CN210277457U - Cold and hot application of nasal part - Google Patents

Abstract

The utility model relates to a nasal part cold and hot application, which comprises a triangular multilayer structure fitting the outline of the nose bridge and two sides, wherein the triangular multilayer structure comprises a nasal part shaping layer, a nasal part heat insulation layer and a nasal part energy storage layer which are sequentially laminated from outside to inside; the nose shaping layer is made of a semi-flexible material with shaping capacity; the nose energy storage layer is a sealing structure with two layers of shells, and an internal cavity is filled with energy storage materials; a division bar is arranged between the two layers of shells of the nose energy storage layer, and the division bar connects and shapes the two layers of shells of the energy storage layer to limit the distance between the two layers of shells; the thickness of the nasal energy storage layer corresponding to the position where blood vessels on two sides of the nose bridge are concentrated is larger than that of other positions, and the height of the position corresponding to the division bar is higher than that of other positions. Through multilayer structure's integrated design and inner structure's pertinence adjustment, the utility model discloses a pasting that nasal part cold and hot compress ointment or plaster is effectual and ageing long.

Description

Cold and hot application of nasal part

Technical Field

The utility model belongs to the technical field of medical auxiliary instrument, concretely relates to cold and hot application of nasal part.

Background

The nose is the most prominent part of the face and is easy to be injured by external force, and the nasal bone fracture is the common trauma of the otolaryngological department, and accounts for about 50 percent of trauma diseases of the otolaryngological department. Depending on the extent of the trauma, some or all of the following may occur: (1) external nasal deformity, resulting from nasal bone fracture; (2) swelling, swelling of the outer nose and surrounding tissues; (3) epistaxis can occur when the nasal mucosa and blood vessels are injured; (4) nasal obstruction, swelling of the nasal mucosa, deflection of the nasal septum, hematoma of the nasal septum; (5) the nasal clear water sample flows out to prompt cerebrospinal fluid leakage; (6) visual deterioration, and damage to the orbital wall and optic nerve; (7) headache, loss of consciousness, intracranial trauma potential. In order to relieve the discomfort of the patient, the effect of nasal correction is improved, the recovery period is shortened, and the nasal part is required to be regularly subjected to cold compress or hot compress after the correction. However, the existing nose part applying device is poor in applying effect, particularly cold application effect, heat exchange is often carried out with the external environment after the nose part applying device is attached to the nose part, the cold application effect can be generated only when the nose part applying device is just attached to the nose part, replacement is needed for prolonging the cold application time, operation is inconvenient, and materials are wasted. Moreover, the existing nasal cold compress device has no targeted design for blood vessel concentrated areas on two sides of the nose bridge, can not effectively promote local vasoconstriction, and has unobvious effects of detumescence and analgesia.

SUMMERY OF THE UTILITY MODEL

To the technical problem that the nasal part that applies ointment or plaster applies the effect not good, the ageing is short among the prior art, the utility model aims to provide a cold and hot application of nasal part that the application is effectual and ageing is long applies ointment or plaster.

The cold and hot nasal part applying plaster comprises a triangular multilayer structure fitting the outline of the nose bridge and the outline of two sides, wherein the triangular multilayer structure comprises a nasal part shaping layer, a nasal part heat insulation layer and a nasal part energy storage layer which are sequentially laminated from outside to inside;

the nose shaping layer is made of a semi-flexible material with shaping capacity;

the nose energy storage layer is a sealing structure with two layers of shells, and an internal cavity is filled with energy storage materials; a division bar is arranged between the two layers of shells of the nose energy storage layer, and the division bar connects and shapes the two layers of shells of the energy storage layer to limit the distance between the two layers of shells; the thickness of the nasal energy storage layer corresponding to the position where blood vessels on two sides of the nose bridge are concentrated is larger than that of other positions, and the height of the position corresponding to the division bar is higher than that of other positions.

Preferably, the nose energy storage layer is divided into three independent areas, namely a middle area corresponding to the position of the nose bridge and under-eye areas on two sides of the nose bridge; the division bars are transversely and uniformly arranged in the three areas and divide the cavities of the three areas into a zigzag shape, a snake shape or a labyrinth shape.

