Multi-functional portable massaging device
By integrating a light-emitting component and a soft massage head, this multifunctional portable massage device solves the problem of users needing to purchase eye massagers and visual phototherapy instruments separately, achieving convenient and efficient protection through eye massage and photobiological regulation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI LIANGMING TECH DEV
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-12
Smart Images

Figure CN224345164U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of massage equipment technology, and in particular to a multifunctional portable massage device. Background Technology
[0002] Currently, there are various massage devices on the market, including various head, eye, face, shoulder and neck, foot, leg massagers and full-body massage devices.
[0003] Considering the portability of massage devices, existing technologies also provide various portable massage devices. For example, Chinese patent ZL201410025945.9 discloses a portable multifunctional massager, including a handheld massage body and a massage head located at the bottom of the massage body. The massage body has a storage compartment for storing liquid, and the bottom of the massage body or the massage head has a liquid outlet communicating with the storage compartment. The massage body has a button that allows the liquid to flow out from the liquid outlet. The above massager can be used for scalp massage or facial and neck massage. Correspondingly, the liquid in its storage compartment can be shampoo, conditioner, skin lotion, liniment, or essential oil, etc., providing a multi-purpose and powerful massage device. For example, Chinese Patent 202021477274.7 discloses an eye massager, including an eye massager body and a soft massage head cover disposed on the eye massager body. The soft massage head cover includes a base and a ring-shaped massage head disposed on the base. The massage head has a slope extending to the top of the massage head relative to the inner side of the ring, and the slope of the slope is less than 90°. The above-mentioned eye massager is convenient for users to carry, and the massage head is made of elastic silicone material, which can better fit different eye shapes and provide a good massage experience.
[0004] On the other hand, with the widespread use of electronic products such as computers, mobile phones, and tablets, they have become indispensable tools in people's lives, work, and studies. Related eye diseases are also on the rise, such as eye strain, decreased vision, myopia, and dry eyes caused by prolonged use of electronic products. Accordingly, existing technologies offer various visual function adjustment / training products that can prevent and control myopia and amblyopia and relieve eye strain, including various eye masks, eye patches, eye therapy devices, visual phototherapy devices, and eye physiotherapy instruments. Among them, visual phototherapy devices are a solution that uses artificial light sources to prevent and treat various visual function problems. By irradiating the eyes (mainly the fundus) with light, it targets different tissues of the eyeball to relieve eye strain and prevent and control myopia and amblyopia.
[0005] Currently, if users need eye massage and vision adjustment, they need to purchase eye massagers and vision therapy instruments separately, which is expensive. In addition, users may need to operate and switch between multiple devices, which reduces the user experience. Utility Model Content
[0006] The purpose of this invention is to overcome the shortcomings of existing technologies and provide a multifunctional portable massage device. This multifunctional portable massage device integrates a light-emitting element capable of radiating light of a preset wavelength to illuminate the user's eyes. This light illuminates the user's eyes (mainly the fundus) to perform photobiological regulation, promoting blood flow and metabolism in the retina and choroid, thereby protecting the eyes and preventing eye diseases. This invention enriches the functions of massage devices, increases their applicability and efficiency, and is particularly suitable for users to perform eye massage for relaxation and adjustment.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] A multifunctional portable massage device includes a main structure and a massage head, wherein a controller is installed inside the main structure and the massage head is installed below the main structure.
[0009] The main structure is provided with a light-transmitting part, and a light-emitting element is provided corresponding to the light-transmitting part to radiate light of a preset wavelength for the user to see and to illuminate the user's eyes.
[0010] Furthermore, the main structure's housing includes a front shell and a bottom shell, with an internal cavity for at least housing the controller and related circuit components, and operation buttons provided on the surface of the housing;
[0011] The faceplate is shaped to be easy for the user to hold, and the light-transmitting part is provided on the faceplate;
[0012] The aforementioned massage head is installed below the bottom shell. The massage head is a soft massage head. The massage execution structure of the soft massage head is electrically connected to the circuit elements in the aforementioned cavity and receives control from the controller.
[0013] in,
[0014] A light-emitting element is installed inside the cavity corresponding to the area of the surface shell where the light-transmitting part is located. The light-emitting element is electrically connected to the circuit elements inside the cavity, and the light emitted by the light-emitting element is emitted through the light-transmitting part; or,
[0015] A light-emitting element is installed inside the light-transmitting section. The light-emitting element is electrically connected to circuit elements inside the cavity via a conductive structure arranged on the light-transmitting section. The light emitted by the light-emitting element is emitted through the wall of the light-transmitting section; or...
[0016] The light-transmitting part is a light-transmitting cover with a closed cavity. The light-emitting element is installed inside the light-transmitting cover to form a light bulb. The cover is provided with a light bulb mounting area to install one or more light bulbs. When the light bulb is installed in the light bulb mounting area, the light-emitting element in the light bulb is electrically connected to the circuit elements in the cavity, and the light emitted by the light-emitting element is emitted through the light-transmitting cover.
[0017] Furthermore, the light-transmitting part is a smooth curved surface protruding from the surface of the shell, and the light-transmitting part is installed on the shell through a detachable connector so that the light-transmitting part can be removed from the shell.
[0018] The light-transmitting part is a frosted or semi-transparent shell to form a soft light lamp shell, which softens the light emitted by the light-emitting element.
[0019] Furthermore, there are at least two light-transmitting parts, and a red light source and a yellow light source are installed in the two light-transmitting parts as light-emitting elements to form a red light illumination area and a yellow light illumination area on the surface shell, respectively.
