阅读说明：本技术 一种填充式柔软透气雨衣 (Filling type soft breathable raincoat ) 是由 欧阳林博 欧阳娟 于 2020-12-02 设计创作，主要内容包括：本发明提供了一种填充式柔软透气雨衣,通过利用上下异型气囊的错位性,在气囊充气后,通过上下异型的形状契合,形成了透气通道,在对使用者进行保护的同时又增加了雨衣的透气性,同时可以根据不同行为状态下对雨鞋的不同状态对雨衣帽处的透气气囊有着不同的调节作用,以应对不同状态下的不同需求。此外,通过利用对环境友好的柔软透气材料制成的雨衣材料环保,机械性能优异,柔软透气,不仅解决了传统雨衣面料偏硬的缺陷,而且穿戴舒适透气,有效的阻隔大分子雨水的渗入,同时还可使雨衣与人体之间的小分子气体以及水气通过透气材料分散出去,不再有闷热感。(The invention provides a filling type soft breathable raincoat, which forms a breathable channel by matching the upper and lower special-shaped shapes after the air bags are inflated by utilizing the malposition of the upper and lower special-shaped air bags, protects a user and simultaneously increases the breathability of the raincoat, and can have different adjusting functions on the breathable air bags at the position of a raincoat cap according to different states of rainshoes under different behavior states so as to meet different requirements under different states. In addition, the raincoat material made of the environment-friendly soft breathable material is environment-friendly, excellent in mechanical performance, soft and breathable, not only overcomes the defect that the traditional raincoat fabric is hard, but also is comfortable and breathable to wear, effectively prevents macromolecule rainwater from permeating, and simultaneously enables micromolecular gas and water vapor between the raincoat and a human body to be dispersed out through the breathable material without muggy feeling.)

1. A filling type soft breathable raincoat comprises a raincoat main body, wherein a waterproof breathable layer is arranged on the outer surface of the raincoat main body; the raincoat main part includes raincoat hat (1), raincoat jacket (2), raincoat trousers (3) and rain boots (4), its characterized in that: the raincoat cap is provided with two rain coat layers, namely an inner rain coat layer (102) and an outer rain coat layer (101), a plurality of groups of air bag buffering and ventilating structures (103) are arranged between the inner rain coat layer (102) and the outer rain coat layer (101) on the raincoat cap (1), the raincoat cap (1) is fixed on a raincoat upper garment (2), the upper end of raincoat trousers (3) is tightened by an elastic band, the lower end of the raincoat trousers (3) is connected with a pair of rain shoes (4), and the rain shoes (4) are fixedly connected with the raincoat trousers (3) in a zipper mode in an annular mode.

2. The filled soft breathable raincoat of claim 1, wherein: four groups of front, back, left and right airbag buffer breathable structures (103) are arranged between an upper inner rain coat layer (102) and an outer rain coat layer (101) of the raincoat cap (1), the airbag buffer breathable structures (103) comprise an upper airbag (1031), a lower airbag (1032) and a one-way air pressure controller (104), wherein the upper airbag (1031) and the lower airbag (1032) are positioned between the inner rain coat layer (102) and the outer rain coat layer (101), the one-way air pressure controller (104) is fixed at the rear side of the raincoat cap (1) between the inner rain coat layer (102) and the outer rain coat layer (101) and is connected with the upper airbag (1031) and the lower airbag (1032), the left side and the right side of the raincoat cap are respectively provided with air nozzles (5), the upper airbag (1031) comprises a plurality of special-shaped airbag I (1033), the special-shaped airbag I (1033), and every two of the special-shaped airbag I are communicated through a plurality of groups of upper rain cap air nozzles (105 b), wherein one side of an upper layer airbag (1031) of the left and right airbag buffering and ventilating structure (103) is communicated with an air nozzle (5) of the outer raincoat (101) through a rain hat air pipe (105), the other side of the upper layer airbag is connected with an upper layer airbag (1031) of the front and rear airbag buffering and ventilating structure (103) through the rain hat air pipe (105), the lower layer airbag (1032) contains a plurality of second special-shaped airbags (1034), the first special-shaped airbags (1034) are communicated with each other through a plurality of groups of rain hat air pipes (105 a), one side of a lower layer airbag (1032) of the left and right airbag buffering and ventilating structure (103) is communicated with the air nozzle of the outer raincoat through the rain hat air pipe (105), the other side of the lower layer airbag (1032) of the front and rear airbag buffering and ventilating structure (103) is connected through the rain hat air pipe (105), and waterproof cloth is arranged between the first special-shaped airbag (1033) and the second special-shaped airbag (, the raincoat is characterized in that the upper layer air bag (1031) and the lower layer air bag (1032) are fixedly connected between the outer layer raincoat (101) and the inner layer raincoat (102), waterproof cloth between the upper layer air bag (1031) and the lower layer air bag (1032) forms a ventilation channel (1035) which is uniformly distributed, the ventilation channel (1035) is communicated with an external space of the outer layer raincoat (101) and an internal space of the inner layer raincoat (102) in a wrapping mode, a plurality of vent holes (1036) are uniformly distributed on the ventilation channel (1035) on the inner layer raincoat (102), each ventilation channel (1035) on the outer layer raincoat only comprises one vent hole (1037), the vent holes (1037) are located at two sides and the rear end of the raincoat cap (1), and three groups of air bag buffer ventilation structures (103) on the left side, the right side and the rear side are respectively provided with one-way air pressure controllers (104) near one end of the back.

3. The filled soft breathable raincoat of claim 1, wherein: the shape of the length direction of the airbag buffer breathable structure upper layer airbag (1031) and the lower layer airbag (1032) is determined according to the position shape of the raincoat cap (1), structural protrusions (1038) are uniformly distributed on one side, close to the special-shaped airbag II (1034), of the special-shaped airbag I (1033), structural grooves (1039) are uniformly distributed on one side, close to the special-shaped airbag I (1033), of the special-shaped airbag II (1034), the one-way air pressure controller (104) comprises a shell (1041), a knob (1042), a partition plate (1043), a first closing sheet (1044), a second closing sheet (1045) and a first spring (1046), wherein the shell (1041) is divided into an upper air cavity (1047) and a lower air cavity (1048) through the partition plate (1043), an opening is formed in the upper end of the shell (1041), threads are arranged on the opening, the knob (1042) is connected with the shell (1041) through the threads, and the threaded end of the knob (1042) is in contact with the second closing, the second sealing sheet (1045) is attached to the inside of the shell (1041) under the action of a first spring (1046), a first sealing sheet (1044) is arranged at one end, close to the upper air cavity (1047), of the partition plate (1043), the first sealing sheet (1044) is attached to the partition plate (1043) under the action of the first spring (1046), the first spring (1046) is fixed to the first sealing sheet (1044), the lower air bag (1031) is communicated with the lower air cavity (1048) of the one-way air pressure controller (104) through a left air pipe (1049), the upper air bag (1032) is communicated with the lower air cavity (1048) of the one-way air pressure controller through a right air pipe (1050), and the upper air cavity (1047) of the one-way air pressure controller (104) is connected with the air ventilation passage (1035) of the air bag buffering air ventilation structure (103) through an upper air pipe (1051).

