylinder 52, a first cylinder fine adjustment knob 53, a second cylinder fine adjustment knob 54, a transverse displacement device 6, a first linear guide rail 61, a first guide rail fixing plate 611, a second linear guide rail 62, a second guide rail fixing plate 621, a synchronous belt 63, a left arc belt, an upper straight belt 632, a right arc belt 633, a lower straight belt, a left belt wheel 64, a right belt wheel 65, a lower outer driving wheel 66, an outer, The upper and outer driving wheels 68, the servo motor 69, the clamping cavity 60, the upper clamping plate 601, the lower clamping plate 602, the net frame left longitudinal adjusting device 7, the left vertical plate 71, the left horizontal plate 72, the net frame right longitudinal adjusting device 8, the right lower horizontal plate 81, the right vertical plate 82, the right upper horizontal plate 83, the longitudinal frame adjusting device 9, the fixed vertical plate 91, the vertical adjusting groove 911, the inner frame guide rail 92, the outer frame guide rail 93, the side adjusting rod 94, the top adjusting rod 95, the top frame rail seat 96, the top through hole 961, the top frame back plate 97, the outer connecting fixing point 98, the outer wrapping layer 10, the upper wrapping layer 101, the lower wrapping layer 102, the body placing cavity 103, the inner conductor 11, the first connecting wire 111, the second connecting wire 112, the clothes body 12, the chest sensing area 121, the waist sensing area 122, the leg sensing area 123, the hip sensing area 124 and the flexible sensor.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1-11, an intelligent body-shaping garment capable of sensing body-shaping pressure comprises a garment body 12 and a plurality of sensors arranged thereon, wherein the sensors are in signal connection with an external monitoring instrument;

the sensor is a flexible sensor 13, the garment 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, 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 the flexible inner conductor 11, and two ends of the inner conductor 11 are respectively connected with the inner ends of a first connecting wire 111 and a second connecting, the outer ends of the first electric wire 111 and the second electric wire 112 are both positioned outside the outer wrapping layer 10, the inner electric conductor 11 is a mixture of glue and conductive powder, and the outer wrapping layer 10 is made of an insulating material.

The conductive powder is carbon nanotubes or nano metal particles or a mixture of the carbon nanotubes 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.

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 intelligent body-shaping clothes capable of sensing the body-shaping pressure comprises the following steps: the upper covering layer 101 and the lower covering layer 102 are connected into a whole up and down, then a mixture of glue and conductive powder is injected into the joint of the upper covering layer 101 and the lower covering layer 102 through an injector to form an inner conductor 11, the flexible sensor 13 can be obtained after injection is finished, 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 manufacturing process of the intelligent body-shaping clothes capable of sensing the body-shaping pressure 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, an A scraper 2 and a B scraper 3 are arranged right above the screen frame 1, then the height of the left side and the right side of the screen frame 1 is adjusted through a screen frame left longitudinal adjusting device 7 and a screen frame right longitudinal adjusting device 8, after the adjustment is finished, conductive paste obtained by mixing glue and conductive powder is arranged on the top surface of the screen frame 1, the conductive paste is positioned between the A scraper 2 and the B scraper 3, then the A scraper 2 and the B scraper 3 are driven to transversely and longitudinally move through a longitudinal displacement device 5 and a transverse displacement device 6 so as to print the conductive paste on the lower covering layer 102 through the screen frame 1, after the printing is finished, an upper covering layer 101 is covered on the lower covering layer 102 and the conductive paste 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 paste 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 this time, 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 net frame left longitudinal adjusting device 7, 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; 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 the 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 the right upper transverse plate 83, each single 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 the 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 the fixed vertical plate 91 is in sliding fit with the inner side surface of the inner frame guide rail 92, the outer side edge of the fixed vertical plate 91 is in sliding fit with the inner side surface of the outer frame guide rail 93, the inner frame guide rail 92 and the outer frame guide rail 93 are parallel to each other, the top ends of the inner frame guide rail 92 and the outer frame guide rail 93 are respectively, the top of top regulation pole 95 is higher than the setting of top frame rail seat 96, the bottom of top regulation pole 95 contacts with the top of fixed riser 91 after penetrating through top through hole 961, perpendicular adjustment tank 911 has been seted up to the position of nearly its top on the 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 contacts with top frame backplate 97 after penetrating through perpendicular adjustment tank 911, and the medial surface and the inside casing guide rail 92 of top frame backplate 97, the frame guide rail 93, the back of top frame rail seat 96 all covers the connection.

