Adjustable pressure self-adhesive ear acupoint pressure pill device
By designing an adjustable pressure self-adhesive ear acupressure device, and utilizing the combination of the operating arm and the elastic self-adhesive head, the problems of tape peeling and difficulty in controlling the pressure of the acupressure are solved. This enables precise application and pressure adjustment of ear acupressure, improving user comfort and adhesion.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGZHIMEN HOSPITAL OF BEIJING UNIV OF CHINESE MEDICINE
- Filing Date
- 2025-07-28
- Publication Date
- 2026-07-14
AI Technical Summary
Existing auricular acupressure devices suffer from problems such as adhesive tape curling and difficulty in controlling the pressure, affecting adhesion and patient comfort.
An adjustable pressure self-adhesive ear acupressure pellet press was designed. By setting a first operating arm and a second operating arm, and utilizing the horizontal movement of the elastic self-adhesive head and the pellet pressing strip, precise application and adjustment of the pellet pressing force can be achieved. The elastic self-adhesive head structure is used to adaptively adjust the pellet pressing intensity.
It achieves smooth adhesion of the adhesive tape, avoids edge curling, and can adjust the pressure of the granules in real time according to the patient's tolerance, improving the comfort of use and the adhesion effect.
Smart Images

Figure CN224484497U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, specifically to an adjustable pressure self-adhesive ear acupressure device. Background Technology
[0002] Ear acupressure (also known as ear acupressure) is a simple form of auricular acupuncture therapy in traditional Chinese medicine. Small particles (such as Wang Bu Liu Xing seeds, magnetic beads, and mung beans) are fixed to ear acupoints with adhesive tape to stimulate them, thereby preventing and treating diseases and regulating the body. However, existing adhesive tapes with particles still have the following drawbacks in actual use.
[0003] First, the tape still needs to be removed with tweezers, as this method can easily cause the tape to peel off at the edges, thus affecting the adhesive effect.
[0004] Secondly, when applying adhesive tape by hand, the pressure applied by the nails can be easily affected by the nails.
[0005] Therefore, a self-adhesive auricular acupressure device with adjustable pressure is proposed. Utility Model Content
[0006] The purpose of this invention is to provide an adjustable pressure self-adhesive ear acupressure pellet applicator. This device achieves precise applicator operation by using a first operating arm and a second operating arm to move the elastic self-adhesive head and the pellet applicator strip horizontally. This overcomes the problem of edge lifting caused by tweezers, which affects the adhesion. At the same time, the structural characteristics of the elastic self-adhesive head can adaptively adjust the pellet pressure to ensure the adhesion effect.
[0007] To achieve the above objectives, this utility model provides the following technical solution: an adjustable pressure self-adhesive ear acupressure pellet applicator, comprising: a central assembly frame; a first operating arm and a second operating arm disposed on the central assembly frame and movable relative to each other; an elastic self-adhesive head and a conveyor belt assembly respectively disposed on the first operating arm and the second operating arm; and a pellet applicator strip covering the surface of the conveyor belt assembly. When the first operating arm and the second operating arm approach and merge towards each other, the elastic self-adhesive head approaches the pellet applicator strip horizontally and performs a pellet applicator operation.
[0008] Preferably, the conveyor belt assembly includes a vertical rod, drive rollers rotatably mounted on the upper and lower ends of the vertical rod, a drive belt sleeved between the two drive rollers and covered with an adhesive layer, and a first meshing transmission assembly disposed between the vertical rod and the central assembly frame for driving the drive rollers to rotate.
[0009] Preferably, the first meshing transmission assembly includes a transmission shaft rotatably mounted on the upper end of the vertical rod, wherein one end of the transmission shaft passes through a through hole at the end of the vertical rod and is connected to a transmission roller body placed on the upper position, and the other end is provided with an internal meshing ratchet mechanism; and a transmission gear mounted on the internal meshing ratchet mechanism; it also includes an inverted frame fixed to the back side of the central assembly frame, wherein a vertical rail is provided on the inner side of the vertical section of the inverted frame, and a slider that can be limited to slide is mounted on the vertical rail, wherein a second spring is connected between the top of the slider and the top of the inverted frame, and a rack that meshes with the transmission gear is fixed on its side wall. When the first operating arm and the second operating arm move away from each other and extend outward, the meshing transmission gear and rack can drive the transmission roller body to rotate, thereby realizing the repositioning of the shot blasting strip.
