A multifunctional eye microplastic surgery care eye patch
The multifunctional eye mask design utilizes an eye frame and opening/closing components to achieve automatic opening and closing and temperature exchange, solving the problems of adhesive layer damage to the eyes and sealing issues. It also enables timed cold and hot compresses, promoting postoperative recovery.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- XIANGYA HOSPITAL CENT SOUTH UNIV
- Filing Date
- 2022-11-07
- Publication Date
- 2026-06-05
AI Technical Summary
In existing technologies, the adhesive layer used to bond the eye mask body can easily damage the eyes, cannot create a sealed sterile environment, and cannot achieve timed cold and hot compresses. Furthermore, the contact pressure of the eye mask is difficult to control.
This multifunctional eye mask, composed of components such as an eye frame, field of vision plate, retaining ring, opening and closing assembly, exchange cover, transparent silicone disc, and insulated box, achieves automatic opening and closing and temperature exchange of the eye mask through gears, linear motors, and electric heating rods. Combined with a semiconductor cooler and timer, it enables timed cold and hot compresses.
It enables automatic opening and closing of the eye mask, creating a sealed sterile environment that facilitates observation and medication application. It also allows for timed cold and hot compresses, controls appropriate contact pressure on the eyes, and aids in rapid postoperative recovery.
Smart Images

Figure CN115607361B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the technical field of eye masks, specifically a multifunctional eye mask for micro-plastic surgery. Background Technology
[0002] In terms of medical treatment, patients undergoing double eyelid surgery will experience some swelling around the eyes. For the first 72 hours, ice packs can be applied locally for cold compresses, especially within the first 3 hours after surgery. This can effectively prevent postoperative edema and relieve pain. After 3 days of cold compresses or after suture removal, local warm compresses can be applied. Warm compresses promote blood circulation and reduce bruising, helping the wound scar to heal faster. Whether using cold or warm compresses, the wound should not be allowed to get wet; it is essential to keep it clean and dry to aid in the healing and recovery of the double eyelid surgery patient's eye wound. A nursing eye mask disclosed in Chinese Patent No. CN214415029U uses an adhesive layer to bond the eye mask body to the patient's eyes for protection. However, it has the following problems:
[0003] 1. Using an adhesive layer to attach the eye mask to the patient's eyes for eye protection, removing the eye mask with an adhesive layer after surgery can easily damage the eyes. It also makes it inconvenient to observe and apply medication to the eyes, and cannot guarantee that the eye mask and the eyes form a sealed and sterile environment.
[0004] Second, the use of adhesive layer and eye mask body can only provide simple protection for the patient's eyes. It cannot provide regular cold compresses or hot compresses for the eyes after surgery. At the same time, the contact pressure of the eye mask on the patient's eyes is not easy to control. Summary of the Invention
[0005] To address the issues of using an adhesive layer to bond the eye mask to the patient's eyes for protection, which can easily damage the eye after surgery, hinders eye observation and medication application, fails to ensure a sealed, sterile environment, and only provides basic protection without allowing for timely cold or hot compresses, and makes it difficult to control the pressure of the eye mask on the patient's eyes, the following solutions are proposed: an automatically opening and closing eye mask that facilitates the creation of a sealed, sterile environment, allows for convenient postoperative observation and medication application, enables timely cold and hot compresses, and provides easily controllable pressure between the eye mask and the eye.