[0020] Furthermore, the cavity within the housing includes a first sub-cavity and a second sub-cavity, which are independent of each other. The first sub-cavity is used to house circuit components, and the second sub-cavity is used to form a liquid storage cavity. A sprayer is provided on the bottom shell corresponding to the liquid storage cavity, and the sprayer is connected to the liquid storage cavity. Corresponding to the sprayer, a soft cover is provided on the soft massage head. The soft cover is recessed to form a bottom, and the bottom is provided with a through hole as an atomizing hole. In use, the atomizing hole is used to output the atomized liquid generated by the sprayer.
[0021] The internal cavity of the housing is divided by a partition structure to form the first sub-cavity and the second sub-cavity. The partition structure is fixedly connected to the housing so that the cavities of the first sub-cavity and the second sub-cavity are fixed, or the partition structure is detachably connected to the housing. The partition structure serves as both a partition layer and the cavity wall of the second sub-cavity. Through the detachable connection, the second sub-cavity can be removed from the housing as a whole.
[0022] Furthermore, the liquid storage cavity has a proximal end and a distal end, with the proximal end close to the outer shell and the distal end located deep within the shell;
[0023] A separate light-emitting sub-cavity is separated at the proximal end to install the light-emitting element, and the light-emitting sub-cavity is isolated from the main liquid storage cavity;
[0024] A liquid storage chamber cover is provided on the surface shell corresponding to the liquid storage chamber, and the liquid storage chamber cover is made of light-transmitting material to form the light-transmitting part.
[0025] Furthermore, the cavity inside the shell also includes a third sub-cavity, and the three sub-cavities are set independently of each other;
[0026] The third cavity is equipped with a light-emitting element to form a light-emitting cavity. A light-emitting cavity cover is provided on the surface shell corresponding to the light-emitting cavity. The light-emitting cavity cover is made of a light-transmitting material to form the light-transmitting part.
[0027] Furthermore, the soft massage head includes a soft rubber base, on which multiple soft contact points are arranged in a ring. A soft cover recess is provided in the middle of the soft rubber base to form an eye-protecting groove. When the user needs to massage the area around the eyes with the soft massage head, the eye-protecting groove can provide space for the eyes and protect the eyes.
[0028] The soft contact includes a soft sleeve integrally formed with a soft rubber base. The soft sleeve has a cavity structure. The front end of the cavity is used to install a massage actuator, which fills the front end of the cavity and the other end is electrically connected to the circuit of the main body structure. The length of the massage actuator is less than the length of the cavity, so that the tail end of the soft sleeve remains hollow, thereby forming a soft contact with a hard head and a soft tail.
[0029] The massage execution structure includes a vibrating element, a heating element, a magnetic element and / or an electrode plate, which respectively form a vibration massage structure, a hot compress structure, a magnetic therapy structure and / or a microcurrent stimulation structure on the soft contact head;
[0030] When both a vibrating element and a heating element are provided, the heating element is placed on the outside of the vibrating element and the two are thermally isolated by a heat insulation layer to protect the vibrating element.
[0031] Furthermore, the soft cover is integrally formed with the soft rubber base, including a nested outer ring and an inner ring. The outer ring and the inner ring each have a proximal end and a distal end. The proximal end of the outer ring is connected to the proximal end of the inner ring to form an integral structure. This integral structure includes an edge body for contact with the user's eyes, through which an elastic sealing ring is formed to fit the skin around the user's eyes. The distal end of the outer ring is connected to the soft rubber base to form an integral structure, and the distal end of the inner ring forms the bottom of the soft cover.
[0032] An infrared heating element is also provided inside the soft cover. At this time, the massage mode of the massage device includes an eye massage mode and a non-eye massage mode.
[0033] In eye massage mode, the massage execution structure of the soft contact head is activated, and at the same time, the infrared heating element inside the soft cover is activated to apply heat to the skin around the eyes in contact.
[0034] In non-eye massage mode, the massage execution structure of the soft contact head is activated, but the infrared heating element inside the soft cover is not activated.
[0035] Furthermore, the bottom of the massage head is provided with a light-transmitting part and a light-emitting element. The light-emitting element is used to radiate light of a preset wavelength for the user to see and to illuminate the user's eyes; the light emitted by the light-emitting element is emitted through the light-transmitting part.
[0036] At this time, the massage device's working modes include massage mode and light therapy mode.
[0037] In massage mode, the massage execution structure of the soft contact head is activated;
[0038] In phototherapy mode, the light-emitting element is activated to provide visual illumination for the user.
[0039] Furthermore, it also includes a dimming chip, which can control the light-emitting element to emit light according to a preset cycle.
[0040] Compared with existing technologies, this utility model, by adopting the above technical solution, has the following advantages and positive effects: The multifunctional portable massage device integrates a light-emitting element capable of radiating light of a preset wavelength to illuminate the user's eyes. This light illuminates the user's eyes (mainly the fundus) to perform photobiological regulation, promoting blood flow and metabolism in the retina and choroid, thereby protecting the eyes and preventing eye diseases. This utility model enriches the functions of massage devices, increases the applicability and efficiency of the massager, and is particularly suitable for users to perform eye massage for relaxation and adjustment. Attached Figure Description
[0041] Figure 1 A schematic diagram of the structure of the multifunctional portable massage device provided in the embodiment of this utility model.