[0010] Preferably, the shot blasting strip includes a transparent plastic film bonded to the outer adhesive layer of the transmission belt, and shot blasting patches arranged in an array on the surface of the transparent plastic film, wherein each shot blasting patch is coated with shot blasting material on the side closest to the transparent plastic film, and the adhesion between the shot blasting patch and the elastic self-adhesive head is less than the adhesion between the shot blasting patch and the skin.
[0011] Preferably, the elastic self-adhesive head includes a mounting plate, a through groove formed at the end of the mounting plate, a support column provided in the through groove, wherein a self-adhesive plate is fixed to the side of the support column near the shot blasting strip, and a connecting plate is fixed to the end of the support column away from the shot blasting strip; and a first spring disposed between the connecting plate and the mounting plate outside the self-adhesive plate.
[0012] Preferably, the first operating arm and the second operating arm have the same structure; the first operating arm includes a first rotating shaft that is rotatably mounted on one side of the central assembly frame and distributed vertically, and a support arm is fixed on each of the first rotating shafts; and a mounting arm, wherein the ends of the two support arms away from the first rotating shafts are rotatably mounted to the mounting arm through second rotating shafts provided at their ends, wherein the mounting plate is fixed on the mounting arm; and further includes two meshing drive gears, the two drive gears being built into the central assembly frame and respectively fixed to the opposite ends of the upper support arms where the first operating arm and the second operating arm are located.
[0013] Preferably, a handle is fixed to the top of the central assembly frame; and a toggle wheel is fixed to the front end of the upper first rotating shaft where the second operating arm is located.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0015] When the first and second operating arms approach and merge towards each other, the elastic self-adhesive head approaches the pressure strip horizontally and performs the application operation. Then, the elastic self-adhesive head is aligned with the acupoint on the ear. Under the action of the first and second operating arms, and in conjunction with the structural characteristics of the elastic self-adhesive head, the pressure of the ear acupoint pressure strip is adjusted in real time according to the patient's tolerance. Attached Figure Description
[0016] Figure 1 This is a first-view perspective three-dimensional structural diagram of the present invention;
[0017] Figure 2 This is a second-view perspective three-dimensional structural diagram of the present invention;
[0018] Figure 3 This is a third-view three-dimensional structural diagram of the present invention;
[0019] Figure 4 This is a front view structural diagram of the present utility model;
[0020] Figure 5 This is a schematic diagram of the rear view structure of this utility model;
[0021] Figure 6 for Figure 3 A partially enlarged structural diagram.
[0022] In the diagram: 111, central assembly frame; 112, first rotating shaft; 113, support arm; 114, mounting arm; 115, drive gear; 116, actuating wheel; 117, handle; 211, mounting plate; 212, support column; 213, self-adhesive plate; 214, connecting plate; 215, first spring; 311, vertical rod; 312, transmission roller; 315, transmission belt; 316, shot blasting cloth; 317, transparent plastic film; 411, transmission shaft; 412, internal meshing ratchet mechanism; 413, transmission gear; 414, C-shaped frame; 415, slider; 416, second spring; 417, rack. Detailed Implementation
[0023] In the description of this utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. The various embodiments of this utility model are described in detail below with reference to the accompanying drawings.
[0024] Example 1
[0025] Please see Figures 1 to 6 The present invention preferably provides the following technical solution: an adjustable pressure self-adhesive ear acupoint shot presser, comprising: a central assembly frame 111; a first operating arm and a second operating arm disposed on the central assembly frame 111 and movable relative to each other; an elastic self-adhesive head and a conveyor belt assembly respectively disposed on the first operating arm and the second operating arm; and a shot press strip covering the surface of the conveyor belt assembly. When the first operating arm and the second operating arm approach each other and merge, the elastic self-adhesive head approaches the shot press strip horizontally and performs a shot press operation.