The top of the scraper seat plate 4 is connected with a longitudinal displacement device 5, the longitudinal displacement device 5 comprises a longitudinal cylinder 51 and a longitudinal cylinder 52, the bottoms of the longitudinal cylinder 51 and the longitudinal cylinder 52 are connected with the top surface of the scraper seat plate 4, the output end of the longitudinal cylinder 51 penetrates through the scraper seat plate 4 and then sequentially passes through a scraper seat 21 and a scraper clamping part 23 to be connected with the top of a scraper 2, the output end of the longitudinal cylinder 52 penetrates through the scraper seat plate 4 and then sequentially passes through a scraper seat 31 and a scraper clamping part 33 to be connected with the top of a scraper 3, the scraper 2 is positioned on the left side of the scraper 3, the scraper seat 21 and the scraper seat 31 are parallel to each other, the side parts of the scraper seat 21 and the scraper seat 31 are respectively provided with a fixed rotary arm 22 and a fixed rotary arm 32, and the inside parts of the scraper seat 21 and the scraper seat 31 are respectively provided with a through cavity 24 and a cavity 34.

The scraper A2 comprises an obliquely extending section A25 and a vertical section A26, the lengths of the obliquely extending section A25 and the vertical section A26 are sequentially reduced, the top end of the obliquely extending section A25 is connected with the bottom surface of the cutter clamping part A23, the bottom end of the obliquely extending section A25 is connected with the top end of the vertical section A26, the horizontal distance between the joint of the obliquely extending section A25 and the cutter clamping part A23 and the cutter clamping part B33 is larger than the horizontal distance between the vertical section A26 and the scraper B3, and the included angle between the obliquely extending section A25 and the cutter clamping part A23 and the included angle between the obliquely extending section A25 and the vertical section A26 are obtuse angles; the second clamping knife 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 knife 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 and a second clamping lower cavity 335 which are communicated up and down, 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 scraping knife 3 is embedded in the second clamping lower cavity 335, and the bottom end of the second scraping knife 3 extends to.

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; a first sliding seat 41, a second sliding seat 42 and a driving sliding table 43 which are parallel to each other in pairs are arranged on the top surface of the scraper seat plate 4, 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, wherein 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 contacted with the tops of the left belt wheel 64 and the right belt wheel 65, 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 of the right belt wheel 65 is connected with the middle 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 the external driving belt 67.

Linear guide 61, No. two linear guide 62's top respectively with a guide fixed plate 611, No. two guide fixed plates 621 correspond and are connected, linear guide 61 is connected with No. two linear guide 62 through lower plate 602, a guide fixed plate 611 is connected with No. two guide fixed plates 621 through punch holder 601, lower plate 602 is parallel to each other, punch holder 601, lower plate 602 all is located between drive slip table 43 and the right band pulley 65, punch holder 601, it smugglies chamber 60 secretly to press from both sides between the lower plate 602, the left end of lower straight belt 634 contacts with the bottom of left band pulley 64, the right-hand member of lower straight belt 634 is worn through drive slip table 43 in proper order, smuggly the bottom that contacts with right band pulley 65 behind the chamber 60.

The principle of the invention is illustrated as follows:

referring to fig. 1 and 2, in the invention, flexible sensors are arranged on a chest sensing area, a waist sensing area, a leg sensing area and a hip sensing area on a clothes body, an inner conductor in the flexible sensors is a mixture of glue and conductive powder, when the flexible sensors are manufactured, no matter the injection process or the screen printing process is adopted, the glue and the conductive powder are mixed into conductive paste, then the conductive paste is injected or printed, after all the operations are finished, the conductive paste is fixed in a body placing cavity between an upper covering layer and a lower covering layer, and at the moment, the inner conductor is an inner conductor which has strong flexibility, can change along with external tension, has large change degree, and is called as liquid metal. When the form of the inner conductor changes, the resistance value of the inner conductor also changes, and the invention monitors the pressure change of the body-shaping part by utilizing the corresponding relation between the form change and the resistance value change so as to be applied to the body-shaping clothes and improve the body-shaping effect.

