WO2017177390A1 - Biological health-care wafer, and health-care free patch using biological health-care wafer - Google Patents

Abstract

A biological health-care wafer, and a health-care free patch prepared using the biological health-care wafer. The biological health-care wafer comprises a biological microelectronic chip (3). The biological microelectronic chip (3) comprises at least one microelectronic integrated circuit module (31). The microelectronic integrated circuit module (31) comprises an induction receive coil (311), a micro information processing circuit (312), a high-speed cache (313), a crystal oscillator (314) and a transmitting coil (315), wherein the induction receive coil (311) is used for receiving a biological wave emitted by human cells and transmits same to the high-speed cache (313) through the micro information processing circuit (312), the crystal oscillator (314) generates resonance based on the biological wave in the high-speed cache (313) to amplify the wave, the amplified resonance wave is transmitted to the transmitting coil (315) through the micro information processing circuit (312), and the transmitting coil (315) feeds back the resonance wave to a biological wave emitter. The product is simple and rational in structure, a health-care function and device commonality can be taken account of simultaneously, and the use can be altered at will according to people's needs to perform health-care of harmless cells.

Description

一种生物保健晶片及采用该种生物保健晶片的健康随意贴  Bio-health wafer and healthy random sticker using the bio-health wafer 一种生物保健晶片及采用该种生物保健晶片的健康随意贴  Bio-health wafer and healthy random sticker using the bio-health wafer 技术领域Technical field

本发明涉及一种保健装置，特别是一种可随使用者需求而移位至人体任意位置使用的生物保健晶片及一种健康随意贴。 The invention relates to a health care device, in particular to a bio-health wafer and a healthy random sticker which can be used at any position of the human body according to the needs of the user.

背景技术Background technique

健康贴片，将贴片贴合于人体欲改善的部位上，通过贴片内的磁石发射红外线，借此强化使用者的身体循环，达到改善身体状况的目的。而这种健康贴片在使用上会有一些问题，因磁石本身具有放射性，具有发生危险的可能性使人体伤害；再者，长期使用下磁石本身的放射性会逐渐衰减，最后将会消失殆尽而失去功效；另外磁石本身的波长频宽过于广泛，能量无法有效集中，故改善人体健康效果也十分有限 。 The health patch fixes the patch on the part of the body to be improved, and emits infrared rays through the magnet in the patch, thereby enhancing the body circulation of the user and improving the physical condition. This kind of health patch will have some problems in use. Because the magnet itself is radioactive, it has the possibility of danger and harm to the human body. Moreover, the radioactivity of the magnet itself will gradually decay after long-term use, and will eventually disappear. And lose the effect; in addition, the wavelength of the magnet itself is too wide, the energy can not be effectively concentrated, so the effect of improving human health is also very limited. .

在保健领域中，将某些含有能量的石、木、金属、芯片等物质制作成如项链、手环、腰带、眼罩等装置，具有能调整人体磁场、促进新陈代谢而达到增进健康的目的，都称为保健装置。 In the field of health care, certain materials such as stones, wood, metal, and chips containing energy are made into devices such as necklaces, bracelets, belts, and eye masks, which have the purpose of adjusting the human body's magnetic field and promoting metabolism to improve health. It is called a health care device.

如上述的保健装置，多半是针对特定用途而制成特定型态如项链、手环、腰带，因此作为保健手部的手环便无法为腰部使用，同理，项链也无法用于保健腰部。鉴于上述现象，对于人体其他部位的保健，势必需要开发不同型态的保健装置，导致用户必须选购过多不同型态、用途的保健装置，不但使用上不方便，也造成资源的浪费。 For example, the above-mentioned health care device is usually made into a specific type such as a necklace, a bracelet, and a belt for a specific use. Therefore, the wristband as a health care hand cannot be used for the waist. Similarly, the necklace cannot be used for the waist. In view of the above phenomenon, for the health care of other parts of the human body, it is necessary to develop different types of health care devices, which leads to the user having to purchase too many different types and uses of health care devices, which is not only inconvenient to use, but also wastes resources.

发明内容Summary of the invention

为了扩充保健装置领域，且改善现有技术中保健装置针对性强，无法一物多用的问题，提供一种能与人体共振、共振频宽集中及无放射性伤害的一种 生物保健晶片 ，和一种结构简单、合理，能同时兼顾保健功能和装置通用性的，能根据人们的需要随意挪用，进行无害细胞保健的一种生物保健晶片 。 In order to expand the field of health care devices and improve the prior art health care devices that are highly targeted and cannot be used in a multi-purpose manner, a bio-health wafer capable of resonating with the human body, focusing on resonance bandwidth, and no radioactive damage is provided. And a bio-health wafer that is simple and reasonable in structure, can simultaneously take care of the health care function and the versatility of the device, can be randomly used according to people's needs, and carry out harmless cell health care.

