A device for cold compressing and swelling reduction after eye plastic surgery

By designing a multi-level angle adjustment and sliding pressure mechanism for the cold compress swelling reduction device, the problems of easy displacement of cold compress devices and patient discomfort after oculoplastic surgery have been solved, achieving stable fixation and adaptability of the cold compress and improving the user experience.

CN224331120UActive Publication Date: 2026-06-09SHANGHAI PURUI EYE HOSPITAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI PURUI EYE HOSPITAL CO LTD
Filing Date
2025-04-14
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing postoperative cold compress devices for eyelid surgery are prone to displacement and falling off, and patients have to press them themselves, which causes discomfort and hand fatigue, and wastes manpower.

Method used

A cold compress and swelling reduction device was designed, comprising a base, support rods, angle adjustment components, and a sliding pressure mechanism. The cold compress is fixed by multi-level angle adjustment and an adjustable pressure mechanism to adapt to different usage needs.

Benefits of technology

It achieves stable fixation of the cold compress, freeing the hands of patients and doctors, adapting to different occasions, and allowing adjustment of the pressure to ensure the effectiveness and stability of the cold compress.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model belongs to the field of medical device technology and discloses a cold compress and swelling reduction device for postoperative oculoplastic surgery. It includes a base, a bottom cylinder mounted on the upper side of the base, a top rod slidably mounted on the bottom cylinder, a first locking screw threaded onto the bottom cylinder, a first mounting plate mounted on the top of the top rod, the first mounting plate being U-shaped, a first angle adjusting component mounted on the first mounting plate, a first support rod mounted on the first angle adjusting component, a second angle adjusting component mounted on the first support rod, a third angle adjusting component mounted at the end of the second support rod, a sliding pressure mechanism mounted on the third angle adjusting component, and a cold compress mounted at the output end of the sliding pressure mechanism. The structural design of this utility model enables support and fixation of the cold compress, thereby freeing the hands of both the patient and the doctor and improving the user experience.
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Description

Technical Field

[0001] This utility model belongs to the field of medical device technology, specifically relating to a device for cold compress and swelling reduction after eye plastic surgery. Background Technology

[0002] Eye plastic surgery plays a significant role in improving the appearance of the eyes, boosting self-confidence, and correcting eye function problems. Specifically, eye plastic surgery can significantly improve the aesthetics of the eyes by adjusting their shape, size, and position. For example, single eyelids can be transformed into double eyelids through double eyelid surgery, making the eyes appear larger and more expressive; drooping eyelids or loose skin can be improved through brow lift surgery or full-incision double eyelid surgery, making the eyes look younger and more vibrant. The eyes are one of the most important facial features, and their appearance has a significant impact on an individual's overall image. Improving the appearance of the eyes through eye plastic surgery can boost self-confidence, making people more confident and comfortable in social and work settings. In addition to aesthetic considerations, eye plastic surgery can also correct some eye function problems. For example, ptosis can affect vision; surgery can raise the eyelid position and restore normal visual function; strabismus and other eye deformities can also be corrected through plastic surgery, improving quality of life.

[0003] After eyelid surgery, it is necessary to apply cold compresses. Cold compresses can constrict blood vessels, reduce congestion and exudation, and thus reduce swelling.

[0004] However, this is a continuous process. If the cold compress is simply placed, it is easy for it to shift or fall off. If the relevant personnel or the patient presses it themselves, it will cause a lot of discomfort and hand fatigue, and also waste labor costs. Therefore, a device is needed to fix the position of the cold compress. Utility Model Content

[0005] In view of the problems mentioned above in the background art, the purpose of this utility model is to provide a device for cold compress and swelling reduction after eye plastic surgery.

[0006] To achieve the above-mentioned technical objectives, the technical solution adopted by this utility model is as follows:

[0007] A device for cold compress and swelling reduction after eyelid surgery includes a base, a bottom cylinder mounted on the upper side of the base, a top rod slidably mounted on the bottom cylinder, a first locking screw threadedly connected to the bottom cylinder, the end of the first locking screw contacting the top rod, a first mounting plate mounted on the top of the top rod, the first mounting plate being U-shaped, a first angle adjusting component mounted on the first mounting plate, a first support rod mounted on the first angle adjusting component, a second angle adjusting component mounted on the first support rod, a third angle adjusting component mounted on the end of the second support rod, a sliding pressure mechanism mounted on the third angle adjusting component, and a cold compress component mounted on the output end of the sliding pressure mechanism.

