CN117484779A - Intelligent wearing product movement manufacturing process and intelligent wearing product manufacturing process - Google Patents

Abstract

The invention discloses a manufacturing process of an intelligent wearable product core and a manufacturing process of an intelligent wearable product. The intelligent movement manufacturing process comprises the following steps: step 1, preparing an intelligent electronic module; step 2, utilize transparent colloid to encapsulate the shaping to intelligent electronic module, obtain the parcel to combine to be fixed in the outside transparent body of intelligent electronic module, intelligent electronic module buries in transparent body to form transparent intelligent core. The intelligent wearable product has the advantages that the main body of the intelligent product is fully based on standardized operation, on the basis of the transparent intelligent movement, the intelligent product diversification is realized according to the required post-processing procedure, so that the traditional process of one-step molding production of one style of the traditional intelligent wearable product is thoroughly changed, revolutionary innovation is realized in various aspects such as efficient production, product diversification and the like, and the yield of the intelligent wearable product is improved.

Description

Intelligent wearing product movement manufacturing process and intelligent wearing product manufacturing process

Technical Field

The invention relates to the technical field of intelligent wearing products, in particular to a manufacturing process of a core of an intelligent wearing product and a manufacturing process of the intelligent wearing product, which are used for manufacturing products such as intelligent rings, intelligent bracelets and the like.

Background

The intelligent wearing products generally refer to products which can be worn on the positions of fingers, wrists, ankles, necks and the like, and mainly have the functions of decoration, monitoring, sensing and the like. Taking a ring as an example:

a finger ring is generally an ornament which is worn on a finger and can play a role in decoration. With the development of science and technology, the ring gradually increases more intelligent functions based on traditional decoration, for example: the intelligent ring can monitor state data such as human body temperature and heart rate, can interact with electrical equipment such as mobile phones, household appliances and automobiles, and the like, and people refer to the rings with more intelligent functions as intelligent rings. In the prior art, an inner ring and an outer ring are generally adopted to assemble an inner cavity formed, an intelligent electronic part is placed in the inner cavity, and if the intelligent electronic module needs to monitor state data such as human body temperature and heart rate, a transparent part is usually required to be additionally arranged on a local hole site of the inner ring for monitoring such as infrared. Similarly, if interaction with external devices is required, it is often necessary to provide holes in the outer ring with transparent members for external sensing/interaction.

However, existing smart rings still suffer from some drawbacks, such as: 1. the production and the manufacture are complex; 2. the appearance of the intelligent ring is not obviously different from that of a common ring, so that a user can hardly visually and intuitively feel the intelligent ring, and the experience requirements of the user, especially young users, can hardly be met; 3. the inner cavity space and the size formed by the inner ring and the outer ring are relatively fixed, and for intelligent electronic modules with different configurations, the sizes and the required spaces are different, so that the inner ring and the outer ring are required to be designed according to different inner cavities, the universality is not strong in the aspects of design and production and manufacturing, and the design and production and manufacturing cost is increased undoubtedly; 4. at present, the intelligent electronic module is fixed by adopting local dispensing or a large amount of filling glue for packaging and fixing, the problem of unsatisfactory fixing reliability exists in a local dispensing mode, the use quality and service life of the intelligent electronic module are easily and negatively influenced, the large amount of filling glue for packaging is limited by the structures of the inner ring and the outer ring which are processed and shaped, the operation is more troublesome, the efficiency and the yield are limited, and the further improvement is difficult. 5. Traditional intelligent ring one shot forming produces a style, to different styles, it needs a plurality of different technologies, especially the intelligent ring that order quantity is not too big, and the full set of production manufacturing process of special design to this version intelligent ring occupies big on the manufacturing cost of single intelligent ring, is unfavorable for controlling manufacturing cost, also is difficult to improve production efficiency, leads to the order response cycle longer, is difficult to in time satisfy market demand fast. 6. Because the production technology of the existing intelligent ring is that all accessories are packaged and formed at one time, after the packaging is completed, the accessories are not detachable, and if the ring with some noble metal accessories has poor electronic functions, the whole ring is scrapped, and the manufacturing cost is high.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present invention aims at the defects existing in the prior art, and its main purpose is to provide a manufacturing process of an intelligent wearable product core and a manufacturing process of an intelligent wearable product, which realize that the main body part of the intelligent wearable product is all based on standardized operation, and on the basis of a transparent intelligent core, the intelligent wearable product is diversified according to the required post-manufacturing process, so that the traditional process of one-step molding production of a style of the traditional intelligent product is thoroughly changed, revolutionary innovation is realized in the aspects of efficient production, product diversification, etc., and the yield of the intelligent wearable product is improved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a manufacturing process of an intelligent wearable product movement comprises the following steps of