为了解决上述技术问题，本发明提供一种生物保健晶片，包括生物微电子芯片，生物微电子芯片包括至少一块微电子集成电路模块，微电子集成电路模块包括感应接收线圈、 微型信息处理电路、高速缓存、晶体振荡器和发射线圈， 感应接收线圈、 高速缓存、晶体振荡器和发射线圈与微型信息处理电路进行电连接； 感应接收线圈用于接收人体细胞发射的生物波，并通过 微型信息处理电路 传输给所述高速缓存， 晶体振荡器根据高速缓存中的生物波，产生共振，使波动放大，放大的共振波通过 所述 微型信息处理电路传输给所述发射线圈，所述发射线圈反馈所述共振波给生物波发射体。 In order to solve the above technical problem, the present invention provides a bio-health wafer, comprising a bio-microelectronic chip, the bio-micro-electronic chip comprising at least one micro-electronic integrated circuit module, the micro-electronic integrated circuit module comprising an inductive receiving coil, a micro information processing circuit, a cache, a crystal oscillator, and a transmitting coil, an inductive receiving coil, a cache, a crystal oscillator, and a transmitting coil are electrically connected to the micro information processing circuit; The inductive receiving coil is configured to receive biological waves emitted by human cells and transmit to the cache through a micro information processing circuit. The crystal oscillator generates resonance according to the biological wave in the cache, and the fluctuation is amplified, and the amplified resonance wave passes through A micro information processing circuit is transmitted to the transmitting coil, and the transmitting coil feeds back the resonant wave to the biological wave emitter.

进一步的，生物微电子芯片包括至少两块微电子集成电路模块，每块微电子集成电路模块之间呈角度排列，每块微电子集成电路模块之间进行绝缘处理。 Further, the bio-microelectronic chip comprises at least two microelectronic integrated circuit modules, each microelectronic integrated circuit module is arranged at an angle, and each microelectronic integrated circuit module is insulated.

进一步的，微电子集成电路模块外层进行封装，封装材料为 TBU 或 ABS 塑料 Further, the outer layer of the microelectronic integrated circuit module is packaged, and the packaging material is TBU or ABS plastic.

进一步的，感应接收线圈材质为金属铪或金属钽。 Further, the inductive receiving coil is made of metal or metal.

进一步的，生物微电子芯片成扁平薄片状，长宽比为 24:19 ，厚为 1mm 。 Further, the bio-microelectronic chip is in the form of a flat sheet having an aspect ratio of 24:19 and a thickness of 1 mm.

进一步的， 微型信息处理电路为透明印刷电路贴纸。 Further, the micro information processing circuit is a transparent printed circuit sticker.

本申请还提供 一种健康随意贴包括芯片包， 芯片包内放置至少一个上述的 生物保健晶片 。 The present application also provides a healthy disposable sticker comprising a chip package in which at least one of the above-described bio-health wafers is placed.

进一步的，连接构件包括一对公构件和母构件，公构件固定于芯片包上，母构件为配合构件，与公构件为可拆卸的配套连接。 Further, the connecting member comprises a pair of male members and a female member, the male member is fixed on the chip package, the female member is a mating member, and the male member is detachably connected.

进一步的，公构件为磁性金属，母构件为磁铁；或公构件为芯片包的一部分连接耳，母构件为别针。 Further, the male member is a magnetic metal, the female member is a magnet; or the male member is a part of the chip package connecting the ear, and the female member is a pin.

进一步的， 芯片包为圆形或方形或椭圆形或圆角矩形，芯片包材质为纺织布或塑料或硅胶或金属的一种或几种的组合。 further, The chip package is round or square or elliptical or rounded rectangular, and the chip package is made of woven cloth or plastic or a combination of one or more of silicone or metal.

