CN220832011U - Heat-shielding sun-proof garment capable of monitoring ultraviolet intensity - Google Patents

Abstract

The utility model relates to the technical field of clothing, and provides a heat-shielding sun-screening garment capable of monitoring ultraviolet intensity, wherein a sun-screening garment body is designed into at least two layers, an inner layer is an inner adhesive layer, is contacted with the skin of a user, and can adsorb sweat discharged by the user; the outer layer is an anti-ultraviolet layer, can block ultraviolet ray from penetrating, and can prevent users from being hurt by ultraviolet rays, so that the high-efficiency heat shielding and sun screening functions are realized. Because the moisture absorption rate of the anti-ultraviolet layer is higher than that of the inner adhesive layer, the sweat absorption capacity between the anti-ultraviolet layer and the inner adhesive layer has a certain gradient, so that sweat on the inner adhesive layer is transferred to the anti-ultraviolet layer, a one-way moisture guiding effect is realized, the skin is prevented from being contacted with the wet inner adhesive layer for a long time, and the skin is ensured to be dry and comfortable. Meanwhile, the sensing piece is arranged on the surface of the sun-proof clothes body, the current ultraviolet intensity is judged by utilizing the change of the sensing piece to different colors of the ultraviolet intensity, a wearer is reminded to take more reasonable sun-proof measures in time, and a timely early warning effect is achieved for a user.

Description

Heat-shielding sun-proof garment capable of monitoring ultraviolet intensity

Technical Field

The utility model belongs to the technical field of clothing, and particularly relates to a heat-shielding sun-screening garment capable of monitoring ultraviolet intensity.

Background

Sunlight can be classified into ultraviolet rays, visible rays and infrared rays according to wavelength. Ultraviolet rays can be divided into short-wave ultraviolet rays, medium-wave ultraviolet rays and long-wave ultraviolet rays, the short-wave ultraviolet rays are almost absorbed by an atmospheric ozone layer, and the medium-wave ultraviolet rays and the long-wave ultraviolet rays reaching the surface of the earth mainly account for 5% and 95% of the total UVR of the surface of the earth respectively. Although the ultraviolet rays can play a role in sterilization, the human immunity can be effectively improved and the synthesis of vitamin D can be promoted; however, a large amount of ultraviolet irradiation is more harmful to human skin, and ultraviolet rays have a cumulative effect, and the longer the exposure time to ultraviolet rays is, the more susceptible to damage, and skin aging and lesions such as skin melanin increase, sunburn erythema, freckle, skin laxity and the like can be caused.

In summer, the sun-proof clothing is popular with people because the protective effect of daily life clothing on ultraviolet rays is poor. A sun-proof garment made of ultraviolet-resistant dyed and splash-printed fabric is proposed in the prior literature (application number CN 202022594364.0). The fabric of the sun-proof garment body is designed into an ultraviolet-resistant dyeing and splashing printing fabric layer, a breathable layer and an inner net layer, wherein the ultraviolet-resistant dyeing and splashing printing fabric layer can isolate external ultraviolet rays from sun-proof.

However, the sun-proof clothing can only play a role in sun-proof, and for ventilation, the sun-proof clothing can be completely covered by the ultraviolet-resistant dyeing and splashing printing fabric layer, so that sweat of a user is adsorbed in the inner net layer, and the skin of the user is in a damp-heat state, and the comfort level is seriously reduced; meanwhile, the sun-proof suit cannot play a role in monitoring ultraviolet intensity.

Disclosure of utility model

Based on the background, the utility model aims to provide a heat-shielding sun-screening garment capable of monitoring ultraviolet intensity, which can monitor the ultraviolet intensity to remind a wearer of when sun-screening is needed, can efficiently shield heat and screen sun, keep cool and improve comfort.

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

a heat-shielding sun-protection garment capable of monitoring ultraviolet intensity, comprising: the sun-proof clothes body comprises an ultraviolet-proof layer and an inner adhesive layer, wherein the ultraviolet-proof layer is arranged on the inner adhesive layer and used for blocking ultraviolet rays, the moisture absorption rate of the ultraviolet-proof layer is higher than that of the inner adhesive layer, and the inner adhesive layer is used for being in contact with the skin of a user; the sensing piece is arranged on the surface of the sun-proof clothes body and used for indicating the mark of the ultraviolet intensity through the change of the color so as to judge the current ultraviolet intensity.