Step 1, preparing an intelligent electronic module; the intelligent electronic module comprises an FPC board, a chip, a sensor, a wireless communication unit and a battery, wherein the chip, the sensor, the wireless communication unit and the battery are respectively connected to the FPC board;

and step 2, packaging and forming the intelligent electronic module by using a transparent colloid to obtain a transparent body which is wrapped, combined and fixed outside the intelligent electronic module, wherein the intelligent electronic module is buried in the transparent body to form a transparent intelligent movement.

A manufacturing process of an intelligent wearable product comprises the following steps of

Step 1, manufacturing a transparent intelligent machine core, wherein the transparent intelligent machine core is manufactured by adopting the intelligent wearable product machine core manufacturing process;

and 2, performing a post-processing procedure on the basis of the transparent intelligent movement to obtain an intelligent wearing product finished product.

Compared with the prior art, the intelligent wearable product has obvious advantages and beneficial effects, and particularly, the technical scheme mainly realizes that the main body part of the intelligent product is completely based on standardized operation by independently manufacturing the intelligent machine core, and on the basis of the transparent intelligent machine core, various materials, various structures and the like are applied to carry out secondary and tertiary processing according to requirements to realize intelligent diversification, so that the traditional process for producing one style of the traditional intelligent wearable product by one-step molding is thoroughly changed, the process design thinking fixed in the industry is broken, the main body part manufacturing of the intelligent product is standardized and generalized, and revolutionary innovation is realized in the aspects of efficient production, product diversification and the like. Because the intelligent electronic module is independently packaged and formed to serve as the intelligent machine core, quality inspection and poor discharge can be carried out on the formed machine core, electronic functional defects of intelligent wearing finished products are avoided, the yield of intelligent wearing products is improved, the problem that the intelligent ring is scrapped integrally due to the electronic functional defects in the prior art is effectively solved, and the production and manufacturing cost is controlled.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a perspective view of a transparent smart ring movement/transparent smart ring provided in accordance with an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a transparent smart ring movement/transparent smart ring provided in accordance with an embodiment of the present invention;

FIG. 3 is an exploded view of a transparent smart ring movement/transparent smart ring in accordance with one embodiment of the present invention;

FIG. 4 is a transparent visual state diagram of a transparent smart ring movement/transparent smart ring provided in accordance with an embodiment of the present invention;

FIG. 5 is a perspective view of a transparent smart ring movement/transparent smart ring provided in accordance with a second embodiment of the present invention;

FIG. 6 is a cross-sectional view of a transparent smart ring movement/transparent smart ring provided in accordance with a second embodiment of the present invention;

FIG. 7 is a perspective view of a transparent smart ring movement/transparent smart ring provided in accordance with a third embodiment of the present invention;

FIG. 8 is a cross-sectional view of a transparent smart ring movement/transparent smart ring provided in accordance with a third embodiment of the present invention;

FIG. 9 is a perspective view of a transparent smart ring movement/transparent smart ring provided in accordance with a fourth embodiment of the present invention;

FIG. 10 is a cross-sectional view of a transparent smart ring movement/transparent smart ring (with an auxiliary ring in an exploded state) according to a fourth embodiment of the present invention;

FIG. 11 is a front view of a transparent smart ring movement/transparent smart ring (with a non-closed ring design) provided in accordance with a fifth embodiment of the present invention;

FIG. 12 is a partial cross-sectional view of a smart ring provided by a sixth embodiment of the present invention;

FIG. 13 is a partial cross-sectional view of a smart ring provided by a seventh embodiment of the present invention;

fig. 14 is a partial cross-sectional view of an intelligent ring according to an eighth embodiment of the present invention;

FIG. 15 is a flow chart of the intelligent ring movement manufacturing process of the present invention;

FIG. 16 is a cross-sectional view of the smart ring movement of the present invention at step 2-2;

FIG. 17 is a cross-sectional view of the smart ring movement of the present invention at step 2-2;

FIG. 18 is a cross-sectional view of the smart ring movement of the present invention at step 2-2 of the third manufacturing process;

FIG. 19 is a cross-sectional view of the smart ring movement of the present invention at step 2-2 of the fourth process;