4. The filled soft breathable raincoat of claim 1, wherein: the rain shoes (3) are provided with exercise work-doing conversion structures (6), and the raincoat jacket (1) and the raincoat trousers (3) are both fixedly provided with raincoat jacket air pipes (7) and raincoat trousers air pipes (8).

5. The filled soft breathable raincoat of claim 4, wherein: the rain boot movement work doing conversion structure (6) comprises a rain boot main body (601), a shoe cushion layer (602), an inflatable layer (603), a wear-resistant layer (604) and a one-way air inlet and outlet structure (605), wherein a plurality of square air bags (606) and a plurality of groups of springs (607) are arranged between the shoe cushion layer (602) and the wear-resistant layer (604), the square air bags (606) are mutually connected in a ventilating way, the outlet of each square air bag (606) is connected to the one-way air inlet and outlet structure (605) through an air pipe, the one-way air inlet and outlet structure (605) is provided with two groups of air one-way valves, an air inlet valve (6052) is communicated with the outside of the raincoat, an outlet valve (6051) is connected with one end, close to trouser legs, of a raincoat trouser air pipe (8), the other end of the raincoat trouser air pipe (8) is connected with an air pipe (, wherein, one end of the air tap (5) is provided with a gas single-phase valve (701).

6. The filled soft breathable raincoat of claim 1, wherein: the raincoat main body is made of materials and the preparation method is that the raw materials comprise 80-100 parts of soft main body materials, 3-8 parts of plasticizer, 2-4 parts of softening agent and 1-3 parts of stabilizer by weight; the soft main material and the plasticizer are put into a reaction tank, heated to 115 ℃ at the heating rate of 4-6 ℃/min, mixed and stirred for 20-30min, the softener and the stabilizer are added in sequence every 6-10min, the temperature is raised to 190 ℃ at the heating rate of 170 ℃, mixed for 30min, naturally cooled to 65-80 ℃, transferred to a screw machine for extrusion granulation, and then injection molding is carried out.

7. The filled soft breathable raincoat of claim 6, wherein: the soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 30-40 parts of natural rubber, 30-40 parts of polybutylene succinate and 10-15 parts of aliphatic polycarbonate into a reaction tank, heating to 95-115 ℃ at the heating rate of 5-7 ℃/min, mixing and stirring for 25-30min, then slowly adding 1-2 parts of tributyl citrate, heating to 175-.

8. The filled soft breathable raincoat of claim 6, wherein: the plasticizer is prepared from the following components in percentage by mass of 1:1 trioctyl citrate, tributyl acetyl citrate; the softening agent is 1: 1:1, film: soft essential oil: a compounded mixture of silicone oils; the stabilizer is a rare earth stabilizer.

9. The filled soft breathable raincoat of claim 1, wherein: the waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise, by weight, 10-15 parts of inorganic filler, 15-25 parts of polyimide, 25-30 parts of breathable functional material, 2-4 parts of tributyl citrate, 0.5-1.5 parts of stearic acid, 1-4 parts of epoxidized soybean oil and 1.5-2.5 parts of ester-based quaternary ammonium salt; fully mixing and heating inorganic filler, polyimide and air-permeable functional materials to 92-102 ℃, performing ball milling for 30-50min, then sequentially adding tributyl citrate, stearic acid, epoxidized soybean oil and esterquat every 6-8min, stirring at the rotating speed of 500 plus 600rpm for 60 mm, filtering by using a filter screen with 400 meshes to retain filtrate, heating to 160 plus 180 ℃, keeping the constant temperature for 55-65min, naturally cooling to 75-85 ℃, transferring to a screw machine for extrusion granulation, micronizing to be within 100 mu m, and performing fibrous disinfection; wherein the inorganic filler is prepared from the following components in a mass ratio of 1: 3: 2 the mixture of lignin, montmorillonite and calcium sulfate crystal whisker, the particle size of which is within 30 um.

10. The filled soft breathable raincoat of claim 9, wherein: the material and the preparation method of the breathable functional material comprise the following steps that the raw materials comprise 7-15 parts of fractured porous medium and 6-12 parts of natural plant powder in parts by weight, the fractured porous medium is subjected to ball milling for 30min, then the ball milled porous medium is placed into a high-temperature calcining furnace with the temperature of 1000-1200 ℃ for calcining for 60-120min, the ball milled porous medium is cooled to 70-80 ℃ at the cooling rate of 10-15 ℃/min, the natural plant powder is added, the ball milled porous medium is heated to 165 ℃ at the heating rate of 10-15 ℃/min, the temperature is kept for 2-3h, the ball milled porous medium is naturally cooled to room temperature, and the ball milled porous medium is ground; wherein the mass ratio of the fractured porous medium is 1: 1:1 mixture of expanded vermiculite, marl, basalt; the natural plant powder is extracted from one or more of corn straw, reed straw and wheat straw.

Technical Field

The invention belongs to the technical field of raincoats, and particularly relates to a filling type soft breathable raincoat.

Background

The raincoat refers to a rain-shielding garment made of waterproof cloth. The waterproof cloth suitable for the raincoat comprises an adhesive tape, a tarpaulin, a plastic film and the like. Modern waterproof cloth of raincoat pays more and more attention to novel style, outward appearance, but has ignored the most important problem, raincoat travelling comfort and security, rainy day is slippery, very easily falls down, and traditional raincoat does not have any safeguard measure, and in addition, traditional raincoat is not ventilative the type raincoat of ventilating has appeared on the market at present for the quilt, nevertheless discovery when using, this type of raincoat often pays more attention to ventilative and soft travelling comfort always is bad minds. The raincoat is easy to generate hard feeling and stuffy feeling when being worn for a long time, is easy to disperse the attention of a wearer, and brings potential safety hazards to riding and walking.

In order to solve the problems, the invention provides the filling type soft breathable raincoat, the raincoat material made of the environment-friendly soft breathable material is environment-friendly, excellent in mechanical property, soft and breathable, the defect that the traditional raincoat fabric is hard is overcome, the raincoat is comfortable and breathable to wear, macromolecule rainwater can be effectively prevented from permeating, meanwhile, micromolecular gas and water gas between the raincoat and a human body can be dispersed out through the breathable material, and stuffy feeling is avoided. Through experiments, the method is popular with users.

Disclosure of Invention

The invention aims to: provides a filling type soft breathable raincoat to solve the problems in the background technology.

