A post-replantation of severed finger observation massage tool
By designing an observation massage tool with a vibrating massage head and lighting components, the problems of pain caused by inflatable devices and insufficient local massage are solved, providing a convenient postoperative care solution for finger replantation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN SONGSHAN LAKE CENT HOSPITAL (DONGGUAN SHILONG PEOPLES HOSPITAL DONGGUAN THIRD PEOPLES HOSPITAL DONGGUAN INST OF CARDIOVASCULAR DISEASES)
- Filing Date
- 2025-01-07
- Publication Date
- 2026-06-09
AI Technical Summary
Existing inflatable massage devices for replantation of severed fingers are prone to causing pain and discomfort to patients during use, cannot massage the affected limb locally, and lack lighting function, making them inconvenient to use.
An observation and massage tool comprising a main shell, a massage component, and a lighting component has been designed. It adopts a vibrating massage head and an LED flashlight structure, which can perform local vibration massage while the affected limb is bandaged, and provides lighting function.
It enables local vibration massage while the affected limb is bandaged, reducing pain caused by the bandaging process, improving ease of use, and allowing for regular monitoring of healing progress. It features a novel structural design and diverse functions.
Smart Images

Figure CN224331232U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, and in particular to an observation and massage tool for postoperative replantation of severed fingers. Background Technology
[0002] Limb replantation is a delicate surgical procedure that involves reconnecting severed or incompletely severed limbs with severed blood vessels and thoroughly cleaning the wound under the guidance of an optical microscope. This allows for the reconstruction of bones, nerves, tendons, and skin. Postoperative comprehensive treatment is then administered to restore some of the limb's function.
[0003] For patients who have undergone limb replantation surgery, a variety of adjuvant therapies are needed to promote the recovery of the affected limb and improve prognosis, such as infrared, microwave, audio, wax therapy, massage and other physical therapies. Among them, massage can promote blood circulation, relieve pain, promote the recovery of muscle strength and prevent muscle atrophy, and is an effective adjuvant treatment method.
[0004] Chinese utility model patent with patent number ZL202120488164.9 and patent name: Inflatable Finger Pad Massage Device after Finger Replantation, substantially discloses a massage tool for post-finger replantation surgery. Specifically, the inflatable finger pad massage device for post-finger replantation surgery discloses the following technical solution: An inflatable finger pad massage device for post-finger replantation surgery includes a control device, a connecting tube, and a finger sleeve mechanism. The control device is operated by the user to perform cyclic inflation or deflation. One end of the connecting tube is connected to the control device. The finger sleeve mechanism is used to fit on the finger and is connected to the other end of the connecting tube. When the control device cyclically inflates or deflates the finger sleeve mechanism through the connecting tube, the finger sleeve mechanism is inflated or deflated to cyclically squeeze the finger. The control device has a display screen and control buttons. The display screen is used to display the pressure value of the finger sleeve mechanism, and the control buttons are used to control the pressure of the finger sleeve mechanism. The user can adjust the pressure and working time of the finger sleeve mechanism through the control buttons.
[0005] When using the aforementioned inflatable finger replantation postoperative finger massage device, the finger sleeve mechanism is placed on the postoperative finger, and then the control device circulates air into or deflates the finger sleeve mechanism, causing the finger sleeve mechanism to expand or contract, thereby circulating and squeezing the postoperative finger, resulting in a better pressing effect. The pressing pressure can be controlled by the control device to accurately control the pressing time.
[0006] However, the aforementioned inflatable fingertip massage device for post-operative finger replantation has the following drawbacks, specifically:
[0007] Defect 1: For patients who have undergone limb replantation surgery, the affected limb needs to be bandaged and may experience swelling and pain. When using the above-mentioned inflatable finger replantation finger massage device to massage the affected limb, the finger sleeve needs to be put on the affected limb. The putting-on action will touch the surgical site of the affected limb, which will cause pain and discomfort to the patient. In addition, the bandaging area of the affected limb will also affect the putting-on action, making it inconvenient to use.
[0008] Defect 2: When the affected limb is bandaged, the exposed skin area of the affected limb is small, and the above-mentioned inflatable finger replantation postoperative finger massage device cannot massage the local area of the affected limb, resulting in poor performance.
[0009] Defect 3: During the care of the affected limb after limb replantation surgery, it is necessary to use a light source to regularly check the healing status of the postoperative position. However, the above-mentioned inflatable finger replantation finger massage device does not have a lighting function. Utility Model Content
[0010] The purpose of this invention is to provide a postoperative observation and massage tool for finger replantation, which addresses the shortcomings of existing technologies. This tool has a novel structural design, is easy to use, has multiple functions, and can effectively provide vibration massage to the affected limb after finger replantation.
