CN221866271U - Medical eye-shade after periocular operation - Google Patents
Medical eye-shade after periocular operation Download PDFInfo
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- CN221866271U CN221866271U CN202323435720.4U CN202323435720U CN221866271U CN 221866271 U CN221866271 U CN 221866271U CN 202323435720 U CN202323435720 U CN 202323435720U CN 221866271 U CN221866271 U CN 221866271U
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- Thermotherapy And Cooling Therapy Devices (AREA)
Abstract
The utility model is suitable for the technical field of medical eyeshields and provides a medical eyeshield after periocular operation, which comprises an eyeshield body, a protective cover and a protective cover, wherein a heat insulation layer is arranged on one side of the eyeshield body, which is far away from a periocular region of a human body; the cold source piece is arranged on one side of the eye shade body facing the human eye circumference area; the cold source part is divided into a plurality of subareas corresponding to each human eye circumference area; each partition is composed of a plurality of three-dimensional cold source bodies; the curved surface formed on one side of the three-dimensional cold source body facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area; the temperature control parts are detachably connected with the partitions respectively, and a single layer of temperature control parts are arranged corresponding to each partition or a plurality of layers of temperature control parts are arranged in a superposition mode. Therefore, the medical eye mask after periocular operation can contact the relatively concave part around the human body, perform controllable temperature cold compress, and improve the cold compress effect of periocular regions of patients for operation.
Description
Technical Field
The utility model relates to the technical field of medical eyeshields, in particular to a medical eyeshield used after periocular operation.
Background
After plastic surgery (eyebrow extraction surgery, eye bag surgery, etc.), the skin around the eyes is thinner, and postoperative operation area and complications such as edema, blood stasis, pain are easy to appear, and the local cold compress method can be used for the symptoms to promote the vasoconstriction of the operation area, reduce the sensitivity of nerve endings, and play the role of stopping bleeding and easing pain.
The traditional ice compress eyeshade approaches to be plane, mixed liquid or a piece of hydrogel is wrapped in a sac cavity, eye holes are reserved at partial symmetrical positions so as to be convenient for exposing eyes, and the ice compress eyeshade is tied on two ears by using a magic tape or an elastic tape. In actual use, the traditional ice compress eyeshade is complicated and irregular in appearance around eyes, so that the actual contact point between the ice compress eyeshade and the eyes is the cheekbone and the cheekbone, the rest parts are basically radiation and cold absorption, the temperature drop of a wound area does not reach the clinical requirement degree, but the cheekbone and the cheekbone, the nose bridge contact point generate stinging sensation, and the human body experience is poor.
In summary, the existing structure is obviously inconvenient and defective in practical use, so that improvement is needed.
Disclosure of utility model
Aiming at the defects, the utility model aims to provide a medical eye shield after periocular operation, which can contact the relatively concave part of the periocular region of a human body and improve the cold compress effect.
In order to achieve the above object, the present utility model provides a periocular postoperative medical eyecup comprising:
The eye shade body is provided with a heat insulation layer at one side far away from the human eye circumference area;
The cold source piece is arranged on one side of the eye shade body facing the human eye circumference area; the cold source part is divided into a plurality of subareas corresponding to each human eye circumference area; each partition is composed of a plurality of three-dimensional cold source bodies; the curved surface formed on one side of the three-dimensional cold source body facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area;
The temperature control parts are detachably connected with the partitions respectively, and a single layer of temperature control parts are arranged corresponding to each partition or a plurality of layers of temperature control parts are arranged in a superposition mode.
According to the periocular postoperative medical eyeshade, the cold source piece is made of solid hydrogel;
the eye shade body is provided with a first hollowed-out area corresponding to the position of eyes of a human body.
According to the periocular postoperative medical eye mask, the subarea comprises an eyebrow area which is arranged in a position and a contour shape of an eyebrow of a human body, a left cheek bone area which is arranged in a position and a contour shape of a left cheek bone of the human body, a right cheek bone area which is arranged in a position and a contour shape of a right cheek bone of the human body, a left maxilla area which is arranged in a position and a contour shape of a left maxilla of the human body, and a right maxilla area which is arranged in a position and a contour shape of a right maxilla of the human body.