The invention is realized by the following technical scheme: a filling type soft breathable raincoat comprises a raincoat main body, wherein a waterproof breathable layer is arranged on the outer surface of the raincoat main body; the raincoat main body is divided into a raincoat cap, a raincoat coat, raincoat trousers and rain shoes, and a waterproof breathable layer is arranged on the raincoat main body; wherein: the raincoat cap is provided with a double-layer raincoat layer, an inner raincoat layer and an outer raincoat layer, a plurality of groups of air bag buffering and ventilating structures are arranged between the inner raincoat layer and the outer raincoat layer on the raincoat cap, the raincoat cap is fixed on the raincoat coat, the upper end of the raincoat trousers is tightened by elastic bands, the lower end of the raincoat trousers is connected with rain shoes, and the rain shoes and the raincoat trousers are fixedly connected in a zipper mode of annular.

Preferably, four groups of air bag buffering and ventilating structures are arranged between the inner raincoat layer and the outer raincoat layer on the raincoat cap, each air bag buffering and ventilating structure comprises an upper air bag, a lower air bag and a one-way air pressure controller, the upper air bag and the lower air bag are located between the inner raincoat layer and the outer raincoat layer, the one-way air pressure controller is fixed at the rear side of the raincoat cap, between the inner raincoat layer and the outer raincoat layer and connected with the upper air bag and the lower air bag, the left side and the right side of the raincoat cap are respectively provided with an air nozzle, the upper air bag contains a plurality of first special-shaped air bags, every two air bags are communicated through a plurality of groups of rain cap air pipes, one side of the upper air bag of the left air bag buffering and the right air bag buffering and ventilating structure is communicated with the air nozzle of the outer raincoat layer through a rain cap air pipe, the other side of the left air bag buffering and the right air bag buffering and ventilating, the lower layer air bag contains a plurality of special-shaped air bags II, the special-shaped air bags I are communicated with each other through a plurality of groups of rain hat air pipes, one side of the lower layer air bag of a left air bag buffering and ventilating structure and one side of the lower layer air bag of a right air bag buffering and ventilating structure are communicated with an air tap of the outer raincoat through the rain hat air pipes, the other side of the lower layer air bag of the left air bag buffering and the right air bag buffering and ventilating structure is connected with the lower layer air bag of a front air bag buffering and a rear air bag buffering and ventilating structure through the rain hat air pipes, waterproof cloth is arranged between the special-shaped air bags I and the special-shaped air bags II, the upper layer air bag and the lower layer air bag are fixedly connected between the outer raincoat and the inner raincoat, the waterproof cloth between the upper layer air bag and the lower layer air bag, each ventilation channel on the outer raincoat only comprises one ventilation hole, the ventilation holes are positioned at the two sides and the rear end of the raincoat cap, and one-way air pressure controllers are respectively arranged at one ends, close to the back, of the three groups of air bag buffering and ventilating structures at the left side, the right side and the rear side.

Preferably, the length direction shapes of the upper layer airbag and the lower layer airbag of the airbag buffering and ventilating structure are determined according to the position shape of the raincoat cap, structural protrusions are uniformly distributed on one side, close to the special-shaped airbag II, of the special-shaped airbag II, structural grooves are uniformly distributed on one side, close to the special-shaped airbag I, of the special-shaped airbag II, the one-way air pressure controller comprises a shell, a knob, a partition plate, a first sealing sheet, a second sealing sheet and a first spring, the shell is divided into an upper air cavity and a lower air cavity through the partition plate, an opening is formed in the upper end of the shell and provided with threads, the knob is connected with the shell through the threads, the threaded end of the knob is in contact with the second sealing sheet, the second sealing sheet is attached to the inside of the shell under the action of the first spring, a first sealing sheet is arranged at one end, close to the upper air cavity, of, the first spring is fixed on the first sealing piece, the lower air bag is communicated with the lower air cavity of the one-way air pressure controller through the left air pipe, the upper air bag is communicated with the lower air cavity of the one-way air pressure controller through the right air pipe, and the upper air cavity of the one-way air pressure controller is connected with the air-permeable channel of the air bag buffering air-permeable structure through the upper air pipe.

Preferably, the rain shoes are provided with a motion work doing conversion structure, and the raincoat jacket and the raincoat trousers are respectively fixedly provided with a raincoat jacket air pipe and a raincoat trousers air pipe

Preferably, rain shoes motion work conversion structure includes rain shoes main part, shoe cushion layer, aerifys layer, wearing layer, the one-way structure of giving vent to anger of admitting air, wherein installs a plurality of square airbags and multiunit spring two in the middle of shoe cushion layer and the wearing layer, and the connection of ventilating each other between the square airbags, square airbag export is connected to the one-way structure of giving vent to anger of admitting air through the trachea, one-way business turn over gas structure is provided with two sets of gaseous check valves, and wherein admission valve and raincoat outside intercommunication, outlet valve and raincoat trousers trachea are close to trouser legs one end and link to each other, raincoat trousers trachea other end links to each other with raincoat jacket lower extreme trachea, raincoat jacket trachea upper end links to each other with the air cock of raincoat hat department, wherein is.

The working principle of the raincoat is as follows:

when the air bag buffering and ventilating structure 103 of the raincoat is not inflated through the air tap 5, the upper air bag 1031 and the lower air bag 1032 are both in a compressed state, the abnormal parts of the upper air bag 1031 and the lower air bag 1032 have no influence on the upper air bag 1031 and the lower air bag 1302 due to non-inflation, and the upper air bag 1031 and the lower air bag 1032 are fixed in a staggered manner when being fixed on the outer raincoat 101 and the inner raincoat 102, so that the waterproof cloth connected with the upper air bag 1031 and the lower air bag 1032 has a staggered force, so that the waterproof cloth is pulled and deformed to seal the air passage 1035 formed by the waterproof cloth, and at the moment, the raincoat has no air ventilation effect, and the air passage 1035 is sealed to prevent rainwater from entering the air passage 1035 when the raincoat is taken at will, and the raincoat is convenient to store due to the fact that no air exists inside the raincoat.

Before wearing the raincoat jacket 2, the raincoat trousers 3 and the rain shoes 4, the four groups of air bags in the air bag buffering and ventilating structure 103 are pre-inflated through the left or right air nozzles 5, after the air bags reach a certain degree, the air nozzles are closed, meanwhile, the rain shoe air outlet valve 6051 is hermetically connected with the bottom ends of the raincoat trousers air pipes 8, and the air pipes 8 at the upper ends of the raincoat trousers are hermetically connected with the air pipes 7 at the bottom ends of the raincoat jacket.

After the raincoat airbag buffer breathable structure 103 is inflated through the air tap, the four airbag buffer breathable structures 103 are connected with each other through the rain hat air pipe 105, the upper airbag 1031 and the lower airbag 1032 are in an inflated state, the special-shaped parts of the upper airbag 1031 and the lower airbag 1032 are interacted at the moment, the upper special-shaped part and the lower special-shaped part are matched under the interaction, so that the upper airbag 1031 and the lower airbag 1032 move in opposite directions, the waterproof cloth connecting the upper airbag 1031 and the lower airbag 1032 forms a breathable channel 1035 through front-back staggered deformation, one end of the breathable channel 1035 is connected to the outer end of the outer raincoat 101, each breathable channel 1035 only comprises one outer layer breathable hole 1037, a plurality of inner layer breathable holes 1036 connected to the inner raincoat are uniformly distributed in each breathable channel 1035, and the outer layer breathable holes 1037 are positioned at the bottommost part through the shape design of the raincoat breathable channels 1035 on the raincoat hat, the rainwater is prevented from entering from the ventilating channel 1035, and the protection effect on the head when the rain road slips and falls is improved to a great extent through the arrangement of the double-layer air bag.