[0011] To achieve the above objectives, this utility model is implemented through the following technical solution.
[0012] A massage tool for postoperative observation after finger replantation includes a main body shell and massage components;
[0013] The main body shell has an internal cavity for receiving the shell, and the front end face of the main body shell has a front through hole that opens forward and communicates with the cavity for receiving the shell.
[0014] The massage component includes a massage soft gel body, the rear end of which is embedded in the front end of the housing cavity, and a vibration motor is installed inside the rear end of the soft gel massage body; the front end of the soft gel massage body is provided with a forward-protruding and strip-shaped vibration massage head, which is an integral structure with the massage soft gel body, and the vibration massage head passes through the front through hole and extends to the front end of the main housing.
[0015] The rear end of the main body shell is equipped with a lighting component.
[0016] The main body shell includes an upper shell and a lower shell connected to the upper shell and located at the lower end of the upper shell. The outer shell cavity is formed by the upper shell and the lower shell together. The front through hole is located between the upper shell and the lower shell, and the rear end of the massage soft gel is limited and installed between the upper shell and the lower shell.
[0017] The outer casing cavity contains a PCBA circuit board and a power supply battery. The vibration motor, the lighting component, and the power supply battery are electrically connected to the PCBA circuit board.
[0018] The PCBA circuit board is equipped with a light source on / off button, a massage on / off button, a low-speed vibration button, a medium-speed vibration button, and a high-speed vibration button.
[0019] The upper shell has button holes for the light source on / off button, massage on / off button, low-speed vibration button, medium-speed vibration button, and high-speed vibration button. The light source on / off button, massage on / off button, low-speed vibration button, medium-speed vibration button, and high-speed vibration button pass through the corresponding button holes and protrude from the upper surface of the upper shell.
[0020] The power supply battery is a rechargeable battery, and the lower shell is equipped with a charging interface exposed on the outer surface of the lower shell. The charging interface is electrically connected to the PCBA circuit board.
[0021] The lighting component is an LED flashlight structure.
[0022] The massage soft gel is made of silicone.
[0023] The front end of the vibration massage head is conical in shape, and is fitted with a silicone sleeve that fits around the vibration massage head during use. The shape of the silicone sleeve is adapted to the shape of the vibration massage head.
[0024] Compared with the prior art, the present invention has the following beneficial effects, specifically:
[0025] 1. This utility model can realize the vibration massage function. When in use, the vibration motor is started and the vibration motor drives the entire massage soft rubber body to vibrate. The vibration massage head vibrates synchronously with the massage soft rubber body. The vibrating massage head vibrates to massage the patient's affected limb.
[0026] 2. Because the vibrating massage head is in the shape of a thin strip, even when the affected limb is bandaged and the exposed skin area is small, this invention can still contact the exposed skin of the affected limb through the vibrating massage head to achieve local massage of the affected limb.
[0027] 3. This utility model uses vibration massage to perform vibration massage on the patient's affected limb. This vibration massage method is a local skin contact massage, and the massage process does not require the limb to be covered. Compared with the prior art, this utility model is more convenient to use.
[0028] 4. The lighting component installed at the rear of the main body shell can be used to realize the lighting function. The lighting component can be used to periodically check the healing status of the patient's limb after surgery, so as to facilitate the observation after finger replantation. It is convenient to use.
[0029] 5. Therefore, this utility model has the advantages of novel structural design, convenient use, and diverse functions. Attached Figure Description
[0030] The present invention will be further described below with reference to the accompanying drawings, but the embodiments in the drawings do not constitute any limitation on the present invention.
[0031] Fig. 1 This is a first-view structural schematic diagram of the present invention.
[0032] Fig. 2 This is a structural schematic diagram of the present invention from a second perspective.
[0033] Fig. 3 This is a structural schematic diagram of the present invention from a third-view perspective.
[0034] exist Figs. 1-3 This includes:
[0035] 1-Main body shell; 11-Upper shell; 12-Lower shell; 2-Front end through hole; 3-Vibration massage head; 4-Lighting assembly; 51-Light source on / off button; 52-Massage on / off button; 53-Low speed vibration button; 54-Medium speed vibration button; 55-High speed vibration button; 6-Silicone sleeve. Detailed Implementation
[0036] The present invention will now be described in conjunction with specific embodiments.
[0037] Example 1, as Figs. 1-3 As shown, a massage tool for postoperative observation after finger replantation includes a main shell 1 and a massage component.