[0042] Figure 2 This is a schematic diagram illustrating the operation of removing the light-transmitting part according to an embodiment of the present invention.
[0043] Figure 3 This is a schematic diagram of a structure in which the light-emitting element is disposed in the light-transmitting part, according to an embodiment of the present utility model.
[0044] Figure 4 This is a schematic diagram of a structure with two light-transmitting parts provided for an embodiment of the present utility model.
[0045] Figure 5 This is a schematic diagram of the structure of a massage device with atomizing function provided in an embodiment of the present invention.
[0046] Figure 6 This is a schematic diagram of the structure in which a light-transmitting part is formed by sealing the liquid storage cavity, which is provided as an embodiment of the present utility model.
[0047] Figure 7This is a schematic diagram of a structure in which a light-emitting element is provided in a liquid storage cavity, according to an embodiment of the present invention.
[0048] Figure 8 This is a schematic diagram of a structure in which a light-emitting element is provided on the liquid storage chamber cap, as provided in an embodiment of the present invention.
[0049] Figure 9 This is a schematic diagram of a structure in which the liquid storage chamber and the light-emitting chamber are set up separately and independently, according to an embodiment of the present utility model.
[0050] Figure 10 This is a schematic diagram of the structure of the soft massage head provided in an embodiment of the present invention.
[0051] Figure 11 This is a cross-sectional structural diagram of the soft contact provided in an embodiment of the present invention.
[0052] Figure 12 This is a schematic diagram illustrating the installation of the soft massage head and the bottom shell of the main structure according to an embodiment of the present invention.
[0053] Figure 13 This is a schematic diagram showing the installation of a soft massage head on the main structure, provided for an embodiment of the present invention.
[0054] Figure 14 This is a schematic diagram of a structure in which a light-transmitting part is provided at the bottom of a soft massage head, as provided in an embodiment of the present invention.
[0055] Explanation of reference numerals in the attached figures:
[0056] Massage equipment 100;
[0057] Main structure 110, front shell 111, data cable interface 1111, bottom shell 112;
[0058] Soft massage head 120, soft rubber base 121, soft contact 122, soft sleeve 1221, massage contact 1222, hollow flexible section 1223, electrical wire 1224, vibrating element 1225, heat insulation layer 1226, heating element 1227, soft cover 123, atomizing hole 1231;
[0059] Light-transmitting part 130, first light-transmitting part 130-1, second light-transmitting part 130-2;
[0060] Operation button 140;
[0061] Light-emitting component 150;
[0062] The liquid storage chamber is sealed with a 160mm cap.
[0063] Liquid storage chamber 170. Detailed Implementation
[0064] The multifunctional portable massage device disclosed in this utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that the technical features or combinations of technical features described in the following embodiments should not be considered isolated; they can be combined with each other to achieve better technical effects. In the accompanying drawings of the following embodiments, the same reference numerals appearing in each drawing represent the same features or components, which can be applied to different embodiments. Therefore, once an item is defined in one drawing, it does not need to be further discussed in subsequent drawings.
[0065] It should be noted that the structures, proportions, sizes, etc., illustrated in the accompanying drawings are merely for illustrative purposes to aid those skilled in the art and are not intended to limit the implementation conditions of the utility model. Any modifications to the structure, changes in proportions, or adjustments to size, without affecting the effectiveness and purpose of the utility model, should fall within the scope of the technical content disclosed in the utility model. The scope of the preferred embodiments of this utility model includes other implementations, wherein functions may be performed not in the order stated or discussed, including substantially simultaneously or in reverse order, according to the functions involved. This should be understood by those skilled in the art to which the embodiments of this utility model pertain.
[0066] Techniques, methods, and apparatus known to those skilled in the art may not be discussed in detail, but where appropriate, such techniques, methods, and apparatus should be considered part of the specification. In all examples shown and discussed herein, any specific values should be interpreted as merely exemplary and not as limitations. Therefore, other examples of exemplary embodiments may have different values.
[0067] In the description of the embodiments of this application, " / " means "or", and "and / or" is used to describe the relationship between related objects, indicating that there can be three relationships. For example, "A and / or B" means: A and B exist alone, B exists alone, and A and B exist simultaneously. In the description of the embodiments of this application, "multiple" refers to two or more. Example
[0068] See Figure 1 As shown, a multifunctional portable massage device 100 provided by this utility model includes a main structure 110 and a massage head. A controller is provided inside the main structure, and the massage head is installed below the main structure 110.
[0069] The controller, as the core control unit of the massage device, can employ an MCU chip or a SOC chip, with an MCU chip being preferred. The main structure may also include functional modules such as a power supply module, a massage drive module, a human-machine interface module, and an indicator circuit module. The power supply module supplies power to the circuit components of each part, and specifically may include a battery and a power management module. The power management module is connected to the control unit and receives control from the control unit. The power management module manages the battery's power supply, charging, discharging, power monitoring, and power consumption optimization, and can refer to existing power management modules, which are prior art and will not be elaborated further here. The massage drive module, human-machine interface module, and indicator circuit module are all electrically connected to the controller and receive control from the control unit. Depending on the massage method, the massage drive module may include different massage execution structures. The specific circuit structure and control method of the massage drive module, human-machine interface module, and indicator circuit module can refer to existing portable massage structures, which are prior art and will not be elaborated further here.
[0070] The massage head can be a rigid massage head or a soft massage head, preferably a soft massage head 120.