[0026] In this embodiment, a first operating arm and a second operating arm extend to both sides of the central assembly frame 111 and are relatively movable, in combination with... Figure 1-5 As shown, the ends of the first and second operating arms away from the central assembly frame 111 are respectively equipped with elastic self-adhesive heads and conveyor belt assemblies. The operating end of the elastic self-adhesive head is aligned with the pressure pellet strip adhered to the conveyor belt assembly. When the first and second operating arms move closer to each other and merge, the elastic self-adhesive head moves horizontally closer to the pressure pellet strip and performs the application operation. Then, the elastic self-adhesive head is aligned with the acupoints on the ear. Under the action of the first and second operating arms, and in conjunction with the structural characteristics of the elastic self-adhesive head, the force of the ear acupoint pressure pellet is adjusted in real time according to the patient's tolerance.
[0027] Example 2
[0028] In another embodiment of the present invention, the conveyor belt assembly includes a vertical rod 311, transmission rollers 312 rotatably mounted on the upper and lower ends of the vertical rod 311 respectively; and a transmission belt 315 sleeved between the two transmission rollers 312 and covered with an adhesive layer; and also includes a first meshing transmission assembly disposed between the vertical rod 311 and the central assembly frame 111 for driving the transmission rollers 312 to rotate.
[0029] In this embodiment, combined with Figure 1 , 2 As shown in Figures 3 and 6, a transmission belt 315 is sleeved between the transmission rollers 312 that are rotatably mounted at the upper and lower ends of the vertical rod 311. The transmission belt 315 is covered with an adhesive layer for applying the shot-pressing strip. When the two transmission rollers 312 rotate, causing the transmission belt 315 to rotate, the position of the shot-pressing strip relative to the elastic self-adhesive head can be switched, so as to facilitate continuous operation of ear acupoint shot pressing.
[0030] Furthermore, the first meshing transmission assembly includes a transmission shaft 411 rotatably mounted on the upper end of the vertical rod 311, wherein one end of the transmission shaft 411 passes through a through hole opened at the end of the vertical rod 311 and is connected to the transmission roller body 312 placed on the upper position, and the other end is provided with an internal meshing ratchet mechanism 412; and a transmission gear 413 mounted on the internal meshing ratchet mechanism 412; it also includes an inverted frame 414 fixed on the back side of the central assembly frame 111, the inner side of the vertical section of the inverted frame 414 is provided with a vertical rail, and a slider 415 that can be limited to slide is mounted on the vertical rail, wherein a second spring 416 is connected between the top of the slider 415 and the inner top of the inverted frame 414, and a rack 417 that meshes with the transmission gear 413 is fixed on its side wall. When the first operating arm and the second operating arm move away from each other and extend outward, the meshing transmission gear 413 and rack 417 can drive the transmission roller body 312 to rotate, thereby realizing the repositioning of the shot blasting strip.
[0031] Combination Figure 3 , 6 As shown, the transmission shaft 411 is used to connect the transmission gear 413 and the transmission roller 312. Due to the action of the internal meshing ratchet mechanism 412, the transmission gear 413 can achieve unidirectional rotation. Therefore, when the first operating arm and the second operating arm move away from each other and extend outward, the transmission gear 413 can mesh with the rack 417. At the same time, as the second operating arm extends further outward, it can push the rack 417 to move longitudinally and rotate along the rack 417, so that the transmission roller 312 can rotate during the extension of the first operating arm, thereby realizing the position switching of the shot-pressing strip relative to the elastic self-adhesive head. When the second operating arm retracts, due to the action of the internal meshing ratchet mechanism 412, the transmission gear 413 rotates, and the transmission shaft 411 loses its transmission function, so that the transmission roller 312 remains stationary during the retraction of the first operating arm, thereby realizing the position switching of the shot-pressing strip.
[0032] The internal meshing ratchet mechanism 412 here is a mature existing technology. It is a mechanical device that achieves unidirectional intermittent motion through the interaction of ratchet and pawl, and will not be described in detail here.
[0033] Example 3
[0034] As another embodiment of the present invention, the shot blasting strip includes a transparent plastic film 317 bonded to the outer adhesive layer of the transmission belt 315, and shot blasting patches 316 arranged in an array on the surface of the transparent plastic film 317. Each shot blasting patch 316 is coated with shot blasting material on the side closest to the transparent plastic film 317, and the adhesion between the shot blasting patch 316 and the elastic self-adhesive head is less than the adhesion between the shot blasting patch 316 and the skin.
