CN214904040U - Waterproof ventilative medical gown - Google Patents

Abstract

The utility model relates to a waterproof and breathable medical gown, which comprises a front piece, rear pieces and sleeves, wherein the rear pieces are respectively arranged on two sides of the front piece, and the sleeves are respectively arranged on two sides of the front piece and are respectively connected with the front piece and the rear pieces; the front piece and the sleeves comprise a breathable layer arranged on the inner side, a waterproof layer arranged on the outer side and a plurality of isolating blocks arranged between the breathable layer and the waterproof layer, a set distance is reserved between every two adjacent isolating blocks to form a breathable channel, and the isolating blocks are set to be thick to separate the breathable layer from the waterproof layer; the rear piece comprises a breathable layer and a plurality of clothes belts fixed on the breathable layer, and the breathable layer of the rear piece is connected with the breathable layer of the front piece; the medical overclothes not only have good waterproof performance, but also are very breathable, not only are beneficial to medical care personnel to wear more comfortably for a long time, and can avoid the medical care personnel from sweating.

Description

Waterproof ventilative medical gown

Technical Field

The utility model relates to a gown technical field, concretely relates to waterproof ventilative medical gown.

Background

The coveralls are protective clothing commonly used in life, mainly play a role in isolation and protection, are widely applied to families and various work posts, and in the medical field, medical workers usually need to wear the coveralls (or called as operating gowns) with waterproof functions to perform related operations so as to prevent splashed liquid from wetting the clothes of the medical workers, so that the requirements on the performance of the coveralls in the medical field are higher.

Urinary surgery is a common operation, but in the operation process, medical staff usually need to perform the operation and flush water at the same time, and the flushing process can generate splashing and overflow of liquid, so that the clothes/trousers of the medical staff are very easy to wet, therefore, in the process, the medical staff needs to wear a coverlet so as to achieve the purpose of isolation and water prevention by using the coverlet, however, the existing coverlet usually has disadvantages, for example, the existing coverlet can greatly reduce the air permeability of the coverlet while improving the water resistance, the time of the urinary surgery is usually longer, the medical staff can feel uncomfortable due to the fact that the coverlet is not air permeable for a long time, and the medical staff can sweat very easily; in addition, current gown can not play the effect of protection shoes, because the liquid that splashes to the gown surface can be followed the gown under the effect of gravity and flow downwards, because the lower extreme of gown is in the free state of droing usually for the liquid that leaves the gown falls on the shoes very easily, thereby makes the uropoiesis surgery operation back at every turn, and medical personnel's shoes are all wet state usually, await the solution urgently.

SUMMERY OF THE UTILITY MODEL

The utility model provides a low-cost medical gown, which not only has good waterproof performance, but also is very breathable, and is beneficial to more comfortable wearing, and can greatly reduce the breathability of the gown when the waterproof performance of the existing gown is improved, the time of urinary surgery operation is usually longer, and medical workers can feel uncomfortable due to the fact that the gown is not breathable for a long time and easily have the problems of sweat streaming down and the back of the gown; the main conception is as follows:

a waterproof and breathable medical gown comprises a front piece, rear pieces and sleeves, wherein the rear pieces are respectively arranged on two sides of the front piece, and the sleeves are respectively arranged on two sides of the front piece and are respectively connected with the front piece and the rear pieces;

the front piece and the sleeves comprise a breathable layer arranged on the inner side, a waterproof layer arranged on the outer side and a plurality of isolating blocks arranged between the breathable layer and the waterproof layer, a set distance is reserved between every two adjacent isolating blocks to form a breathable channel, and the isolating blocks are set to be thick to separate the breathable layer from the waterproof layer;