In the left, right and rear three groups of airbag buffer ventilation structures 103, a one-way air pressure controller 104 is arranged at the outer layer vent 1037 of one ventilation channel in each group, wherein the left and right ends of a lower air cavity 1048 of the air pressure controller are respectively connected with an upper air bag 1031 and a lower air bag 1032 through air pipes, the upper air cavity 1048 is connected with the outer layer vent 1037 through an upper air pipe 1051, the one-way air pressure controller 104 enables a second sealing sheet 1045 to tightly press or loosen a first spring 1046 through rotating a knob 1042, the size of air pressure required by the communication between the upper air cavity 1048 and the lower air cavity 1047 is controlled, so that the size of the air pressure inside the upper air bag 1031 and the lower air bag 1032 is controlled, when the internal air pressure is larger than the pressure born by the first spring 1046, the first sealing sheet 1044 compresses the first spring 1046 through the extrusion of the first sealing sheet, a gap between the upper air cavity 1048 and the lower air cavity 1047 is opened, and the air enters the upper air cavity 1047 through the lower air cavity 1044, meanwhile, the gas in the upper gas chamber 1047 enters the ventilating passage 1035 through the upper gas pipe 1051 and further enters the interior of the raincoat cap 1 through the inner layer ventilating holes 1036, so that the aim of accelerating ventilation is fulfilled.

The bottom of the rain boot is provided with a shoe cushion layer 602, an inflation layer 603 and a wear-resistant layer 604, when force is applied to the sole by feet, through the squeezing action of the square air bag 606, gas in the square air bag 606 enters the one-way air inlet and outlet structure 605 through an air pipe, wherein the gas enters the upper air bag 1031 and the lower air bag 1302 of the raincoat cap 1 through the air outlet valve 6051 through the raincoat trouser air pipe 7 and the raincoat jacket air pipe 8, the inflation is carried out on the upper air bag 1031 and the lower air bag 1302, after the force is applied to the feet, the feet are lifted up, the second spring 607 structure of the inflation layer enables the inflation layer 603 to be expanded, at the moment, the gas enters the square air bag 606 from the 6052 position of the one-way air. The inflatable layer is arranged at the bottom of the rain boot, so that the square air bag 606 can generate a buffering effect on the foot when the rain boot is worn, and the comfort level of the rain boot is improved.

According to the invention, through adjusting the knob 1042 in the one-way air pressure controller 104, the maximum closing air pressure borne by the spring 1046 is smaller than the maximum air pressure when the maximum inflation amount of the upper air bag 1031 and the lower air bag 1032 of the air bag buffering and ventilating structure is larger than the maximum inflation amount of the upper air bag 1031 and the lower air bag 1032.

When the raincoat is worn, after the air tap 5 is inflated, and the raincoat is still standing, the air pressure in the upper layer air bag 1031 and the lower layer air bag 1032 is the air pressure regulated in the one-way air pressure controller 104, at the moment, the air passage 1035 formed by the upper layer air bag 1031 and the lower layer air bag 1032 is in a half-open state, at the moment, because the air pressure in the air bag buffering and ventilating structure 103 and the air pressure in the one-way air pressure controller 104 are kept consistent, at the moment, the air passage 1035 only achieves the ventilating effect through normal air circulation.

When walking is started, a human body works on the rain shoes, so that left and right feet respectively and uninterruptedly inflate the air bag buffering and ventilating structure 103 through air pipes, at the same time, the volume of inflation gas in the upper air bag 1031 and the lower air bag 1032 by the rain shoe 4 in unit time is larger than the volume of gas exhausted in the one-way air pressure controller in unit time, at the same time, the upper air bag 1031 and the lower air bag 1032 continue to be expanded in a staggered manner, meanwhile, the area of the ventilating channel 1035 is increased due to the staggered manner of the first special-shaped air bag 1033 and the second special-shaped air bag 1034, at the same time, the first spring 1046 in the one-way air pressure controller 104 is compressed due to the increase of air pressure in the air bag buffering and ventilating structure 103, so that gas exhausted from the one-way air pressure controller 104 in unit time is increased, the exhausted gas enters the ventilating channel 1035 through the upper air pipe 1051, the ventilating effect is enhanced, when, the greater the air pressure in the air bag cushion vent structure 103 per unit time, eventually causes the upper and lower air bags 1031, 1032 to expand to a maximum configuration, whereby the area of the vent passage 1035 is also maximized, the pressure on the spring I1046 in the one-way pneumatic controller is also maximized, at this time, the gas reaching the upper air cavity 1047 through the lower air cavity 1048 in unit time is also maximized, at this time, the gas enters the ventilation passage 1035 through the upper air pipe 1051 in unit time is also maximized, plays a maximum role in ventilating and cooling the inner part of the raincoat, and under the general condition, when the pace frequency is faster and the pressure of the sole is higher, the human body is generally in a motion state, the body temperature of a person can be rapidly raised due to the air impermeability of the raincoat, and the air permeability of the raincoat can be automatically adjusted along with the intensity of motion, so that the raincoat can meet different requirements in different states.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 80-100 parts of soft main body materials, 3-8 parts of plasticizer, 2-4 parts of softening agent and 1-3 parts of stabilizer by weight; the soft main material and the plasticizer are put into a reaction tank, heated to 115 ℃ at the heating rate of 4-6 ℃/min, mixed and stirred for 20-30min, the softener and the stabilizer are added in sequence every 6-10min, the temperature is raised to 190 ℃ at the heating rate of 170 ℃, mixed for 30min, naturally cooled to 65-80 ℃, transferred to a screw machine for extrusion granulation, and then injection molding is carried out.

The soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 30-40 parts of natural rubber, 30-40 parts of polybutylene succinate and 10-15 parts of aliphatic polycarbonate into a reaction tank, heating to 95-115 ℃ at the heating rate of 5-7 ℃/min, mixing and stirring for 25-30min, then slowly adding 1-2 parts of tributyl citrate, heating to 175-.

