CN209825312U - Student radiation protection intelligence location school clothes - Google Patents

Abstract

The utility model discloses a student radiation protection intelligent positioning school uniform, wherein nano silver fiber radiation protection cloth is sewn on the inner surfaces of the front chest and the back area of a coat, nano silver fiber radiation protection cloth is sewn on the inner surface of the area of trousers above the knee, a positioner placing bag is sewn on the outer surface of one side of the trousers corresponding to the position of the pubis, a positioner is placed in the positioner placing bag, the bag mouth of the positioner placing bag is adhered to the outer surface of the trousers through a magic tape, and the positioner is in signal connection with a remote handheld terminal through a wireless communication network; have the function of protecting against radiation and intelligent location, can avoid the student to contact electromagnetic wave radiation excessively and cause harmful effects to the health development, and help the head of a family to know student's trail and can come and carry out mutual advice student with the student according to student's trail, help reducing student's safety problem and appear.

Description

Student radiation protection intelligence location school clothes

Technical Field

The utility model belongs to the technical field of student's school uniform, concretely relates to student's school uniform with radiation protection and intelligent locate function.

Background

At present, the existing school uniforms for students are common clothes generally, the functions are single, the existing smart phones and networks are developed, students including pupils like to leave the mobile phones, multimedia teaching is also commonly used in classrooms of the students, the mobile phones and the computer network teaching can generate certain electromagnetic wave radiation, and the students, particularly the pupils, are in the growth stage of bodies and excessively contact with the electromagnetic wave radiation to cause certain adverse effects on the development of the bodies. Meanwhile, students generally greed to play, especially primary school students do not have safety precaution consciousness, and safety problems are easy to occur after the students leave a school, and the students often have safety problems in a period of time when the students leave the school or before the students leave the school; therefore, if parents can know the trail of the student in the period and can interactively persuade the student with the student according to the trail of the student, the safety problem of the student can be reduced, and the safety of the student can be ensured while the parents can be relieved.

Disclosure of Invention

Not enough to prior art, the utility model aims at providing a student protects against radiation intelligence location school uniform with protect against radiation and intelligent locate function.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a radiation-proof intelligent positioning school uniform for students comprises a coat and trousers, wherein nano-silver fiber radiation-proof cloth is sewn on the inner surfaces of the chest region and the back region of the coat, nano-silver fiber radiation-proof cloth is sewn on the inner surface of the region, above the knee, of the trousers, a positioner placing bag is sewn on the outer surface of one side of the trousers corresponding to the position of the pubis, a positioner is placed in the positioner placing bag, the bag mouth of the positioner placing bag is bonded with the outer surface of the trousers through a magic tape, and the positioner is in signal connection with a remote handheld terminal through a wireless communication network; the positioner comprises a first STM32F103 microprocessor, a power supply module, a GPS module, a JY-901 inertial navigation module, a steering engine module, a motion control motor driving module, a first NRF24L01 wireless communication module and a first LCD information display module, wherein the power supply module is connected with the first STM32F103 microprocessor to provide power for the first STM32F103 microprocessor, the GPS module is connected with a serial port of the first STM32F103 microprocessor, the JY-901 inertial navigation module and the first NRF24L01 wireless communication module are connected with the first STM32F103 microprocessor, a timer of the first STM32F103 microprocessor is connected with the steering engine module and the motion control motor driving module, and the first STM32F103 microprocessor is connected with the first LCD information display module; the handheld terminal comprises a second STM32F103 microprocessor, a lithium battery, a second NRF24L01 wireless communication module, an external FLASH module, a touch controller and a second LCD information display module, the lithium battery, the second NRF24L01 wireless communication module, the external FLASH module and the touch controller are respectively connected with the second STM32F103 microprocessor, the second STM32F103 microprocessor is connected with the second LCD information display module in an output mode, and the second NRF24L01 wireless communication module of the handheld terminal and the first NRF24L01 wireless communication module of the locator are in signal connection through a wireless communication network.