Further, the anti-ultraviolet layer is a blended yarn layer formed by cotton and heat-shielding viscose fiber, the inner adhesive layer is a polyester layer, and the heat-shielding viscose fiber comprises viscose fiber spinning and titanium oxide nano powder mixed in the viscose fiber spinning.

Further, a plurality of indication parts are circumferentially arranged on the sensing piece, and colors in all the indication parts are gradually deepened in sequence.

Further, the sensing piece is an ultraviolet intensity test sticker.

Further, the sun-proof clothes body is provided with an openable cover body, the cover body is of a transparent structure, when the cover body is combined with the sun-proof clothes body, a containing cavity is formed between the cover body and the sun-proof body, and the sensing piece is located in the containing cavity.

Further, the sun-proof suit body comprises a front piece, a rear piece and a ventilation layer, wherein the ventilation layer is connected between the front piece and the rear piece at the armpit position.

Further, the sun-proof suit body still includes the covering sheet, the front bezel with the back plate all is equipped with first bonding portion, and two first bonding portion is located the relative both sides of ventilative layer, the covering sheet is connected the back plate with juncture between the ventilative layer, be equipped with on the covering sheet with the second bonding portion of first bonding portion matching is used for the closing cap ventilative layer.

Further, the cover sheet comprises a protective layer and a moisture absorption layer, and the moisture absorption layer is arranged on one side surface of the protective layer, which faces the breathable layer.

Further, the sun-proof suit also comprises a hat connected to the top of the sun-proof suit body and a hat brim arranged on the hat, and goggles are rotatably arranged on the inner side of the hat brim.

Further, the back of the hat is provided with an opening for hair to pass through, two sides of the opening are respectively connected with sealing sheets, and the two sealing sheets are detachably connected.

The utility model has the following beneficial effects:

(1) The sun-proof garment body is designed into at least two layers, the inner layer is an inner adhesive layer, and the inner adhesive layer is contacted with the skin of a user and can absorb sweat discharged by the user; the outer layer is an anti-ultraviolet layer, can block ultraviolet ray from penetrating, and can prevent users from being hurt by ultraviolet rays, so that the high-efficiency heat shielding and sun screening functions are realized. Because the moisture absorption rate of the anti-ultraviolet layer is higher than that of the inner adhesive layer, the sweat absorption capacity between the anti-ultraviolet layer and the inner adhesive layer has a certain gradient, so that sweat on the inner adhesive layer is transferred to the anti-ultraviolet layer, a one-way moisture guiding effect is realized, the skin is prevented from being contacted with the wet inner adhesive layer for a long time, and the skin is ensured to be dry and comfortable. Meanwhile, the sensing piece is arranged on the surface of the sun-proof clothes body, the current ultraviolet intensity is judged by utilizing the change of the sensing piece to different colors of the ultraviolet intensity, a wearer is reminded to take more reasonable sun-proof measures in time, and a timely and accurate early warning effect is achieved for a user.

(2) The ventilation layer is arranged between the front piece and the rear piece, and the ventilation comfort of the sun-proof suit is further improved by utilizing the ventilation layer; meanwhile, the first bonding parts are respectively arranged on two sides of the ventilation layer, and at the moment, a user can bond the second bonding part on the cover plate on one of the two first bonding parts so as to realize ventilation or ultraviolet protection function of the armpit part.

(3) The hat brim is arranged on the hat, so that the hat has a protective effect on the face and reduces the damage of ultraviolet rays to the face; meanwhile, goggles are rotatably arranged in the hat brim, and the goggles are rotated to protect the eyes from being damaged by strong ultraviolet rays.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained from the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic front view of a sun visor according to one embodiment;

FIG. 2 is a schematic view of a body of a sun visor according to one embodiment;

FIG. 3 is a schematic side view of a sun visor according to one embodiment;

FIG. 4 is a schematic diagram of a sensing element according to an embodiment;

FIG. 5 is a schematic diagram of the back side structure of a sun visor according to one embodiment;

FIG. 6 is a schematic illustration of the construction of a coversheet in one embodiment;

FIG. 7 is a schematic diagram showing a side view of a sun visor according to one embodiment;

fig. 8 is a schematic diagram of a back side structure of a sun protection garment according to an embodiment.