the back piece comprises a breathable layer and a plurality of clothes belts fixed on the breathable layer, and the breathable layer of the back piece is connected with the breathable layer of the front piece. In the scheme, a three-layer structure is adopted by the front piece and the sleeves, wherein the inner layer is a breathable layer capable of efficiently ventilating, the outer layer is a waterproof layer with a waterproof function, and the breathable layer and the waterproof layer are connected through a plurality of isolation blocks, so that the breathable layer and the waterproof layer can be connected into a whole; the set distance is arranged between the two adjacent isolation blocks, so that a ventilation channel can be formed between the two adjacent isolation blocks, and the isolation blocks have the set thickness, so that the ventilation layer and the waterproof layer can be separated from each other, the formed ventilation channel can be effectively expanded, and ventilation and heat dissipation are facilitated; compare in current dustcoat, this medical dustcoat not only has good waterproof performance through the three layer construction who sets up ventilative layer, spacing block and waterproof layer, and is very ventilative moreover, and it is more comfortable that existing medical personnel dress for a long time, can avoid medical personnel to perspire again, and in addition, this medical dustcoat when taking into account waterproof nature and gas permeability, implementation that can the low cost is favorable to the conversion very much.

In order to solve the problems of reducing the weight of the coat and effectively separating the breathable layer from the waterproof layer, the isolating blocks are preferably sponge blocks. On one hand, the sponge block is light in weight, which is beneficial to reducing the total weight of the cover body; on the other hand, the sponge block has elasticity, can effectively separate the breathable layer and the waterproof layer, achieves the purpose of breathability, can deform under the action of external force, automatically recovers the original shape after the external force is removed, does not influence the normal use of the dustcoat, and is very convenient.

Preferably, the thickness of the isolation block is 3-5 cm. So that the distance between the breathable layer and the waterproof layer is 3-5cm, and ventilation and heat dissipation are facilitated.

In order to solve the problem that the edges of the breathable layer and the waterproof layer are easy to separate from each other under the action of external force, further, a plurality of connecting belts are further arranged at the edges of the waterproof layer, and two ends of each connecting belt are respectively connected with the breathable layer and the waterproof layer. Through setting up the connecting band, can play the purpose of the ventilative layer of fixed connection and waterproof layer in the edge of waterproof layer for when the edge of ventilative layer and waterproof layer received tearing of external force, the connecting band can play the effect that prevents ventilative layer and waterproof layer separation, thereby effectively solves technical problem.

In order to achieve ventilation and comfort, preferably, the ventilation layer is made of cotton cloth. In particular, the breathable layer can be made of pure cotton cloth, so that the breathable layer is breathable and comfortable.

In order to achieve a better waterproof effect, the waterproof layer is preferably made of waterproof coating fabric, gore-tex fabric, Dry-Tec fabric, microfiber heat preservation cotton, silica gel or plastic film.

When the waterproof layer is made of waterproof coating fabric, preferably, the waterproof layer comprises a base layer and a plastic layer, a PU layer, a PVC layer or a PA layer coated on the surface of the base layer.

In order to further improve the ventilation effect of the ventilation layer, preferably, the ventilation layer is configured with a plurality of ventilation holes. The air holes are communicated with the air passage between the air permeable layer and the waterproof layer, so that the air permeable and heat dissipating effects of the air permeable layer can be further improved.

In order to solve the problem of efficient heat dissipation at the armpit, further, a ventilating opening is formed between the front piece and the sleeves and corresponds to the armpit. During the operation, hands and arms of the medical staff are always in a movable state, so that the armpit of the medical staff is very easy to sweat, and after the air-permeable opening is arranged, hot air generated at the armpit can be dissipated out of the body through the air-permeable opening, so that the heat dissipation path can be effectively shortened, and the purpose of efficient heat dissipation is achieved.