According to the periocular postoperative medical eyeshade, the eyebrow area comprises an inter-eyebrow area and an arch area;
The bottom end of the curved surface formed on one side of the inter-eyebrow area facing the human eye circumference area is 0.2-1.2 cm higher than the top end of the curved surface formed on one side of the arch area facing the human eye circumference area;
The top end of the curved surface formed on the side of the arch area facing the human eye circumference area is 0.2-1.5 cm higher than the top end of the curved surface formed on the side of the left cheek bone area or the right cheek bone area facing the human eye circumference area.
According to the periocular postoperative medical eye mask, the left maxillary region comprises a left canine dentition region arranged corresponding to a left canine dentition of a human body and a left maxillary zygomatic process region arranged corresponding to a left maxillary zygomatic process, and a curved surface formed on one side of the left canine dentition region facing the periocular region of the human body is 0.3-2 cm higher than a curved surface formed on one side of the left maxillary zygomatic process region facing the periocular region of the human body;
The right maxillary region includes a right canine tooth nest region disposed corresponding to a right canine tooth nest of a human body, and a right maxillary zygomatic process region disposed corresponding to a right maxillary zygomatic process; the curved surface formed on the side of the right canine tooth nest area facing the human eye circumference area is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process area facing the human eye circumference area;
The left maxillary region includes a left infraorbital artery region disposed corresponding to a left infraorbital artery of a human body; the top end of a curved surface formed on one side of the lower left orbital artery region facing the human eye circumference region is 0.3-2 cm higher than the top end of a curved surface formed on one side of the upper left maxillary zygomatic lobe region facing the human eye circumference region;
The right maxillary region includes a right infraorbital artery region disposed corresponding to a right infraorbital artery of a human body; the curved surface formed on the side of the right infraorbital artery region facing the human eye circumference region is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process region facing the human eye circumference region.
According to the periocular postoperative medical eyeshade, the eyeshade body is provided with a second hollowed-out area corresponding to the position extending downwards from the junction of the frontal bone and the nasal bone of the human body to the bottom end of the nose; the shape of the second hollowed-out area is matched with the shape of the nose of the human body, and the included angle of the second hollowed-out area is 25-35 degrees.
According to the periocular postoperative medical eyeshade, the left side and the right side of the second hollowed-out area are connected through a nose clip.
According to the periocular postoperative medical eyeshade, a first gap between the three-dimensional cold source bodies in each partition is 0.1-1 cm;
the second gap between two adjacent subareas is 0.2-1 cm.
According to the medical eye patch after periocular operation, an elastic soft layer is arranged on one side of the cold source piece facing to the periocular region of the human body.
According to the medical eye patch after periocular operation, the left side and the right side of the eye patch body are connected with fixing belts.
The embodiment of the utility model provides a medical eye shield after periocular operation, which comprises an eye shield body, wherein one side of the eye shield body, which is far away from the periocular region of a human body, is provided with a heat insulation layer; the cold source part is arranged on one side of the eye shade body facing the human eye circumference area; the cold source part is divided into a plurality of subareas corresponding to each human eye circumference area; each partition is composed of a plurality of three-dimensional cold source bodies; the curved surface formed on one side of the three-dimensional cold source body facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area; the temperature control parts are detachably connected with the partitions respectively, and a single layer of temperature control parts are arranged corresponding to each partition or a plurality of layers of temperature control parts are arranged in a superposition mode. Because the curved surface shape of the cold source part is arranged according to the human eye circumference area, the patient can be more attached to the human eye circumference area after wearing the medical eye mask, so that the cold source part can be directly contacted with more areas around the human eye circumference to realize heat conduction, the cold compress effect of the medical eye mask on the eye circumference area after operation is improved, and the effects of easing pain, detumescence and diminishing inflammation are achieved. The detachable temperature control parts are arranged on different subareas to increase the thermal resistance on the conduction path, so that the cooling effect of the cold source part on the non-operative periocular region is limited, and the temperature control parts are detached for the periocular region after the operation. The heat insulation layer reduces heat transfer with air, so that not only is the generation of condensed water reduced, but also the cold compress time of the medical eyeshade can be prolonged. Therefore, the medical eye mask after periocular operation can contact the relatively low point part of the periocular region of a human body to perform controllable temperature cold compress, and the cold compress effect of the periocular region of a patient for operation is improved.