FIG. 20 is a flowchart of another process for manufacturing the intelligent ring movement of the present invention;

FIG. 21A is a perspective view of the bracelet strand of the present invention;

FIG. 21B is another perspective view of the bracelet strand of the present invention;

FIG. 22 is an exploded view of the bracelet strands of the present invention;

FIG. 23 is another exploded view of the bracelet strand of the present invention;

FIG. 24 is a cross-sectional view of the bracelet strand of the present invention;

FIG. 25 is a diagram of a step of fabricating a bracelet movement of the present invention;

FIG. 26 is a perspective view of a bracelet cartridge according to another embodiment of the invention;

FIG. 27 is another perspective view of a bracelet cartridge according to another embodiment of the invention;

FIG. 28 is an exploded view of a bracelet cartridge according to another embodiment of the invention;

fig. 29 is another exploded view of a bracelet cartridge according to another embodiment of the invention.

Detailed Description

Referring to fig. 1 to 29, specific structures and manufacturing processes of a transparent smart ring movement/transparent smart ring according to various embodiments of the present invention are shown.

In the description of the present invention, it should be noted that, for the azimuth words, terms such as "upper", "lower", "front", "rear", "left", "right", etc., indicate azimuth and positional relationships as shown based on the drawings or when worn normally, only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to be referred must have a specific azimuth, be configured and operated in a specific azimuth, and should not be construed as limiting the specific protection scope of the present invention.

Intelligent wearable products, which generally refer to products that can be worn on the finger, wrist, ankle, neck, etc., include: intelligent ring, intelligent bracelet, intelligent wrist-watch, intelligent foot ring, intelligent necklace etc.. Here, take the intelligent ring as an example for illustration:

firstly, referring to fig. 15 to 19, a manufacturing process of an intelligent ring movement includes the following steps

Step 1, preparing an intelligent electronic module 2; the intelligent electronic module 2 comprises an FPC board, an intelligent chip, a sensor, a wireless communication unit and a battery, wherein the intelligent chip, the sensor, the wireless communication unit and the battery are respectively connected to the FPC board;

step 2, utilize transparent colloid to carry out encapsulation shaping to intelligent electronic module 2 obtains the parcel to combine to be fixed in the outside transparent circle body 1 of intelligent electronic module 2, intelligent electronic module 2 buries in the transparent circle body 1 to form transparent intelligent ring core. In the step 2, the outer surface of the transparent ring body 1 is used as a basic surface (such as a post-processing surface or an assembly surface) of the post-processing process, so that the transparent intelligent ring movement is changed into an intelligent ring finished product through the post-processing process. Therefore, the intelligent ring machine core is independently manufactured, the main body part of the intelligent ring is fully based on standardized operation, various materials, various structures and the like are applied to carry out secondary and tertiary processing according to needs on the basis of the transparent intelligent ring machine core, and the intelligent ring is diversified, so that the traditional process of producing one style by one-step molding of the traditional intelligent ring is thoroughly changed, the process design thinking of industry internal fixation is broken, the main body part of the intelligent ring is manufactured to be standardized and generalized, and revolutionary innovation is realized in the aspects of efficient production, product diversification and the like. Because the intelligent electronic module is independently packaged and formed to serve as the intelligent machine core, quality inspection and poor discharge can be performed on the formed machine core, electronic functional defects of intelligent wearing finished products are avoided, the yield of intelligent wearing products is improved, the problem that the intelligent ring is scrapped integrally due to the electronic functional defects in the prior art is effectively solved, and the production and manufacturing cost is controlled.

Specifically, the step 2 includes the following steps

Step 2-1, placing the intelligent electronic module 2 into an annular forming positioning bracket 10 (the annular forming positioning bracket 10 is equivalent to a mold), and attaching the intelligent electronic module 2 to the annular forming positioning bracket 10 to keep a set shape; the intelligent electronic module 2 takes an FPC board as a carrier in a shape, and electronic components such as an intelligent chip, a sensor, a wireless communication unit, a battery and the like are distributed on one side or two sides of the FPC board. The annular shaped positioning bracket 10 may be made of a non-conductive plastic material, and may be formed by one piece of injection molding (as shown in fig. 16) or two or more pieces of assembling (the first positioning ring D1 and the second positioning ring D2) in a snap connection (as shown in fig. 18), an adhesive connection, a threaded connection (as shown in fig. 19), or the like. The annular forming positioning bracket 10 is provided with at least an annular positioning wall 111, the intelligent electronic module 2 is in an annular winding shape and is placed in the annular forming positioning bracket 10, the annular positioning wall 111 is used for positioning the outer annular side of the intelligent electronic module 2, and as the outer annular side of the intelligent electronic module 2 is provided with a part or all of electronic components such as an intelligent chip, a sensor, a wireless communication unit, a battery and the like, a plurality of protruding parts are formed on the outer annular side of the FPC board, and gaps are formed between the outer annular side of the FPC board and the inner annular side of the annular positioning wall 111, so that the subsequent glue injection flow filling is facilitated. Considering the position stability of the intelligent electronic module 2 after being placed in the annular forming positioning bracket 10, the FPC board or part of electronic components can be adhered to the inner ring side surface of the annular positioning wall 111, the adhesion strength of the FPC board or part of electronic components is not too high, and the adhesion part can be squeezed open by flowing glue during subsequent glue injection packaging, so that the whole intelligent electronic module 2 is fully coated.