The utility model discloses a cold and hot soft or hard of applying ointment or plaster of nasal part is moderate, has certain flexibility and moulding nature. When not used, the mask can be spread into a plane, and can be bent into a three-dimensional structure to fit the nose of a patient when used. During the cold and hot application of nasal part, the outside moulding layer of nasal part plays the effect of supporting the design, inboard be full of energy storage material in the nasal part energy storage layer and be used for saving cold volume or heat, can play the effect of cold compress or hot compress when hugging closely patient nasal part and both sides, and middle the nasal part insulating layer then is used for slowing down energy storage layer and external environment's energy exchange promotes the cold and hot application of nasal part is applied effect and extension action time. In addition, be equipped with between the two-layer casing on nasal part energy storage layer the parting bead will the design is connected to the two-layer casing on energy storage layer, prescribes a limit to the distance between the two-layer casing, can avoid the two-layer casing on nasal part energy storage layer expands or contracts, and then avoids energy storage material to flow to one side under the effect of gravity, guarantees that energy storage material distributes evenly in the cavity, and then can improve the homogeneity of cold compress or hot compress. And the nasal part energy storage layer is thicker at the position corresponding to the blood vessel concentration at the two sides of the nose bridge, so that the energy storage material at the position is more filled, the cold compress or hot compress effect is better and sufficient, and the application effect can be effectively improved. Especially, when cold compress is performed, local vasoconstriction can be effectively promoted, bleeding of small blood vessels is controlled, pain of mass with large tension is relieved, and the effects of detumescence and pain relief are achieved.

Preferably, the energy storage material is a semisolid, colloidal or liquid material with a large specific heat capacity, such as gel, cold storage agent and the like.

Some preferred embodiments of the present invention further comprise a nose pad; the two ends of the nose support are provided with first fixing buckles, and the middle of the nose support is provided with an adsorption ball fitting nostrils; and first concave holes for accommodating and fixing the first fixing buckles are formed in two corner positions of the lower side of the triangular multilayer structure.

The effect of nose pad is arranged in adsorbing the postoperative patient nostril and flows blood, avoids blood to flow out and arouses patient's discomfort, prevents to pollute the clothing simultaneously.

Preferably, the nose pad can be designed to be a disposable product.

Or better, for the body of nose pad, adsorb the ball and be detachable construction, the accessible is pasted or structure such as card hole is connected fixedly, adsorb the ball and be disposable article such as cotton ball etc. convenient change and with low costs.

Some preferred embodiments of the present invention further comprise an orbit multilayer structure for fitting the outline of the orbit, wherein the orbit multilayer structure comprises an orbit shaping layer, an orbit thermal insulation layer and an orbit energy storage layer which are sequentially laminated from outside to inside;

the orbit shaping layer is made of a semi-flexible material with shaping capacity;

the eye socket energy storage layer is also a sealing structure of two layers of shells, and an internal cavity is filled with energy storage materials;

ear fixing bands are arranged at two ends of the eye socket multi-layer structure;

eye socket multilayer structure middle section is the fit the notch in the angle is gone up to triangle multilayer structure, the notch both sides are equipped with the fixed knot of second, triangle multilayer structure is gone up the angle both sides and is equipped with and is used for holding fixedly the second shrinkage pool that the second was fixed to be detained.

In some preferred embodiments of the present invention, the facial side of the nasal energy storage layer is provided with a soft, skin-friendly facial thin layer. The thin veneering layer can be designed into a disposable article, can be detachably adhered to the energy storage layer, and only needs to be replaced when different people or different time carry out cold compress. The rest structures without the facing thin layer can be reused, so that the cost can be effectively reduced, and the sanitary safety of users can be ensured.

Preferably, the surface of the nose facing thin layer is provided with microvilli. Can improve the sense of the application experience of the patient.

Preferably, the periphery of the surface of the nose energy storage layer is provided with an adhesive tape. The sticky tape can be convenient the energy storage layer pastes on patient's nose, avoids attached inseparable or landing.

Preferably, the nose plastic layer is an aluminum film or an aluminum/plastic composite film. The plastic has certain softness and is convenient to shape, and has certain hardness to keep shape.

Preferably, the nose heat insulation layer is heat insulation cotton. The nose heat-insulating layer and the eye socket heat-insulating layer can effectively slow down heat exchange between the nose heat-storing layer and the eye socket heat-storing layer and an external environment, and further reduce the dissipation rate of heat or cold.

Preferably, the material and preferred scheme of the orbit multilayer structure can also be designed similarly with reference to the triangular multilayer structure.