Referring to fig. 2-5, the left side of the net frame is connected with the bottom end of the left longitudinal adjusting device of the net frame after sequentially passing through the left vertical plate and the left transverse plate, the right side of the net frame is connected with the bottom end of the right longitudinal adjusting device of the net frame after sequentially passing through the right lower transverse plate, the right vertical plate and the right upper transverse plate, and the right lower transverse plate, the right vertical plate and the right upper transverse plate form a Z-shaped structure. The left longitudinal adjusting device and the right longitudinal adjusting device of the net frame are formed by longitudinal frame adjusting devices, each longitudinal frame adjusting device comprises a fixed vertical plate, an inner frame guide rail, an outer frame guide rail, a top frame rail seat, a top frame back plate, a side adjusting rod and a top adjusting rod, and during application, the inner frame guide rails, the outer frame guide rails and the top frame rail seats are fixed, the fixed vertical plates slide up and down along the inner frame guide rails and the outer frame guide rails to realize height adjustment, after adjustment is finished, the side adjusting rods and the top frame back plates are in close contact with and abut against each other, and the close contact of the top adjusting rods and the fixed vertical plates abut against each other to realize fixed adjustment.

Referring to fig. 6-10, the top of the first linear guide rail is connected with the first guide rail fixing plate, the top of the second linear guide rail is connected with the second guide rail fixing plate, the first guide rail fixing plate and the second guide rail fixing plate are preferably of an L-shaped structure to facilitate installation and fixation of the first linear guide rail and the second linear guide rail, the right end of the first linear guide rail is connected with the right end of the second linear guide rail through the lower clamping plate, the right end of the first guide rail fixing plate is connected with the right end of the second guide rail fixing plate through the upper clamping plate, the upper clamping plate and the lower clamping plate are parallel to each other, the upper clamping plate and the lower clamping plate are both positioned between the driving sliding table and the right belt wheel, and a clamping belt cavity is clamped between the upper clamping plate and the lower clamping plate, at the moment, after the lower linear belt is connected with the driving sliding table, the clamping belt cavity firstly passes through the clamping belt cavity and then, thereby ensuring stability of the lateral movement of the doctor blade. The hardness of the first scraper is greater than that of the second scraper, preferably, the first scraper is made of metal, and the second scraper is made of plastic.

Example 1:

referring to fig. 1-11, the sensors are flexible sensors 13, the garment 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 sensors 13, each 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, the length of the body placing cavity 103 is smaller than the lengths of the upper covering layer 101 and the lower covering layer 102, the body placing cavity 103 is filled with the flexible inner conductors 11, and the two ends of the inner conductors 11 are respectively connected with the inner ends of a first connecting wire 111 and a, the outer ends of the first electric wire 111 and the second electric wire 112 are both positioned outside the outer wrapping layer 10, the inner electric conductor 11 is a mixture of glue and conductive powder, and the outer wrapping layer 10 is made of an insulating material. Preferably, the conductive powder is carbon nanotubes or nano metal particles or a mixture of the carbon nanotubes 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. 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.

The above-mentioned manufacturing processes of the intelligent body-shaping clothes capable of sensing the body-shaping pressure are totally two kinds, which are specifically shown as follows.

The first method comprises the following steps: the upper covering layer 101 and the lower covering layer 102 are connected into a whole up and down, then a mixture of glue and conductive powder is injected into the joint of the upper covering layer 101 and the lower covering layer 102 through an injector to form an inner conductor 11, the flexible sensor 13 can be obtained after injection is finished, 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.

And the second method 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, an A scraper 2 and a B scraper 3 are arranged right above the screen frame 1, then the height of the left side and the right side of the screen frame 1 is adjusted through a screen frame left longitudinal adjusting device 7 and a screen frame right longitudinal adjusting device 8, after the adjustment is finished, conductive paste obtained by mixing glue and conductive powder is arranged on the top surface of the screen frame 1, the conductive paste is positioned between the A scraper 2 and the B scraper 3, then the A scraper 2 and the B scraper 3 are driven to transversely and longitudinally move through a longitudinal displacement device 5 and a transverse displacement device 6 so as to print the conductive paste on the lower covering layer 102 through the screen frame 1, after the printing is finished, an upper covering layer 101 is covered on the lower covering layer 102 and the conductive paste 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 paste 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 this time, 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.