[0071] In specific configurations, the soft massage head 120 can be mounted on the main structure 110 using various structures, such as bolt / screw connections, snap-fit connections, and / or edge-wrapping sleeve connections; correspondingly, different mounting structures can be configured to mount the soft massage head 120 on the main structure 110.
[0072] In this embodiment, the main structure 110 is provided with a light-transmitting part 130, and a light-emitting element is provided corresponding to the light-transmitting part 130 to radiate light of a preset wavelength for the user to see, to illuminate the user's eyes, and to illuminate the user's fundus to perform photobiological regulation of the eyes.
[0073] Specifically, the main structure 110 may include a housing, which includes a front shell and a bottom shell. The housing has an internal cavity for accommodating the aforementioned controller and related circuit components. The surface of the housing is provided with operation buttons 140 for user operation. The operation buttons may specifically include a power button, a timer button, a massage mode button, etc.
[0074] The faceplate is designed to be easy for the user to hold, and the light-transmitting part 130 can be provided on the faceplate.
[0075] The aforementioned soft massage head 120 can be installed below the bottom shell. The massage execution structure of the soft massage head 120 is electrically connected to the circuit elements in the aforementioned cavity and receives control from the controller. Specifically, the massage execution structure may include a vibrating element, a heating element, a magnetic element, and / or electrode plates, forming a vibration massage structure, a heat therapy structure, a magnetic therapy structure, and / or a microcurrent stimulation structure on the soft contact head, respectively. It should be noted that the specific structure, working mode, and control method of the above-mentioned massage execution structure can refer to various corresponding functional modules in existing massage devices, which are prior art and will not be elaborated further here.
[0076] In one embodiment, corresponding to the area of the housing where the light-transmitting portion 130 is located, a light-emitting element 150 is installed inside the housing cavity. The light-emitting element 150 is electrically connected to the circuit elements inside the cavity and can receive control from the controller and power supply from the power module. The light emitted by the light-emitting element 150 is emitted through the light-transmitting portion 130. See [reference needed]. Figure 2 As shown.
[0077] In another embodiment, a light-emitting element 150 is provided within the light-transmitting portion 130, see [reference]. Figure 3 As shown, the light-emitting element is located on the main body of the light-transmitting part 130. When the light-transmitting part 130 is mounted on the shell, the light-emitting element 150 on the light-transmitting part can be electrically connected to the circuit elements in the shell cavity through the conductive structure (such as conductive sheet or conductive contact, not shown in the figure) arranged on the light-transmitting part. The light emitted by the light-emitting element 150 is emitted through the shell wall of the light-transmitting part 130.
[0078] In another embodiment, the light-transmitting part can also be a light-transmitting cover with a closed cavity. The light-emitting element 150 is installed inside the light-transmitting cover to form a light bulb. The cover can be provided with a light bulb mounting area to install one or more light bulbs. When the light bulb is installed in the light bulb mounting area, the light-emitting element in the light bulb is electrically connected to the circuit elements in the cavity, and the light emitted by the light-emitting element is emitted through the light-transmitting cover.
[0079] The light-transmitting part 130 can be made of transparent or semi-transparent materials such as plastic, glass, or fiber film (e.g., nylon), and can be a flat plate or a curved surface. Preferably, in this embodiment, the light-transmitting part 130 is a smooth curved surface protruding from the surface of the main structure, and the light-transmitting part 130 is mounted on the surface of the main structure via a detachable connector, allowing the light-transmitting part to be removed from the surface. The detachable connector can be a bolt / screw connection, a snap-fit connection, a plug-in connection, a magnetic adsorption connection, etc., and is not limited here, as long as it can realize the installation and removal of the light-transmitting part from the surface.
[0080] More preferably, the light-transmitting part is a frosted or semi-transparent shell to form a soft light lamp shell, which softens the light emitted by the light-emitting element.
[0081] In this embodiment, there may be at least two light-transmitting parts 130, and red light source and yellow light source are installed in the two light-transmitting parts as light-emitting elements to form red light illumination area and yellow light illumination area on the surface shell respectively.
[0082] See Figure 4 As shown, an example is illustrated by providing two light-transmitting portions 130 on the faceplate. In this case, the light-transmitting portions include a first light-transmitting portion 130-1 and a second light-transmitting portion 130-2. A red light source is installed in the first light-transmitting portion 130-1 as a light-emitting element, and a yellow light source is installed in the second light-transmitting portion 130-2 as a light-emitting element. By radiating red and yellow light to the eyes (mainly the fundus), the light targets different tissues of the eyeball, thereby relieving eye fatigue, preventing myopia, and achieving the effect of protecting the eyes.
[0083] In a specific configuration, the red light source can be a light-emitting diode (LED red light lamp), capable of radiating visible red light and / or infrared light. This visible red light and / or infrared light irradiates the retina and choroid through the pupil, promoting blood flow and metabolism in the retina and choroid. Visible red light has a wavelength range of 620–750 nm, is visible to the human eye, and has long wavelengths and low energy; near-infrared light has a wavelength range of 750–1400 nm, is invisible, and has stronger penetrating power; mid / far-infrared light has a wavelength range >1400 nm and a strong thermal effect. This embodiment mainly utilizes low-intensity visible red light and near-infrared light for illumination. More preferably, the wavelength range of the light emitted by the light-emitting element is 630-1000 nm, and the optical power of the light source is preferably 0.37–1.20 mW, which is currently a commonly used safe and effective range in clinical practice. In specific operation, the power can be set in conjunction with parameters such as the angle of attack to ensure safety; this is existing technology and will not be elaborated upon here.