[0038] Specifically, such as Figs. 1-3 As shown, the main body shell 1 has a shell receiving cavity (not shown in the figure) inside, and the front end face of the main body shell 1 has a front through hole 2 that opens forward and communicates with the shell receiving cavity.
[0039] Furthermore, the massage component includes a massage soft gel body (not shown in the figure), the rear end of which is embedded in the front end of the housing cavity, and a vibration motor (not shown in the figure) is installed inside the rear end of the soft gel massage body; the front end of the soft gel massage body is provided with a forward-protruding and strip-shaped vibration massage head 3, the vibration massage head 3 and the massage soft gel body are an integral structure, and the vibration massage head 3 passes through the front end through hole 2 and extends to the front end side of the main housing 1.
[0040] It should be explained that the massage soft gel is made of silicone, and in this embodiment, the massage soft gel and the vibrating massage head 3 can be integrally injection molded using silicone material injection molding. A receiving cavity is formed at the rear end of the massage soft gel corresponding to the vibrating motor, and the vibrating motor is embedded within the receiving cavity of the massage soft gel.
[0041] Furthermore, a lighting component 4 is installed at the rear end of the main body shell 1. It should be explained that the lighting component 4 in this embodiment can be an LED flashlight structure; of course, the above-mentioned structural form of the lighting component 4 does not constitute a limitation on this embodiment, that is, the lighting component 4 in this embodiment can also adopt other structural forms.
[0042] The postoperative observation and massage tool for finger replantation in this embodiment can achieve vibration massage function. During the process of using the postoperative observation and massage tool for finger replantation in this embodiment to perform vibration massage on the patient's affected limb after finger replantation, the vibration motor is started and drives the entire massage soft rubber body to vibrate. During this process, the vibration massage head 3 vibrates synchronously with the massage soft rubber body. Since the vibration massage head 3 extends to the front end of the main body shell 1, when in use, medical staff, patients or patients' family members can contact the patient's affected limb through the front end of the vibration massage head 3 and perform vibration massage on the patient's affected limb through the vibration of the vibration massage head 3.
[0043] It should be emphasized that, since the vibrating massage head 3 is in the shape of a thin strip, even when the patient's affected limb is bandaged, and the exposed skin area of the affected limb is small, this embodiment can still use the vibrating massage head 3 to contact the exposed skin of the affected limb to achieve local massage of the affected limb.
[0044] Furthermore, in this embodiment, the patient's affected limb is massaged by vibration. This vibration massage is a local skin contact massage, and the massage process does not require the limb to be covered. Compared with the prior art, the massage tool for postoperative observation of finger replantation in this embodiment is more convenient to use.
[0045] In addition, the lighting component 4 installed at the rear end of the main body shell 1 can be used by medical staff, patients or their families to achieve the lighting function. They can use the lighting component 4 to regularly check the healing status of the patient's limb after surgery, so as to facilitate the observation after finger replantation. It is convenient to use.
[0046] In summary, the observation and massage tool for replantation of severed fingers in this embodiment has the advantages of novel structural design, convenient use, and diverse functions, and can effectively provide vibration massage to the affected limb after replantation.
[0047] Example 2, as Figs. 1-3As shown, the difference between this embodiment 2 and embodiment 1 is that the main body shell 1 includes an upper shell 11 and a lower shell 12 connected to the upper shell 11 and located at the lower end of the upper shell 11. The shell accommodating cavity is formed by the upper shell 11 and the lower shell 12 together. The front end through hole 2 is located between the upper shell 11 and the lower shell 12, and the rear end of the massage soft gel is limited and installed between the upper shell 11 and the lower shell 12.
[0048] The outer shell cavity contains a PCBA circuit board (not shown in the figure) and a power supply battery (not shown in the figure). The vibration motor, lighting component 4, and power supply battery are electrically connected to the PCBA circuit board.
[0049] Example 3, as Figs. 1-3 As shown, the difference between this embodiment three and embodiment two is that the PCBA circuit board is provided with a light source on / off button 51, a massage on / off button 52, a low-speed vibration button 53, a medium-speed vibration button 54, and a high-speed vibration button 55.
[0050] The upper shell 11 has button holes for the light source on / off button 51, massage on / off button 52, low-speed vibration button 53, medium-speed vibration button 54 and high-speed vibration button 55 respectively. The light source on / off button 51, massage on / off button 52, low-speed vibration button 53, medium-speed vibration button 54 and high-speed vibration button 55 respectively pass through the corresponding button holes and protrude from the upper surface of the upper shell 11.