In order to solve the problem that liquid splashed to the outer surface of the dustcoat flows downwards along the dustcoat under the action of gravity in the using process of the existing dustcoat, and the lower end of the dustcoat is usually in a free sagging state, so that the liquid leaving the dustcoat is very easy to fall onto shoes, and the existing dustcoat cannot effectively protect the shoes of medical workers. In this scheme, through setting up the expansion district, and increase the thickness of isolation piece in the expansion district, thereby can increase the interval between waterproof layer and the ventilative layer, make the waterproof layer can outwards expand, so that after medical personnel dressed this dustcoat, waterproof layer in the expansion district can effectively cover below medical personnel's shoes, liquid that can prevent to splash on the one hand drenches medical personnel's shoes, on the other hand, along the liquid of dustcoat underflow, medical personnel's shoes can not fallen, can prevent effectively that shoes from being drenched, thereby can effectively solve the problem that prior art exists.

In order to prevent the problem of water in the expansion area, in the first scheme, the thickness of the isolation block is gradually increased in the expansion area along the direction from the upper end to the lower end of the front piece, or the thickness of the isolation block is increased firstly and then is kept unchanged. That is, in the direction of following anter upper end to lower extreme, interval between waterproof layer and the ventilative layer increases gradually, so that the waterproof layer outwards expands, when in actual use, liquid along the dustcoat undercurrent is after getting into the expansion district, can flow along the direction of keeping away from ventilative layer under the guide of waterproof layer, and can leave the waterproof layer at the position department farthest away from ventilative layer, thereby can fall in the position department of keeping away from medical personnel's shoes, reach the protection shoes, prevent that shoes from being drenched the purpose.

Preferably, the thickness of the spacer at the lowermost end of the front panel in said expansion region is 5-12 cm. So as to effectively expand the area covered by the dustcoat and achieve the aim of protecting the shoes below from being wetted.

In order to solve the problem that the liquid splashed to the outer surface of the gown falls to the ground along the gown under the action of gravity and can wet the ground of an operating room, further, a steel wire or an iron wire for shaping is constructed in the waterproof layer at the lower edge of the front piece, so that the waterproof layer at the lower end of the front piece is turned upwards or inwards or curled, and a groove for containing and collecting water is formed. Through set up the recess at the lower extreme for water that falls along the dustcoat can gather in the recess, prevent directly to fall to ground, thereby effectively solve the problem of drenching operating room ground.

For solving the problem of ponding in the drainage groove, furtherly, still including collecting bag and connecting pipe, the one end of connecting pipe is fixed in the anter and with the recess is linked together, and the other end of connecting pipe is connected in collecting the bag and is linked together with collecting the bag, and collects bag detachable and connect in the connecting pipe. By arranging the collecting bag, water accumulated in the groove can enter the collecting bag through the connecting pipe under the action of gravity during actual use, so that the purpose of collection is achieved; because the collecting bag is detachably connected with the connecting pipe, a user can conveniently take down the collecting bag and pour the water in the collecting bag, and the operation is simple and convenient.

Compared with the prior art, use the utility model provides a pair of waterproof ventilative medical gown, compact structure, reasonable in design not only have good waterproof performance, and are very ventilative moreover, and existing medical personnel of being favorable to dress for a long time is more comfortable, can avoid medical personnel to perspire again, and in addition, this medical gown takes into account the waterproof nature and the gas permeability of gown through structural improvement, and implementation that can the low cost more is favorable to the conversion.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a front view, partially in section, of a medical gown provided in embodiment 1 of the present invention.

Fig. 2 is a partial schematic view of fig. 1.

Fig. 3 is a rear view of fig. 1.

Fig. 4 is a partially enlarged schematic view I of fig. 3.

Fig. 5 is a front view of a medical gown provided in embodiment 2 of the present invention.

Fig. 6 is a front view of a medical gown provided in embodiment 3 of the present invention.

Fig. 7 is a view a-a of fig. 6.

Fig. 8 is another view a-a of fig. 6.

Fig. 9 is a partial projection view of the lower end of the gown on the ground after the medical staff wears the medical gown.

Fig. 10 is a front view of a medical gown provided in embodiment 4 of the present invention.

Fig. 11 is a view B-B of fig. 10.

