CN108542586B - Active armpit drying supporting device - Google Patents

Abstract

The invention discloses an active armpit drying supporting device, which mainly comprises a non-woven fabric layer, a breathable water-absorbing layer and a ventilation area which are sequentially arranged from outside to inside; the ventilation and water absorption layer is used for half wrapping the outside of the ventilation area, a plurality of transverse ventilation pipes are axially arranged in the ventilation area, water absorption sponge is filled in the outside of the transverse ventilation pipes, and a heating Wen Daosi is arranged on the inner surface of the ventilation and water absorption layer; a turbofan is arranged in the middle of the ventilation zone, the upper part of the turbofan is provided with an air inlet main pipeline, the lower part of the turbofan is provided with an air outlet main pipeline, the two sides of the turbofan are provided with battery bins, and the outlet of the air outlet main pipeline corresponds to the position of an air outlet hole arranged on the non-woven fabric layer; the air-permeable water-absorbing layer and the interval area on the outer surface of the ventilation area form an air inlet area, the air inlet area is communicated with the main air inlet pipeline, and the bottom end of the air inlet area is connected with the outside of the ventilation area in a sealing way. The sweat-discharging device is simple in structure, reasonable in design and convenient to operate, sweat can be conveniently discharged and dried from the armpit, and the comfort level of a user is improved.

Description

Active armpit drying supporting device

Technical Field

The invention relates to the technical field of medical appliances, in particular to an active armpit drying and supporting device.

Background

Radiation therapy is one of the main means for treating tumors, and is increasingly applied to the treatment of patients with middle and advanced tumors. Because of the dual effects of medical rays on direct injury and ionizing radiation of normal skin mucous membrane, DNA of basal lamina stem cells is damaged by rays, cell regeneration is blocked, especially, the parts which are thinner in skin, easy to rub, rich in sweat glands and easy to be stimulated by excrement, such as armpits, perineum, groin and the like, have poor radiation tolerance, and along with the continuous increase of irradiation dose, the local skin reaction degree is aggravated, the parts are shown to be red, itchy, pigmentation, thickening and rough, pores are rough and black, wet desquamation, blisters can appear in serious cases, and then the serious cases are forced to interrupt radiotherapy, so that the economic burden of patients is increased, and the radiotherapy effect is also influenced. Particularly in summer with hot climate, sweat can irritate skin due to easy sweating of armpits, and increase radiation effect of radioactive rays, and the vulnerability is high after radiation irradiation. In addition, the skin at the armpit is easy to rub due to the fact that the skin cannot be supported, the damage degree of the skin is increased, and healing of wound surfaces is not facilitated. Therefore, the exposure ventilation of the damaged skin is enhanced, the observation and nursing of the damaged skin are facilitated, and the smooth proceeding of the radiotherapy is facilitated. Exposure ventilation is also required for patient irradiation during treatment, but exposure irradiation also severely affects patient self-esteem due to the specificity of the irradiation site.

In addition, after a patient is in bed for a long time, muscle atrophy, subcutaneous fat reduction, skin relaxation, lower limb movement reduction, easy adhesion of armpit skin, more sweat on the armpit, skin irritation caused by sweat, and skin flushing, eczema, infection, ulcer and pressure sore are easy to occur, the illness state of the patient is easy to aggravate, the treatment project and the treatment cost of the patient are increased, and the hospitalization time and the treatment time are prolonged.

It is therefore desirable to provide a new armpit drying support which addresses the above-mentioned problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing an active armpit drying and supporting device which is convenient for drying and supporting armpits.

In order to solve the technical problems, the invention adopts a technical scheme that: an active armpit drying supporting device is provided, which mainly comprises a non-woven fabric layer, a breathable water-absorbing layer and a ventilation area which are sequentially arranged from outside to inside;

The ventilation and water absorption layer is used for half wrapping the outside of the ventilation area, a plurality of transverse ventilation pipes are axially arranged in the ventilation area, water absorption sponge is filled in the outside of the transverse ventilation pipes, and a heating Wen Daosi is arranged on the inner surface of the ventilation and water absorption layer;

A turbofan is arranged in the middle of the ventilation zone, the upper part of the turbofan is provided with an air inlet main pipeline, the lower part of the turbofan is provided with an air outlet main pipeline, the two sides of the turbofan are provided with battery bins, and the outlet of the air outlet main pipeline corresponds to the position of an air outlet hole arranged on the non-woven fabric layer;

the air-permeable water-absorbing layer and the interval area on the outer surface of the ventilation area form an air inlet area, the top of the air-permeable water-absorbing layer is communicated with the main air inlet pipeline, and the bottom of the air-permeable water-absorbing layer is in sealing connection with the outside of the ventilation area.