[0006] This invention is achieved through the following technical solution: a multifunctional eye mask for micro-plastic surgery, comprising an eye frame, a viewing plate for shading and dust prevention of the eyes being movably connected to the outside of the eye frame, an annular groove for sealing the viewing plate with the eye frame being formed on the surface of the viewing plate, a retaining ring for sealing the viewing plate with the annular groove being fixedly connected to the outside of the eye frame, and an opening and closing assembly for controlling the separation and closing of the viewing plate and the eye frame being movably connected to the outside of the eye frame. An exchange cover for hot and cold compresses on the patient's eyes is fixedly connected to the inside of the eye frame, a transparent silicone disc for heat conduction is sleeved on the outside of the exchange cover, and an insulated box for heat exchange of liquid water inside the exchange cover is fixedly connected to the inside of the outside of the eye frame, a partition is fixedly connected to the inside of the insulated box, and an electrically heated heat-conducting rod is fixedly connected through the inner side of the partition. The insulated box is internally connected to a pumping assembly for circulating liquid water inside the heat exchange chamber. An external connector for liquid water circulation is fixedly connected to the outside of the insulated box. A sealing plate for sealing the insulated box is fixedly connected to the top of the insulated box. A semiconductor cooler for cooling the liquid water inside the insulated box is connected through the inner side of the sealing plate. A timer for timing cold and hot compresses on the patient is fixedly connected to the outside of the sealing plate. The semiconductor cooler is a cooling device composed of semiconductors, also called thermoelectric cooling, which utilizes the Peltier effect. That is, when a power source is applied, heat from the cold end is moved to the heat-conducting end, causing the cold end temperature to decrease and the hot end temperature to rise.
[0007] Furthermore, the external fixed connection of the eye frame is a pad for contacting the eye frame with the patient's face, and the external fixed connection of the eye frame is a fastening strap for fixing the eye frame to the head, and the pad is made of silicone material.
[0008] Furthermore, the axis of the annular groove coincides with the axis of the retaining ring, and the positions of the viewing plates correspond to those of the viewing plates and their specifications match.
[0009] Furthermore, the opening and closing assembly includes a gear fixedly connected to the outside of the field of vision plate, a protective box fixedly connected to the outside of the eyepiece for engaging the gear, a guide rail fixedly connected to the inside of the protective box, a toothed plate slidably engaged with the gear on the inside of the guide rail, and a linear motor fixedly connected to the inside of the protective box for controlling the sliding of the toothed plate.
[0010] Furthermore, the gear meshes with the gear plate, the length of the guide rail matches the sliding stroke of the gear plate, and the linear motor is fixedly connected to the gear plate via a connecting shaft.
[0011] Furthermore, the exchange cover and connector are connected to the insulation box via a hose to form a closed loop, and the axis of the transparent silicone disc coincides with the axis of the exchange cover.
[0012] Furthermore, the partition divides the internal space of the insulated box into an upper compartment and a lower compartment. Liquid water is added to the upper compartment. The water pumping assembly includes a water flow plate movably connected to the lower compartment to drive the liquid water flow, and a motor fixedly connected to the lower compartment corresponding to the outside of the insulated box to provide power to the water flow plate. The motor and the water flow plate are fixedly connected by a connecting shaft.
[0013] This invention provides a multifunctional eye mask for micro-plastic surgery. It has the following beneficial effects:
[0014] The eyecup and fastening straps facilitate the wearing of the eye patch. A toothed plate slides inside the guide rail, driving gears to rotate and controlling the rotation of the visual field plate outside the eyecup. This, in conjunction with a retaining ring, allows for the opening and closing of the eyecup. This not only provides postoperative dust and light protection for the patient's eyes but also facilitates medication application and observation, ensuring a sealed, sterile environment for the patient's eyes and the eye patch. Simultaneously, the liquid water in the upper compartment of the incubator is heated by an electric heating rod, which then transfers the heat to the liquid water in the lower compartment. A semiconductor cooler maintains the temperature. The liquid water inside the upper compartment of the box is cooled and then conducted to the lower compartment via an electric heating rod to cool the liquid water inside the lower compartment. The rotating water flow plate causes the liquid water in the lower compartment to flow into the exchange hood, where it works with a transparent silicone disc to apply cold or hot compresses to the patient's eye area after surgery. A timer alerts the patient to the duration of cold and hot compresses, aiding in the patient's rapid recovery after eye surgery. The pressure between the transparent silicone disc and the patient's eyes is kept appropriate by the support of the pad and the tightness of the fastening strap. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall appearance and structure of the present invention;
[0016] Figure 2 This is a schematic diagram of the connection structure between the eye frame and the fastening strap of the present invention;
[0017] Figure 3 This is a schematic diagram showing the connection relationship between the eye frame, field of vision plate, opening and closing assembly, pad, heat preservation box, sealing plate, semiconductor cooler, and timer of the present invention.