Description of the drawings

Front panel 101, back panel 102, sleeves 103 and belt 104

A breathable layer 201, breathable holes 202, an isolation block 203, a waterproof layer 204, a breathable channel 205, a connecting band 206, a groove 207, a steel wire or iron wire 208, a connecting pipe 209 and a collection bag 210

Expansion zone 301

The shoes 401 and the lower end of the overclothes are in the projection area 402 of the ground.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the present embodiment provides a waterproof and breathable medical gown, which includes a front sheet 101, a rear sheet 102 disposed on two sides of the front sheet 101, and sleeves 103 disposed on two sides of the front sheet 101 and connected to the front sheet 101 and the rear sheet 102;

in the present embodiment, the front panel 101 is mainly used for covering the front (or called front) and the side of the medical staff; the back piece 102 generally corresponds to the back of the medical staff, the sleeves 103 are used for covering the arms of the medical staff, and an elastic band can be arranged at one end of each sleeve 103 far away from the front piece 101 so as to tighten the sleeve, of course, the end of each sleeve 103 far away from the front piece 101 can be free of the elastic band;

in the present embodiment, the front panel 101 and the sleeves 103 have the same structure and are both three-layer structures, specifically, as shown in fig. 1 to 4, the front panel 101 and the sleeves 103 include a breathable layer 201 disposed on the inner side, a waterproof layer 204 disposed on the outer side, and a plurality of spacers 203 disposed between the breathable layer 201 and the waterproof layer 204, and both ends of each spacer 203 are respectively fixedly connected to the breathable layer 201 and the waterproof layer 204; as shown in fig. 1, 2 and 4, a set distance is provided between two adjacent spacers 203 to form a ventilation channel 205, and the spacers 203 have a set thickness as shown in fig. 1 and 4, so that the ventilation layer 201 and the waterproof layer 204 can be separated from each other;

in this embodiment, the rear panel 102 only includes the breathable layer 201 and the plurality of straps 104 fixed to the breathable layer 201, and the breathable layer 201 of the rear panel 102 is connected to the breathable layer 201 of the front panel 101, as shown in fig. 1 to 3, by providing the straps 104, after the medical staff covers the gown, the gown can be tightened at the back by the straps 104, so that the gown can cover the body of the medical staff.

In a more sophisticated version, the upper end of the front panel 101 may be configured as a circular arc, as shown in fig. 1 and 2, i.e. as a round collar, in order to adapt to the physiological structure of the neck of the medical staff.

The isolation blocks 203 have various embodiments, and in order to reduce the weight of the overcoat and effectively separate the breathable layer 201 from the waterproof layer 204, in a preferred scheme, the isolation blocks 203 may preferably be sponge blocks; on one hand, the sponge block is light in weight, which is beneficial to reducing the total weight of the cover body; on the other hand, the sponge block has elasticity, can effectively separate the breathable layer 201 from the waterproof layer 204 to achieve the purpose of breathability, can deform under the action of external force, can automatically recover the original shape after the external force is removed, cannot influence the normal use of the dustcoat, and is very convenient.

The thickness of the isolation block 203 may be determined according to actual requirements, and preferably, the thickness of the isolation block 203 may be 3-5cm, so as to provide a distance of 3-5cm between the air-permeable layer 201 and the waterproof layer 204, which is more beneficial for ventilation and heat dissipation, for example, in the present embodiment, the thickness of the isolation block 203 is 3cm, as shown in fig. 1-4.

The material of the breathable layer 201 has various choices, and in order to take account of ventilation and comfort, in a preferred scheme, the breathable layer 201 can be made of cotton cloth preferentially, and especially, the breathable layer 201 can be made of pure cotton cloth, so that ventilation and comfort are achieved.

The material of the waterproof layer 204 has various choices, and in order to achieve better waterproof effect, in a preferred scheme, the waterproof layer 204 can be made of waterproof coating fabric, gore-tex fabric, Dry-Tec fabric, microfiber heat insulation cotton, silica gel or plastic film; so as to achieve a waterproof effect; wherein, when waterproof layer 204 adopts the waterproof coating surface fabric to make, at this moment, waterproof layer 204 includes the basic unit and coats in plastic layer, PU layer, PVC layer or the PA layer on basic unit surface, and the basic unit mainly used plays the supporting role, so the material of basic unit can be the same with ventilative layer 201, also can be different, for example, the basic unit can adopt non-woven fabrics etc. to make.