The utility model has the advantages that:

1. the utility model discloses a cold and hot soft or hard of applying ointment or plaster of nasal part is moderate, has certain flexibility and moulding nature. When not used, the mask can be spread into a plane, and can be bent into a three-dimensional structure to fit the nose of a patient when used. During the cold and hot application of nasal part, the outside moulding layer of nasal part plays the effect of supporting the design, inboard be full of energy storage material in the nasal part energy storage layer and be used for saving cold volume or heat, can play the effect of cold compress or hot compress when hugging closely patient nasal part and both sides, and middle the nasal part insulating layer then is used for slowing down energy storage layer and external environment's energy exchange promotes the cold and hot application of nasal part is applied effect and extension action time.

2. Be equipped with between the two-layer casing on nasal part energy storage layer the parting bead will the design is connected to the two-layer casing on energy storage layer, prescribes a limit to the distance between the two-layer casing, can avoid the two-layer casing on nasal part energy storage layer expands or contracts, and then avoids energy storage material to flow to one side under the effect of gravity, guarantees that energy storage material distributes evenly in the cavity, and then can improve the homogeneity of cold compress or hot compress. And the nasal part energy storage layer is thicker at the position corresponding to the blood vessel concentration at the two sides of the nose bridge, so that the energy storage material at the position is more filled, the cold compress or hot compress effect is better and sufficient, and the application effect can be effectively improved. Especially, when cold compress is performed, local vasoconstriction can be effectively promoted, bleeding of small blood vessels is controlled, pain of mass with large tension is relieved, and the effects of detumescence and pain relief are achieved.

In a word, through multilayer structure's integrated design and inner structure's pertinence adjustment, the utility model discloses a nasal part cold and hot application's subsides apply effectually and ageing long.

Drawings

FIG. 1 is a schematic view showing a flat state of the nasal hot and cold application of embodiment 1;

FIG. 2 is a schematic view showing a three-dimensional state of the nasal hot and cold application patch of embodiment 1;

FIG. 3 is a schematic view of the nasal energy storage layer of the nasal hot and cold application of example 1;

FIG. 4 is a schematic view showing the internal structure of the nasal energy storage layer of the nasal hot and cold application of example 1;

FIG. 5 is a schematic view showing a combination of the nasal hot and cold application and the nose pad of embodiment 2;

fig. 6 is a schematic representation of the orbital multilayer structure of example 3;

FIG. 7 is a schematic view of the combination of the nasal cold and hot application, nasal splint and orbital multi-layer structure of example 3;

FIG. 8 is a schematic view of the cold and hot nasal application of embodiment 5.

Reference numerals

The nose energy storage structure comprises a triangular multilayer structure 1, a nose shaping layer 11, a nose heat insulation layer 12, a nose energy storage layer 13, a protruding structure 131 and a division bar 132 (comprising 132a and 132 b); a first recess 14; an adhesive tape 15;

the nose pad 2, a body 21, a first fixing buckle 22 and an adsorption ball 23;

an orbital multi-layer structure 3, an ear fixing band 31, a notch 32 and a second fixing buckle 33.

Detailed Description

The present invention will be further described with reference to the following specific examples. It should be understood that the following examples are illustrative only and are not intended to limit the scope of the present invention.

Example 1

Fig. 1 and 2 show two forms of the nasal cold and hot compress of a preferred embodiment of the present invention, which has moderate hardness, certain flexibility and shaping, and can be bent into a solid structure and shaped at will. When not used, the mask can be spread into a plane, and can be bent into a three-dimensional structure to fit the nose of a patient when used. The embodiment specifically relates to a triangular multilayer structure 1 for fitting the outline of the nose bridge and the outline of two sides, wherein the triangular multilayer structure 1 comprises a nose shaping layer 11, a nose heat insulation layer 12 and a nose energy storage layer 13 which are sequentially attached from outside to inside.

The outer nose shaping layer 11 plays a role in supporting and shaping, and therefore a semi-flexible material with shaping capacity, such as an aluminum film or an aluminum/plastic composite film, needs to be adopted, so that the nose shaping layer has certain flexibility and is convenient to shape, and has certain hardness to keep shaping.

The nasal part heat insulation layer 12 in the middle is used for slowing down the energy exchange between the nasal part energy storage layer 13 and the external environment, so that the heat or cold dissipation rate is reduced, the cold and hot application effect of the nasal part is improved, the action time is prolonged, and the nasal part heat insulation layer can be made of heat insulation cotton.