In a preferred embodiment of the present invention, the top of the breathable water-absorbing layer uses an arched support frame as a support, so that the breathable water-absorbing layer is stable in structure, a layer of first breathable film is provided on the inner surface and the outer surface, so that water and water vapor can be conveniently permeated, a plurality of loose water-absorbing sponge breathable pipes are axially provided inside, at least one transverse ventilation pipe is arranged between two adjacent loose water-absorbing sponge breathable pipes, hydrophilic polymer water-absorbing sponge is filled around the transverse ventilation pipe and the loose water-absorbing sponge breathable pipes, and water vapor of the non-woven fabric layer can be absorbed in a large amount, so as to keep the surface of the non-woven fabric layer fresh and dry.

Further, the cross section of the porous water absorbing sponge ventilation pipe is in an hourglass shape, so that a ventilation channel is formed between two adjacent porous water absorbing sponge ventilation pipes, and the porous water absorbing sponge not only can be used as a support structure of a ventilation water absorbing layer, but also can increase ventilation capacity and actively discharge part of water vapor.

Further, the arched support frame is made of breathable skin-friendly hydrocolloid materials, so that comfort level of a user is improved.

In a preferred embodiment of the present invention, the transverse ventilation pipe includes a transverse air inlet pipe located at the front end of the breathable water-absorbing layer, and a transverse air outlet pipe located at the rear end of the breathable water-absorbing layer, so that air convection is formed in the breathable water-absorbing layer.

Furthermore, the diameter of each transverse ventilation pipe is determined according to the thickness of the breathable water-absorbing layer, and the outer surface is densely provided with tiny ventilation holes, so that the ventilation pipe can be permeable to water and has good air ventilation. The thickness of the breathable water-absorbing layer gradually increases from top to bottom, so that the diameter of the transverse ventilation pipe gradually increases from top to bottom.

In a preferred embodiment of the present invention, a layer of second water permeable film is disposed at the bottom of the air inlet area and is connected with the outside of the air inlet area in a sealing manner, and a drainage channel is formed by the lower part of the air inlet area, the lower part of the air permeable and water absorbing layer, the outer surface of the lower part of the air inlet area and the inner surface of the lower part of the non-woven fabric layer. The air inlet area is used for allowing the second permeable membrane to permeate out the excessive water discharged by the breathable water absorbing layer, and the excessive water is discharged through the air outlet hole by the drainage channel.

In a preferred embodiment of the present invention, a battery is built in the battery compartment, and the battery supplies power to the turbofan and the heating guide wire.

In a preferred embodiment of the present invention, the nonwoven layer is a replaceable layer, increasing the comfort of the user.

The beneficial effects of the invention are as follows:

(1) The utility model discloses simple structure, reasonable in design, convenient operation, directly place under the armpit, not only play the supporting role, open turbofan moreover can conveniently carry out perspiration drying to the armpit, when patient's daily activity, fully expand armpit department skin, strengthen the exposure ventilation of impaired skin, greatly reduced the flooding of sweat and the friction of local skin, avoid impaired department skin to further aggravate, be favorable to impaired skin's observation and nursing, improved user's comfort level, be favorable to going on smoothly of radiotherapy;

(2) By arranging the turbofan in the ventilation area, the ventilation capacity of the drying supporting device is obviously improved; the non-woven fabric layer not only can increase the comfort degree of the skin contact surface, but also can transfer moisture to the breathable water-absorbing layer; the water absorbing sponge arranged in the breathable water absorbing layer can absorb a large amount of water and vapor, part of vapor is actively discharged, the transverse ventilation pipe is communicated with the outside to form air convection to passively discharge part of vapor, and Wen Daosi is added to accelerate the water to be discharged through the transverse ventilation pipe and the water absorbing sponge; the steam passes through the air inlet area and the main air inlet pipeline, and the turbofan drives air to flow and then is discharged from the main exhaust pipeline, so that the turbofan in the air inlet area increases air convection, and active evaporation drying is realized.

Drawings

FIG. 1 is a schematic longitudinal section of a preferred embodiment of an active armpit drying support apparatus according to the present invention;

FIG. 2 is a schematic view of the structure of the active armpit dry support device with the nonwoven fabric layer removed;

The components in the drawings are marked as follows: 1. non-woven fabrics layer, 2, ventilative water absorption layer, 21, arch support frame, 22, loose water absorption sponge permeability cell, 23, horizontal ventilation pipe, 231, horizontal air-supply line, 232, horizontal play tuber pipe, 24, hydrophilic polymer water absorption sponge, 25, first water permeable membrane, 3, ventilation area, 4, exhaust hole, 5, turbofan, 6, main air inlet pipeline, 7, main air exhaust pipeline, 8, battery compartment, 9, air inlet area, 10, second water permeable membrane, 11, drainage channel.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present invention.