In clinic, it is found that, during the operation, the hands and arms of the medical staff are always in a movable state, so that the armpit of the medical staff is very easy to sweat and needs to dissipate heat efficiently, and therefore, in a further scheme, a ventilation opening is further formed between the front piece 101 and the sleeves 103 at a position corresponding to the armpit, and after the ventilation opening is formed, hot air generated at the armpit can be directly dissipated out of the body through the ventilation opening, so that a heat dissipation path can be effectively shortened, and the purpose of dissipating heat efficiently is achieved.

In order to solve the problem, in a more complete scheme, the edge of the waterproof layer 204 is further provided with a plurality of connecting bands 206, and two ends of each connecting band 206 are respectively connected with the breathable layer 201 and the waterproof layer 204, as shown in fig. 4; through setting up connecting band 206, can play the purpose of the ventilative layer 201 of fixed connection and waterproof layer 204 in the edge of waterproof layer 204 for when the edge of ventilative layer 201 and waterproof layer 204 received tearing of external force, connecting band 206 can play the effect that prevents ventilative layer 201 and waterproof layer 204 separation.

In order to prevent the air channel 205 from being blocked and affecting the heat dissipation effect, the connection band 206 may be preferably disposed at a position corresponding to the isolation block 203, as shown in fig. 4.

It will be appreciated that the length of the gown may be as desired, but the lower end of the gown is typically required to cover or extend below the knees of the healthcare worker.

The outerwear provided by the embodiment adopts a three-layer structure through the front piece 101 and the sleeves 103, wherein the inner layer is a breathable layer 201 capable of efficiently ventilating, the outer layer is a waterproof layer 204 with a waterproof function, and the breathable layer 201 and the waterproof layer 204 are connected through a plurality of isolation blocks 203, so that the breathable layer 201 and the waterproof layer 204 can be connected into a whole; because the set distance is formed between the two adjacent isolation blocks 203, the air-permeable channel 205 can be formed between the two adjacent isolation blocks 203, and because the isolation blocks 203 have the set thickness, the air-permeable layer 201 and the waterproof layer 204 can be separated from each other, so that the formed air-permeable channel 205 can be effectively expanded, and ventilation and heat dissipation are facilitated;

compare in current dustcoat, this medical dustcoat not only has good waterproof performance through the three layer construction who sets up ventilative layer 201, spacing block 203 and waterproof layer 204, and is very ventilative moreover, and it is more comfortable that existing to do benefit to medical personnel to dress for a long time, can avoid medical personnel to perspire again, and in addition, this medical dustcoat, when taking into account waterproof nature and gas permeability, implementation that can the low cost is favorable to the conversion very much.

Example 2

In order to improve the ventilation effect of the ventilation layer 201, the main difference between this embodiment 2 and the above embodiment 1 is that in the medical gown provided in this embodiment, the ventilation layer 201 is configured with a plurality of ventilation holes 202, as shown in fig. 5, the ventilation holes 202 are communicated with the ventilation channels 205 between the ventilation layer 201 and the waterproof layer 204, so that the heat in the body can rapidly enter the ventilation channels 205 between the ventilation layer 201 and the waterproof layer 204 through the ventilation holes 202, thereby further improving the ventilation and heat dissipation effects of the ventilation layer 201.

By way of example, the vent 202 may be a round hole or a bar hole, as shown in FIG. 5.