Reference numerals illustrate:

100 is a heat-shielding sun-proof suit; 10 is a sun protection suit body; 11 is an anti-ultraviolet layer; 12 is an inner adhesive layer; 13 is a cuff; 14 is a collar; 15 is a front piece; 16 is a rear panel; 17 is a breathable layer; 171 is a first adhesive portion; 18 is a cover sheet; 181 is a protective layer; 182 is a second adhesive portion; 183 is a hygroscopic layer; 20 is a sensing element; 21 is an indication part; 22 is a cover; 30 is a hat; 31 is the cap peak; 32 is goggles; 33 is an opening; 34 is a sealing sheet.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

In one embodiment, referring to fig. 1 to 8, a heat-shielding sun-shielding garment 100 capable of monitoring ultraviolet intensity, the heat-shielding sun-shielding garment 100 comprises: a sun visor body 10 and a sensing element 20. The sun protection suit body 10 comprises an ultraviolet-proof layer 11 and an inner adhesive layer 12, wherein the ultraviolet-proof layer 11 is arranged on the inner adhesive layer 12 and used for blocking ultraviolet rays. The moisture absorption rate of the ultraviolet-proof layer 11 is higher than that of the inner adhesive layer 12, and the inner adhesive layer 12 is used for contacting with the skin of a user; the sensing piece 20 is disposed on the surface of the sun-proof clothes body 10, and is used for indicating and marking the ultraviolet intensity through the color change so as to judge the current ultraviolet intensity.

In the heat-shielding sun-proof suit 100, the sun-proof suit body 10 is designed into at least two layers, the inner layer is an inner adhesive layer 12, and the inner adhesive layer contacts with the skin of a user and can absorb sweat discharged by the user; the outer layer is an anti-ultraviolet layer 11, which can block ultraviolet ray from penetrating, so that the user is prevented from being hurt by ultraviolet rays, and the high-efficiency heat-shielding and sun-screening functions are realized. Because the moisture absorption rate of the anti-ultraviolet layer 11 is higher than that of the inner adhesive layer 12, the sweat absorption capacity between the anti-ultraviolet layer 11 and the inner adhesive layer 12 has a certain gradient, so that sweat on the inner adhesive layer 12 is transferred to the anti-ultraviolet layer 11, a unidirectional moisture guiding effect is realized, the skin is prevented from being contacted with the wet inner adhesive layer 12 for a long time, and the skin is ensured to be dry and comfortable. Meanwhile, the sensing piece 20 is arranged on the surface of the sun-proof clothes body 10, the current ultraviolet intensity is judged by utilizing the change of the sensing piece 20 to different colors of the ultraviolet intensity, a wearer is reminded to take more reasonable sun-proof measures in time, and a timely and accurate early warning effect is achieved for a user.

It should be noted that the moisture absorption rate refers to the moisture absorption rate of a material when the material is saturated with water, and the higher the moisture absorption rate, the stronger the moisture absorption capability of the material is explained. The moisture absorption rate of the anti-ultraviolet layer 11 is higher than that of the inner adhesive layer 12, so that a gradient is formed between the anti-ultraviolet layer and the inner adhesive layer, and sweat can be unidirectionally transferred from the inner adhesive layer 12 to the anti-ultraviolet layer 11, so that the skin can be ensured to be dry and comfortable.

To achieve the moisture absorption rate of the ultraviolet-proof layer 11 higher than that of the inner adhesive layer 12, at least two modes are implemented, such as: the ultraviolet-proof layer 11 can be designed into a two-layer structure, the outer layer is of an ultraviolet-proof structure, and the inner layer is of a structure with moisture absorption performance superior to that of the inner adhesive layer 12; or the ultraviolet-proof material and the high-hydroscopicity material are mixed to form an integrated structure.

It should be noted that the sensing element 20 is a structure capable of changing color under irradiation of ultraviolet rays, and the darker the color of the sensing element 20, the stronger the intensity of ultraviolet rays.

Further, referring to fig. 2, the anti-ultraviolet layer 11 is a blended yarn layer formed by cotton and heat-shielding viscose fiber, and the inner adhesive layer 12 is a polyester layer. The heat-shielding viscose fiber comprises viscose fiber spinning and titanium oxide nano powder mixed in the viscose fiber spinning.

It should be explained that the heat-shielding viscose fiber refers to a structure formed by mixing viscose fiber and titanium oxide nano powder, for example: the titanium oxide nano powder capable of efficiently reflecting sunlight is added into a viscose spinning process by using regenerated cellulose fibers as a carrier through a specific process to prepare the heat-shielding viscose. Wherein, the nanometer titanium oxide powder is evenly mixed into the viscose fiber, and the fiber has excellent heat shielding, sun-proof and cool feeling effects.