Further, the coat consists of four pieces of sleeve cloth, two pieces of front body cloth and one piece of back cloth, nano silver fiber radiation-proof cloth is sewn on the inner surface of the front chest area of the front body cloth, nano silver fiber radiation-proof cloth is sewn on the inner surface of the back area of the back cloth, one piece of sleeve cloth is sewn and connected on the arm opening cloth edge of one piece of front body cloth, the other piece of sleeve cloth is sewn and connected on the arm opening cloth edge of the other piece of front body cloth, the two pieces of front body cloth are sewn and connected at the joint of the collar, in addition, two pieces of sleeve cloth are respectively sewn and connected to arm opening cloth edges on two sides of the back cloth, the sleeve cloth on the arm opening cloth edges on the two sides of the back cloth and the sleeve cloth on the arm opening cloth edge of the front body cloth are sewn and connected at the splicing contour of the sleeve cloth, and the front body cloth and the back cloth are sewn and connected at the splicing line below the shoulder contour and the arm opening.

Furthermore, the trousers comprise two trousers fabrics and a waist elastic band, wherein the nano silver fiber radiation-proof fabric is sewn on the inner surface of the region, above the knees, of the trousers fabrics, the two trousers fabrics are connected at the splicing position of the outer contour of the two trousers fabrics in a sewing mode, and the waist elastic band is sewn and connected on a waist opening formed by sewing and connecting the two trousers fabrics.

The utility model discloses following beneficial effect has:

the utility model relates to a student's intelligence location school uniform of protecting against radiation, the regional internal surface of chest and back of its overcoat has made nanometer silver fibre radiation protection cloth, the trousers have made nanometer silver fibre radiation protection cloth on the internal surface of the region above the knee, the locator bag has been made on one side surface of trousers corresponding to the pubic symphysis position, the locator has been placed in the locator bag, the sack of locator bag is through magic subsides and the surface bonding of trousers, the locator carries out signal connection through wireless communication network with long-range handheld terminal; have the function of protecting against radiation and intelligent location, can avoid the student to contact electromagnetic wave radiation excessively and cause harmful effects to the health development, and help the head of a family to know student's trail and can come and carry out mutual advice student with the student according to student's trail, help reducing student's safety problem and appear.

Drawings

FIG. 1 is a schematic view of the whole structure of the radiation-proof intelligent positioning school uniform for students;

FIG. 2 is an enlarged schematic view of the positioner placing bag of the radiation-proof intelligent positioning school uniform for students of the present invention;

FIG. 3 is a schematic view of the positioner of the radiation-proof intelligent positioning school uniform for students of the present invention;

FIG. 4 is a schematic view of the operation flow of the positioner of the radiation-proof intelligent positioning school uniform for students of the present invention;

FIG. 5 is a schematic view of the handheld terminal of the radiation-proof intelligent positioning school uniform for students;

FIG. 6 is a schematic view of the operation flow of the handheld terminal of the radiation-proof intelligent positioning school uniform for students of the present invention;

FIG. 7 is a flow chart of the cutting and sewing process of the outer cover of the radiation-proof intelligent positioning school uniform for students;

FIG. 8 is a flow chart of the cutting and sewing process of the trousers of the radiation-proof intelligent positioning school uniform for students;

fig. 9 is a process flow chart of the manufacturing process of the radiation-proof intelligent positioning school uniform for students.

In the figure: 1. a jacket; 2. trousers; 3. nano silver fiber radiation-proof cloth; 4. a locator placing bag; 5. a positioner; 6. a handheld terminal; 10. cloth for sleeves; 11. front body cloth; 12. back cloth; 20. a trouser fabric; 21. waist elastic bands; 41. magic tape; 51. a first STM32F103 microprocessor; 52. a power supply module; 53. a GPS module; 54. JY-901 inertial navigation module; 55. a steering engine module; 56. a motion control motor drive module; 57. a first NRF24L01 wireless communication module; 58. a first LCD information display module; 61. a second STM32F103 microprocessor; 62. a lithium battery; 63. a second NRF24L01 wireless communication module; 64. an external FLASH module; 65. a touch controller; 66. and the second LCD information display module.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the invention.