与现有技术相比，本发明的有益效果在于： Compared with the prior art, the beneficial effects of the present invention are:

（ 1 ）保健效果无副作用，直达细胞基底，无能耗： 生物微电子芯片的感应接收线圈 对人体的生物电磁波非常敏感，可以感应人体散射的生物电磁波，并产生大约1微安培（μA）的电流，同时微型信息处理电路可以将感应到的生物电磁波计算出频率和振幅，存入高速缓存中，晶体振荡器可以按高速缓存中存储的频率进行共振，把振幅加大到一定幅度后传输给发射线圈，发射线圈将经共振放大振幅后的电磁波发射出去；加之 生物微电子芯片后的 物品本身并不具备任何能量电波，能量放射率为零，对肌肤无任何损伤，无副作用；靠近人体肌肤后，通过芯片对细胞本身释放波的协同、放大、反馈，即能够舒张血管、促进血流速、提高血流量、活化全身免疫球蛋白，改善免疫***，具体可以缓解颈椎病、腰椎病、肩周炎、***炎、痛经、腹痛、肌肉酸痛和心律不齐等，健康体质，提高生活质量。 (1) Health care effect has no side effects, direct cell substrate, no energy consumption: Inductive receiving coil of biological microelectronic chip Very sensitive to the human body's electromagnetic waves, it can sense the biological electromagnetic waves scattered by the human body and generate a current of about 1 microamperes (μA). At the same time, the micro information processing circuit can calculate the frequency and amplitude of the induced biological electromagnetic waves and store them in the cache. In the middle, the crystal oscillator can resonate according to the frequency stored in the cache, and the amplitude is increased to a certain amplitude and then transmitted to the transmitting coil, and the transmitting coil emits the electromagnetic wave after the amplitude of the resonance amplification; Biomicroelectronic chip The item itself does not have any energy waves, the energy emissivity is zero, no damage to the skin, no side effects; close to the human skin, through the chip to release the synergy, amplification, feedback of the cells themselves, can relax the blood vessels, promote blood Flow rate, increase blood flow, activate systemic immunoglobulin, improve immune system, specifically relieve cervical spondylosis, lumbar spondylosis, frozen shoulder, prostatitis, dysmenorrhea, abdominal pain, muscle aches and arrhythmia, healthy body and improve life quality.

（ 2 ） 一种健康随意贴包括芯片包， 芯片包内放置至少一个上述的 生物保健晶片 ， 结构简单、合理，可以根据需要随用随放，哪里需要放哪里， 兼顾保健功能和装置通用性，节省成本和资源，减少不必要的消费。 (2) A healthy random sticker includes a chip package, and at least one of the above-mentioned bio-health wafers is placed in the chip package, The structure is simple and reasonable, and can be used as needed. Wherever it needs to be placed, taking into account the health functions and device versatility, saving costs and resources, and reducing unnecessary consumption.

附图说明DRAWINGS

为了更清楚地说明本发明实施例中的技术方案，下面将对实施例描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。 In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. Other drawings may also be obtained from those of ordinary skill in the art in light of the inventive work.

图 1 是具体实施方式中的组成 生物微电子芯片的微电子集成电路模块的排列角度为 90 度的示意图； 1 is a schematic diagram showing an arrangement angle of a microelectronic integrated circuit module constituting a bio-microelectronic chip in a specific embodiment;

图 2 是具体实施方式中的组成 生物微电子芯片的微电子集成电路模块的排列角度为 60/120 度的示意图； 2 is an arrangement angle of a microelectronic integrated circuit module of a biomicroelectronic chip in a specific embodiment of 60/120 Schematic diagram of degree

图 3 是具体实施方式中的组成 生物微电子芯片的微电子集成电路模块的排列角度为 180/0 度的示意图； FIG. 3 is a diagram showing an arrangement angle of a microelectronic integrated circuit module of a biomicroelectronic chip in a specific embodiment of 180/0. Schematic diagram of degree

图 4 是具体实施方式中 微电子集成电路模块的结构方块图； 4 is a block diagram showing the structure of a microelectronic integrated circuit module in a specific embodiment;

图 5 是实施例的 一种健康随意贴 的 结构示意图。 Fig. 5 is a schematic view showing the structure of a healthy disposable patch of the embodiment.

具体实施方式detailed description

下面结合附图和实施例，对本发明的具体实施方式作进一步描述。以下实施例仅用于更加清楚地说明本发明的技术方案，而不能以此来限制本发明的保护范围。 The specific embodiments of the present invention are further described below in conjunction with the drawings and embodiments. The following examples are only intended to more clearly illustrate the technical solutions of the present invention, and are not intended to limit the scope of the present invention.