Referring to fig. 1 and 2, an embodiment of the present invention includes:

An active armpit drying supporting device mainly comprises a non-woven fabric layer 1, a breathable water-absorbing layer 2 and a ventilation area 3 which are sequentially arranged from outside to inside. The longitudinal section of the drying supporting device is irregularly shaped like a rugby, and the central cross section is positioned at the lower part.

The surface of the drying supporting device is covered with non-woven fabrics and is mainly used for skin contact. The non-woven fabric layer 1 not only can increase the comfort level of the skin contact surface, but also can transfer moisture to the breathable water-absorbing layer 2, and can be replaced at any time. The bottom end of the non-woven fabric layer 1 is opened to serve as an exhaust hole 4 of the drying and supporting device.

The longitudinal section of the ventilation area 3 is in an irregular football shape as shown in fig. 1, a turbofan 5 is arranged in the middle of the ventilation area, the upper part of the turbofan 5 is provided with an air inlet main pipeline 6, the lower part of the turbofan is provided with an air exhaust main pipeline 7, the two sides of the turbofan are provided with battery bins 8, batteries are arranged in the battery bins 8, and the outlet of the air exhaust main pipeline 7 corresponds to the position of the air exhaust hole 4. For facilitating the installation of the turbofan 5 and the battery compartment 8, the upper part of the cross section of the ventilation area is rectangular, and the lower part is semi-elliptical.

According to the shape of ventilation district 3, ventilative layer 2 that absorbs water is half to wrap up in the outside on ventilation district 3 rectangle upper portion, the top uses arch support frame 21 as the support, makes ventilative layer 2 that absorbs water's structure firm, preferably, arch support frame 21 is ventilative hydrophilic hydrocolloid material, increases user's comfort level.

The inside axial of ventilative water absorption layer 2 is provided with a plurality of loose sponge permeability cell 22 that absorbs water, the cross-section of loose sponge permeability cell 22 is the hourglass shape, makes and forms a ventilative passageway between two adjacent loose sponge permeability cell 22 that absorbs water, and loose sponge that absorbs water not only can be as the bearing structure of ventilative water absorption layer 2, can increase the ventilation volume moreover, initiatively discharges partial steam.

In order to further increase air circulation, two transverse ventilation pipes 23 are arranged between two adjacent loose water absorbing sponge ventilation pipes 22, and hydrophilic polymer water absorbing sponge 24 is filled around the transverse ventilation pipes 23 and the loose water absorbing sponge ventilation pipes 22, so that water and water vapor of the non-woven fabric layer 1 can be absorbed in a large amount, and the surface of the non-woven fabric layer 1 is kept fresh and dry. Referring to fig. 2, the transverse ventilation pipes 23 include a transverse air inlet pipe 231 located at the front end of the air-permeable and water-absorbent layer 2, and a transverse air outlet pipe 232 located at the rear end of the air-permeable and water-absorbent layer 2, where the diameter of each transverse ventilation pipe 23 is determined according to the thickness of the air-permeable and water-absorbent layer 2, and tiny ventilation holes (not shown in the figure) are densely distributed on the outer surface of the transverse ventilation pipe, so that water can permeate and air can flow well. In this embodiment, the thickness of the breathable water-absorbing layer 2 increases gradually from top to bottom, so that the diameter of the transverse ventilation pipe 23 increases gradually from top to bottom, and the transverse ventilation pipe 231 and the transverse air outlet pipe 232 are communicated with the outside to form air convection to carry away part of the water vapor of the breathable water-absorbing layer 2. Preferably, the transverse ventilation pipe 23 is pressed into a pipe shape by adopting a low-density high-elasticity sponge mold, so that the transverse ventilation pipe can be used as a moisture guide pipeline for ventilation and drying and can be used as an auxiliary supporting structure of the whole drying supporting device.

The inner surface and the outer surface of the breathable water-absorbing layer 2 are respectively provided with a layer of first water-permeable film 25, which is used for separating the breathable water-absorbing layer 2 from the non-woven fabric layer 1 and the ventilation zone 3, and can be used for transmitting water and vapor to prevent the water and the vapor from returning to the breathable water-absorbing layer 2. In addition, a heating Wen Daosi (not shown in the figure) is longitudinally arranged on the inner surface, and a battery in the battery compartment 8 supplies power for the turbofan 5 and the heating guide wire. The loose water-absorbing sponge ventilation pipe 22 and the hydrophilic polymer water-absorbing sponge 24 are heated by adding Wen Daosi to accelerate the water to be discharged through the transverse ventilation pipe 23 and the water-absorbing sponge.