Example 2:

the basic contents are the same as example 1, except that:

During application, the top adjusting rod 95 is unscrewed upwards to enable the top adjusting rod 95 and the fixed vertical plate 91 to be separated from each other, the side adjusting rod 94 is unscrewed outwards to enable the side adjusting rod 94 and the top frame back plate 97 to be separated from each other, then the fixed vertical plate 91 is driven to slide up and down along the inner frame guide rail 92 and the outer frame guide rail 93 until the side adjusting rod 94 slides to a preset position, then the side adjusting rod 94 is screwed inwards to enable the side adjusting rod 94 and the top frame back plate 97 to be abutted and contacted, and then the top adjusting rod 95 is screwed downwards to enable the top adjusting rod 95 and the fixed vertical plate 91 to be abutted and contacted.

Example 3:

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

the top of the scraper seat plate 4 is connected with a longitudinal displacement device 5, the longitudinal displacement device 5 comprises a longitudinal cylinder 51 and a longitudinal cylinder 52, the bottoms of the longitudinal cylinder 51 and the longitudinal cylinder 52 are connected with the top surface of the scraper seat plate 4, the output end of the longitudinal cylinder 51 penetrates through the scraper seat plate 4 and then sequentially passes through a scraper seat 21 and a scraper clamping part 23 to be connected with the top of a scraper 2, the output end of the longitudinal cylinder 52 penetrates through the scraper seat plate 4 and then sequentially passes through a scraper seat 31 and a scraper clamping part 33 to be connected with the top of a scraper 3, the scraper 2 is positioned on the left side of the scraper 3, the scraper seat 21 and the scraper seat 31 are parallel to each other, the side parts of the scraper seat 21 and the scraper seat 31 are respectively provided with a fixed rotary arm 22 and a fixed rotary arm 32, and the inside parts of the scraper seat 21 and the scraper seat 31 are respectively provided with a through cavity 24 and a cavity 34. 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; a first sliding seat 41, a second sliding seat 42 and a driving sliding table 43 which are parallel to each other in pairs are arranged on the top surface of the scraper seat plate 4, 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, wherein 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 contacted with the tops of the left belt wheel 64 and the right belt wheel 65, 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 of the right belt wheel 65 is connected with the middle 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 the external driving belt 67.

When the automatic screen printing machine is used, the screen frame 1 is placed under the first scraper 2 and the second scraper 3, the table plate X2 is arranged under the screen frame 1, the left longitudinal screen frame adjusting device 7 is operated to adjust the height of the left side edge of the screen frame 1, the right longitudinal screen frame adjusting device 8 is operated to adjust the height of the right side edge of the screen frame 1, and the initial position is obtained after the adjustment is completed, at the moment, the first scraper 2 and the second scraper 3 are both positioned at the left end of the screen frame 1, the first scraper 2 is lower than the second scraper 3, slurry for screen printing is placed on the screen frame 1 and positioned between the first scraper 2 and the second scraper 3, the second scraper 3 is not moved, the first scraper 2 is driven by the first longitudinal air cylinder 51 to move downwards for a preset distance and then a gap exists between the first scraper 2 and the screen frame 1, the first scraper 2 and the second scraper 3 are driven by the transverse displacement device 6 to move rightwards together and stop until the right end of the screen frame 1, then, the second longitudinal cylinder 52 drives the second scraper 3 to move downwards until the bottom end of the second scraper 3 is contacted with the top surface of the screen frame 1, meanwhile, the first longitudinal cylinder 51 drives the first scraper 2 to move upwards until the first scraper 2 is higher than the second scraper 3, then the first scraper 2 and the second scraper 3 are driven by the transverse displacement device 6 to move leftwards together until the left end of the screen frame 1 is stopped, then the first longitudinal cylinder 51 drives the first scraper 2 to move downwards, the second longitudinal cylinder 52 drives the second scraper 3 to move upwards until the first scraper 2 is lower than the second scraper 3, the previous left-right reciprocating printing operation is continuously repeated until the slurry is insufficient, the operation is stopped, and then the first scraper 2 and the second scraper 3 are restored to the initial positions to complete resetting.

Claims

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).