Step 2-2, placing the annular forming positioning bracket 10 into a packaging mold 20, and then injecting glue into the packaging mold 20 to form the transparent ring body 1, wherein the glue injection temperature is low, the injected glue solution can be polymer such as resin, epoxy resin and the like, the injected glue solution generally needs about 24 hours for normal temperature curing, the injected glue solution can be heated, the temperature is heated to 60-80 ℃, and the glue solution can be cured for about 3-5 hours. The encapsulation mold 20 is provided with an annular forming groove 211, and in the step 2-2, the annular forming positioning bracket 10 is placed in the annular forming groove 211. The inner wall of the annular forming groove 211 of the packaging mold 20 is used for defining the inner diameter size of the wearing hole of the transparent ring body 1, and the outer diameter size of the transparent ring body 1 is determined by the annular positioning wall 111 of the annular forming positioning bracket 10.

Step 2-3, taking out the annular forming positioning bracket 10 with the transparent ring body 1 from the packaging mold 20 after packaging and curing;

step 2-4, demolding the transparent intelligent ring movement 200 from the annular forming positioning bracket 10. For example, if the transparent intelligent ring movement shown in fig. 1 to 4 is manufactured, in the step 2-4, the entire annular forming positioning bracket 10 is detached and peeled off to obtain the transparent intelligent ring movement including the intelligent electronic module 2 and the transparent ring body 1. For example, if the transparent intelligent ring movement shown in fig. 7 to 10 is manufactured, the adopted annular forming positioning bracket 10 includes three combined positioning rings, in the step 2-4, the middle positioning ring is detached and stripped, the positioning rings on two sides are reserved, the transparent intelligent ring movement including the intelligent electronic module 2, the transparent ring body 1 and the positioning rings combined with the surface of the transparent ring body 1 is obtained, and the reserved positioning rings play a role of a rim on the transparent ring body 1. The annular forming positioning bracket 10 can also comprise two combined positioning rings, one side of the positioning ring C1 is reserved, the middle positioning ring C2 (shown in figure 17) is peeled off, and the other side of the positioning ring is assembled at the end part of the transparent ring body 1.

Next, an intelligent finger ring manufacturing process is provided, which comprises the following steps of

Step 1, manufacturing a transparent intelligent ring movement, wherein the transparent intelligent ring movement is manufactured by adopting the intelligent ring movement manufacturing process;

and 2, performing a post-processing procedure on the basis of the transparent intelligent ring movement to obtain an intelligent ring finished product. The post-process includes a first case and/or a second case; the first case is to post-machine the outer surface of the transparent ring body 1, and the second case is to mount on the outer surface of the transparent ring body 1. The outer ring surface of the intelligent ring finished product is partially or completely transparent, and the intelligent electronic module 2 can be seen through the transparent ring body 1 at the outer ring side of the intelligent ring finished product; or after the post-processing, the intelligent electronic module 2 is not visible on the outer side of the finished intelligent ring product.

If the ring shell is used as the transparent intelligent ring movement as shown in fig. 1 to 4, on this basis, the intelligent ring finished product as shown in fig. 12 can be obtained by installing the ring shell, the material, the color, the shape and the like of the ring shell can be flexibly designed, the ring shell shown in fig. 12 comprises a first shell and a second shell, the first shell and the second shell are ring bodies, one ring body is sleeved from one end of the transparent intelligent ring movement, the other ring body is sleeved from the other end of the transparent intelligent ring movement and is in threaded connection and fixed, and certainly, the ring shell can be fixed by gluing, so that the post-manufacturing process of the ring shell on the transparent intelligent ring movement is realized. Likewise, with the transparent intelligent ring movement shown in fig. 1 to 4, one or more processes of polishing, coating, engraving, jet printing, fitting and the like may be performed on the outer surface of the transparent ring body 1, and for the case of no fitting, the structural diagram of the obtained intelligent ring may still be referred to in fig. 1 to 4. And in the case of add-on assemblies, reference may be made to figures 5 to 10. The finished intelligent ring is usually a transparent intelligent ring, and the outer side surface of the transparent ring body 1 can be covered with an opaque material to present a non-transparent intelligent ring.

