A thermage dot laser positioning auxiliary patch

Abstract

The utility model discloses a kind of hot maggie dot matrix laser positioning auxiliary patches, the auxiliary patch adopts integrated face-shaped patch body structure, is provided with face mark area and two groups of separable periorbital mark area, and the separation hole compatible with periorbital mark area is preset in face mark area.Periorbital mark area is connected with face mark area by connecting band, and connecting band is equipped with fixed end and separation end, and strip-shaped pull tab is set in separation end, and periorbital mark area is independently separated in treatment process. The rear side of patch body is equipped with lifting belt and tear line design, to avoid pollution caused by direct contact, while patch body is equipped with nose, mouth opening and outer periphery V-shaped notch, ensure that patch body and face curve are closely attached and user normal breathing.The design of positioning ear is helpful to quickly calibrate attachment position.The auxiliary patch can be attached to whole face area once to realize face overall positioning, effectively simplify the preparation operation of doctor.

Description

Technical Field

[0001] This utility model relates to the field of medical aesthetics and laser treatment technology, specifically to a Thermage fractional laser positioning auxiliary patch. Background Technology

[0002] In the field of medical aesthetics, radiofrequency anti-aging technology, "Thermage," has become a commonly used method. Its basic principle is to use radiofrequency energy to act on deep skin tissues, thereby stimulating collagen regeneration and achieving skin tightening and improvement of skin laxity. Meanwhile, fractional laser technology, as a refined laser treatment, creates uniform micro-thermal damage points on the skin surface, stimulating the skin's self-repair mechanism and simultaneously promoting collagen production, further improving skin texture and reducing fine lines. It is worth noting that fractional laser technology includes both ablative and non-ablative types, each with different indications and advantages in clinical application.

[0003] In practical applications, to ensure even distribution of radiofrequency energy during Thermage treatment, traditional methods typically require doctors to apply positioning aids to the user's face according to predetermined areas, i.e., creating a grid. Specifically, the doctor first applies a standard grid sticker to the treatment area, leaving clear grid lines on the skin, then applies cooling gel and uses the appropriate treatment probe to perform Thermage irradiation. Because the probe sizes used for different treatment areas (such as the face, perianal area, or body parts) vary significantly—for example, in fourth-generation Thermage products, the probe area for the facial area is typically about 3 square centimeters, for the perianal area only 0.25 square centimeters, while the body area can reach 16 square centimeters—pre-marking the grid not only allows for more accurate quantification of the treatment area but also enables more rational planning of energy distribution, improving treatment efficiency and safety.

[0004] However, traditional grid stickers are rectangular and need to be applied individually to the user's face or eye area, which is inconvenient. Therefore, face-shaped grid stickers were developed. These stickers can be applied to the face like a mask, marking multiple areas simultaneously. However, existing face-shaped stickers primarily cover the entire face, often lacking a separate marking area for the eye area. This means that when precise treatment is needed around the eyes, additional marking is required, hindering the ability to treat the entire face in one session. Therefore, there is an urgent need to design a Thermage fractional laser positioning aid to meet the needs of users seeking full-face treatment. Utility Model Content

[0005] The purpose of this invention is to provide a Thermage fractional laser positioning auxiliary patch. This auxiliary patch can achieve overall facial positioning during a one-time application process, and independently and accurately mark the eye area through a preset separable periorbital marking area, thereby optimizing the energy distribution during Thermage and fractional laser treatment, improving surgical accuracy and ease of operation, while reducing the difficulty of operation and error risk for doctors.

[0006] The technical solution adopted by this utility model to solve the above problems is: a Thermage fractional laser positioning auxiliary patch, including a face-shaped patch, wherein the patch is provided with a facial marking area and two sets of separable periorbital marking areas, and the facial marking area is provided with separation holes adapted to the periorbital marking areas.

[0007] Preferably, the periorbital marking area is connected to the facial marking area via a connecting strap. The connecting strap includes a fixed end and a separating end. The fixed end is fixedly disposed on the facial marking area, and the periorbital marking area is fixedly disposed between the fixed end and the separating end. The separating end is provided with a strip-shaped pull tab.

[0008] Preferably, the back of the patch is provided with a lifting strap, and the lifting strap is provided with a tear line.

[0009] Preferably, the facial marking area includes the forehead, cheeks, and chin.

[0010] Preferably, the side length of the squares in the facial marking area is 1.5 or 2 cm, and the side length of the squares in the periorbital marking area is 0.5 cm.

[0011] Preferably, the patch has a nose opening and a mouth opening.

[0012] Preferably, the outer periphery of the patch has several V-shaped notches.

[0013] Preferably, the patch is provided with positioning ears.

[0014] Compared with the prior art, this utility model has the following advantages and effects:

[0015] This invention employs an integrated face-shaped patch structure, achieving an organic combination of overall facial positioning and independent, precise marking of the periorbital area. Compared to traditional rectangular grid patches applied one by one, this improves pre-treatment preparation efficiency and shortens the doctor's operation time. Furthermore, a lifting strap and tear line are provided on the back of the patch, allowing the doctor to pull the patch away during the procedure without directly touching the marking layer. This effectively prevents the risk of contamination from direct contact and ensures the patch remains sterile throughout the entire treatment process. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of the patch according to an embodiment of the present invention.

[0017] Figure 2 This is a front structural diagram of the patch according to an embodiment of the present invention.

[0018] Figure 3 This is a schematic diagram of the back structure of the patch according to an embodiment of the present invention.