For convenience in describing the sun-proof performance of the heat-proof sun-proof garment 100 of the present application, the ultraviolet-proof characteristics of the heat-proof sun-proof garment 100 may be tested, and the test results are as follows, with reference to the standard GB/T18830-2009, "evaluation of ultraviolet-proof Performance of textiles":

Sequence number	Checking item names	Unit (B)	Test results
				1	Ultraviolet shielding rate	％	98.4

The result shows that the product has good ultraviolet protection performance, the ultraviolet shielding rate reaches 98.4%, only a small part of the product penetrates through the fabric, and the product has excellent ultraviolet resistance.

Meanwhile, in order to test the cool feeling index of the heat-shielding sun-shielding clothes 100 conveniently, a KES-F7 precise instant thermophysical property tester can be adopted for testing, the fabric of the heat-shielding sun-shielding clothes 100 is placed on an instrument cold plate, when the temperature of the fabric is the same as that of the cold plate, the hot plate is rapidly placed on a sample, the heat of the hot plate can be transmitted to the cold plate through the fabric, the maximum heat loss of the fabric can be measured at the instant of contact, namely, the Qmax value is represented by the instant cool feeling heat flow (W/cm < 2 >) of the fabric, the Q-max value is the maximum value of the instant heat loss of the skin when a human body is simulated to contact the fabric, and is the maximum heat flow which can be taken away instantly by the unit area of the fabric, the larger the Q-max value represents the more heat which can be taken away, and the test result is as follows:

The results show that the series of products have excellent contact cold effect (standard requirement (W/cm ²) > 0.14), the fabric has obvious instant cold feeling, and the comfortable experience can be brought to the wearer in hot summer.

Further, referring to fig. 4, the sensing element 20 is circumferentially provided with a plurality of indication portions 21, and the color of the indication portions 21 gradually becomes deeper in all indication portions 21. Therefore, by comparing with the peripheral indication part 21, which ultraviolet intensity corresponds to the color displayed on the sensing piece 20 is judged, so that the user can more intuitively judge, and the accuracy of the user on the judgment of the ultraviolet intensity is improved.

In one embodiment, sensing element 20 is an ultraviolet intensity test decal.

It should be explained that the ultraviolet intensity test decal: the ultraviolet intensity test sticker is printed by color-changing ink made of special photochromic substances, the substances are usually milky white, when the ink is irradiated by ultraviolet rays, the ink absorbs ultraviolet energy, and closed rings in conjugated double bond molecules in ink molecules are broken, so that the performance of the ink for reflecting visible light is changed, the ink is purple, the deeper the purple is the stronger the ultraviolet intensity is, and when the ink is placed in a shade place, the closed rings broken by the conjugated double bond molecules are closed again, and the purple is faded. The wearer can conveniently judge the current ultraviolet intensity according to the change of the ultraviolet intensity test sticker and the ultraviolet intensity indication mark, and can take protective measures in time.

In order to facilitate the description of the effectiveness of the ultraviolet intensity test sticker, ultraviolet lamps with different powers can be used for simulating solar ultraviolet rays to test the sun-proof clothing, and the test method comprises the following steps: after the ultraviolet lamp is started for 5min, the sun-proof clothes are placed at the position with the vertical distance of 1m below the ultraviolet lamp, the front face faces upwards, the irradiation is carried out for 1min, after the ultraviolet irradiation, the photosensitive color blocks in the ultraviolet intensity test sticker are changed from milky white to light purple with different degrees, the colors of the indication card color blocks are observed, and the color of the indication card color blocks are compared with the standard color blocks, so that the irradiation intensity is read.

From the results, the developed ultraviolet intensity test decal on the heat-shielding sun-protection suit 100 can accurately judge the intensity of ultraviolet rays, and prompt the wearer to protect against sunburn in time.

In one embodiment, referring to fig. 3, the sun protection suit body 10 is provided with an openable cover 22, and the cover 22 has a transparent structure. When the cover 22 is closed on the sun-proof clothes body 10, a containing cavity is formed between the cover 22 and the sun-proof clothes body, and the sensing piece 20 is located in the containing cavity. Thus, the cover 22 is designed to be transparent, such as: polyvinyl chloride (Polyvinyl chloride abbreviated as PVC) film, etc., is convenient for ultraviolet rays to directly penetrate and irradiate on the sensing piece 20, and reduces the display error of the sensing piece 20. Meanwhile, the cover 22 is designed to be openable on the sun-proof clothes body 10, so that the sensing piece 20 can be replaced conveniently by opening the cover 22.