If the ring shell is used as the transparent intelligent ring movement shown in fig. 5 to 10, on this basis, the intelligent ring finished product shown in fig. 13 can be obtained by installing the ring shell, the material, the color, the shape and the like of the ring shell can be flexibly designed, the ring shell shown in fig. 13 comprises a first shell, a second shell and a third shell, the first shell is sleeved with the ring body from one end of the transparent intelligent ring movement, the second shell is sleeved with the first shell from the other end of the transparent intelligent ring movement, the third shell is sleeved with the other end of the transparent intelligent ring movement and is fixedly connected with the first shell in a threaded manner (of course, the third shell can be fixedly glued), the second shell is prevented from being separated, and the subsequent manufacturing process of the ring shell on the transparent intelligent ring movement is realized. As shown in fig. 14, with the transparent smart ring movement shown in fig. 7 and 8, a transparent glue layer (comprising colorless transparent, colored transparent) or an opaque glue layer B may be applied to fill the grooves 105.

It should be appreciated that fig. 1-14 are not intended to limit the structure/shape of the transparent smart ring movement, the finished smart ring, and are intended to be illustrative. When the actual design and the manufacture are carried out, the structure/shape of the transparent intelligent ring movement and the intelligent ring finished product can be flexibly changed, and the detailed description is omitted.

Referring to FIG. 20, another process for manufacturing an intelligent ring movement is shown, comprising the steps of

Step 1, preparing an intelligent electronic module 2; the intelligent electronic module 2 comprises an FPC board, a chip, a sensor, a wireless communication unit and a battery, wherein the chip, the sensor, the wireless communication unit and the battery are respectively connected to the FPC board; the intelligent electronic module 2 takes an FPC board as a carrier in a shape, and electronic components such as an intelligent chip, a sensor, a wireless communication unit, a battery and the like are distributed on one side or two sides of the FPC board.

Step 2, opening a mold, and placing the intelligent electronic module 2 into a mold cavity 43 of an injection mold (for example, the injection mold comprises an upper mold 41 and a lower mold 42, the upper mold 41 is a movable mold, the lower mold 42 is a fixed mold, a plurality of mold cavities 43 are concavely arranged at the top of the lower mold 42, a glue injection port 44 is arranged at the top of the upper mold 41, and glue solution is injected into each mold cavity 43 through a branch runner 45 by the glue injection port 44); in consideration of the position stability of the intelligent electronic module 2 after being placed in the mold cavity, the FPC board or part of electronic components can be adhered to the side surface of the inner ring of the mold cavity, and the adhesion strength is not too high; then closing the mold, adopting a low-temperature low-pressure injection molding process, controlling the temperature to be about 110-150 ℃, injecting transparent or semitransparent sizing liquid (the transparent or semitransparent liquid can refer to a solution of plastics, resin, silica gel, epoxy-based materials and the like, the transmittance of the transparent or semitransparent liquid can allow a sensor of the intelligent electronic module to obtain data from fingers of a user), and extruding the bonding part by the flowing sizing liquid so as to form full cladding on the whole intelligent electronic module 2; after the transparent or semitransparent liquid is solidified and formed into transparent colloid, opening the upper die, demolding the product 46 and removing the gate portion 47; then, carry out surface treatment processes such as grinding, polishing to the product surface, obtain single transparent intelligent ring core, transparent intelligent ring core this moment has with intelligent electronic module encapsulation shaping in transparent adhesive body, utilizes transparent colloid to carry out encapsulation shaping to intelligent electronic module, obtains the parcel to combine to be fixed in the outside transparent body of intelligent electronic module. The transparent intelligent ring movement can be directly used as an intelligent ring finished product, and the intelligent ring finished product can also be obtained through post-processing.