The plasticizer is prepared from the following components in percentage by mass of 1:1 trioctyl citrate, tributyl acetyl citrate; the softening agent is 1: 1:1, film: soft essential oil: a compounded mixture of silicone oils; the stabilizer is a rare earth stabilizer.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise, by weight, 10-15 parts of inorganic filler, 15-25 parts of polyimide, 25-30 parts of breathable functional material, 2-4 parts of tributyl citrate, 0.5-1.5 parts of stearic acid, 1-4 parts of epoxidized soybean oil and 1.5-2.5 parts of ester-based quaternary ammonium salt; fully mixing and heating inorganic filler, polyimide and air-permeable functional materials to 92-102 ℃, performing ball milling for 30-50min, then sequentially adding tributyl citrate, stearic acid, epoxidized soybean oil and esterquat every 6-8min, stirring at the rotating speed of 500 plus 600rpm for 60 mm, filtering by using a filter screen with 400 meshes to retain filtrate, heating to 160 plus 180 ℃, keeping the constant temperature for 55-65min, naturally cooling to 75-85 ℃, transferring to a screw machine for extrusion granulation, micronizing to be within 100 mu m, and performing fibrous disinfection; wherein the inorganic filler is prepared from the following components in a mass ratio of 1: 3: 2 the mixture of lignin, montmorillonite and calcium sulfate crystal whisker, the particle size of which is within 30 um.

The material and the preparation method of the breathable functional material comprise the following steps that the raw materials comprise 7-15 parts of fractured porous medium and 6-12 parts of natural plant powder in parts by weight, the fractured porous medium is subjected to ball milling for 30min, then the ball milled porous medium is placed into a high-temperature calcining furnace with the temperature of 1000-1200 ℃ for calcining for 60-120min, the ball milled porous medium is cooled to 70-80 ℃ at the cooling rate of 10-15 ℃/min, the natural plant powder is added, the ball milled porous medium is heated to 165 ℃ at the heating rate of 10-15 ℃/min, the temperature is kept for 2-3h, the ball milled porous medium is naturally cooled to room temperature, and the ball milled porous medium is ground; wherein the mass ratio of the fractured porous medium is 1: 1:1 of a mixture of expanded vermiculite, marl and basalt; the natural plant powder is extracted from one or more of corn straw, reed straw and wheat straw.

The invention has the advantages that:

1. the raincoat disclosed by the invention is made of environment-friendly soft breathable materials, and is environment-friendly;

2. the breathable functional material can enable the breathable layer to form compact and soft micropores, effectively block the permeation of macromolecular rainwater, and simultaneously enable micromolecular gas and water vapor between the raincoat and a human body to be dispersed out through the breathable material without stuffy feeling;

3. compared with the traditional raincoat, the rain-proof performance of the raincoat is enhanced by realizing all-dimensional covering from head to foot, and meanwhile, the air bag buffering and ventilating structure arranged on the head utilizes the malposition of the upper and lower special-shaped air bags, and after the air bags are inflated, the shapes of the upper and lower special-shaped air bags are matched, so that the air bag connecting part is deformed, a ventilating channel is formed, the ventilation property of the raincoat is increased while the raincoat is protected, and the protection effect on the head when the raincoat slips down on the road in rainy days is greatly improved.

4. Through setting up the gasbag structure to the rain boots bottom, the work of doing to the gasbag when utilizing the walking has realized aerifing and the effect of control bleeder vent size to the raincoat cap department gasbag, and the ventilative degree of raincoat cap has different changes along with the difference of rain boots step frequency speed and pressure, can have different regulatory action to the ventilative gasbag of raincoat cap department according to the different states of different behavior states under the rain boots to deal with different demands under the different states.

In order to make the filled soft breathable raincoat more clearly understood, the invention is further described with reference to the accompanying drawings and the specific embodiments.

Drawings

FIG. 1 is an overall schematic view of the raincoat of the present invention;

FIG. 2 is a side view of the raincoat of the present invention;

FIG. 3 is a schematic view showing the inner structure of a raincoat cap of the present invention;

FIG. 4 is a schematic cross-sectional view of a raincoat cap of the present invention;

FIG. 5 is an enlarged view of the structure of the "F" region of the present invention;

FIG. 6 is a schematic cross-sectional view of the airbag cushion venting structure of the present invention in an inflated condition;

FIG. 7 is a block diagram of the airbag cushion vent structure and one-way air pressure controller of the present invention;

FIG. 8 is a schematic cross-sectional view of the ventilation channels of the present invention in an inflated condition;

FIG. 9 is a structural view of the air permeable structure of the air bag in the uninflated state of the present invention;

FIG. 10 is a schematic diagram of a motion work conversion architecture of the present invention;

FIG. 11 is a top plan view of the position of the inflated layer of the rain boot of the present invention;

FIG. 12 is an enlarged view of the structure of the "G" region of the present invention;

FIG. 13 is an enlarged view of the structure of the "E" region of the present invention;

in the figure: 1 raincoat cap, 2 raincoat jacket, 3 raincoat trousers, 4 rainshoes, 5 air nozzles, 6 motion work-doing conversion structure, 7 raincoat jacket air pipe, 8 raincoat trousers air pipe, 101 outer layer raincoat, 102 inner layer raincoat, 103 air sac buffer ventilation structure, 104 one-way air pressure controller, 105 raincoat cap air pipe, 105a lower raincoat cap air pipe, 105b upper raincoat cap air pipe, 1031 upper air sac, 1032 lower air sac, 1033 special air sac I, 1034 special air sac II, 1035 ventilation channel, 1036 inner layer ventilation hole, 1037 outer layer ventilation hole, 1038 structure bulge, 1039 structure groove, 1041 shell, 1042 knob, 1043 isolating plate, 1044 sealing piece I, 1045 sealing piece II, 1046 spring I, 1047 upper air cavity, 1048 lower air cavity, 1049 left air pipe, 1050 right air pipe, 1051 upper air pipe, 601 rain shoe main body, 602 shoe cushion layer, 603 inflation layer, 604 wear-resistant layer, 605 one-way air inlet and outlet structure, 606 square air sac 607, spring II, 103 air sac, 6051 air outlet valve, 6052 air inlet valve and 701 air one-way valve.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Example 1

A filling type soft breathable raincoat comprises a raincoat main body, wherein a waterproof breathable layer is arranged on the outer surface of the raincoat main body; the raincoat main body is divided into a raincoat cap 1, a raincoat coat 2, raincoat trousers 3 and rain shoes 4, and a waterproof breathable layer is arranged on the raincoat main body;

specifically, the raincoat cap is provided with two rain coat layers, namely an inner rain coat layer 102 and an outer rain coat layer 101, a plurality of groups of air bag buffering and ventilating structures 103 are arranged between the inner rain coat layer 102 and the outer rain coat layer 101 on the raincoat cap 1, the raincoat cap 1 is fixed on the raincoat coat 2, the upper ends of the raincoat trousers 3 are tightened by elastic bands, the lower ends of the raincoat trousers 3 are connected with rain shoes 4, and the rain shoes 4 are fixedly connected with the raincoat trousers 3 in an annular mode in a zipper mode.