The inner nose energy storage layer 13 is a sealing structure with two layers of shells, the shells are preferably skin-friendly plastic thin layers, and the inner cavities are filled with semisolid, colloidal or liquid energy storage materials for storing cold or heat, so that the nasal cavity can be tightly attached to the nose and two sides of a patient to play a role in cold compress or hot compress when in use. As shown in fig. 3, the nasal energy storage layer 13 is specially designed for the contour of the nose, and has a protruding structure 131 on the side close to the nasal thermal insulation layer 12, wherein the thickness of the nasal energy storage layer corresponding to the position where blood vessels on the two sides of the bridge of the nose are concentrated is greater than that of the other positions. As shown in fig. 4, the nasal energy storage layer 13 is divided into three independent regions, namely a middle region 13a corresponding to the position of the nose bridge and an under-eye region 13b corresponding to both sides of the nose bridge; the division bars 132 are arranged between the two layers of the shells of the nose energy storage layer 13, the division bars 132 are transversely and uniformly arranged in three regions (including 132a and 132b), the two layers of the shells of the nose energy storage layer 13 are connected and shaped by the division bars 132, the distance between the two layers of the shells is limited, and the cavities of the three regions are divided into S-shaped folding cavities. In order to make the thickness of the nasal energy storage layer 13 corresponding to the position where the blood vessels on the two sides of the nasal bridge are concentrated larger than the thickness of the nasal energy storage layer at other positions, the height of the division bar 132b corresponding to the position in the under-eye region 13b on the two sides is higher than that of the other positions, and the division bar is matched with the convex structure 131. The parting bead 132 is connected the design with the two-layer casing of nasal part energy storage layer 13, prescribes a limit to the distance between the two-layer casing, can avoid the two-layer casing of nasal part energy storage layer 13 to expand or contract, and then avoids energy storage material to flow to one side under the effect of gravity, guarantees that energy storage material distributes evenly in the cavity, and then can improve the homogeneity of cold compress or hot compress. And the nasal part energy storage layer 13 is thicker at the position corresponding to the blood vessel concentration on the two sides of the nose bridge, so that the energy storage material at the position is more filled, the cold compress or hot compress effect is better and sufficient, and the application effect can be effectively improved. Especially, when cold compress is performed, local vasoconstriction can be effectively promoted, bleeding of small blood vessels is controlled, pain of mass with large tension is relieved, and the effects of detumescence and pain relief are achieved.

Before use, the nose cold and hot application can be pre-cooled or heated to a preset temperature, then the nose energy storage layer 13 is attached to the nose of a patient, the nose shaping layer 11 on the surface is lightly pressed, the middle area 13a of the nose energy storage layer 13 is attached to the nose bridge, the under-eye area 13b is attached to the blood vessel concentration areas on two sides of the nose bridge, and the nose, namely two side tissues and blood vessels, are subjected to cold or hot application.

Example 2

As shown in fig. 5, the present embodiment further includes a nose pad 2 on the basis of embodiment 1; the two ends of the body 21 of the nose pad 2 are provided with first fixing buckles 22, and the middle is provided with an adsorption ball 23 fitting the nostril; the triangular multi-layer structure 1 is provided with first concave holes 14 at two lower corners for accommodating and fixing first fixing buckles 22.

The nose pad 2 is used for adsorbing blood flowing out of the nostrils of a patient after operation, avoiding discomfort of the patient caused by the blood flowing out and preventing clothes from being polluted. But also can be connected with the triangular multilayer structure 1 for matching and limiting, and can effectively avoid sliding.

Preferably, the nose pad 2 is designed as a disposable article.

Or preferably, for the body of nose pad 2, adsorb ball 23 and be detachable structure, the accessible is pasted or structure such as card hole is connected fixedly, adsorbs ball 23 and is disposable article such as cotton ball, conveniently changes and with low costs.

Example 3

In this embodiment, the orbital multi-layer structure 3 is further included on the basis of the embodiment 2, the structure is shown in fig. 6, the orbital multi-layer structure 3 includes an orbital shaping layer, an orbital thermal insulation layer and an orbital energy storage layer, which are sequentially fitted from outside to inside, and the similar design can be made with reference to the triangular multi-layer structure 1.

The two ends of the orbit multilayer structure 3 are provided with ear fixing belts 31. Orbit multilayer structure 3 middle section is the notch 32 in the angle of fitting triangle multilayer structure, and notch 32 both sides are equipped with the fixed knot 33 of second, and angle both sides are equipped with the second shrinkage pool that is used for holding fixed knot 33 of second in triangle multilayer structure 1.