Alternatively, the cover 22 may be mounted to the body 10 in a zipper connection, velcro adhesive, snap-fit, or the like.

In one embodiment, referring to fig. 1 and 5, the sun protection suit body 10 includes a front sheet 15, a rear sheet 16 and a ventilation layer 17, and the ventilation layer 17 is connected between the front sheet 15 and the rear sheet 16 at the armpit. In this way, the ventilation layer 17 is provided between the front sheet 15 and the rear sheet 16, and ventilation comfort of the sun-proof suit is further improved by the ventilation layer 17.

It should be noted that, in order to facilitate the description of the air permeability of the present heat-shielding sun-protection suit 100, the anti-penetration index of the heat-shielding sun-protection suit 100 may be subjected to a comparative test, and the following results are obtained with reference to JIS L1923-2017 "method for measuring penetration resistance of textiles:

anti-penetration index	A	B
			Drying	91.0	88.6
Wetting	87.0	74.7

Wherein, test the surface fabric composition: a is the sample of the application, and B is the comparative sample (95% cotton+5% spandex composition). The result shows that the developed heat-shielding sun-screening garment 100 has good anti-penetration effect, is far better than pure cotton products, and plays an effective protective role.

Further, the sun protection suit body 10 further includes a cover sheet 18, the front sheet 15 and the rear sheet 16 are provided with first adhesive portions 171, the two first adhesive portions 171 are located on opposite sides of the ventilation layer 17, and the cover sheet 18 is connected at a junction between the rear sheet 16 and the ventilation layer 17. The cover sheet 18 is provided with a second adhesive portion 182 which mates with the first adhesive portion 171 and serves to cover the air-permeable layer 17. Accordingly, the first adhesive portions 171 are provided on both sides of the ventilation layer 17, and at this time, the user can adhere the second adhesive portion 182 on the cover sheet 18 to one of the two first adhesive portions 171 to realize ventilation or ultraviolet protection of the underarm portion. Of course, when the second adhesive part 182 is adhered to the first adhesive part 171 on the rear sheet 16, the air-permeable layer 17 may be directly exposed to the outside air; at the same time, the cover sheet 18 may also be well secured to the back sheet 16.

One of the first adhesive portion 171 and the second adhesive portion 182 may be a rough surface of a velcro, and the other may be a thorn surface of the velcro.

Further, referring to fig. 6, the cover 18 includes a protective layer 181 and an absorbent layer 183, and the absorbent layer 183 is disposed on a side of the protective layer 181 facing the air permeable layer 17. As can be seen from this, when the second adhesive part 182 is adhered to the first adhesive part 171 of the front sheet 15, the moisture absorbing layer 183 is adhered to the air permeable layer 17, and the protective layer 181 is positioned outside, and at this time, the moisture absorbing layer 183 can absorb sweat penetrating the air permeable layer 17; the protective layer 181 may reduce uv exposure to the skin. Thus, the ultraviolet protection is realized, and the skin is kept dry and cool.

It should be noted that, the protective layer 181 may be made of a heat-shielding and sun-shielding viscose fiber material, and the moisture-absorbing layer 183 may be made of cotton material. Meanwhile, the breathable layer 17 may be

In one embodiment, please refer to fig. 7, the sun protection suit further comprises a cap 30 connected to the top of the sun protection suit body 10, a cap peak 31 arranged on the cap 30, and goggles 32 rotatably arranged on the inner side of the cap peak 31. In this way, the hat brim 31 is arranged on the hat 30, so that the hat can protect the face and reduce the damage of ultraviolet rays to the face; meanwhile, the goggles 32 are rotatably arranged in the hat brim 31, and the goggles 32 are rotated to protect the eyes from being damaged by strong ultraviolet rays. Wherein the goggles 32 may be sunglasses.

It should be explained that, the collar 14 between the sun protection suit body 10 and the cap 30 can be designed to be ultra-high collar, and the zipper can be pulled to the root according to the use environment so as to tighten the collar 14, thereby protecting the face of the wearer from sun irradiation; the top end of the zipper is designed with a triangle for preventing meat from falling.