[0084] The yellow light source also uses light-emitting diodes (LED yellow light lamps), which can radiate yellow light with a wavelength of 570-590nm. Appropriate yellow light exposure can reduce eye fatigue and avoid interfering with melatonin secretion.
[0085] More preferably, both the first light-transmitting part 130-1 and the second light-transmitting part 130-2 are formed into bulbs by using a light-transmitting cover with a closed cavity. The bulbs are detachably installed on the face shell, so that users can install one or more bulbs on the face shell as needed for photobiological modulation of the eyes.
[0086] In this embodiment, considering the eye-moisturizing needs of eye massage (relieving dry eyes and eye strain), the massage device also has an atomization function, and correspondingly, a spray section is provided on the main structure 110.
[0087] The spray unit may specifically include a drive circuit, a liquid storage chamber, and a sprayer. The liquid storage chamber is located inside the housing, and the sprayer is located in the middle of the bottom shell of the main structure (corresponding to the liquid storage chamber). The sprayer is connected to the liquid storage chamber to supply liquid to the sprayer through the liquid storage chamber. The output end of the sprayer is set to correspond to the atomizing hole on the soft massage head, and the atomized liquid generated by the sprayer is output through the atomizing hole.
[0088] As needed, the atomizing liquid can be purified water, mineral water, or other specified liquids (such as eye drops that can be atomized). The liquid storage chamber is used to store the above-mentioned liquid. The sprayer can specifically use an existing ultrasonic transducer, which uses ultrasound to vibrate the liquid, breaking its surface tension and inertia, thereby forming tiny water mist particles (the ultrasonic transducer generates high-frequency sound waves through vibration, and the formed atomized particles can reach the nanometer level). The atomized particles are output to the soft cover space located below the ultrasonic transducer for release, achieving an atomized eye-moisturizing effect and relieving the user's eye dryness.
[0089] In this embodiment, corresponding to the liquid storage cavity, an openable and closable liquid storage cavity cover 160 is provided on the outer shell. See [link to relevant documentation]. Figure 5 As shown, the liquid storage chamber cap 160 is used to close the liquid storage chamber and maintain a seal. The liquid storage chamber cap 160 may also be provided with a handle—such as a pull tab—for user operation. In a preferred embodiment, the liquid storage chamber cap 160 is threadedly connected to the liquid storage chamber opening, and the cap is provided with an operating knob as a handle. An annular sealing ring is provided at the liquid storage chamber cap and / or the liquid storage chamber opening to form a sealed, water-stopping structure.
[0090] In one embodiment of this invention, the light-transmitting portion 130 can be combined with the liquid storage cavity, see [reference]. Figure 6 As shown. At this time, the cavity within the housing may include a first sub-cavity and a second sub-cavity, which are independent of each other. The first sub-cavity is used to house various circuit components, while the second sub-cavity is used to form a liquid storage chamber. A sprayer is provided on the bottom shell corresponding to the liquid storage chamber. Corresponding to the sprayer, a soft cover is provided on the soft massage head. The soft cover is recessed to form a bottom, and the bottom is provided with a through hole as an atomizing hole. In use, the atomizing hole is used to output the atomized liquid produced by the sprayer.
[0091] The first and second compartments can be formed by dividing the internal cavity of the housing using a partition structure. There are two methods of partitioning: one is to fix the partition structure to the housing, thus fixing the cavities of the first and second compartments; the other is to detachably connect the partition structure to the housing, where the partition structure serves as both a partition layer and the cavity wall of the second compartment. This detachable connection allows the second compartment to be removed from the housing as a whole, facilitating cleaning, liquid replacement / addition, and maintenance by the user.
[0092] The liquid storage cavity 170 has a proximal end and a distal end. The proximal end is close to the outer shell, and the distal end is located deep within the shell. (See [reference]) Figure 7 and Figure 8 As shown.
[0093] For details, see Figure 7 As shown, a separate light-emitting sub-cavity can be separated from the proximal end of the liquid storage cavity 170 to install the light-emitting element 150. The light-emitting sub-cavity is isolated from the main liquid storage cavity (not connected) to prevent liquid from the liquid storage cavity from entering the light-emitting sub-cavity and damaging the light-emitting element. A liquid storage cavity cover is provided on the surface shell corresponding to the liquid storage cavity. The liquid storage cavity cover is made of a light-transmitting material to form the light-transmitting part.
[0094] Or see Figure 8 As shown, the liquid storage chamber 170 does not have a light-emitting sub-cavity; instead, a light-emitting element is provided on the liquid storage chamber cover 160 (forming the light-transmitting portion 130). In this case, a closed cavity can be provided on the liquid storage chamber cover 160 to house the light-emitting element, the battery, and related circuitry; this cavity is not connected to the liquid storage chamber. A data cable interface can be provided on the outer surface of the liquid storage chamber cover 160 to charge the battery within the closed cavity.
[0095] In another embodiment of this invention, the light-transmitting portion 130 is separated from the liquid storage cavity. Preferably, the light-transmitting portion 130 and the liquid storage cavity are symmetrically designed on the surface shell 111. See [reference needed]. Figure 9 As shown. At this point, a separate light-emitting cavity needs to be set inside the housing to install the light-emitting element. The cavity inside the housing also includes a third sub-cavity, and the three sub-cavities are independently arranged. The light-emitting element is installed in the third sub-cavity to form a light-emitting cavity. A light-emitting cavity cover is provided on the surface shell corresponding to the light-emitting cavity, and the light-emitting cavity cover is made of a light-transmitting material to form the light-transmitting part 130. The liquid storage cavity cover is preferably made of a transparent material, allowing the user to observe the liquid level inside the liquid storage cavity from the outside, facilitating the user to add liquid to the liquid storage cavity.