[0035] In this embodiment, combined with Figure 1 , 2As shown in Figures 3 and 6, the material for the pressure pellet can be selected from Wangbuliuxing seeds (most commonly used), magnetic beads, mung beans, rapeseed, plastic pellets, etc. The elastic self-adhesive head is aligned with a certain pressure pellet patch 316 on the transparent plastic film 317. When the first and second operating arms move closer to each other, the elastic self-adhesive head can remove the pressure pellet material corresponding to its horizontal position. Then, by operating the first and second operating arms, the elastic self-adhesive head with the transparent plastic film 317 can be aligned with the acupoint on the ear. The pressure of the elastic self-adhesive head can be adjusted in real time according to the patient's tolerance.
[0036] Example 4
[0037] As another embodiment of the present invention, the elastic self-adhesive head includes a mounting plate 211, a through groove formed at the end of the mounting plate 211, a support column 212 provided in the through groove, wherein a self-adhesive plate 213 is fixed on the side of the support column 212 near the shot blasting strip, and a connecting plate 214 is fixed on the end of the support column 212 away from the shot blasting strip; and a first spring 215 is provided outside the self-adhesive plate 213 between the connecting plate 214 and the mounting plate 211.
[0038] At this point, the self-adhesive plate 213 can be used as a dispensing structure, combined with Figure 1 , 2 As shown in Figure 3, since the first and second operating arms can make the self-adhesive plate 213 and the corresponding transparent plastic film 317 move horizontally relative to each other, the self-adhesive plate 213 can be accurately applied. When the self-adhesive plate 213 applies the transparent plastic film 317 to the acupoints on the ear, the first spring 215 can make the self-adhesive plate 213 flexibly adjust the pressure of the pellets to improve the acceptance.
[0039] Example 5
[0040] In other embodiments of this utility model, the first operating arm and the second operating arm have the same structure; the first operating arm includes a first rotating shaft 112 that is rotatably mounted on one side of the central assembly frame 111 and distributed vertically, and a support arm 113 is fixed on each first rotating shaft 112; and a mounting arm 114, wherein the ends of the two support arms 113 away from the first rotating shaft 112 are rotatably mounted to the mounting arm 114 through second rotating shafts provided at their ends, wherein a mounting plate 211 is fixed on the mounting arm 114; it also includes two meshing drive gears 115, which are built into the central assembly frame 111 and fixed to the opposite ends of the upper support arms 113 where the first operating arm and the second operating arm are located; furthermore, a handle 117 is fixed to the top of the central assembly frame 111; and a toggle wheel 116, which is fixed to the front end of the upper first rotating shaft 112 where the second operating arm is located.
[0041] Since the first and second operating arms have the same structure, this embodiment will be explained using the structure of the first operating arm as an example.
[0042] It is known that one end of each of the two support arms 113 is mounted on one side of the central assembly frame 111 via a first rotating shaft 112, and the other end of each support arm 113 is mounted on a mounting arm 114 via a second rotating shaft. The mounting arms 114 on which the first and second operating arms are located are used for the installation of the elastic self-adhesive head and the conveyor belt assembly, respectively.
[0043] Simultaneously, the two upper support arms 113 are respectively fixed with drive gears 115 at their opposite ends, and the two drive gears 115 mesh with each other. The two upper support arms 113 are also fixed to the first rotating shaft 112 connected to them. Therefore, when the actuating wheel 116, which is fixed to the upper first rotating shaft 112 where the second operating arm is located, rotates, the two support arms 113 can move in opposite directions. Figure 4 As shown, when the hand handle 117 is held and the dial 116 is turned counterclockwise, at this time... Figure 4 The left-hand rotary wheel 116 rotates counterclockwise, while the right-hand rotary wheel 116 rotates clockwise, so that the two arms 113 perform an outward movement away from each other, in order to switch the transparent plastic film 317 corresponding to the elastic self-adhesive head.
[0044] The movement of the two support arms 113 toward each other can also cause the elastic self-adhesive heads and conveyor belt assemblies respectively set on the two connecting plates 214 to move toward each other, thus realizing the picking and pasting operation.
[0045] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Among these, there are various methods of detachable installation, such as using a combination of plug-in and snap-fit, or using bolt connections, etc.
[0046] The above description of the specific embodiments of this utility model is only used to further illustrate this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-essential improvements and adjustments made to this utility model by technical engineers based on the above description of the utility model shall fall within the scope of protection of this utility model.