Drawings
Fig. 1 is a schematic structural view of a medical eye shield after periocular operation according to an embodiment of the present utility model (the broken line in the figure is only used for indication of the partition);
Fig. 2 is a schematic view showing a partial structure of a cross section of a medical eye shield for periocular operation according to an embodiment of the present utility model.
Detailed Description
The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.
Referring to fig. 1 to 2, fig. 1 shows a schematic structural view of a periocular postoperative medical eyecup 100 provided in a first embodiment of the present utility model, including:
An eye mask body 10, one side of which is far from the human eye circumference area is provided with a heat insulation layer;
A cold source member 20 disposed at one side of the eye mask body 10 facing the human eye circumference area; the cold source 20 is divided into a plurality of zones corresponding to the respective human eye circumference areas; each partition is composed of a plurality of three-dimensional cold source bodies 21; the curved surface formed on one side of the three-dimensional cold source bodies 21 facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area;
The temperature control parts are detachably connected with the partitions respectively, and a single-layer temperature control part or a plurality of layers of temperature control parts are arranged corresponding to each partition in a superposition manner.
In this embodiment, when the patient uses the medical eye mask 100, the patient can insert the medical eye mask 100 into the head or the ears through the fixing band, thereby generating a pulling force on the medical eye mask 100, and pulling the medical eye mask 100 toward the periocular region of the human body so as to make the medical eye mask more fit the periocular region of the human body. The eye mask body 10 is provided with a cold source 20, and the cold source 20 is divided into a plurality of partitions, each of which is composed of a plurality of three-dimensional cold source bodies 21 (see fig. 1). In order to reduce the gap between the heat sink 20 and the human periocular region, the height of each stereoscopic heat sink 21 may be different, and the curved surface of the side of each stereoscopic heat sink 21 facing the human periocular region may be different, so that the curved surface formed by the sides of the plurality of stereoscopic heat sinks 21 on each partition facing the human periocular region is adapted to the contour shape of the corresponding human periocular region. For example, if the partition corresponds to an eyebrow portion (mainly including an arch and an inter-eyebrow region) of a human body, a curved surface formed on a side of the plurality of stereoscopic cold sources 21 facing the human body in the partition is adapted to a contour shape of the eyebrow portion of the human body, so that when the medical eyeshade 100 is used by a patient, the plurality of stereoscopic cold sources 21 in the partition can directly contact the eyebrow portion of the patient more, or a gap between the stereoscopic cold sources and the eyebrow portion is reduced, so that the stereoscopic cold sources 21 generate heat exchange with only human skin basically when in use, thereby improving a cold compress effect on the eyebrow portion. The temperature control parts are arranged in different subareas in a corresponding detachable mode, the temperature control parts can be medical-grade hydrogel patches, the temperature control parts which are arranged in a corresponding mode can be arranged in a single layer, and multiple layers can be arranged in a superposition mode. The shape of the temperature control piece is matched with the shape of the partition. The temperature control piece increases the thermal resistance on the conduction path, thereby realizing the temperature control effect of the cold source piece 20 on different periocular regions, ensuring the comfort of the body feeling of a patient in clinical requirements, and further improving the duration of the cold source piece 20. Because of different clinical demands and different sensitive layers of different patients to temperature, the temperature control piece can be set to be a plurality of layers or different thicknesses with the same heat conductivity, or to be a single layer or a plurality of layers or different thicknesses with different heat conductivity, thereby being convenient for the patient to adjust the quantity of the temperature control pieces to adjust the cooling effect of the medical eyeshade 100. For the periocular region after operation, the corresponding temperature control piece is detached, so that the pain relieving, detumescence and inflammation diminishing of the periocular region after operation can be realized. The eye shade body 10 is provided with the insulating layer in the side of keeping away from human periocular region, and the thermal conductivity of insulating layer is low, optional cotton, thermal-insulated tinfoil paper or the rubber that thermal conductivity is little. By providing the heat insulating layer, heat transfer from one side of the eye mask body 10 away from the eye region of the human body can be reduced, not only can condensed water generation of the medical eye mask 100 be reduced, wound infection can be avoided, but also the energy utilization rate of the cold source piece 20 can be improved.