[0096] The front cover 111 may also be provided with a data cable interface 1111 to connect to an external power source, thereby supplying power / charging to the circuit components inside the cover.
[0097] See Figure 10 As shown, a typical structure of the soft massage head 120 of this embodiment is illustrated.
[0098] The soft massage head 120 includes a soft rubber base 121, on which a mounting structure is provided, and the soft massage head 120 is mounted on the main body structure 110 of the massage device through the mounting structure.
[0099] A plurality of soft contact points 122 are arranged in a ring on the soft rubber base 121, and a soft cover recess 123 is provided in the center of the soft rubber base 121 to form an eye-protecting groove. When the user needs to massage the area around the eyes with the soft massage head, the eye-protecting groove can provide space for the eyes and protect them.
[0100] Preferably, a plurality of soft contacts 120 are arranged in a circle around the periphery of the soft rubber substrate.
[0101] Preferred, see Figure 11 As shown, each of the soft contacts 122 may include a soft sleeve 1221 integrally formed with the soft rubber base. The soft sleeve 1221 has a cavity structure, that is, a hollow structure. The front end of the cavity is used to install the massage actuation structure, which is filled in the front end of the cavity and the other end is electrically connected to the circuit of the main body structure.
[0102] The length of the massage execution structure is less than the length of the cavity, so that the tail end of the soft sleeve remains hollow, thereby forming a soft contact with a hard head and a soft tail.
[0103] In a preferred embodiment, the massage actuation structure includes at least a vibrating element. In this case, the vibrating element can be filled in the front part of the hollow cavity of the soft contact head, and the other end of the vibrating element can be electrically connected to the main structure via a flexible electrical transmission line. The length of the vibrating element (as the massage actuation structure) is less than the length of the cavity, so that the tail end of the soft sleeve remains hollow. This results in a structure where the soft contact head is hard at the head and soft at the tail (that is, the massage actuation structure only fills the front part of the soft sleeve, and the rear part of the soft sleeve is hollow to maintain flexibility). This structure allows the vibrating element to vibrate freely on the soft contact head.
[0104] When both a vibrating element and a heating element are provided, the heating element is placed on the outside of the vibrating element and the two are thermally isolated by a heat insulation layer to protect the vibrating element.
[0105] Specifically, as a preferred typical approach, see [link to relevant documentation]. Figure 11As shown, the front part of the soft sleeve 1221 is a massage contact head 1222, used to mount a vibrating element 1225 (such as a commonly used miniature vibration motor) and a heating element 1227 (such as a commonly used infrared heating element). The rear part of the soft sleeve 1221 is a hollow flexible section 1223 to maintain flexibility. Meanwhile, the front end of the massage contact head 1222 has an arc-shaped thickened portion to enhance the contact head's flexibility. The vibrating element 1225 and the heating element 1227 are respectively connected to the circuitry on the main structure via their own flexible electrical wires 1224. A heat insulation layer 1226 is provided between the vibrating element 1225 and the heating element 1227 to reduce or isolate heat conduction between them, protecting the vibrating element. Thus, a heat therapy function is provided simultaneously with vibration massage.
[0106] In this embodiment, the soft cover 123 and the soft rubber base 121 are integrally molded. The soft cover 123 may include an outer ring and an inner ring nested together. The outer ring and the inner ring have a proximal end and a distal end, respectively. The proximal end of the outer ring and the proximal end of the inner ring are connected to form an integral structure. This integral structure includes an edge body for contact with the user's eyes. The edge body forms an elastic sealing ring to fit the skin around the user's eyes. The distal end of the outer ring is connected to the soft rubber base to form an integral structure, and the distal end of the inner ring forms the bottom of the soft cover.
[0107] Furthermore, an infrared heating element is also provided inside the soft cover 123. At this time, the massage mode of the massage device includes an eye massage mode and a non-eye massage mode.
[0108] In eye massage mode, the massage execution structure of the soft contact head is activated, and at the same time, the infrared heating element inside the soft cover is activated to apply heat to the skin around the eyes.
[0109] In non-eye massage mode, the massage execution structure of the soft contact head is activated, but the infrared heating element inside the soft cover is not activated.
[0110] After the atomization function is set, the bottom of the soft cover is provided with a through hole as an atomization hole 1231, see [reference]. Figure 10 As shown, in use, the atomizing hole 1231 is used to output the atomized liquid generated by the sprayer on the main structure.
[0111] During eye massage, the soft eye mask 123 forms an eye mask cavity, with multiple massage heads 122 arranged around the soft eye mask 123 as the center. In use, the soft eye mask cavity is aligned with the user's eye area, and the massage device is activated. When the soft eye mask cavity sprays mist onto the eyes, the massage heads simultaneously massage the area around the eyes, thus simultaneously applying massage and atomized moisturizing to the user's eye area.
[0112] In specific implementation, the bottom through hole of the soft eye mask is preferably circular, and the elastic sealing ring of the soft eye mask is preferably elliptical in shape, matching the eye contour of the human face. The soft eye mask is a curved body that gradually transitions from the circular through hole to the elliptical elastic sealing ring.