[0018] Figure 4 This is a schematic diagram showing the connection relationship between the eye frame, field of vision plate, pad, insulated box, sealing plate, semiconductor cooler, exchange cover, and transparent silicone disc of the present invention.
[0019] Figure 5 This is a schematic diagram of the connection relationship between the viewing plate and the opening / closing component of the present invention;
[0020] Figure 6 This is a schematic diagram of the connection relationship between the vision plate, annular groove, retaining ring, and opening / closing assembly of the present invention.
[0021] Figure 7 This is a schematic diagram of the snap ring connection structure of the present invention;
[0022] Figure 8 This is a schematic diagram of the connection relationship between the viewing plate and the annular groove of the present invention;
[0023] Figure 9 For the present invention Figure 8 Enlarged schematic diagram of the structure at point A in the middle;
[0024] Figure 10 This is a schematic diagram of the opening and closing component structure of the present invention;
[0025] Figure 11 This is a schematic diagram showing the connection relationship between the guide rail, gear plate, and linear motor of the present invention.
[0026] Figure 12 This is a schematic diagram of the guide rail structure of the present invention;
[0027] Figure 13 This is a schematic diagram of the connection structure between the toothed plate and the linear motor of the present invention;
[0028] Figure 14 This is a schematic diagram showing the connection structure between the exchange cover and the transparent silicone disc of the present invention;
[0029] Figure 15 This is a schematic diagram of the exchange cover structure of the present invention;
[0030] Figure 16 This is a schematic diagram of the transparent silicone disc system structure of the present invention;
[0031] Figure 17 This is a schematic diagram showing the connection relationship between the insulated box, water pumping assembly, connector, sealing plate, semiconductor cooler, and timer of the present invention.
[0032] Figure 18 This is a schematic diagram showing the connection relationship between the insulated box, sealing plate, semiconductor cooler, timer, partition, upper compartment, lower compartment, electric heating temperature conducting rod, water pumping assembly, and connector of the present invention.
[0033] Figure 19 This is a schematic diagram of the connection structure between the partition and the electric heating temperature conducting rod of the present invention;
[0034] Figure 20 This is a schematic diagram of the pumping component structure of the present invention.
[0035] In the diagram: 1. Eyerest; 11. Vision plate; 12. Ring groove; 13. Snap ring; 14. Opening and closing assembly; 141. Gear; 142. Protective box; 143. Guide rail; 144. Gear plate; 145. Linear motor; 15. Pad; 16. Fastening strap; 2. Exchange cover; 21. Transparent silicone disc; 3. Insulation box; 31. Partition; 311. Upper compartment; 312. Lower compartment; 32. Heating rod; 33. Pumping assembly; 331. Flow plate; 332. Motor; 34. Connector; 35. Sealing plate; 36. Semiconductor cooler; 37. Timer. Detailed Implementation
[0036] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0037] An example of this multifunctional micro-plastic surgery eye mask is as follows:
[0038] Example 1:
[0039] Please see Figure 1 - Figure 13 A multifunctional eye mask for micro-plastic surgery includes an eye frame 1. The eye frame 1 is externally connected to a vision plate 11 for shading and dust protection of the eyes. The surface of the vision plate 11 is provided with an annular groove 12 for sealing the vision plate 11 with the eye frame 1. The eye frame 1 is externally fixedly connected to a retaining ring 13 that seals the vision plate 11 with the annular groove 12. The axis of the annular groove 12 coincides with the axis of the retaining ring 13. The vision plates 11 are positioned and matched in size.