The utility model relates to a student radiation protection intelligent positioning school uniform, as shown in fig. 1-6, including overcoat 1 and trousers 2, nanometer silver fibre radiation protection cloth 3 has been made up on the regional internal surface of chest and back of overcoat 1, nanometer silver fibre radiation protection cloth 3 has been made up on the regional internal surface of trousers 2 above the knee, locator placing bag 4 has been made up on the corresponding pubic bone position on one side surface of trousers 2, locator 5 has been placed in locator placing bag 4, the sack of locator placing bag 4 passes through magic subsides 41 and trousers 2's surface bonding, locator 5 and long-range handheld terminal 6 carry out signal connection through wireless communication network; the positioner 5 comprises a first STM32F103 microprocessor 51, a power supply module 52, a GPS module 53, a JY-901 inertial navigation module 54, a steering engine module 55, a motion control motor driving module 56, a first NRF24L01 wireless communication module 57 and a first LCD information display module 58, wherein the power supply module 52 is connected with the first STM32F103 microprocessor 51 to provide power for the first STM32F103 microprocessor 51, the GPS module 53 is connected with a serial port 51a of the first STM32F103 microprocessor 51, the JY-901 inertial navigation module 54 and the first NRF24L01 wireless communication module 57 are connected with the first STM32F103 microprocessor 51, a timer 51b of the first STM32F103 microprocessor 51 is connected with the steering engine module 55 and the motion control motor driving module 56, and the first STM32F103 microprocessor 51 is connected with the first LCD information display module 58; the handheld terminal 6 comprises a second STM32F103 microprocessor 61, a lithium battery 62, a second NRF24L01 wireless communication module 63, an external FLASH module 64, a touch controller 65 and a second LCD information display module 66, wherein the lithium battery 62, the second NRF24L01 wireless communication module 63, the external FLASH module 64 and the touch controller 65 are respectively connected with the second STM32F103 microprocessor 61, the second STM32F103 microprocessor 61 is connected with the second LCD information display module 66 in an output mode, and the second NRF24L01 wireless communication module 63 of the handheld terminal 6 is in signal connection with the first NRF24L01 wireless communication module 57 of the locator 5 through a wireless communication network.

As shown in fig. 4, when the locator 5 works, the serial port 51a of the first STM32F103 microprocessor 51, the timer 51b of the first STM32F103 microprocessor 51, the JY-901 inertial navigation module 54 and the first NRF24L01 wireless communication module 57 are initialized through the first LCD information display module 58, the GPS module 53 receives GPS data, the first STM32F103 microprocessor 51 performs coordinate function operation, and the first NRF24L01 wireless communication module 57 is in signal connection with the second NRF24L01 wireless communication module 63 of the handheld terminal 6; as shown in fig. 6, after the second NRF24L01 wireless communication module 63 receives the signal, the second STM32F103 microprocessor 61 performs arithmetic processing on the signal and maps the signal onto the map stored in the external FLASH module 64 to confirm the coordinates of the student on the map.

Specifically, as shown in fig. 7, the coat 1 is composed of four pieces of sleeve cloth 10, two pieces of front body cloth 11 and one piece of back cloth 12, a nano silver fiber radiation-proof cloth 3 is sewn on the inner surface of the front chest region of the front body cloth 11, a nano silver fiber radiation-proof cloth 3 is sewn on the inner surface of the back region of the back cloth 12, one piece of sleeve cloth 10 is sewn on the arm opening cloth edge of one piece of front body cloth 11, the other piece of sleeve cloth 10 is sewn on the arm opening cloth edge of the other piece of front body cloth 11, the two pieces of front body cloth 11 are sewn at the collar splicing position, the other two pieces of sleeve cloth 10 are respectively sewn on the arm opening cloth edges at both sides of the back cloth 12, the sleeve cloth 10 on the arm opening cloth edges at both sides of the back cloth 12 and the sleeve cloth 10 on the arm opening cloth edge of the front body cloth 11 are sewn at the splicing contour position of the, the front body cloth 11 and the back cloth 12 are sewn and connected at the joint line below the shoulder contour line and the arm opening.