[0113] In this embodiment, the soft massage head 120 can be fitted onto the bottom shell 112 of the main structure 110 via a binding sleeve. See [reference needed]. Figure 12 As shown, the mounting structure on the soft rubber base includes: an annular edging sleeve disposed at the bottom of the soft rubber base, the annular edging sleeve being used to cover the bottom shell of the main body structure to realize the mounting of the soft massage head on the main body structure, see [reference]. Figure 13 As shown. A first mounting ring is provided along the annular edge of the inner side of the edging sleeve. The first mounting ring has multiple limiting through holes, which match the limiting structures on the main body of the massage device to limit the edging sleeve.
[0114] Additionally, the mounting structure may include a second mounting ring disposed at the bottom of the soft cover socket. This second mounting ring is used to mount the bottom of the soft cover socket to the main body structure of the massage device and form a seal. Specifically, the inner ring of the second mounting ring forms the atomizing hole, which corresponds to the sprayer output end on the main body structure of the massage device. The second mounting ring is made of flexible colloid, forming an annular sealing and water-stopping structure at the bottom of the soft cover socket relative to the bottom through-hole (atomizing hole), preventing liquid from leaking out from the gap at the corresponding connection between the bottom of the soft cover socket and the main body structure of the massage device during spraying. In this embodiment, the first soft mounting ring and the second mounting ring are preferably soft mounting rings, integrally molded with the soft colloid substrate.
[0115] In a more preferred embodiment, the entire soft massage head can be manufactured in one piece, and it can be made of any of silicone, polyurethane elastomer rubber, or medical-grade rubber. Preferably, in this embodiment, the entire soft massage head is made of silicone material (such as medical-grade silicone). Silicone material can prevent skin scratches, and the silicone cover can fit well with the surface of the eyes, resulting in better spray effect.
[0116] See Figure 14 As shown, in another embodiment, a light-transmitting part 130 and a light-emitting element (located inside the light-transmitting part 130, not shown in the figure) are provided in the middle of the bottom of the soft massage head 120. The light-emitting element is used to radiate light of a preset wavelength for the user to see and to illuminate the user's eyes; the light emitted by the light-emitting element is emitted through the light-transmitting part 130.
[0117] At this time, the massage device operates in two modes: massage mode and light therapy mode. In massage mode, the massage execution structure of the soft contact head is activated. In light therapy mode, the light-emitting element is activated for the user's visual viewing.
[0118] Furthermore, a dimming chip can be installed within the main structure of the massage device. This chip can control the light-emitting element to emit light according to a preset cycle to achieve dynamic light emission. As an example, and not a limitation, the light-emitting element can emit light in a 30-minute cycle, with each cycle lasting 3 minutes. Taking LEDs as an example, the dimming chip can use existing LED driver chips to achieve dynamic LED light emission, which is prior art and will not be elaborated upon here.
[0119] In specific settings, the dimming chip can be integrated with the main controller or set up separately but electrically connected. Both are existing technologies and are not restricted here.
[0120] This utility model provides a multifunctional portable massage device with massage and photobiological adjustment functions for the eyes, and features a compact and simple structure. It also offers multiple massage modes, providing users with a wealth of eye-soothing and adjustment functions. It can also be used for massaging other body parts as needed.
[0121] In the above description, the disclosure of this utility model is not intended to limit itself to these aspects. Rather, within the scope of the target protection of this disclosure, the components can be selectively and operationally combined in any number. Furthermore, terms such as “comprising,” “encompassing,” and “having” should be interpreted by default as inclusive or open-ended, rather than exclusive or closed, unless explicitly defined as such. All technical, scientific, or other terms are to be understood by those skilled in the art, unless defined as such. Public terms found in dictionaries should not be interpreted in a too idealistic or impractical manner in the context of the relevant technical documents, unless explicitly defined as such in this disclosure. Any modifications or alterations made by those skilled in the art based on the foregoing disclosure are within the scope of the claims.
Claims
1. A multifunctional portable massage device, comprising a main structure and a massage head, wherein a controller is disposed within the main structure, and the massage head is installed below the main structure, characterized in that: The main structure is provided with a light-transmitting part, and a light-emitting element is provided corresponding to the light-transmitting part to radiate light of a preset wavelength for the user to see and to illuminate the user's eyes.
2. The massage device according to claim 1, characterized in that: The main structure's housing includes a front shell and a bottom shell. The housing has an internal cavity for at least housing the controller and related circuit components. The housing surface is equipped with operation buttons. The faceplate is shaped to be easy for the user to hold, and the light-transmitting part is provided on the faceplate; The aforementioned massage head is installed below the bottom shell. The massage head is a soft massage head. The massage execution structure of the soft massage head is electrically connected to the circuit elements in the aforementioned cavity and receives control from the controller. in, A light-emitting element is installed inside the cavity corresponding to the area of the surface shell where the light-transmitting part is located. The light-emitting element is electrically connected to the circuit elements inside the cavity, and the light emitted by the light-emitting element is emitted through the light-transmitting part; or, A light-emitting element is installed inside the light-transmitting section. The light-emitting element is electrically connected to circuit elements inside the cavity via a conductive structure arranged on the light-transmitting section. The light emitted by the light-emitting element is emitted through the wall of the light-transmitting section; or... The light-transmitting part is a light-transmitting cover with a closed cavity. The light-emitting element is installed inside the light-transmitting cover to form a light bulb. The cover is provided with a light bulb mounting area to install one or more light bulbs. When the light bulb is installed in the light bulb mounting area, the light-emitting element in the light bulb is electrically connected to the circuit elements in the cavity, and the light emitted by the light-emitting element is emitted through the light-transmitting cover.