[0040] The eye frame 1 is externally connected to an opening and closing assembly 14 that controls the separation and closure of the field of vision plate 11 from the eye frame 1. The opening and closing assembly 14 includes a gear 141 fixedly connected to the outside of the field of vision plate 11, a protective box 142 fixedly connected to the outside of the eye frame 1 for engaging the gear 141, a guide rail 143 fixedly connected to the inside of the protective box 142, a toothed plate 144 slidably engaged with the gear 141 on the inside of the guide rail 143, and a linear motor 145 fixedly connected to the inside of the protective box 142 for controlling the sliding of the toothed plate 144.
[0041] Gear 141 meshes with toothed plate 144, the length of guide rail 143 matches the sliding stroke of toothed plate 144, linear motor 145 is fixedly connected to toothed plate 144 via connecting shaft, eye frame 1 is externally fixedly connected with pad 15 for contacting the eye frame 1 with the patient's face, and eye frame 1 is externally fixedly connected with fastening strap 16 for fixing eye frame 1 to head.
[0042] When the patient needs to wear an eye patch, the patient holds the eye frame 1, attaches the fastening strap 16 to the head, and aligns the external visual field plate 11 of the eye frame 1 with the eyes to facilitate observation. The inner pad 15 of the eye frame 1 contacts the facial skin, while the transparent silicone disc 21 contacts the patient's eye plastic surgery area. When the patient needs to operate the visual field plate 11 to rotate and open the eye frame 1, the patient operates the linear motor 145 to extend and drive the toothed plate 144 to slide inside the guide rail 143. The sliding of the toothed plate 144 drives the gear 141 outside the visual field plate 11 to rotate. The rotation of the gear 141 causes the visual field plate 11 to rotate 90° outside the eye frame 1, opening the eye frame 1 to facilitate the patient's observation of the eyes and application of medication. Similarly, when the eye frame 1 is closed, the linear motor 145 extends and retracts, causing the toothed plate 144 to reset and the gear 141 to rotate, causing the visual field plate 11 to rotate 90° to close the eye frame 1.
[0043] The eyecup 1 and fastening strap 16 facilitate the wearing of the eye patch. The toothed plate 144 slides inside the guide rail 143, driving the gear 141 to rotate and control the field of vision plate 11 to rotate outside the eyecup 1. It cooperates with the retaining ring 13 to close and open the eyecup 1. This not only meets the dust and light protection of the patient's eyes after surgery, but also facilitates the application of medication and observation of the patient's eyes after surgery, ensuring that the patient's eyes and the eye patch form a sealed sterile environment.
[0044] Example 2:
[0045] Please see Figure 1 - Figure 4 , Figure 14 - Figure 20 A multifunctional eye mask for micro-plastic surgery includes an eye frame 1, with a pad 15 fixedly connected to the outside of the eye frame 1 for contact with the patient's face, a fastening strap 16 fixedly connected to the outside of the eye frame 1 for fixed connection with the head, an exchange cover 2 for hot and cold compresses on the patient's eyes fixedly connected to the inside of the eye frame 1, a transparent silicone disc 21 for contact and conduction of temperature on the outside of the exchange cover 2, and an insulated box 3 for heat exchange of liquid water inside the exchange cover 2 fixedly connected to the inside of the outside of the eye frame 1, a partition 31 fixedly connected to the inside of the insulated box 3, and an electric heating rod 32 fixedly connected through the inside of the partition 31.