Example 3

Because the lower end of the existing dustcoat is usually in a free-drooping state, in the using process of the dustcoat, liquid splashed to the outer surface of the dustcoat can flow downwards along the dustcoat under the action of gravity, so that the liquid leaving the dustcoat is very easy to fall onto the shoes 401, and the existing dustcoat cannot effectively protect the shoes 401 of medical personnel, in order to solve the problem, the main difference between the embodiment 3 and the embodiment 1 is that the lower end of the front piece 101 is provided with the expansion area 301, the thickness of the separation blocks 203 in the expansion area 301 is larger than that of the separation blocks 203 at the rest parts of the front piece 101, so that the distance between the waterproof layer 204 and the breathable layer 201 is increased, the waterproof layer 204 can be expanded outwards, the shoes 401 of the medical personnel are covered in the expansion area, and the shoes of the medical personnel can be prevented from being wetted; specifically, in this embodiment, through setting up expansion district 301, and increase the thickness of spacer 203 in expansion district 301, thereby can increase the interval between waterproof layer 204 and ventilative layer 201, make waterproof layer 204 can outwards expand, as shown in fig. 6, so that after medical personnel dressed this gown, waterproof layer 204 in expansion district 301 can effectively cover medical personnel's below shoes, as shown in fig. 9, on the one hand can prevent that the liquid that splashes from drenching medical personnel's shoes 401, on the other hand, along the liquid of gown underflow, can not fall medical personnel's shoes 401, can effectively prevent that shoes 401 from being drenched, thereby can effectively solve the problem that prior art exists.

By way of example, the expansion region 301 may be formed at the lower end of the front panel 101 at a position corresponding to the front of the medical staff, or may be formed over the entire lower edge of the front panel 101.

The thickness of the isolation blocks 203 in the expansion region 301 has various embodiments, and preferably, the thickness of the isolation blocks 203 at the lowest end of the front piece 101 in the expansion region 301 can be preferably 5-12cm, so as to effectively expand the area covered by the gown and achieve the purpose of protecting the lower shoes 401 from being wetted.

In order to prevent the water from being contained in the expansion area 301, in one embodiment, in the expansion area 301 and along the direction from the upper end to the lower end of the front sheet 101, as shown in fig. 6 and 7, the thickness of the spacers 203 may gradually increase, for example, three rows of spacers 203 are disposed in the expansion area 301, and along the direction from the upper end to the lower end of the front sheet 101, the thicknesses of the spacers 203 are 5cm, 8cm and 11cm, respectively, as shown in fig. 7, so that the waterproof layer 204 at the lower end of the front sheet 101 may be stably maintained in an outward expansion state.

In another embodiment, the thickness of the isolation blocks 203 may be increased and then kept constant, that is, the thickness of the upper isolation block 203 is always smaller than that of the lower isolation block 203 in the expansion area 301, for example, as shown in fig. 8, four rows of isolation blocks 203 are arranged in the expansion area 301, and the thickness of the isolation blocks 203 is 5cm, 8cm, 11cm and 11cm respectively along the direction from the upper end to the lower end of the front piece 101, as shown in fig. 8, that is, the distance between the waterproof layer 204 and the breathable layer 201 is gradually increased along the direction from the upper end to the lower end of the front piece 101, so that the waterproof layer 204 is expanded outwards, and in practical use, after entering the expansion area 301, the liquid flowing down the coverlet flows in the direction away from the breathable layer 201 under the guidance of the waterproof layer 204, and can leave the waterproof layer 204 at the farthest position away from the breathable layer 201, so as to fall at the position away from the medical staff's shoes 401, the purpose of protecting the shoe 401 and preventing the shoe 401 from being wetted is achieved.

Example 4

To solve this problem, the main difference between this embodiment 4 and the above embodiment 1 or embodiment 2 is that, in the medical gown provided in this embodiment 4, the lower end of the front sheet 101 is turned or curled upward and forms a groove for receiving and collecting water, as shown in fig. 10 and 11, so that the water falling down the gown can be accumulated in the groove to prevent the water from directly falling to the ground, thereby effectively solving the problem of wetting the ground of the operating room.