3. The massage device according to claim 2, characterized in that: The light-transmitting part is a smooth curved surface that protrudes from the surface of the shell. The light-transmitting part is installed on the shell through a detachable connector so that the light-transmitting part can be removed from the shell. The light-transmitting part is a frosted or semi-transparent shell to form a soft light lamp shell, which softens the light emitted by the light-emitting element.
4. The massage device according to claim 3, characterized in that: The light-transmitting part is at least two, and a red light source and a yellow light source are installed in the two light-transmitting parts as light-emitting elements to form a red light illumination area and a yellow light illumination area on the surface shell, respectively.
5. The massage device according to claim 2, characterized in that: The cavity inside the housing includes a first sub-cavity and a second sub-cavity, which are independent of each other. The first sub-cavity is used to house circuit components, and the second sub-cavity is used to form a liquid storage cavity. A sprayer is provided on the bottom shell corresponding to the liquid storage cavity, and the sprayer is connected to the liquid storage cavity. Corresponding to the sprayer, a soft cover is provided on the soft massage head. The soft cover is recessed to form a bottom, and the bottom is provided with a through hole as an atomizing hole. In use, the atomizing hole is used to output the atomized liquid generated by the sprayer. The internal cavity of the housing is divided by a partition structure to form the first sub-cavity and the second sub-cavity. The partition structure is fixedly connected to the housing so that the cavities of the first sub-cavity and the second sub-cavity are fixed, or the partition structure is detachably connected to the housing. The partition structure serves as both a partition layer and the cavity wall of the second sub-cavity. Through the detachable connection, the second sub-cavity can be removed from the housing as a whole.
6. The massage device according to claim 5, characterized in that: The liquid storage cavity has a proximal end and a distal end, with the proximal end close to the outer shell and the distal end located deep within the shell; A separate light-emitting sub-cavity is separated at the proximal end to install the light-emitting element, and the light-emitting sub-cavity is isolated from the main liquid storage cavity; A liquid storage chamber cover is provided on the surface shell corresponding to the liquid storage chamber, and the liquid storage chamber cover is made of light-transmitting material to form the light-transmitting part.
7. The massage device according to claim 5 or 6, characterized in that: The cavity inside the shell also includes a third sub-cavity, and the three sub-cavities are set independently of each other; The third cavity is equipped with a light-emitting element to form a light-emitting cavity. A light-emitting cavity cover is provided on the surface shell corresponding to the light-emitting cavity. The light-emitting cavity cover is made of a light-transmitting material to form the light-transmitting part.
8. The massage device according to any one of claims 2-6, characterized in that: The soft massage head includes a soft rubber base, on which multiple soft contact points are arranged in a ring. A soft cover is provided in the middle of the soft rubber base to form an eye-protecting groove. When the user needs to massage the area around the eyes with the soft massage head, the eye-protecting groove can provide space for the eyes and protect the eyes. The soft contact includes a soft sleeve integrally formed with a soft rubber base. The soft sleeve has a cavity structure. The front end of the cavity is used to install a massage actuator, which fills the front end of the cavity and the other end is electrically connected to the circuit of the main body structure. The length of the massage actuator is less than the length of the cavity, so that the tail end of the soft sleeve remains hollow, thereby forming a soft contact with a hard head and a soft tail. The massage execution structure includes a vibrating element, a heating element, a magnetic element and / or an electrode plate, which respectively form a vibration massage structure, a hot compress structure, a magnetic therapy structure and / or a microcurrent stimulation structure on the soft contact head; When both a vibrating element and a heating element are provided, the heating element is placed on the outside of the vibrating element and the two are thermally isolated by a heat insulation layer to protect the vibrating element.
9. The massage device according to claim 8, characterized in that: The soft cover and soft rubber base are integrally formed, including an outer ring and an inner ring nested together. The outer ring and the inner ring have a proximal end and a distal end, respectively. The proximal end of the outer ring and the proximal end of the inner ring are connected to form an integral structure. This integral structure includes an edge body for contact with the user's eyes, and the edge body forms an elastic sealing ring to fit the skin around the user's eyes. The distal end of the outer ring is connected to the soft rubber base to form an integral structure, and the distal end of the inner ring forms the bottom of the soft cover. An infrared heating element is also provided inside the soft cover. At this time, the massage mode of the massage device includes an eye massage mode and a non-eye massage mode. In eye massage mode, the massage execution structure of the soft contact head is activated, and at the same time, the infrared heating element inside the soft cover is activated to apply heat to the skin around the eyes in contact. In non-eye massage mode, the massage execution structure of the soft contact head is activated, but the infrared heating element inside the soft cover is not activated.
10. The massage device according to claim 1, characterized in that: The bottom of the massage head is provided with a light-transmitting part and a light-emitting element. The light-emitting element is used to radiate light of a preset wavelength for the user to see and to illuminate the user's eyes; the light emitted by the light-emitting element is emitted through the light-transmitting part. At this time, the massage device's working modes include massage mode and light therapy mode. In massage mode, the massage execution structure of the soft contact head is activated; In phototherapy mode, the light-emitting element is activated to provide visual illumination for the user.
11. The massage device according to claim 1 or 10, characterized in that: It also includes a dimming chip, which can control the light-emitting element to emit light according to a preset cycle.