如图 1 、 2 、 3 、 4 所示， 生物保健晶片的 生物微电子芯片 3 包括微电子集成电路模块 31 ，微电子集成电路模块 31 包括感应接收线圈 311 、 微型信息处理电路312、高速缓存313、晶体振荡器313和发射线圈315， 感应接收线圈 311 、 高速缓存313、晶体振荡器313和发射线圈315与微型信息处理电路312进行电连接。 感应接收线圈 411 用于接收人体细胞发射的生物波，并通过 微型信息处理电路412 传输给高速缓存 413 ， 晶体振荡器414根据高速缓存413中的生物波，产生共振，使波动放大，放大的共振波通过微型信息处理电路412传输给发射线圈415，发射线圈415反馈所述共振波给生物波发射体。 As shown in Figures 1, 2, 3, and 4, the bio-microelectronic chip 3 of the bio-health wafer includes a microelectronic integrated circuit module 31. The microelectronic integrated circuit module 31 includes an inductive receiving coil 311, a micro information processing circuit 312, a cache 313, a crystal oscillator 313, and a transmitting coil 315, and an inductive receiving coil 311. The cache 313, the crystal oscillator 313, and the transmitting coil 315 are electrically connected to the micro information processing circuit 312. The inductive receiving coil 411 is configured to receive biological waves emitted by human cells and pass The micro information processing circuit 412 is transferred to the cache 413, The crystal oscillator 414 generates resonance based on the biological wave in the cache 413 to amplify the fluctuation, and the amplified resonance wave is transmitted to the transmitting coil 415 through the micro information processing circuit 412, and the transmitting coil 415 feeds back the resonant wave to the biological wave emitter.

生物微电子芯片 3 包括四块微电子集成电路模块 31 ，每块微电子集成电路模块 31 的长边之间呈角度排列，并有部分重叠，并对每块微电子集成电路模块 31 之间进行绝缘处理， 这种处理方式可以有效降低模块与模块之间的相互干扰，使有效波的比例大大增加,如控制 每块微电子集成电路模块 31 之间的绝缘层厚度为波长的整数倍，则会使不同微电子集成电路模块 31 之间的波有效加成 。 The bio-microelectronic chip 3 comprises four microelectronic integrated circuit modules 31, each of which is a microelectronic integrated circuit module 31 The long sides are arranged at an angle and partially overlap, and each microelectronic integrated circuit module 31 is insulated. This kind of processing can effectively reduce the mutual interference between the module and the module, so that the proportion of the effective wave is greatly increased, such as controlling each microelectronic integrated circuit module 31. The thickness of the insulating layer between them is an integral multiple of the wavelength, which effectively adds the waves between the different microelectronic integrated circuit modules 31.

因为生物波的波长大约为 6-14 微米，而单个电路模块的厚度也相当于 60-70 微米，那多个模块叠加时，摆放方向不同，有可能会直接导致波叠加后抵消的情况。如图 1 、 2 、 3 所示，分别为四块微电子集成电路模块 31 长边呈 90 度、 60/120 度和 180/0 度排列的示意图，具体测量方法为：（ 1 ）测定单块微电子集成电路模块 31 的功率密度；（ 2 ）四块微电子集成电路模块 31 按上述角度摆放，测量总功率密度；（ 3 ）总功率密度除以模块数，得出平均功率密度；（ 4 ）平均功率密度除以单块微电子集成电路模块 31 的功率数，得出有效百分比，百分比越大，模块之间的抵消作用越少，有效波的强度越高。通过测定四块微电子集成电路模块 31 不同角度摆放，有效波叠加抵消后的波的强度，得出如下表的结果： Because the wavelength of the biological wave is about 6-14 microns, and the thickness of a single circuit module is equivalent to 60-70. Micron, when multiple modules are superimposed, the placement direction is different, which may directly cause the wave to be superimposed and offset. As shown in Figures 1, 2, and 3, the four microelectronic integrated circuit modules 31 have a long side of 90 Schematic diagram of the arrangement of degrees, 60/120 degrees and 180/0 degrees. The specific measurement methods are: (1) measuring the power density of the monolithic microelectronic integrated circuit module 31; (2) four microelectronic integrated circuit modules 31 placed at the above angle to measure the total power density; (3) the total power density divided by the number of modules to obtain the average power density; (4) the average power density divided by the monolithic microelectronic integrated circuit module 31 The number of powers gives an effective percentage. The larger the percentage, the less the offset between the modules and the higher the effective wave strength. By measuring four microelectronic integrated circuit modules 31 Placed at different angles, the effective wave superimposes the intensity of the cancelled wave, and the results of the following table are obtained:

表 1. 叠加模块波强度的测定 Table 1. Determination of wave intensity of superimposed modules

角度 angle	总功率密度 / 模块数 / 单个功率密度 Total power density / module count / single power density
90 度 90 degrees	93% 93%
60/120 度 60/120 degrees	78% 78%
180/0 度 180/0 degrees	68% 68%

由表可以看出，当多个模块叠加时，摆放方向不同，会直接导致波叠加后抵消的情况不同，有效波的强度也不同。 It can be seen from the table that when multiple modules are superimposed, the placement direction is different, which directly causes the wave to be superimposed and the offset is different, and the effective wave strength is also different.

微电子集成电路模块 31 外层进行 TBU 封装，使每个微电子集成电路模块 31 相对绝缘，同时封装为单独的个体，便于批量生产、运输，使用普及化。 The microelectronic integrated circuit module 31 is externally packaged in a TBU to make each microelectronic integrated circuit module 31 Relatively insulated, and packaged as a separate individual, easy to mass production, transportation, and popularization.

感应接收线圈 311 材质为金属铪，利用金属铪的对生物电磁波非常敏感的特性，金属铪感应到人体散发的生物电磁波，能产生大约 1 微安培（μA）的电流 。 Inductive receiving coil 311 The material is a metal crucible, which is very sensitive to bio-electromagnetic waves. The metal crucible senses the biological electromagnetic waves emitted by the human body and can generate a current of about 1 microamperes (μA).

生物微电子芯片 3 成扁平薄片状，长宽比为 24:19 ，是结合人体微电波感应耦合设计，厚为 1mm ，使生物微电子芯片在使用时，更贴服，更舒适。 The bio-microelectronic chip 3 is in the form of a flat sheet with an aspect ratio of 24:19. It is combined with human micro-wave inductive coupling design and has a thickness of 1mm. To make the bio-microelectronic chip more suitable and more comfortable when used.

微型信息处理电路312为透明印刷电路贴纸。 The micro information processing circuit 312 is a transparent printed circuit sticker.

如图5所示，一种健康随意贴 ，包括椭圆形塑料芯片包 1 和连接构件 2 ，芯片包 1 内放置两个 生物保健晶片 ， 芯片包1上设置有开口，方便 生物保健晶片 的放置和取出。芯片包 1 上固定有为磁性金属公构件 21 ，当人体的某个部位需要治疗时，可把芯片包 1 移至衣服的相应位置，把芯片包 1 放入衣内，使芯片包 1 贴近皮肤，用为磁铁的母构件 22 在衣外隔着衣服吸住芯片包 1 上的公构件 21 ，即固定了芯片包 1 的位置。 As shown in FIG. 5, a healthy disposable sticker includes an oval plastic chip package 1 and a connecting member 2, and two of the chip package 1 are placed. The bio-health wafer, the chip package 1 is provided with an opening for facilitating the placement and removal of the bio-health wafer. A magnetic metal male member 21 is fixed on the chip package 1 , and when a certain part of the human body needs treatment, the chip package can be 1 Move to the corresponding position of the clothes, put the chip package 1 into the clothes, make the chip package 1 close to the skin, use the mother member of the magnet 22 to hold the male component on the chip package 1 outside the clothing. , that is, the position of the chip package 1 is fixed.

需要说明的是，上述健康随意贴不仅仅局限于搭配衣物放置，还可以搭配鞋帽、护具、饰物等有可能靠近人体肌肤的物品使用，搭配方式是以随意贴的形式搭配或直接以 生物微电子芯片的形式嵌入上述物品中。 It should be noted that the above-mentioned healthy free stickers are not only limited to the placement of clothes, but also can be used with items such as shoes, hats, protective gears, accessories and the like which may be close to the human skin, and the matching manner is in the form of random stickers or directly The form of the bio-microelectronic chip is embedded in the above article.

以上所述仅为本发明的较佳实施例而已，并不用以限制本发明，凡在本发明的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本发明的保护范围之内。 The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., which are included in the spirit and scope of the present invention, should be included in the present invention. Within the scope of protection.