Specifically, four groups of air bag buffering and ventilating structures 103, namely a front, a rear, a left and a right, are arranged between an upper rain coat layer 102 and an outer rain coat layer 101 of the raincoat cap 1, the air bag buffering and ventilating structures 103 comprise an upper air bag 1031, a lower air bag 1032 and a one-way air pressure controller 104, wherein the upper air bag 1031 and the lower air bag 1032 are positioned between the inner rain coat layer 102 and the outer rain coat layer 101, the one-way air pressure controller 104 is fixed at the rear side of the raincoat cap 1 between the inner rain coat layer 102 and the outer rain coat layer 101 and is connected with the upper air bag 1031 and the lower air bag 1032, air nozzles 5 are respectively arranged at the left and the right sides of the raincoat cap, the upper air bag 1031 comprises a plurality of first special-shaped air bags 1033, the plurality of first special-shaped air bags 1033 are communicated with each other through a plurality of upper rain cap air pipes 105b, one sides of the upper air bags 1031 of the left and right air bag buffering and ventilating structures 103, the other side of the air bag is connected with an upper layer airbag 1031 of a front and a rear two groups of airbag buffering and ventilating structures 103 through a rain hat air pipe 105, the lower layer airbag 1032 is internally provided with a plurality of special-shaped airbag two 1034 which are communicated with each other through a plurality of groups of rain hat air pipes 105a, one side of a lower layer airbag 1032 of a left and a right two groups of airbag buffering and ventilating structures 103 is communicated with an air tap of the outer layer raincoat through the rain hat air pipe 105, the other side of the lower layer airbag 1032 of the front and rear two groups of airbag buffering and ventilating structures 103 is connected with a lower layer airbag 1032 of the front and rear two groups of airbag buffering and ventilating structures 103 through the rain hat air pipe 105, waterproof cloth is arranged between the special-shaped airbag one 1033 and the special-shaped airbag two 1034, the upper layer airbag 1031 and the lower layer airbag 1032 are fixedly connected between the outer layer raincoat 101 and the inner layer raincoat 102, the waterproof cloth between the upper layer airbag 1031 and the lower layer airbag 1032 forms uniformly distributed air In the middle, a plurality of vent holes 1036 are uniformly distributed on the inner layer raincoat 102 on the vent channels 1035, each vent channel 1035 on the outer layer raincoat only comprises one vent hole 1037, the vent holes 1037 are positioned at two sides and the rear end of the raincoat cap 1, and one end of the three groups of air bag buffer vent structures 103 at the left side, the right side and the rear side, which is close to the back, is respectively provided with a one-way air pressure controller 104.

Specifically, the shapes of the airbag cushion breathable structure upper layer airbag 1031 and the lower layer airbag 1032 in the length direction are determined according to the position shape of the raincoat cap 1, the structural protrusions 1038 are uniformly distributed on one side of the first special-shaped airbag 1033 close to the second special-shaped airbag 1034, the structural grooves 1039 are uniformly distributed on one side of the second special-shaped airbag 1034 close to the first special-shaped airbag 1033, the one-way air pressure controller 104 comprises a shell 1041, a knob 1042, a partition board 1043, a first closing sheet 1044, a second closing sheet 1045 and a first spring 1046, wherein the shell 1041 is divided into an upper air cavity 1047 and a lower air cavity 1048 through the partition board 1043, an opening is formed in the upper end of the shell 1041, threads are formed in the opening, the knob 1042 is connected with the shell 1041 through the threads, the threaded end of the knob 1042 is in contact with the second closing sheet 1045, the second closing sheet 1045 is attached to the inside of the shell 1041 through the action of the first spring 1046, and a first closing sheet 1044 is, the first sealing sheet 1044 is attached to the isolating plate 1043 through the action of a first spring 1046, the first spring 1046 is fixed to the first sealing sheet 1044, the lower layer airbag 1031 is communicated with the lower air cavity 1048 of the one-way air pressure controller 104 through a left side air pipe 1049, the upper layer airbag 1032 is communicated with the lower air cavity 1048 of the one-way air pressure controller through a right side air pipe 1050, and the upper air cavity 1047 of the one-way air pressure controller 104 is connected with the ventilation channel 1035 of the airbag buffering ventilation structure 103 through an upper air pipe 1051.

Specifically, the rain shoes 3 are provided with a motion work doing conversion structure 6, the raincoat jacket 1 and the raincoat trousers 3 are both fixedly provided with a raincoat jacket air pipe 7 and a raincoat trousers air pipe 8

Specifically, rain shoes motion work doing conversion structure 6 includes rain shoes main part 601, shoe cushion layer 602, aerifys layer 603, wearing layer 604, the one-way structure 605 of giving vent to anger, wherein installs a plurality of square airbags 606 and two 607 of multiunit springs in the middle of shoe cushion layer 602 and wearing layer 604, and the connection of ventilating each other between the square airbag 606, square airbag 606 export is connected to one-way structure 605 of giving vent to anger through the trachea, one-way structure 605 of giving vent to anger is provided with two sets of gas check valves of giving vent to anger, and wherein admission valve 6052 and raincoat outside intercommunication, outlet valve 6051 and raincoat trousers trachea 8 are close to trouser legs one end and link to each other, raincoat trousers trachea 8 other end and raincoat jacket lower extreme trachea 7 link to each other, raincoat jacket trachea 7 upper end links to each other with the air cock 5 of raincoat hat department.

Example 2

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 90 parts of soft main body materials, 6 parts of plasticizer, 3 parts of softening agent and 2 parts of stabilizer by weight; placing the soft main body material and the plasticizer into a reaction tank, heating to 110 ℃ at the heating rate of 5 ℃/min, mixing and stirring for 25min, adding the softener and the stabilizer in sequence every 8min, heating to 180 ℃, continuously mixing for 30min, naturally cooling to 75 ℃, transferring to a screw machine for extrusion granulation, and then performing injection molding.

The soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 35 parts of natural rubber, 35 parts of polybutylene succinate and 13 parts of aliphatic polycarbonate into a reaction tank, heating to 105 ℃ at the heating rate of 6 ℃/min, mixing and stirring for 28min, then slowly adding 1.5 parts of tributyl citrate, heating to 185 ℃, continuing stirring and mixing for 60min at the stirring speed of 900rpm, cooling to 60 ℃ at the cooling rate of 8 ℃/min, transferring to a screw machine, extruding and granulating, and micronizing to be within 100 um.

The plasticizer is prepared from the following components in percentage by mass of 1:1 trioctyl citrate, tributyl acetyl citrate; the softening agent is 1: 1:1, film: soft essential oil: a compounded mixture of silicone oils; the stabilizer is a rare earth stabilizer.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise 13 parts of inorganic filler, 20 parts of polyimide, 28 parts of breathable functional material, 3 parts of tributyl citrate, 1.0 part of stearic acid, 2.5 parts of epoxidized soybean oil and 2.0 parts of ester-based quaternary ammonium salt by weight; fully mixing and heating inorganic filler, polyimide and a breathable functional material to 97 ℃, performing ball milling for 40min, then sequentially adding tributyl citrate, stearic acid, epoxidized soybean oil and ester-based quaternary ammonium salt every 7min, stirring at the rotating speed of 550rpm for 60 mm, filtering by using a 400-mesh filter screen, retaining filtrate, heating to 170 ℃, keeping the temperature for 60min, naturally cooling to 80 ℃, transferring to a screw machine for extrusion granulation, performing superfine grinding to within 100 mu m, and performing fibrous disinfection; wherein the inorganic filler is prepared from the following components in a mass ratio of 1: 3: 2 the mixture of lignin, montmorillonite and calcium sulfate crystal whisker, the particle size of which is within 30 um.