In addition, the cuffs 13 of the sun-proof clothes body 10 are designed to be lengthened to cover the horseshoe cuffs 13 of the whole palm, so that the sun-proof clothes can be used as one-piece gloves for protecting hands from ultraviolet sunburn, and the cuffs 13 can be turned upwards to be used as common cuffs 13.

Further, referring to fig. 8, the back of the cap 30 has an opening 33 for hair to pass through, and sealing sheets 34 are respectively connected to both sides of the opening 33, and the two sealing sheets 34 are detachably connected. Thus, through the opening 33, hair is facilitated to pass through, and discomfort caused by hair being wrapped inside the cap 30 is avoided.

Alternatively, a zipper, velcro adhesive, or the like may be employed between the two sealing sheets 34.

It should be understood that the above description is not intended to limit the utility model to the particular embodiments disclosed, but to limit the utility model to the particular embodiments disclosed, and that the utility model is not limited to the particular embodiments disclosed, but is intended to cover modifications, adaptations, additions and alternatives falling within the spirit and scope of the utility model.

Claims (9)

1. A thermal protection sun-protective garment for monitoring ultraviolet intensity, comprising:

The sun-proof suit body (10) comprises an anti-ultraviolet layer (11) and an inner adhesive layer (12), wherein the anti-ultraviolet layer (11) is arranged on the inner adhesive layer (12) and used for blocking ultraviolet rays, the moisture absorption rate of the anti-ultraviolet layer (11) is higher than that of the inner adhesive layer (12), and the inner adhesive layer (12) is used for being in contact with the skin of a user;

The sensing piece (20) is arranged on the surface of the sun-proof clothes body (10) and used for indicating and marking the ultraviolet intensity through the change of color so as to judge the current ultraviolet intensity.

2. The heat-shielding sun-protection suit capable of monitoring ultraviolet intensity according to claim 1, wherein the sensing member (20) is circumferentially provided with a plurality of indication portions (21), and the color of the indication portions (21) is gradually changed in sequence in all the indication portions (21).

3. A heat-shielding sun-protection garment according to claim 2, characterized in that said sensing element (20) is an ultraviolet intensity test sticker.

4. The heat-shielding sun-shielding clothes capable of monitoring ultraviolet intensity according to claim 1, wherein an openable cover body (22) is arranged on the sun-shielding clothes body (10), the cover body (22) is of a transparent structure, when the cover body (22) is combined on the sun-shielding clothes body (10), a containing cavity is formed between the cover body (22) and the sun-shielding clothes body (10), and the sensing piece (20) is located in the containing cavity.

5. A heat-shielding sun-protection garment according to any of claims 1-4, characterized in that the sun-protection garment body (10) comprises a front piece (15), a back piece (16) and a ventilation layer (17), wherein a ventilation layer (17) is connected between the front piece (15) and the back piece (16) at the underarm location.

6. The heat-shielding sun-shielding garment capable of monitoring ultraviolet intensity according to claim 5, wherein the sun-shielding garment body (10) further comprises a cover sheet (18), the front sheet (15) and the rear sheet (16) are respectively provided with a first bonding part (171), the two first bonding parts (171) are positioned on two opposite sides of the ventilation layer (17), the cover sheet (18) is connected at the junction between the rear sheet (16) and the ventilation layer (17), and the cover sheet (18) is provided with a second bonding part (182) matched with the first bonding parts (171) and is used for covering the ventilation layer (17).

7. The heat-shielding sun-protection suit for monitoring ultraviolet intensity according to claim 6, wherein the cover sheet (18) comprises a protective layer (181) and a moisture-absorbing layer (183), and the moisture-absorbing layer (183) is arranged on a side surface of the protective layer (181) facing the ventilation layer (17).

8. A heat-shielding sun-protection suit capable of monitoring ultraviolet intensity according to any one of claims 1-4, further comprising a cap (30) connected to the top of the sun-protection suit body (10), a cap peak (31) provided on the cap (30), and goggles (32) provided on the inner side of the cap peak (31) in a rotating manner.

9. A heat-shielding sun-protection suit capable of monitoring ultraviolet intensity according to claim 8, characterized in that the back of the cap (30) is provided with an opening (33) for hair to pass through, two sides of the opening (33) are respectively connected with sealing sheets (34), and two sealing sheets (34) are detachably connected.