[0051] During the observation of the use of the massage tool after finger replantation in this embodiment three, the lighting component 4 can be turned on and off by the light source on / off button 51, the vibration motor can be turned on and off by the massage on / off button 52, and the vibration speed of the vibration motor can be selectively controlled by the low-speed vibration button 53, the medium-speed vibration button 54 and the high-speed vibration button 55.
[0052] Example 4 differs from Example 2 in that the power supply battery is a rechargeable battery, and the lower shell 12 is equipped with a charging interface (not shown in the figure) exposed on the outer surface of the lower shell 12. The charging interface is electrically connected to the PCBA circuit board.
[0053] When the battery power is low, users can charge it through the charging port to improve ease of use.
[0054] Example 5, as Figs. 1-3 As shown, the difference between this fifth embodiment and the first embodiment is that the front end of the vibration massage head 3 is conical in shape, and the front end of the vibration massage head 3 is equipped with a silicone sleeve 6 that is fitted around the vibration massage head 3 during use. The shape of the silicone sleeve 6 is adapted to the shape of the vibration massage head 3.
[0055] The silicone sleeve 6 in this embodiment 5 is a detachable structure. When in use, the silicone sleeve 6 is fitted around the vibrating massage head 3, and the vibrating massage head 3 contacts the skin of the affected limb through the silicone sleeve 6. After the massage operation is completed, the silicone sleeve 6 can be discarded or cleaned and reused.
[0056] In a hospital setting, silicone sleeves can effectively prevent cross-infection.
[0057] The above description is only a preferred embodiment of this utility model. For those skilled in the art, there will be changes in the specific implementation method and application scope based on the idea of this utility model. The content of this specification should not be construed as a limitation of this utility model.
Claims
1. A massage tool for postoperative observation after finger replantation, comprising a main body shell (1) and a massage component; Its features are: The main body shell (1) has an inner shell cavity formed inside, and the front end face of the main body shell (1) has a front through hole (2) that opens forward and communicates with the shell cavity. The massage component includes a massage soft gel body, the rear end of which is embedded in the front end of the housing cavity, and a vibration motor is installed inside the rear end of the soft gel massage body; the front end of the soft gel massage body is provided with a forward-protruding and strip-shaped vibration massage head (3), the vibration massage head (3) and the massage soft gel body are an integral structure, and the vibration massage head (3) passes through the front end through hole (2) and extends to the front end of the main housing (1); The rear end of the main body shell (1) is equipped with a lighting component (4).
2. The postoperative observation and massage tool for finger replantation as described in claim 1, characterized in that: The main body shell (1) includes an upper shell (11) and a lower shell (12) connected to the upper shell (11) and located at the lower end of the upper shell (11). The shell accommodating cavity is formed by the upper shell (11) and the lower shell (12). The front end through hole (2) is located between the upper shell (11) and the lower shell (12), and the rear end of the massage soft gel is limited and installed between the upper shell (11) and the lower shell (12). The outer shell cavity contains a PCBA circuit board and a power supply battery. The vibration motor, the lighting component (4), and the power supply battery are electrically connected to the PCBA circuit board.
3. The postoperative observation and massage tool for finger replantation according to claim 2, characterized in that: The PCBA circuit board is equipped with a light source on / off button (51), a massage on / off button (52), a low-speed vibration button (53), a medium-speed vibration button (54), and a high-speed vibration button (55). The upper shell (11) has button holes for the light source on / off button (51), massage on / off button (52), low speed vibration button (53), medium speed vibration button (54) and high speed vibration button (55). The light source on / off button (51), massage on / off button (52), low speed vibration button (53), medium speed vibration button (54) and high speed vibration button (55) pass through the corresponding button holes and protrude from the upper surface of the upper shell (11).
4. The postoperative observation and massage tool for finger replantation as described in claim 2, characterized in that: The power supply battery is a rechargeable battery, and the lower shell (12) is equipped with a charging interface exposed on the outer surface of the lower shell (12), and the charging interface is electrically connected to the PCBA circuit board.
5. The postoperative observation and massage tool for finger replantation according to claim 1, characterized in that: The lighting component (4) is an LED flashlight structure.
6. The postoperative observation and massage tool for finger replantation according to claim 1, characterized in that: The massage soft gel is made of silicone.
7. A postoperative observation and massage tool for finger replantation according to any one of claims 1 to 6, characterized in that: The front end of the vibration massage head (3) is cone-shaped, and the front end of the vibration massage head (3) is equipped with a silicone sleeve (6) that is fitted around the vibration massage head (3) when in use. The shape of the silicone sleeve (6) is adapted to the shape of the vibration massage head (3).