[0008] The first angle adjusting component, the second angle adjusting component, and the third angle adjusting component have the same structure, including an adjusting disc, the adjusting disc being threadedly connected to a second locking screw, and the adjusting disc being mounted with a fixing mounting component;

[0009] The sliding pressure mechanism includes a guide rail mounted on the third angle adjustment member. A slider and a moving block are slidably mounted on the guide rail. A third locking screw is threaded onto the slider. The end of the third locking screw contacts the guide rail. A spring is connected between the slider and the moving block. The cold compress is fixedly mounted on the end of the moving block.

[0010] Furthermore, the first and second support rods have the same structure, including a fixed rod and an adjusting rod. The adjusting rod is threaded with a fourth locking screw, the end of which contacts the fixed rod. The adjusting rod is fitted with a fixing sleeve, and the fixing sleeve is fitted with a disc. The adjusting disc is mounted on the disc. This design allows the position of the adjusting rod relative to the fixed rod to be adjusted by tightening or loosening the fourth locking screw, thereby changing the overall length of the first and second support rods and better adapting to usage requirements.

[0011] Further, a rotating cylinder is mounted on the top of the first mounting plate, and a T-shaped turntable is rotatably mounted on the rotating cylinder. The rotating cylinder is threaded with a rotating cylinder screw whose end contacts the T-shaped turntable. A support rod is connected to the top of the T-shaped turntable, and a second mounting plate is mounted on the end of the support rod. Another set of the first angle adjustment components is mounted on the second mounting plate. This design enables the simultaneous use of two devices, expanding the scope of application and adaptability to installation.

[0012] Furthermore, the movable block is integrally connected to a support plate, and the support plate is equipped with another set of the sliding pressure mechanism. This design allows for the simultaneous installation of two different cold compresses, enabling the appropriate cold compress to be used according to the patient's needs or the doctor's judgment.

[0013] Furthermore, the cold compress includes stainless steel ice cubes and a cold spray device. This design allows the stainless steel ice cubes to contact the skin directly or through the dressing, lowering the local temperature, constricting local blood vessels to prevent further swelling and promoting its gradual reduction. It can also reduce local metabolism and alleviate pain. The cold spray device can mix cold air with antibacterial, anti-inflammatory, and analgesic medications to cool and administer medications to the postoperative skin in a gentle manner, lowering the temperature of the local soft tissues and better achieving hemostasis, swelling reduction, and pain relief.

[0014] The beneficial effects of using this utility model are as follows:

[0015] The structural design of this utility model can achieve support and fixation of the cold compress, thereby freeing the hands of patients and doctors and improving the user experience;

[0016] The structural design of this utility model enables the adjustment of the position of the support and fixing parts of the cold compress, thereby adapting to different usage occasions and needs;

[0017] The structural design of this utility model, with the effect of the spring, can apply pressure to the patient's cold compress position, and the pressure is adjustable, thereby ensuring the cold compress effect and preventing positional deviation, thus guaranteeing the cold compress effect. Attached Figure Description

[0018] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings;

[0019] Figure 1 This is a schematic diagram of an embodiment of a cold compress device for reducing swelling after oculoplastic surgery according to this utility model;

[0020] Figure 2 This is a partial structural schematic diagram of an embodiment of a cold compress and swelling reduction device for postoperative oculoplastic surgery according to this utility model;

[0021] Figure 3 This is a schematic diagram of the sliding pressure mechanism of an embodiment of a cold compress and swelling reduction device for post-operative oculoplastic surgery according to this utility model;

[0022] The symbols for the main components are explained below:

[0023] 1. Base; 2. Bottom cylinder; 3. Top rod; 4. First locking screw; 5. First mounting plate; 6. First angle adjusting component; 7. First support rod; 8. Second angle adjusting component; 9. Second support rod; 10. Third angle adjusting component; 11. Sliding pressure mechanism; 12. Cold compress component; 13. Rotary cylinder; 14. T-shaped turntable; 15. Rotary cylinder screw; 16. Support rod; 17. Second mounting plate.

[0024] Adjustment disc 61; second locking screw 62; fixing mounting piece 63;

[0025] Guide rail 111; slider 112; moving block 113; third locking screw 114; spring 115; support plate 116;

[0026] Fixed rod 71; Adjusting rod 72; Fourth locking screw 73; Fixed sleeve 74; Disc 75. Detailed Implementation

[0027] To enable those skilled in the art to better understand this utility model, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and embodiments.