The groove has various forming manners, for example, a steel wire or an iron wire for shaping is configured in the waterproof layer 204 at the lower edge of the front sheet 101, as shown in fig. 10 and 11, so that the waterproof layer 204 at the lower end of the front sheet 101 can be turned or curled upward or inward, thereby forming the groove.

In order to facilitate the drainage of the accumulated water in the groove, in a further scheme, the water collector further comprises a collecting bag and a connecting pipe, one end of the connecting pipe is fixed on the front sheet 101 and communicated with the groove, and the other end of the connecting pipe is connected with the collecting bag and communicated with the collecting bag, as shown in fig. 10 and 11, under the action of gravity, the water in the groove can enter the collecting bag through the connecting pipe, so that the purpose of collection is achieved.

And in order to facilitate empting the water in the collecting bag, the sack department of collecting the bag is constructed there is the external screw thread, the one end of connecting pipe be constructed have with the internal thread of external screw thread looks adaptation, the collecting bag can be connected in the connecting pipe through external screw thread and internal screw thread cooperation detachable to be convenient for take off the collecting bag and empty the water in the collecting bag.

In order to ensure even stress, in a more perfect scheme, two collecting bags are respectively arranged on two sides of the medical gown and are respectively communicated with the groove through connecting pipes.

By way of example, the connection tube may preferably be a hose.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. A waterproof and breathable medical gown is characterized by comprising a front piece, rear pieces and sleeves, wherein the rear pieces are respectively arranged on two sides of the front piece;

the front piece and the sleeves comprise a breathable layer arranged on the inner side, a waterproof layer arranged on the outer side and a plurality of isolating blocks arranged between the breathable layer and the waterproof layer, a set distance is reserved between every two adjacent isolating blocks to form a breathable channel, and the isolating blocks are set to be thick to separate the breathable layer from the waterproof layer;

the back piece comprises a breathable layer and a plurality of clothes belts fixed on the breathable layer, and the breathable layer of the back piece is connected with the breathable layer of the front piece.

2. The waterproof, breathable medical gown of claim 1 wherein the spacer blocks are sponge blocks;

and/or the thickness of the isolation block is 3-5 cm.

3. The waterproof and breathable medical gown according to claim 1, wherein a plurality of connecting bands are further provided at the edges of the waterproof layer, and both ends of the connecting bands are connected to the breathable layer and the waterproof layer, respectively.

4. The waterproof breathable medical gown of claim 1 wherein the breathable layer is made of cotton cloth;

and/or the waterproof layer is made of waterproof coating fabric, gore-tex fabric, Dry-Tec fabric, microfiber heat preservation cotton, silica gel or plastic film.

5. The waterproof breathable medical gown of claim 1 wherein the breathable layer is constructed with a plurality of breathable apertures.

6. The waterproof and breathable medical gown as claimed in any one of claims 1 to 5, wherein breathable openings are further formed between the front panels and the sleeves at positions corresponding to armpit positions.

7. The waterproof breathable medical gown of any one of claims 1 to 5 wherein the lower end of the front panel is configured with an expansion zone, the thickness of the spacer in the expansion zone being greater than the thickness of the spacer at the remaining portion of the front panel to increase the distance between the waterproof layer and the breathable layer to allow the waterproof layer to expand outwardly.

8. The waterproof breathable medical gown of claim 7 wherein the spacer is of progressively increasing thickness in the expansion zone and in the direction from the upper end to the lower end of the front panel;

or the thickness of the isolation block is increased and then kept unchanged.

9. The waterproof breathable medical gown of any one of claims 1 to 5 wherein the waterproof layer at the lower edge of the front panel is constructed with shaped steel or iron wires to allow the waterproof layer at the lower end of the front panel to be turned or curled upwardly or inwardly and to form a groove for receiving and collecting water.

10. The waterproof breathable medical gown of claim 9 further including a collection bag and a connection tube, one end of the connection tube is fixed to the front panel and communicates with the groove, the other end of the connection tube is connected to and communicates with the collection bag, and the collection bag is detachably connected to the connection tube.

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