[0019] Figure numbers: Body 11, Face marking area 12, Forehead 121, Cheek 122, Chin 123, Eye periorbital marking area 13, Separation hole 14, Connecting strap 15, Fixing end 16, Separation end 17, Pull tab 18, Lifting strap 21, Tear line 22, Nose opening 23, Mouth opening 24, V-shaped notch 25, Positioning ear 26. Detailed Implementation

[0020] The present invention will be further described in detail below with reference to the accompanying drawings and through embodiments. The following embodiments are explanations of the present invention, but the present invention is not limited to the following embodiments.

[0021] Example:

[0022] See Figure 1 - Figure 3 In this embodiment, a Thermage fractional laser positioning auxiliary patch is involved, which is specifically used for combined facial Thermage and fractional laser treatment. Specifically, it includes a face-shaped patch 11, which is provided with a facial marking area 12 and two sets of separable periorbital marking areas 13. The facial marking area 12 has a separation hole 14 that is adapted to the periorbital marking area 13.

[0023] Specifically, in this embodiment, the face patch 11 adopts a double-layer structure, consisting of a release layer and a marking layer. The release layer is made of flexible materials (medical cotton, silk, etc.) to ensure both firm adhesion and easy subsequent peeling. The marking layer uses printing technology to pre-print regular square markings, allowing doctors to simultaneously mark and locate the user's face and eye area without having to apply each patch individually. This one-time molding facilitates subsequent treatment and reduces the workload of doctors repeatedly applying patches during the procedure.

[0024] For experienced doctors, a Thermage treatment with 900 pulses typically takes 30-60 minutes to complete, while for less experienced doctors, it may take more than an hour. The periorbital marking area 13 is connected to the facial marking area 12 via a connecting strap 15. The connecting strap 15 includes a fixed end 16 and a separating end 17. The fixed end 16 is fixedly mounted on the facial marking area 12, and the periorbital marking area 13 is fixedly positioned between the fixed end 16 and the separating end 17. The separating end 17 of the connecting strap 15 is equipped with a strip-shaped pull tab 18, allowing the doctor to easily pull it up as needed when treating areas outside the eyes, separating the periorbital marking area 13 from the facial marking area. Because there is a stinging sensation during treatment, separating the periorbital marking area 13 from the facial marking area allows the user to keep their eyes open. Furthermore, repeated blinking can relieve facial muscle spasms caused by pain.

[0025] To reduce contamination of the patch 11 caused by physical contact, a lifting strap 21 is provided on the rear side of the patch 11. During operation, the doctor can pull the patch 11 using the lifting strap 21 without directly touching the patch 11 body, thus effectively ensuring the sterility of the auxiliary patch 11. Furthermore, the lifting strap 21 is also provided with tear lines 22. In this embodiment, a tear line 22 is provided at both ends and in the middle of the lifting strap 21. Before application, the lifting strap 21 is torn into two sections using the middle tear line 22. After application, the lifting strap 21 can be separated from the patch 11 using the tear lines 22 at both ends.

[0026] In fourth-generation Thermage products, the facial area probe area is typically approximately 3 square centimeters. The side length of the squares in the facial marking area 12 is 1.5 or 2 cm, ensuring that the treatment unit within each square is roughly matched to the probe's coverage area. The eye area probe area is 0.25 square centimeters, therefore the side length of the squares in the eye area marking area 13 is set to 0.5 cm to meet the requirements for precise positioning in micro-areas. Furthermore, the squares in the facial marking area 12 are also marked with Arabic numerals or English letters, helping doctors better plan the probe's treatment trajectory and ensuring that the square markings in each area match the actual effective range of the laser probe.

[0027] The patch 11 has a nose opening 23 and a mouth opening 24 to ensure that the patch 11 does not cover the mouth and nose area during marking, and does not affect the user's normal breathing. The facial marking area 12 includes the forehead 121, cheek 122, and chin 123, which conforms to the user's natural facial contours. The outer periphery of the patch 11 has several V-shaped notches 25, which allows the edges of the patch 11 to better fit the skin, and the patch 11 can extend naturally without obvious creases in areas such as the cheekbone and chin.

[0028] The patch 11 is provided with a positioning ear 26, which is located on the upper left or upper right of the forehead of the patch 11. When pasting, the positioning ear 26 of the patch 11 can be aligned with the corner of the user's face and pasted together to ensure that the position of the patch 11 is calibrated when it is first pasted, and to keep the pre-set marking area consistent with the treatment area.

[0029] The above description in this specification is merely illustrative of the present invention. Those skilled in the art to which this invention pertains may make various modifications or additions to the described specific embodiments or use similar methods to replace them, as long as they do not depart from the content of this specification or exceed the scope defined in the claims, all of which shall fall within the protection scope of this invention.

Claims

1. A Thermage fractional laser positioning auxiliary patch, comprising a face-shaped patch, characterized in that, The patch is provided with a facial marking area and two sets of separable periorbital marking areas, and the facial marking area has a separation hole that matches the periorbital marking area.

2. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The periorbital marking area is connected to the facial marking area via a connecting strap. The connecting strap includes a fixed end and a separating end. The fixed end is fixedly mounted on the facial marking area, and the periorbital marking area is fixedly mounted between the fixed end and the separating end. The separating end is provided with a strip-shaped pull tab.

3. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The back of the patch is provided with a lifting strap, and the lifting strap is provided with a tear line.

4. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The facial marking areas include the forehead, cheeks, and chin.

5. The Thermage fractional laser positioning auxiliary patch according to claim 4, characterized in that: The side length of the squares in the facial marking area is 1.5 or 2 cm, and the side length of the squares in the periorbital marking area is 0.5 cm.

6. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The patch has a nose opening and a mouth opening.

7. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The outer periphery of the patch has several V-shaped notches.

8. The Thermage fractional laser positioning auxiliary patch according to claim 1, characterized in that: The patch is equipped with positioning ears.

Images