Referring to fig. 1, as an alternative embodiment, the eye mask body 10 is provided with a first hollowed-out area 30 corresponding to the position of eyes of a human body. The patient can use the medical eyeshade 100 for ice compress without affecting the basic life eye requirements.
Referring to fig. 1, as an alternative embodiment, cold source 20 is made of a solid hydrogel; the partition includes an eyebrow region 22 adapted to the position and contour shape of the human eyebrow, a left cheek bone region 23 adapted to the position and contour shape of the human left cheek bone, a right cheek bone region 24 adapted to the position and contour shape of the human right cheek bone, a left maxilla region 25 adapted to the position and contour shape of the human left maxilla, and a right maxilla region 26 adapted to the position and contour shape of the human right maxilla.
In this embodiment, the human eyebrow particularly refers to the arch of the human eyebrow and the space between the eyebrows, i.e. the portion above the upper edge of the frontal orbit, which is arched and raised. Cheekbones are one of the facial cranium bones, located in front of the middle of the face, under the outside of the orbit, in a diamond shape, forming bony prominences of the cheek. The maxilla is a pair of fixed air-containing bones, which are positioned at two sides of the nasal cavity.
Specifically, the brow region 22 includes an inter-brow region and an arch region;
The bottom end of the curved surface formed on one side of the inter-eyebrow area facing the human eye circumference area is 0.2-1.2 cm higher than the top end of the curved surface formed on one side of the arch area facing the human eye circumference area;
The apex of the curved surface formed on the side of the arch area facing the periocular region of the human body is 0.2 to 1.5 cm higher than the apex of the curved surface formed on the side of the left or right cheekbone area 23 or 24 facing the periocular region of the human body.
Specifically, the left maxillary region 25 includes a left canine fossa region provided corresponding to a left canine fossa of the human body and a left maxillary zygomatic process region provided corresponding to a left maxillary zygomatic process, and a curved surface formed on a side of the left canine fossa region facing the human body periocular region is 0.3 to 2 cm higher than a curved surface formed on a side of the left maxillary zygomatic process region facing the human body periocular region;
The right maxillary region 26 includes a right canine dentition region provided corresponding to a right canine dentition of a human body and a right maxillary zygomatic process region provided corresponding to a right maxillary zygomatic process; the curved surface formed on the side of the right canine tooth nest area facing the human eye circumference area is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process area facing the human eye circumference area;
The left maxillary region 25 further includes a left infraorbital artery region disposed corresponding to a left infraorbital artery of the human body; the top end of a curved surface formed on one side of the lower left orbital artery region facing the human eye circumference region is 0.3-2 cm higher than the top end of a curved surface formed on one side of the upper left maxillary zygomatic process region facing the human eye circumference region;
The right maxillary region 26 also includes a right infraorbital artery region disposed corresponding to a right infraorbital artery of the human body; the curved surface formed on the side of the right infraorbital artery region facing the human eye circumference region is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process region facing the human eye circumference region.
Referring to fig. 1, as an alternative embodiment, the eye mask body 10 is provided with a second hollowed-out area 40 corresponding to a position extending downwards from the junction of frontal bone and nasal bone of the human body to the bottom end of the nose; the shape of the second hollow area 40 is matched with the shape of the nose of the human body, and the included angle is 25-35 degrees.
In this embodiment, since the medical eyeshade 100 is used for ice compress of the periocular region after the operation, the nose belongs to the region where the ice compress is not needed, in order to prevent the patient from stinging the nose due to the ice compress when using the medical eyeshade 100, and to prevent the application of the periocular region from being deteriorated due to the height of the nose, the portion of the eyeshade body 10 corresponding to the nose of the human body is hollowed out, and the second hollowed-out region 40 extends downwards from the junction corresponding to the frontal bone and nasal bone of the human body to the position of the bottom end of the nose, thereby improving the comfort of the user using the medical eyeshade 100.
Referring to fig. 1, as an alternative embodiment, the left and right sides of the second hollowed-out area 40 are connected by the nose clip 50, and when the medical eyeshade 100 is used, the nose clip 50 is used to assist in transferring tension force, so that the medical eyeshade 100 can be attached at a corresponding position. The nose clip 50 may be positioned to correspond to the position of the bridge or tip of the nose of a person.