The interval region of ventilative water absorption layer 2 and ventilation district 3 surface forms air inlet district 9, and air inlet district 9's top and inlet main pipe 6 intercommunication, bottom set up one deck second water permeable membrane 10 and the outside sealing connection of ventilation district 3, the lower part of air inlet district 9, the lower part of ventilative water absorption layer 2, the surface of ventilation district 3 lower part and the internal surface of non-woven fabrics layer 1 lower part form drainage channel 11. The air inlet area 9 seeps out the excessive moisture discharged from the breathable water-absorbing layer 2 through the second water-permeable membrane 10, and is discharged through the air outlet 4 through the water outlet channel 11.

In use, the turbofan 5 is turned on to actively provide air circulation for the entire device. The water or the steam on the non-woven fabric layer 1 is absorbed by the loose water absorbing sponge ventilation pipe 22 and the hydrophilic polymer water absorbing sponge 24 of the ventilation water absorbing layer 2, one part of the steam is passively discharged through the transverse ventilation pipe 23, the other part of the steam is discharged into the air inlet area 9 through the first water permeable film 25, the steam passes through the air inlet area 9 and the air inlet main pipeline 6, the turbofan 5 drives air to flow and then is discharged through the air exhaust main pipeline 7 and the air exhaust hole 4, and the turbofan 5 in the ventilation area 3 increases air convection, so that active evaporation drying is realized. In addition, heating Wen Daosi also accelerates the evaporation of water in the breathable water-absorbent layer 2.

To facilitate the fixing of the device under the armpit, the drying support is provided with shoulder fasteners (not shown) outside the nonwoven layer 1, which may be arms, ties, etc.

The utility model discloses simple structure, reasonable in design, convenient operation, the direct placement is in the armpit, opens turbofan and can conveniently carry out the perspiration drying to the armpit, when patient's daily activity, fully opens armpit department skin, strengthens the exposure ventilation of impaired skin, has greatly reduced the flooding of sweat and the friction of local skin, avoids impaired department skin to further aggravate, is favorable to the observation and the nursing of impaired skin, has improved user's comfort level, is favorable to going on smoothly of radiotherapy.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims (7)

1. An active armpit drying and supporting device is characterized by comprising a non-woven fabric layer, a breathable water-absorbing layer and a ventilation area which are sequentially arranged from outside to inside;

The ventilation and water absorption layer is used for half wrapping the outside of the ventilation area, a plurality of transverse ventilation pipes are axially arranged in the ventilation area, water absorption sponge is filled in the outside of the transverse ventilation pipes, and a heating Wen Daosi is arranged on the inner surface of the ventilation and water absorption layer;

A turbofan is arranged in the middle of the ventilation zone, the upper part of the turbofan is provided with an air inlet main pipeline, the lower part of the turbofan is provided with an air outlet main pipeline, the two sides of the turbofan are provided with battery bins, and the outlet of the air outlet main pipeline corresponds to the position of an air outlet hole arranged on the non-woven fabric layer;

the air-permeable water-absorbing layer and the interval area on the outer surface of the ventilation area form an air inlet area, the top of the air-permeable water-absorbing layer is communicated with the main air inlet pipeline, and the bottom of the air-permeable water-absorbing layer is connected with the outside of the ventilation area in a sealing manner;

The top of the breathable water-absorbing layer takes an arched supporting frame as a bracket, a layer of first water-absorbing film is arranged on the inner surface and the outer surface, a plurality of loose water-absorbing sponge air-permeable pipes are axially arranged in the air-absorbing layer, at least one transverse ventilation pipe is arranged between every two adjacent loose water-absorbing sponge air-permeable pipes, and hydrophilic polymer water-absorbing sponge is filled around the transverse ventilation pipe and the loose water-absorbing sponge air-permeable pipes;

the bottom of the air inlet area is provided with a layer of second water permeable film which is in sealing connection with the outside of the air inlet area, and the lower part of the air inlet area, the lower part of the air permeable water absorbing layer, the outer surface of the lower part of the air inlet area and the inner surface of the lower part of the non-woven fabric layer form a drainage channel.

2. The active axillary drying support according to claim 1, wherein the porous absorbent sponge air permeability tube is hourglass shaped in cross-section.

3. The active axillary drying support of claim 1 wherein said arched support is a breathable skin friendly hydrocolloid material.

4. The active axillary drying support according to claim 1, wherein the transverse ventilation tube comprises a transverse air inlet tube at the front end of the air-permeable water-absorbing layer and a transverse air outlet tube at the rear end of the air-permeable water-absorbing layer.

5. The active axillary drying support of claim 4 wherein the diameter of each lateral ventilation tube is based on the thickness of the air permeable and water absorbent layer and the outer surface of the lateral ventilation tube is densely covered with tiny ventilation holes.

6. The active axillary drying support device of claim 1 wherein a battery is built into said battery compartment, said battery powering a turbo fan and a warming guide wire.

7. The active axillary drying support of claim 1 wherein said nonwoven layer is a replaceable layer.