[0046] The insulated box 3 is internally connected to a water pumping assembly 33 for circulating liquid water inside the exchange chamber 2. The insulated box 3 is externally fixedly connected to a connector 34 for circulating liquid water. The top of the insulated box 3 is fixedly connected to a sealing plate 35 for sealing the insulated box 3. A semiconductor cooler 36 for cooling the liquid water inside the insulated box 3 is connected through the inner side of the sealing plate 35. A timer 37 for timing cold and hot compresses on the patient is fixedly connected to the outside of the sealing plate 35. A partition 31 divides the internal space of the insulated box 3 into an upper compartment 311 and a lower compartment 312. Liquid water is added inside the upper compartment 311. The water pumping assembly 33 includes a water flow plate 331 movably connected inside the lower compartment 312 to drive the liquid water flow, and a motor 332 fixedly connected to the lower compartment 312 corresponding to the outside of the insulated box 3 to provide power to the water flow plate 331. The motor 332 and the water flow plate 331 are fixedly connected through a connecting shaft.
[0047] Based on Embodiment 1, when a patient's eyes require cold compresses, the patient operates the semiconductor cooler 36, timer 37, and motor 332. The semiconductor cooler 36 cools the liquid water inside the upper compartment 311 of the insulation box 3, which is then conducted into the lower compartment 312 via the electric heating rod 32. The liquid water in the lower compartment 312 is cooled. The timer 37 tracks the duration of the cold compress and provides a warning when the timer expires, prompting the patient to stop the cold compress. The motor 332 drives the water flow plate 331 in the lower compartment... The internal rotation of cavity 312 cools the liquid water inside the lower compartment 312 and then enters the connector 34 under the action of the water flow plate 331. The liquid water is then transported through a hose to the exchange cover 2. The liquid water inside the exchange cover 2 cools the exchange cover 2 and conducts it to the transparent silicone disc 21 to apply a cold compress to the patient's eye plastic surgery area. The liquid water inside the exchange cover 2 absorbs the heat from the transparent silicone disc 21 and is then transported through a hose into the lower compartment 312 of the insulated box 3 for recirculation and cooling until the patient's eye timer 37 indicates that the cold compress time is over.
[0048] Similarly, when a patient needs a warm compress, the patient operates the electric heating rod 32, timer 37, and motor 332. The electric heating rod 32, under the effect of electric current heating, generates heat, heating the liquid water inside the upper compartment 311 of the insulation box 3. This heat is then conducted through the electric heating rod 32 into the lower compartment 312, where the liquid water is heated. The timer 37 runs to time the duration of the warm compress and provides a warning when the timer expires, prompting the patient to stop the warm compress. The motor 332, when powered on, drives the water flow plate 331 to rotate inside the lower compartment 312, discharging the liquid water inside the lower compartment 312. After being heated, the water enters the connector 34 under the action of the water flow plate 331. The liquid water is then transported to the exchange chamber 2 through a hose. The liquid water inside the exchange chamber 2 heats the exchange chamber 2 and conducts the heat to the transparent silicone disc 21, which is then used to apply heat to the patient's eye area. After the liquid water inside the exchange chamber 2 heats the transparent silicone disc 21, it cools down and is then transported through a hose into the lower compartment 312 of the insulated box 3 for recirculation and heating until the patient's eye timer 37 indicates that the heat application time is over. The transparent silicone disc 21 is then fitted onto the outside of the exchange chamber 2, making it easy to remove the transparent silicone disc 21 from the outside of the exchange chamber 2 for disinfection and cleaning.
[0049] Meanwhile, the liquid water inside the upper compartment 311 of the insulated box 3 is heated by the electric heating rod 32 and the heat is conducted to the lower compartment 312 to heat the liquid water inside the lower compartment 312. The semiconductor cooler 36 cools the liquid water inside the upper compartment 311 of the insulated box 3 and conducts the heat to the lower compartment 312 through the electric heating rod 32 to cool the liquid water inside the lower compartment 312. The water flow plate 331 rotates so that the liquid water inside the lower compartment 312 flows into the exchange cover 2 and, together with the transparent silicone disc 21, applies cold or hot compresses to the patient's eye plastic surgery area. The timer 37 provides an early warning to remind the patient of the time for cold and hot compresses to the eyes, assisting the patient in recovering quickly after eye surgery. At the same time, the pressure of the transparent silicone disc 21 in contact with the patient's eyes is appropriate due to the support of the pad 15 in contact with the patient's facial skin and the tightening effect of the fastening strap 16.