[0028] like Figure 1 , Figure 2 , Figure 3 As shown, this utility model discloses a device for cold compress and swelling reduction after eye plastic surgery, including a base 1, a bottom cylinder 2 installed on the upper side of the base 1, a top rod 3 slidably installed on the bottom cylinder 2, a first locking screw 4 threadedly connected to the bottom cylinder 2, the end of the first locking screw 4 contacting the top rod 3, a first mounting plate 5 installed on the top of the top rod 3, the first mounting plate 5 being U-shaped, a first angle adjusting component 6 installed on the first mounting plate 5, a first support rod 7 installed on the first angle adjusting component 6, a second angle adjusting component 8 installed on the first support rod 7, a second support rod 9 installed on the second angle adjusting component 8, a third angle adjusting component 10 installed at the end of the second support rod 9, a sliding pressure mechanism 11 installed on the third angle adjusting component 10, and a cold compress component 12 installed at the output end of the sliding pressure mechanism 11.

[0029] The first angle adjusting component 6, the second angle adjusting component 8 and the third angle adjusting component 10 have the same structure, including an adjusting plate 61, a second locking screw 62 threadedly connected to the adjusting plate 61, and a fixing mounting component 63 installed on the adjusting plate 61.

[0030] The sliding pressure mechanism 11 includes a guide rail 111 mounted on the third angle adjustment member 10. A slider 112 and a moving block 113 are slidably mounted on the guide rail 111. A third locking screw 114 is threaded onto the slider 112. The end of the third locking screw 114 contacts the guide rail 111. A spring 115 is connected between the slider 112 and the moving block 113. The cold compress member 12 is fixedly mounted on the end of the moving block 113.

[0031] In this embodiment, when using a cold compress device for reducing swelling after eyelid surgery, the entire device is placed in the usage position via the base 1. Furthermore, self-locking casters can be installed on the lower side of the base 1 to facilitate convenient movement and quick start and stop. Then, the cold compress 12 is installed at the end of the sliding pressure mechanism 11. The position of the cold compress 12 is aligned with the affected area by adjusting the first angle adjustment component 6, the first support rod 7, the second angle adjustment component 8, the second support rod 9, and the third angle adjustment component 10. Then, the cold compress 12 is brought into contact with the affected area by adjusting the sliding pressure mechanism 11. The position of the slider 112 in the sliding pressure mechanism 11 determines the pressure between the cold compress 12 and the affected area. The closer the slider 112 is to the affected area, the greater the pressure, and vice versa.

[0032] The first angle adjusting component 6 adjusts the vertical tilt angle of the first support rod 7, and the second angle adjusting component 6 adjusts the vertical tilt angle of the second support rod 9. With the effect of these two angle adjusting components, the third angle adjusting component 10 can reach a wide range of positions, thus ensuring the applicability range. The position adjustment of the first angle adjusting component 6 can be achieved by loosening and tightening the second locking screw 62. When the second locking screw 62 is loosened, the adjusting plate 61 can rotate on the disc 75. After it is in place, the second locking screw 62 is tightened, and the position of the adjusting plate 61 is fixed under the contact friction force.

[0033] On the sliding pressurizing mechanism 11, under the effect of the spring 115, the moving block 113 is always in contact with the guide rail 111 and moves away from the slider 112. The slider 112 is fixed on the guide rail 111 by the third locking screw 114, so the moving distance of the moving block 113 is also adjustable and suitable for different pressure intensity requirements.

[0034] Preferably, the first support rod 7 and the second support rod 9 have the same structure, including a fixed rod 71 and an adjusting rod 72. The adjusting rod 72 is threadedly connected to a fourth locking screw 73, the end of which contacts the fixed rod 71. The adjusting rod 72 is fitted with a fixed sleeve 74, and the fixed sleeve 74 is fitted with a disc 75. The adjusting disc 61 is mounted on the disc 75. With this design, the position of the adjusting rod 72 relative to the fixed rod 71 can be adjusted by tightening or loosening the fourth locking screw 73, thereby changing the overall length of the first support rod 7 and the second support rod 9, and thus better adapting to the usage requirements. In fact, the structure of the first support rod 7 and the second support rod 9 can also be considered according to specific circumstances.

[0035] Preferably, a rotating cylinder 13 is mounted on the top of the first mounting plate 5, and a T-shaped turntable 14 is rotatably mounted on the rotating cylinder 13. The rotating cylinder 13 is threaded with a rotating cylinder screw 15 whose end contacts the T-shaped turntable 14. A support rod 16 is connected to the top of the T-shaped turntable 14, and a second mounting plate 17 is mounted on the end of the support rod 16. Another set of first angle adjustment components 6 is mounted on the second mounting plate 17. This design allows for the simultaneous use of two devices, expanding the scope of application and adaptability to installation. In fact, a structure in which multiple structural components share a base can also be considered depending on the specific circumstances.