The material and the preparation method of the breathable functional material are that the raw materials comprise 11 parts of fissile porous medium and 9 parts of natural plant powder by weight, the fissile porous medium is ball milled for 30min, then the material is placed into a 1100 ℃ high-temperature calcining furnace to be calcined for 90min, the material is cooled to 75 ℃ at the cooling rate of 13 ℃/min, the natural plant powder is added, the material is heated to 160 ℃ at the heating rate of 13 ℃/min, the temperature is kept for 2.5h, the material is naturally cooled to room temperature, and the material is ultra-pulverized to be within 30 um; wherein the mass ratio of the fractured porous medium is 1: 1:1 mixture of expanded vermiculite, marl, basalt; the natural plant powder is extracted from one or more of corn straw, reed straw and wheat straw.

Example 3

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 80 parts of soft main body materials, 8 parts of plasticizer, 4 parts of softening agent and 3 parts of stabilizer by weight; placing the soft main body material and the plasticizer into a reaction tank, heating to 100 ℃ at the heating rate of 4 ℃/min, mixing and stirring for 20min, adding the softener and the stabilizer in sequence every 6min, heating to 170 ℃, continuously mixing for 30min, naturally cooling to 65 ℃, transferring to a screw machine for extrusion granulation, and then performing injection molding.

The soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 30 parts of natural rubber, 30 parts of polybutylene succinate and 10 parts of aliphatic polycarbonate into a reaction tank, heating to 95 ℃ at the heating rate of 5 ℃/min, mixing and stirring for 25min, then slowly adding 1 part of tributyl citrate, heating to 175 ℃, continuing stirring and mixing for 60min at the stirring speed of 800rpm, cooling to 60 ℃ at the cooling rate of 5 ℃/min, transferring to a screw machine, extruding and granulating, and micronizing to be within 100 um.

The plasticizer is prepared from the following components in percentage by mass of 1:1 trioctyl citrate, tributyl acetyl citrate; the softening agent is 1: 1:1, film: soft essential oil: a compounded mixture of silicone oils; the stabilizer is a rare earth stabilizer.

The waterproof breathable layer is made of materials and the preparation method thereof, wherein the raw materials comprise, by weight, 10 parts of inorganic filler, 15 parts of polyimide, 25 parts of breathable functional material, 4 parts of tributyl citrate, 1.5 parts of stearic acid, 4 parts of epoxidized soybean oil and 2.5 parts of ester-based quaternary ammonium salt; fully mixing and heating inorganic filler, polyimide and a breathable functional material to 92 ℃, performing ball milling for 30min, then sequentially adding tributyl citrate, stearic acid, epoxidized soybean oil and ester-based quaternary ammonium salt every 6min, stirring at the rotating speed of 500rpm for 60 mm, filtering by using a 400-mesh filter screen, retaining filtrate, heating to 160 ℃, keeping the temperature for 55min, naturally cooling to 75 ℃, transferring to a screw machine for extrusion granulation, performing superfine grinding to within 100 mu m, and performing fibrous disinfection; wherein the inorganic filler is prepared from the following components in a mass ratio of 1: 3: 2 the mixture of lignin, montmorillonite and calcium sulfate crystal whisker, the particle size of which is within 30 um.

The material and the preparation method of the breathable functional material are that the raw materials comprise 7 parts of fissile porous medium and 6 parts of natural plant powder by weight, the fissile porous medium is ball milled for 30min, then the material is placed into a high-temperature calcining furnace at 1000 ℃ to be calcined for 60min, the material is cooled to 70 ℃ at the cooling rate of 10 ℃/min, the natural plant powder is added, the material is heated to 150 ℃ at the heating rate of 10 ℃/min, the temperature is kept for 2h, the material is naturally cooled to room temperature, and the material is ground to be within 30um to obtain the breathable functional material; wherein the mass ratio of the fractured porous medium is 1: 1:1 mixture of expanded vermiculite, marl, basalt; the natural plant powder is extracted from one or more of corn straw, reed straw and wheat straw.

Example 4

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 100 parts of soft main body materials, 3 parts of plasticizer, 2 parts of softening agent and 1 part of stabilizer by weight; placing the soft main body material and the plasticizer into a reaction tank, heating to 115 ℃ at the heating rate of 6 ℃/min, mixing and stirring for 30min, adding the softener and the stabilizer in sequence every 10min, heating to 190 ℃, continuously mixing for 30min, naturally cooling to 80 ℃, transferring to a screw machine for extrusion granulation, and then performing injection molding.

The soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 40 parts of natural rubber, 40 parts of polybutylene succinate and 15 parts of aliphatic polycarbonate into a reaction tank, heating to 115 ℃ at the heating rate of 7 ℃/min, mixing and stirring for 30min, then slowly adding 2 parts of tributyl citrate, heating to 195 ℃, continuing stirring and mixing for 60min at the stirring speed of 1000rpm, cooling to 60 ℃ at the cooling rate of 10 ℃/min, transferring to a screw machine, extruding and granulating, and micronizing to be within 100 um.

The plasticizer is prepared from the following components in percentage by mass of 1:1 trioctyl citrate, tributyl acetyl citrate; the softening agent is 1: 1:1, film: soft essential oil: a compounded mixture of silicone oils; the stabilizer is a rare earth stabilizer.

The waterproof breathable layer is made of materials and the preparation method thereof, wherein the raw materials comprise 15 parts of inorganic filler, 25 parts of polyimide, 30 parts of breathable functional material, 2 parts of tributyl citrate, 0.5 part of stearic acid, 1 part of epoxidized soybean oil and 1.5 parts of ester-based quaternary ammonium salt by weight; fully mixing and heating inorganic filler, polyimide and a breathable functional material to 102 ℃, performing ball milling for 50min, then sequentially adding tributyl citrate, stearic acid, epoxidized soybean oil and ester-based quaternary ammonium salt every 8min, stirring at the rotating speed of 600rpm for 60 mm, filtering by using a 400-mesh filter screen to retain filtrate, heating to 180 ℃, keeping the temperature for 65min, naturally cooling to 85 ℃, transferring to a screw machine for extrusion granulation, performing superfine grinding to within 100 mu m, and performing fibrous disinfection; wherein the inorganic filler is prepared from the following components in a mass ratio of 1: 3: 2 the mixture of lignin, montmorillonite and calcium sulfate crystal whisker, the particle size of which is within 30 um.