[0050] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A multifunctional eye mask for micro-plastic surgery, comprising an eye frame (1), characterized in that: The eye frame (1) is externally connected to a field of vision plate (11) for shading and dust protection of the eyes. The surface of the field of vision plate (11) is provided with an annular groove (12) for sealing the field of vision plate (11) with the eye frame (1). The eye frame (1) is externally fixedly connected to a retaining ring (13) that seals the field of vision plate (11) with the annular groove (12). The eye frame (1) is externally connected to an opening and closing assembly (14) for controlling the separation and closing of the field of vision plate (11) and the eye frame (1). The eye frame (1) is fixedly connected to an exchange cover (2) for hot and cold compresses on the patient's eyes. The outside of the exchange cover (2) is fitted with a transparent silicone disc (21) for contact conduction of temperature. The inside of the eye frame (1) is fixedly connected to an insulated box (3) for heat exchange of liquid water inside the exchange cover (2). The inside of the insulated box (3) is fixedly connected to a partition (31). The inside of the partition (31) is fixedly connected to an electric heating rod (32). The insulated box (3) is internally connected to a pumping assembly (33) for circulating liquid water inside the exchange hood (2). The insulated box (3) is externally connected to a connector (34) for circulating liquid water. The top of the insulated box (3) is fixedly connected to a sealing plate (35) for sealing the insulated box (3). The inner side of the sealing plate (35) is connected to a semiconductor cooler (36) for cooling the liquid water inside the insulated box (3). The outer side of the sealing plate (35) is fixedly connected to a timer (37) for timing the patient's cold and hot compresses. The exchange cover (2) and the connector (34) are connected to the heat preservation box (3) through a hose to form a closed loop, and the axis of the transparent silicone disc (21) coincides with the axis of the exchange cover (2); The partition (31) divides the internal space of the heat preservation box (3) into an upper partition (311) and a lower partition (312). Liquid water is added inside the upper partition (311). The water pumping assembly (33) includes a water flow plate (331) movably connected inside the lower partition (312) to drive the liquid water flow, and a motor (332) fixedly connected to the lower partition (312) to provide power to the water flow plate (331) outside the heat preservation box (3). The motor (332) and the water flow plate (331) are fixedly connected by a connecting shaft.
2. The multifunctional eye mask for micro-plastic surgery according to claim 1, characterized in that: The eye frame (1) is externally fixedly connected to a pad (15) for contacting the eye frame (1) with the patient's face, and the eye frame (1) is externally fixedly connected to a fastening strap (16) for fixing the eye frame (1) to the head.
3. The multifunctional eye mask for micro-plastic surgery according to claim 1, characterized in that: The axis of the annular groove (12) coincides with the axis of the retaining ring (13), and the position of the viewing plate (11) corresponds to that of the viewing plate (13) and the specifications match.
4. The multifunctional eye mask for micro-plastic surgery according to claim 1, characterized in that: The opening and closing assembly (14) includes a gear (141) fixedly connected to the outside of the field of vision plate (11), a protective box (142) fixedly connected to the outside of the eye frame (1) for cooperating with the gear (141), a guide rail (143) fixedly connected to the inside of the protective box (142), a toothed plate (144) slidably engaged with the gear (141) on the inside of the guide rail (143), and a linear motor (145) fixedly connected to the inside of the protective box (142) to control the sliding of the toothed plate (144).
5. A multifunctional eye mask for micro-plastic surgery as described in claim 4, characterized in that: The gear (141) meshes with the toothed plate (144), the length of the guide rail (143) matches the sliding stroke of the toothed plate (144), and the linear motor (145) is fixedly connected to the toothed plate (144) via a connecting shaft.