[0036] The preferred movable block 113 is integrally connected to the support plate 116, and the support plate 116 is equipped with another set of sliding pressure mechanism 11. This design allows for the simultaneous installation of two different cold compresses 12, so that the appropriate cold compresses 12 can be used according to the patient's needs or the doctor's judgment. In fact, a structure that can simultaneously install multiple different cold compresses 12 can also be considered depending on the specific situation.

[0037] The preferred cold compress 12 includes stainless steel ice cubes and a cold spray device. This design allows the stainless steel ice cubes to contact the skin directly or through the dressing, lowering the local temperature, constricting local blood vessels to prevent further swelling and promoting its gradual reduction. It can also reduce local metabolism and alleviate pain. The cold spray device can mix cold air with antibacterial, anti-inflammatory, and analgesic medications to cool and administer medications to the postoperative skin in a gentle manner, lowering the temperature of the local soft tissues and improving hemostasis, swelling reduction, and pain relief. In practice, the choice of cold compress 12 can be considered based on specific circumstances.

[0038] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit the scope of this utility model. Any person skilled in the art can modify or alter the above embodiments without departing from the spirit and scope of this utility model. Therefore, all equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. A device for cold compress and swelling reduction after oculoplastic surgery, comprising a base (1), characterized in that: A base cylinder (2) is installed on the upper side of the base (1). A top rod (3) is slidably installed on the base cylinder (2). A first locking screw (4) is threadedly connected to the base cylinder (2). The end of the first locking screw (4) contacts the top rod (3). A first mounting plate (5) is installed on the top of the top rod (3). The first mounting plate (5) is U-shaped. A first angle adjusting component (6) is installed on the first mounting plate (5). A first support rod (7) is installed on the first angle adjusting component (6). A second angle adjusting component (8) is installed on the first support rod (7). A second support rod (9) is installed on the second angle adjusting component (8). A third angle adjusting component (10) is installed at the end of the second support rod (9). A sliding pressure mechanism (11) is installed on the third angle adjusting component (10). A cold compress component (12) is installed at the output end of the sliding pressure mechanism (11). The first angle adjusting component (6), the second angle adjusting component (8) and the third angle adjusting component (10) have the same structure, including an adjusting plate (61), the adjusting plate (61) is threadedly connected with a second locking screw (62), and the adjusting plate (61) is equipped with a fixing mounting component (63); The sliding pressure mechanism (11) includes a guide rail (111) mounted on the third angle adjustment member (10). The guide rail (111) is slidably mounted with a slider (112) and a moving block (113). The slider (112) is threadedly connected with a third locking screw (114). The end of the third locking screw (114) contacts the guide rail (111). A spring (115) is connected between the slider (112) and the moving block (113). The cold compress member (12) is fixedly mounted on the end of the moving block (113).

2. The device for cold compress and swelling reduction after oculoplastic surgery according to claim 1, characterized in that: The first support rod (7) and the second support rod (9) have the same structure, including a fixed rod (71) and an adjusting rod (72). The adjusting rod (72) is threaded with a fourth locking screw (73). The end of the fourth locking screw (73) contacts the fixed rod (71). The adjusting rod (72) is equipped with a fixing sleeve (74). The fixing sleeve (74) is equipped with a disc (75). The adjusting disc (61) is installed on the disc (75).

3. The device for cold compress and swelling reduction after oculoplastic surgery according to claim 1, characterized in that: A rotating cylinder (13) is mounted on the top of the first mounting plate (5). A T-shaped turntable (14) is rotatably mounted on the rotating cylinder (13). A rotating cylinder screw (15) with its end in contact with the T-shaped turntable (14) is threaded onto the rotating cylinder (13). A support rod (16) is connected to the top of the T-shaped turntable (14). A second mounting plate (17) is mounted on the end of the support rod (16). Another set of the first angle adjustment components (6) is mounted on the second mounting plate (17).

4. The device for cold compress and swelling reduction after oculoplastic surgery according to claim 1, characterized in that: The movable block (113) is integrally connected to the support plate (116), and the support plate (116) is equipped with another set of the sliding pressurization mechanism (11).

5. A device for cold compress and swelling reduction after oculoplastic surgery according to claim 1, characterized in that: The cold compress (12) includes stainless steel ice blocks and a cold spray device.