Referring to fig. 2, as an alternative embodiment, the first gap 60 between the respective stereoscopic cold source bodies 21 in each partition is 0.1 to 1 cm;
The second gap 70 between two adjacent partitions is 0.2-1 cm. The medical eye mask 100 is convenient for a patient to bend along the circumference of the head when the patient uses the medical eye mask 100, so that the medical eye mask 100 can be more fit to the periocular region of the human body, thereby effectively covering the periocular region after the operation.
As an alternative embodiment, the cold source 20 is provided with an elastically soft layer on the side facing the periocular region of the human body. The medical eyeshade 100 can be more attached to the periocular region of the patient by the elastic deformation of the elastic soft layer, and the comfort of the patient can be improved. The elastically flexible layer may be made of medical grade hydrogels having a thermal conductivity greater than 0.2W/(m·k).
Referring to fig. 1, as an alternative embodiment, left and right sides of the eyeshade body 10 are connected with fixing bands 80. The strap 80 may apply a force that pulls the medical cup 100 toward the patient's eye area, causing the medical cup 100 to conform more to the patient. The fixing bands 80 may be elastic bands, one on each of the left and right sides of the eye mask body 10, and are respectively inserted into ears of a patient to be fixed. Or the two ends of the elastic band are respectively connected with the left side and the right side of the eyeshade body 10, and the elastic band is sleeved on the head of a patient to be fixed. Alternatively, the securing strap 80 may also be a strap or velcro.
In summary, in the embodiment of the utility model, a medical eye mask after periocular operation is provided, which includes an eye mask body, wherein a thermal insulation layer is arranged on one side of the eye mask body far away from a periocular region of a human body; the cold source part is arranged on one side of the eye shade body facing the human eye circumference area; the cold source part is divided into a plurality of subareas corresponding to each human eye circumference area; each partition is composed of a plurality of three-dimensional cold source bodies; the curved surface formed on one side of the three-dimensional cold source body facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area; the temperature control parts are detachably connected with the partitions respectively, and a single layer of temperature control parts are arranged corresponding to each partition or a plurality of layers of temperature control parts are arranged in a superposition mode. Because the curved surface shape of the cold source part is arranged according to the human eye circumference area, the patient can be more attached to the human eye circumference area after wearing the medical eye mask, so that the cold source part can be directly contacted with more areas around the human eye circumference to realize heat conduction, the cold compress effect of the medical eye mask on the eye circumference area after operation is improved, and the effects of easing pain and diminishing inflammation are achieved. The detachable temperature control parts are arranged on different subareas to increase the thermal resistance on the conduction path, so that the cooling effect of the cold source part on the non-operative periocular region is limited, and the temperature control parts are detached for the periocular region after the operation. The heat insulation layer reduces heat transfer with air, so that not only is the generation of condensed water reduced, but also the cold compress time of the medical eyeshade can be prolonged. Therefore, the medical eye mask after periocular operation can contact the relatively low point part of the periocular region of a human body to perform controllable temperature cold compress, and the cold compress effect of the periocular region of a patient for operation is improved.
Also, the terms pointed out by the present utility model are as follows: the directional or positional relationships indicated by "left", "right", "front", "rear", "vertical", "horizontal", etc., are based on the directional or positional relationships shown in the drawings, are merely for convenience in describing the utility model and simplifying the description, and are not indicative or implying that the device or element in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the scope of protection of the present utility model.
Of course, the present utility model is capable of other various embodiments and its several details are capable of modification and variation in light of the present utility model, as will be apparent to those skilled in the art, without departing from the spirit and scope of the utility model as defined in the appended claims.
Claims (10)
1. A periocular postoperative medical eyewear comprising:
The eye shade body is provided with a heat insulation layer at one side far away from the human eye circumference area;
The cold source piece is arranged on one side of the eye shade body facing the human eye circumference area; the cold source part is divided into a plurality of subareas corresponding to each human eye circumference area; each partition is composed of a plurality of three-dimensional cold source bodies; the curved surface formed on one side of the three-dimensional cold source body facing the human eye circumference area is matched with the outline shape of the corresponding human eye circumference area;
The temperature control parts are detachably connected with the partitions respectively, and a single layer of temperature control parts are arranged corresponding to each partition or a plurality of layers of temperature control parts are arranged in a superposition mode.