Claims (10)

1. 一种生物保健晶片，其特征在于，包括生物微电子芯片，所述生物微电子芯片包括至少一块微电子集成电路模块，所述微电子集成电路模块包括感应接收线圈、微型信息处理电路、高速缓存、晶体振荡器和发射线圈，所述感应接收线圈、高速缓存、晶体振荡器和发射线圈与微型信息处理电路进行电连接；所述感应接收线圈用于接收人体细胞发射的生物波，并通过所述微型信息处理电路传输给所述高速缓存，所述晶体振荡器根据高速缓存中的生物波，产生共振，使波动放大，放大的共振波通过所述微型信息处理电路传输给所述发射线圈，所述发射线圈反馈所述共振波给生物波发射体。 A bio-health wafer characterized by comprising a bio-microelectronic chip comprising at least one microelectronic integrated circuit module, the micro-electronic integrated circuit module comprising an inductive receiving coil, a micro information processing circuit, a cache a crystal oscillator and a transmitting coil, wherein the inductive receiving coil, the cache, the crystal oscillator, and the transmitting coil are electrically connected to the micro information processing circuit; the inductive receiving coil is configured to receive a biological wave emitted by the human body, and pass through the Transmitting the micro-information processing circuit to the cache, the crystal oscillator generates a resonance according to the biological wave in the cache, and amplifies the fluctuation, and the amplified resonant wave is transmitted to the transmitting coil through the micro information processing circuit, The transmitting coil feeds back the resonant wave to the biological wave emitter.
2. 根据权利要求1所述的一种生物保健晶片，其特征在于，所述生物微电子芯片包括至少两块微电子集成电路模块，每块所述微电子集成电路模块之间呈角度排列，每块所述微电子集成电路模块之间进行绝缘处理。A bio-healthcare wafer according to claim 1, wherein said bio-microelectronic chip comprises at least two microelectronic integrated circuit modules, each of said microelectronic integrated circuit modules being angularly arranged, each block The microelectronic integrated circuit modules are insulated between the modules.
3. 根据权利要求1或2所述的一种生物保健晶片，其特征在于，所述微电子集成电路模块外层进行封装，封装材料为TBU或ABS塑料。The bio-healthcare wafer according to claim 1 or 2, wherein the outer layer of the microelectronic integrated circuit module is packaged, and the packaging material is TBU or ABS plastic.
4. 根据权利要求1所述的一种生物保健晶片，其特征在于，所述感应接收线圈材质为金属铪或金属钽。A bio-health wafer according to claim 1, wherein the inductive receiving coil is made of metal tantalum or metal tantalum.
5. 根据权利要求1或2所述的一种生物保健晶片，其特征在于，所述生物微电子芯片成扁平薄片状，长宽比为24:19，厚为1mm。A bio-health wafer according to claim 1 or 2, wherein the bio-microelectronic chip is in the form of a flat sheet having an aspect ratio of 24:19 and a thickness of 1 mm.
6. 根据权利要求1或2或4任一项所述的一种生物保健晶片，其特征在于，所述微型信息处理电路为透明印刷电路贴纸。A bio-healthcare wafer according to any one of claims 1 or 2 or 4, wherein the micro-information processing circuit is a transparent printed circuit sticker.
7. 一种健康随意贴，包括芯片包，其特征在于，所述芯片包内放置至少一个如权利要求1所述生物保健晶片。A healthy disposable sticker comprising a chip package, characterized in that at least one bio-health wafer according to claim 1 is placed in the chip package.
8. 根据权利要求7所述的一种健康随意贴，其特征在于还包括连接构件，所述连接构件包括一对公构件和母构件，所述公构件固定于所述芯片包上，所述母构件为配合构件，与公构件为可拆卸的配套连接。A health care sticker according to claim 7, further comprising a connecting member comprising a pair of male members and a female member, said male member being fixed to said chip pack, said female member In order to match the components, the male components are detachably connected.
9. 根据权利要求8所述的一种健康随意贴，其特征在于，所述公构件为磁性金属，所述母构件为磁铁；或所述公构件为所述芯片包的一部分连接耳，所述母构件为别针。A healthy random patch according to claim 8, wherein the male member is a magnetic metal, the female member is a magnet; or the male member is a part of the chip package connecting the ear, the female The components are pins.
10. 根据权利要求7至9任一项所述的一种健康随意贴，其特征在于，所述芯片包为圆形或方形或椭圆形或圆角矩形，所述芯片包材质为纺织布或塑料或硅胶或金属的一种或几种的组合。A health random sticker according to any one of claims 7 to 9, wherein the chip package is circular or square or elliptical or rounded rectangular, and the chip package is made of woven cloth or plastic or One or a combination of silica gel or metal.