As shown in fig. 8, the pants 2 are composed of two pants fabrics 20 and a waist elastic 21, the nano silver fiber radiation-proof fabric 3 is sewn on the inner surface of the pants fabric 20 located in the region above the knees, the two pants fabrics 20 are sewn and connected at the outer contour splicing position, and the waist elastic 21 is sewn and connected to the waist opening formed by sewing and connecting the two pants fabrics 20.

The utility model relates to a student protects against radiation intelligence location school uniform is when making, as shown in fig. 7-9, include following step:

s1, cutting outer cover cloth, and cutting four pieces of sleeve cloth 10, two pieces of front body cloth 11 and one piece of back cloth 12 in advance;

s2, sewing the nano silver fiber radiation-proof cloth 3 on the inner surfaces of the chest areas of the two front body cloths 11 respectively, and sewing the nano silver fiber radiation-proof cloth 3 on the inner surface of the back area of the back cloth 12;

s3, sewing and connecting sleeve fabrics of the outer sleeve, sewing and connecting one sleeve fabric 10 to an arm opening fabric edge of one front body fabric 11, sewing and connecting the other sleeve fabric 10 to an arm opening fabric edge of the other front body fabric 11, and respectively sewing and connecting the other two sleeve fabrics 10 to arm opening fabric edges on two sides of a back fabric 12;

s4, integrally sewing the outer sleeve, sewing and connecting two pieces of front body cloth 11 at the joint of the collar, sewing and connecting sleeve cloth 10 on arm opening cloth edges at two sides of back cloth 12 and sleeve cloth 10 on arm opening cloth edges of the front body cloth 11 at the joint contour of the sleeve cloth 10, and sewing and connecting the front body cloth 11 and the back cloth 12 at the joint line below the shoulder contour line and the arm opening;

s5, cutting the trousers fabric, and cutting two trousers fabrics 20 and a waist elastic band 21 in advance;

s6, sewing the nano silver fiber radiation-proof cloth of the trousers, and sewing the nano silver fiber radiation-proof cloth 3 on the inner surface of the area, above the knees, of the trousers cloth 20;

s7, integrally sewing the trousers, sewing and connecting the two trousers 20 at the outer contour splicing position, sewing the locator placing bag 4 on the outer surface of one side of the two trousers 20 corresponding to the pubic bone position, and sewing and connecting the waist elastic band 21 on the waist opening formed by sewing and connecting the two trousers 20.

The utility model relates to a student's intelligence location school uniform of protecting against radiation, it has made nanometer silver fibre radiation protection cloth 3 to sew up on the regional internal surface of chest and back of its overcoat 1, it has made nanometer silver fibre radiation protection cloth 3 to sew up on the regional internal surface of trousers 2 above the knee, it has made up locator placing bag 4 to correspond the pubic bone position on the one side surface of trousers 2, locator 5 has been placed in locator placing bag 4, the sack of locator placing bag 4 is through magic subsides 41 with the surface bonding of trousers 2, locator 5 and long-range handheld terminal 6 carry out signal connection through wireless communication network; have the function of protecting against radiation and intelligent location, can avoid the student to contact electromagnetic wave radiation excessively and cause harmful effects to the health development, and help the head of a family to know student's trail and can come and carry out mutual advice student with the student according to student's trail, help reducing student's safety problem and appear.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (3)