2. The periocular postoperative medical eye patch according to claim 1, wherein the eye patch body is provided with a first hollowed-out area at a position corresponding to eyes of a human body.
3. The periocular postoperative medical eyewear of claim 1, wherein,
The cold source piece is made of solid hydrogel;
The subarea comprises an eyebrow area which is adapted to the position of the human eyebrow and is arranged in the outline shape, a left cheek bone area which is adapted to the position of the human left cheek bone and is arranged in the outline shape, a right cheek bone area which is adapted to the position of the human right cheek bone and is arranged in the outline shape, a left maxilla area which is adapted to the position of the human left maxilla and is arranged in the outline shape, and a right maxilla area which is adapted to the position of the human right maxilla and is arranged in the outline shape.
4. The periocular postoperative medical eye patch of claim 3, wherein the eyebrow region comprises an inter-eyebrow region and an arch region;
The bottom end of the curved surface formed on one side of the inter-eyebrow area facing the human eye circumference area is 0.2-1.2 cm higher than the top end of the curved surface formed on one side of the arch area facing the human eye circumference area;
The top end of the curved surface formed on the side of the arch area facing the human eye circumference area is 0.2-1.5 cm higher than the top end of the curved surface formed on the side of the left cheek bone area or the right cheek bone area facing the human eye circumference area.
5. The periocular postoperative medical eye patch according to claim 4, wherein the left maxillary region includes a left canine fossa region provided corresponding to a left canine fossa of a human body and a left maxillary zygomatic process region provided corresponding to a left maxillary zygomatic process, a curved surface formed on a side of the left canine fossa region facing the periocular region of the human body being is 0.3 to 2 cm higher than a curved surface formed on a side of the left maxillary zygomatic process region facing the periocular region of the human body;
The right maxillary region includes a right canine tooth nest region disposed corresponding to a right canine tooth nest of a human body, and a right maxillary zygomatic process region disposed corresponding to a right maxillary zygomatic process; the curved surface formed on the side of the right canine tooth nest area facing the human eye circumference area is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process area facing the human eye circumference area;
The left maxillary region includes a left infraorbital artery region disposed corresponding to a left infraorbital artery of a human body; the top end of a curved surface formed on one side of the lower left orbital artery region facing the human eye circumference region is 0.3-2 cm higher than the top end of a curved surface formed on one side of the upper left maxillary zygomatic lobe region facing the human eye circumference region;
The right maxillary region includes a right infraorbital artery region disposed corresponding to a right infraorbital artery of a human body; the curved surface formed on the side of the right infraorbital artery region facing the human eye circumference region is 0.3-2 cm higher than the curved surface formed on the side of the right maxillary zygomatic process region facing the human eye circumference region.
6. The periocular postoperative medical eye patch according to claim 1, wherein the eye patch body is provided with a second hollowed-out area corresponding to a position extending downwards from the junction of frontal bone and nasal bone of the human body to the bottom end of the nose; the shape of the second hollowed-out area is matched with the shape of the nose of the human body, and the included angle of the second hollowed-out area is 25-35 degrees.
7. The periocular postoperative medical eye patch of claim 6, wherein the left and right sides of the second hollowed-out area are connected by a nose clip.
8. The periocular postoperative medical eye patch of claim 1, wherein a first gap between each of the stereoscopic cold source bodies in each of the partitions is 0.1-1 cm;
the second gap between two adjacent subareas is 0.2-1 cm.
9. The periocular postoperative medical eyeshade according to claim 1, characterized in that the side of the cold source member facing the periocular region of the human body is provided with an elastically soft layer.
10. The periocular postoperative medical eye patch according to claim 1, wherein left and right sides of the eye patch body are connected with fixing bands.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323435720.4U CN221866271U (en) | 2023-12-15 | 2023-12-15 | Medical eye-shade after periocular operation |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323435720.4U CN221866271U (en) | 2023-12-15 | 2023-12-15 | Medical eye-shade after periocular operation |
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