As shown in fig. 7, the orbital multi-layer structure 3 can be connected to the upper part of the triangular multi-layer structure 1 for applying soft tissues and blood vessels at the orbital part, and can be connected with the triangular multi-layer structure 1 to match with each other for limiting, thereby further improving the wearing stability.

Example 4

In this embodiment, an improvement is made on the basis of embodiment 1, and a soft skin-friendly facing thin layer is further provided on the facing side of the nose energy storage layer 13. The thin facing layer can be designed into a disposable article and can be detachably adhered to the energy storage layer, and only the thin facing layer needs to be replaced when different people or different time carry out cold compress. The rest structures without the veneering thin layer can be reused, so that the cost can be effectively reduced, and the sanitary safety of users can be ensured.

Preferably, the surface of the facing thin layer is provided with microvilli. Can improve the sense of the application experience of the patient.

Example 5

This embodiment is an improvement over embodiment 1 in that an adhesive tape 15 is provided on the periphery of the surface of the nose energy storage layer 13, as shown in fig. 8. The adhesive tape can facilitate the energy storage layer to be stuck on the nose of a patient, and avoid untight sticking or slipping.

While the preferred embodiments of the present invention have been described in detail, it will be understood that the invention is not limited thereto, and that various modifications and substitutions of equivalents may be made by those skilled in the art without departing from the scope of the invention as defined in the appended claims.

Claims (9)

1. The nose cold and hot application is characterized by comprising a triangular multilayer structure for fitting the outline of the nose bridge and the outlines of two sides, wherein the triangular multilayer structure comprises a nose shaping layer, a nose heat insulation layer and a nose energy storage layer which are sequentially attached from outside to inside;

the nose shaping layer is made of a semi-flexible material with shaping capacity;

the nose energy storage layer is a sealing structure with two layers of shells, and an internal cavity is filled with energy storage materials; a division bar is arranged between the two layers of shells of the nose energy storage layer, and the division bar connects and shapes the two layers of shells of the energy storage layer to limit the distance between the two layers of shells; the thickness of the nasal energy storage layer corresponding to the position where blood vessels on two sides of the nose bridge are concentrated is larger than that of other positions, and the height of the position corresponding to the division bar is higher than that of other positions.

2. The nasal cold and hot application of claim 1, wherein the nasal energy storage layer is divided into three separate regions, a middle region corresponding to the position of the bridge of the nose and a region under the eye on either side of the bridge of the nose; the division bars are evenly arranged in three areas in the transverse direction.

3. The nasal cold and hot application of claim 1, further comprising a nose pad; the two ends of the nose support are provided with first fixing buckles, and the middle of the nose support is provided with an adsorption ball fitting nostrils; and first concave holes for accommodating and fixing the first fixing buckles are formed in two corner positions of the lower side of the triangular multilayer structure.

4. The nasal cold and hot application of claim 1, further comprising an orbital multi-layer structure to fit the orbital contour, the orbital multi-layer structure comprising an orbital shaping layer, an orbital thermal insulating layer and an orbital energy storage layer sequentially fitted from outside to inside;

the orbit shaping layer is made of a semi-flexible material with shaping capacity;

the eye socket energy storage layer is also a sealing structure of two layers of shells, and an internal cavity is filled with energy storage materials;

ear fixing bands are arranged at two ends of the eye socket multi-layer structure;

eye socket multilayer structure middle section is the fit the notch in the angle is gone up to triangle multilayer structure, the notch both sides are equipped with the fixed knot of second, triangle multilayer structure is gone up the angle both sides and is equipped with and is used for holding fixedly the second shrinkage pool that the second was fixed to be detained.

5. The nasal cold and hot compress of claim 1, wherein the facial side of the nasal energy storage layer is provided with a soft skin-friendly facial film.

6. A nasal cold and hot dressing according to claim 5, wherein said facing sheet surface has microvilli.

7. The nasal cold and hot application of claim 1, wherein the surface of the energy storage layer of the nose is provided with an adhesive tape at its periphery.

8. The nasal cold and hot application of claim 1, wherein the nasal shaping layer is an aluminum film or an aluminum/plastic composite film.

9. The nasal cold and hot application of claim 1, wherein the nasal insulation layer is insulation cotton.

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