Claims
1. A self-adhesive auricular acupressure device with adjustable pressure, characterized in that, include: Central assembly frame (111); A first operating arm and a second operating arm are mounted on the central assembly frame (111) and are movable relative to each other; Elastic self-adhesive heads and conveyor belt assemblies respectively installed on the first and second operating arms; And the shot-pressing strip covering the surface of the conveyor belt assembly, when the first operating arm and the second operating arm approach and merge towards each other, the elastic self-adhesive head approaches the shot-pressing strip horizontally and performs a pick-up and application operation.
2. The self-adhesive auricular acupressure device with adjustable pressure according to claim 1, characterized in that: The conveyor belt assembly includes a vertical rod (311) and transmission rollers (312) rotatably mounted on the upper and lower ends of the vertical rod (311); And a transmission belt (315) fitted between the two transmission rollers (312) and covered with an adhesive layer; It also includes a first meshing transmission assembly disposed between the vertical rod (311) and the central assembly frame (111) for driving the transmission roller (312) to rotate.
3. The self-adhesive auricular acupressure device with adjustable pressure according to claim 2, characterized in that: The first meshing transmission assembly includes a transmission shaft (411) rotatably mounted on the upper end of the vertical rod (311), wherein one end of the transmission shaft (411) passes through a through hole opened at the end of the vertical rod (311) and is connected to the transmission roller body (312) placed on the upper position, and the other end is provided with an internal meshing ratchet mechanism (412). And the transmission gear (413) mounted on the internal meshing ratchet mechanism (412); It also includes a C-shaped frame (414) fixed to the back side of the central assembly frame (111). The vertical section of the C-shaped frame (414) is provided with a vertical rail. A slider (415) that can be limited and slidable is installed on the vertical rail. A second spring (416) is connected between the top of the slider (415) and the top of the C-shaped frame (414). A rack (417) that meshes with the transmission gear (413) is fixed on its side wall. When the first operating arm and the second operating arm move away from each other and extend outward, the meshing transmission gear (413) and rack (417) can drive the transmission roller (312) to rotate, thereby realizing the replacement of the shot-pressing strip.
4. The self-adhesive auricular acupressure device with adjustable pressure according to claim 2, characterized in that: The shot tamping strip includes a transparent plastic film (317) bonded to the outer adhesive layer of the transmission belt (315), and shot tamping cloths (316) arranged in an array on the surface of the transparent plastic film (317). Each shot tamping cloth (316) is coated with shot tamping material on the side closest to the transparent plastic film (317), and the adhesion between the shot tamping cloth (316) and the elastic self-adhesive head is less than the adhesion between the shot tamping cloth (316) and the skin.
5. The self-adhesive auricular acupressure device with adjustable pressure according to claim 1, characterized in that: The elastic self-adhesive head includes a mounting plate (211) and a through groove at the end of the mounting plate (211). A support column (212) is provided in the through groove. A self-adhesive plate (213) is fixed to the side of the support column (212) near the shot blasting strip, and a connecting plate (214) is fixed to the end of the support column (212) away from the shot blasting strip. And a first spring (215) disposed outside the self-adhesive plate (213) between the connecting plate (214) and the mounting plate (211).
6. The self-adhesive auricular acupressure device with adjustable pressure according to claim 5, characterized in that: The first and second manipulators have the same structure. The first operating arm includes a first rotating shaft (112) that is rotatably mounted on one side of the central assembly frame (111) and distributed vertically, and a support arm (113) is fixed on each of the first rotating shafts (112); And mounting arm (114), the two support arms (113) are rotatably mounted to the mounting arm (114) at the ends away from the first rotating shaft (112) through the second rotating shaft provided at their ends, wherein the mounting plate (211) is fixed on the mounting arm (114); It also includes two meshing drive gears (115), which are built into the central assembly frame (111) and fixed to the opposite ends of the upper support arm (113) where the first operating arm and the second operating arm are located.
7. The self-adhesive auricular acupressure device with adjustable pressure according to claim 1, characterized in that: A handle (117) is fixed to the top of the central assembly frame (111); And a dial wheel (116), which is fixed to the front end of the upper first rotating shaft (112) where the second operating arm is located.