1. The utility model provides a student protects against radiation intelligence location school uniform, includes overcoat (1) and trousers (2), its characterized in that: the radiation-proof trousers are characterized in that nano-silver fiber radiation-proof cloth (3) is sewn on the inner surfaces of the chest region and the back region of the coat (1), nano-silver fiber radiation-proof cloth (3) is sewn on the inner surface of the region, above the knee, of the trousers (2), a locator placing bag (4) is sewn on the outer surface of one side of the trousers (2) corresponding to the position of the pubis, a locator (5) is placed in the locator placing bag (4), the pocket mouth of the locator placing bag (4) is bonded with the outer surface of the trousers (2) through a magic tape (41), and the locator (5) is in signal connection with a remote handheld terminal (6) through a wireless communication network;

the positioner (5) comprises a first STM32F103 microprocessor (51), a power supply module (52), a GPS module (53), a JY-901 inertial navigation module (54), a steering engine module (55), a motion control motor driving module (56), a first NRF24L01 wireless communication module (57) and a first LCD information display module (58), the power module (52) is connected with a first STM32F103 microprocessor (51) to provide power for the first STM32F103 microprocessor (51), the GPS module (53) is connected with a serial port (51 a) of the first STM32F103 microprocessor (51), the JY-901 inertial navigation module (54) and the first NRF24L01 wireless communication module (57) are connected with the first STM32F103 microprocessor (51), a timer (51 b) of the first STM32F103 microprocessor (51) is connected with a steering engine module (55) and a motion control motor driving module (56), and the first STM32F103 microprocessor (51) is connected with a first LCD information display module (58); the handheld terminal (6) comprises a second STM32F103 microprocessor (61), a lithium battery (62), a second NRF24L01 wireless communication module (63), an external FLASH module (64), a touch controller (65) and a second LCD information display module (66), the lithium battery (62), the second NRF24L01 wireless communication module (63), the external FLASH module (64) and the touch controller (65) are respectively connected with the second STM32F103 microprocessor (61), the output of the second STM32F103 microprocessor (61) is connected with the second LCD information display module (66), and the second NRF24L01 wireless communication module (63) of the handheld terminal (6) is in signal connection with the first NRF24L01 wireless communication module (57) of the positioner (5) through a wireless communication network.

2. The student radiation protection intelligent positioning school uniform of claim 1, characterized in that: the coat (1) is composed of four pieces of sleeve cloth (10), two pieces of front body cloth (11) and one piece of back cloth (12), nano silver fiber radiation-proof cloth (3) is sewn on the inner surface of a front chest area of the front body cloth (11), nano silver fiber radiation-proof cloth (3) is sewn on the inner surface of a back area of the back cloth (12), one piece of sleeve cloth (10) is sewn and connected to an arm opening cloth edge of one piece of front body cloth (11), the other piece of sleeve cloth (10) is sewn and connected to an arm opening cloth edge of the other piece of front body cloth (11), the two pieces of front body cloth (11) are sewn and connected at a collar splicing position, the other two pieces of sleeve cloth (10) are respectively sewn and connected to arm opening cloth edges at two sides of the back cloth (12), the sleeve cloth (10) on the arm opening cloth edges at two sides of the back cloth (12) and the sleeve cloth (10) on the arm opening cloth edge of the front body cloth (11) are connected at the sleeve splicing contour position of the sleeve The front body cloth (11) and the back cloth (12) are sewn and connected at the joint line below the shoulder contour line and the arm opening.

3. The student radiation protection intelligent positioning school uniform of claim 1, characterized in that: the trousers (2) are composed of two trousers fabrics (20) and a trousers waist elastic band (21), wherein the nanometer silver fiber radiation-proof fabric (3) is sewn on the inner surface of the trousers fabric (20) located in the area above the knees, the two trousers fabrics (20) are connected at the splicing position of the outer contour of the trousers fabrics in a sewing mode, and the trousers waist elastic band (21) is connected to the trousers waist opening formed by the two trousers fabrics (20) in a sewing mode.