The material and the preparation method of the breathable functional material comprise the following steps that the raw materials comprise 15 parts of fissile porous medium and 12 parts of natural plant powder in parts by weight, the fissile porous medium is subjected to ball milling for 30min, then the materials are placed into a high-temperature calcining furnace at 1200 ℃ to be calcined for 60-120min, the materials are cooled to 80 ℃ at the cooling rate of 15 ℃/min, the natural plant powder is added, the materials are heated to 165 ℃ at the heating rate of 15 ℃/min, the temperature is kept for 3h, the materials are naturally cooled to room temperature, and the materials are subjected to superfine grinding to be within 30um to obtain the; wherein the mass ratio of the fractured porous medium is 1: 1:1 mixture of expanded vermiculite, marl, basalt; the natural plant powder is extracted from one or more of corn straw, reed straw and wheat straw.

Example 5

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of 75 parts of soft main body materials, 6 parts of plasticizer, 3 parts of softener and 2 parts of stabilizer by weight;

the rest is the same as example 2.

Example 6

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 105 parts of soft main body materials, 6 parts of plasticizer, 3 parts of softening agent and 2 parts of stabilizer by weight;

the rest is the same as example 2.

Example 7

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 90 parts of soft main body materials, 6 parts of plasticizer, 3 parts of softening agent and 2 parts of stabilizer by weight;

the soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 35 parts of natural rubber, 28 parts of polybutylene succinate and 9 parts of aliphatic polycarbonate into a reaction tank, heating to 105 ℃ at the heating rate of 6 ℃/min, mixing and stirring for 28min, then slowly adding 1.5 parts of tributyl citrate, heating to 185 ℃, continuing stirring and mixing for 60min at the stirring speed of 900rpm, cooling to 60 ℃ at the cooling rate of 8 ℃/min, transferring to a screw machine, extruding and granulating, and micronizing to be within 100 um.

The rest is the same as example 2.

Example 8

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The raincoat main body is made of materials and the preparation method is that the raw materials comprise 90 parts of soft main body materials, 6 parts of plasticizer, 3 parts of softening agent and 2 parts of stabilizer by weight;

the soft main body material is modified natural rubber, and the preparation method comprises the steps of putting 35 parts of natural rubber, 41 parts of polybutylene succinate and 16 parts of aliphatic polycarbonate into a reaction tank, heating to 105 ℃ at the heating rate of 6 ℃/min, mixing and stirring for 28min, then slowly adding 1.5 parts of tributyl citrate, heating to 185 ℃, continuing stirring and mixing for 60min at the stirring speed of 900rpm, cooling to 60 ℃ at the cooling rate of 8 ℃/min, transferring to a screw machine, extruding and granulating, and micronizing to be within 100 um.

The rest is the same as example 2.

Example 9

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise 13 parts of inorganic filler, 20 parts of polyimide, 24 parts of breathable functional material, 3 parts of tributyl citrate, 1 part of stearic acid, 2.5 parts of epoxidized soybean oil and 2 parts of ester-based quaternary ammonium salt by weight;

the rest is the same as example 2.

Example 10

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise 13 parts of inorganic filler, 20 parts of polyimide, 31 parts of breathable functional material, 3 parts of tributyl citrate, 1 part of stearic acid, 2.5 parts of epoxidized soybean oil and 2 parts of ester-based quaternary ammonium salt by weight;

the rest is the same as example 2.

Example 11

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise 13 parts of inorganic filler, 20 parts of polyimide, 28 parts of breathable functional material, 3 parts of tributyl citrate, 1 part of stearic acid, 2.5 parts of epoxidized soybean oil and 2 parts of ester-based quaternary ammonium salt by weight;

the material and the preparation method of the material with the air-permeable function comprise the following raw materials, by weight, 6 parts of a crack porous medium and 5 parts of natural plant powder.

The rest is the same as example 2.

Example 12

A filling type soft breathable raincoat comprises a raincoat main body, and a waterproof breathable layer is arranged on the outer portion of the raincoat main body.

The structural design of the raincoat main body is the same as that of the embodiment 1, and the working principle is as described in the invention content.

The waterproof breathable layer is made of materials and the preparation method thereof, and the raw materials comprise 13 parts of inorganic filler, 20 parts of polyimide, 28 parts of breathable functional material, 3 parts of tributyl citrate, 1 part of stearic acid, 2.5 parts of epoxidized soybean oil and 2 parts of ester-based quaternary ammonium salt by weight;

the material and the preparation method of the breathable functional material comprise the following raw materials, by weight, 16 parts of a fractured porous medium and 13 parts of natural plant powder.

The rest is the same as example 2.

Test of

Test 1

The filled soft breathable raincoat prepared according to the above embodiments is comprehensively compared in all aspects of performance:

wherein (1) the tensile rebound effect test is as follows: strips with the size of 10cm long and 2cm wide are respectively cut from the same position of the raincoat body prepared in each example to be used as samples, a universal testing machine is respectively used for carrying out bidirectional tensile test, the force gradient is 10N, 20N, 30N, 40N and 50N, the time is 10S, the raincoat body is horizontally placed for 10S, the tensile rebound effect and the deformation quantity are observed and recorded, the deformation quantity is = (L-L0)/L0 100%, wherein L is the length of the horizontally placed 10S, and L0 is the initial length of 10cm, and the specific values are shown in Table 1;

(2) the aging experiment is divided into a specific method for resisting damp-heat aging: damp-heat aging resistant Soft breathable raincoats prepared from examples 2-12, respectively, were randomly cut from 100 cm 2cm 1 cm2 samples and oven preheated to 70 ℃. + -. 1 ℃ at a relative humidity of at least 95%, by method C of FZ/T01008-2008. Placing the sample into an oven without tension, exposing both surfaces of the sample in hot air, ensuring that the pressure in the oven does not exceed the atmospheric pressure, observing the condition of the sample after 7 days, 14 days, 21 days and 28 days, repeating the experiment for more than three times to eliminate the experimental contingency, and comparing the difference of each embodiment according to the breakage rate; the following table 2 specifically shows;

TABLE 1 tensile rebound Effect table

TABLE 2 Experimental conditions of artificial accelerated aging

According to the experimental data of the above tables 1 and 2, the comparison results:

(1) the raincoat prepared by each embodiment has no toxicity, does not contain heavy metal, and meets the environmental protection standard; in examples 2, 3 and 4, the performance indexes in all aspects are excellent, and particularly, the best performance index is shown in example 2;

(2) in comparative examples 2 and 5, although the artificial accelerated aging test is excellent, the tensile rebound effect is poor due to the fact that the addition amount of the flexible main body material of the raincoat is small; example 6 is the opposite; in example 7, the addition amount of each component in the formula of the flexible main body material of the raincoat is small, so that the experimental result is close to that in example 5, and in example 8, the tensile rebound effect is good, but the resistance to artificial accelerated aging is poor, and the durability of the raincoat is general;

(3) examples 9 to 12 are directed to the waterproof and breathable layer of the raincoat body, and in comparative example 2, example 9 uses less breathable functional material, has poor breathable effect and is generally comfortable, and in contrast to example 10, the waterproof and breathable layer is generally durable although breathable; in example 11, the effect is equivalent to that of example 9 because the addition amount of the fissile porous medium and the natural plant powder in the formulation of the gas functional material is small, and in example 12, the effect is close to that of example 10.