It should be noted that, in the conventional injection molding technology, there are two types of high-temperature hot-melt injection molding and low-temperature injection molding, and the temperature of the high-temperature hot-melt injection molding is higher, which is easy to cause negative effects on the intelligent electronic module and even damage the components such as the sensor on the intelligent electronic module. The low-temperature injection molding process is performed at a lower temperature, and the intelligent electronic module is not negatively affected by the lower injection temperature and the shorter injection time. Furthermore, the low-temperature and low-pressure mode is adopted in injection molding, so that damage to components can be further reduced/avoided, the low-pressure injection molding is realized by rapidly curing and forming the packaging material at a lower injection pressure, and various transparent or semitransparent liquids can be selected as the packaging material, such as polyamide, polyolefin, polyurethane hot melt adhesive and the like in plastics.

Therefore, when the other intelligent ring movement manufacturing process is used in the intelligent ring manufacturing process, the step 1 of the intelligent ring manufacturing process is replaced, and the step 2 of the intelligent ring manufacturing process is that: on the basis of the transparent intelligent ring movement, a post-processing procedure is carried out to obtain an intelligent ring finished product, and the method can be used.

Next, please refer to fig. 1 to 11, which show the product manufactured by the foregoing intelligent ring movement manufacturing process and intelligent ring manufacturing process, namely, the transparent intelligent ring movement/intelligent ring finished product, which will be described in more detail below:

as shown in fig. 1 to 4, a specific structure of a first embodiment of the present invention is shown.

A transparent intelligent ring 100 comprises a transparent ring body 1 and an intelligent electronic module 2.

The transparent ring body 1 is provided with a wearing hole 101, and the transparent ring body 1 extends from the finger belly side of the wearing hole 101 towards the finger back side of the wearing hole 101 to form a closed ring body or a non-closed ring body with a fracture 102 at the finger back side; the intelligent electronic module 2 is embedded in the transparent ring body 1 in a fully wrapped manner, and the transparent ring body 1 is provided with a transparent inner ring side wall 11 coated on the inner ring side of the intelligent electronic module 2 and a transparent outer ring side wall 12 coated on the outer ring side of the intelligent electronic module 2; inside the wearing hole 101, the intelligent electronic module 2 is transparent through the transparent inner ring side wall 11, and outside the transparent intelligent ring, the intelligent electronic module 2 is transparent through the transparent outer ring side wall 12. The transparent ring body 1 is formed by curing a transparent colloid (the transparent colloid can be one of curing glue, resin (epoxy resin and the like) and plastic, so long as the transparent colloid is transparent liquid during glue injection, and the transparent ring body is transparent solid after molding), and the intelligent electronic module 2 is wrapped and combined and fixed by the transparent ring body 1 during curing and molding of the transparent colloid. The ring body of the transparent ring body 1 is a circular ring body, an elliptic ring body, a polygonal ring body or other special-shaped ring bodies which cannot be defined by a circular shape, an elliptic shape or a polygonal shape, and different modeling design requirements can be met. The back side of the ring body (usually the central position) can be additionally provided with a decoration piece such as a precious stone, which plays a role of decoration and decoration, and for the non-closed ring body with the fracture 102 arranged on the back side of the fracture 102, the space of the fracture 102 position can be used for designing the layout of the decoration piece such as the precious stone, for example, the fracture 102 position plays a role of a supporting groove.

The intelligent electronic module 2 comprises an FPC board 21 and an intelligent chip, a sensor, a wireless communication unit and a battery which are respectively connected to the FPC board 21, wherein the battery is a rechargeable battery, and a wired charging unit and/or a wireless charging unit can be adopted for charging, wherein the wired charging unit is provided with a charging interface exposed on the inner ring side of the transparent colloid, and the wireless charging unit is provided with a wireless charging coil which is arranged on the inner ring side of the transparent colloid, so that the intelligent ring has a corresponding wired charging function or a wireless charging function, and can be designed to have both wired and wireless charging functions as required. The whole intelligent electronic module 2 (including FPC board 21, chip, sensor, wireless communication unit, battery, etc.) is wrapped by the transparent ring body 1 and fixed when the transparent colloid is solidified and formed, in this embodiment, the sensor may be one or more of a motion sensor, a temperature sensor, and an optical PPG sensor, so as to monitor the physiological index of the user and provide the physical health parameters for the user. The electronic components and sensors with different functions are all well known in the art and are not described herein. The smart chip may be a CPU chip, an IC chip, an ID chip, an NFC chip, or an RFID chip including an electronic tag, and the smart chips with different functions may be any known technologies in the art, which is not described herein.

As shown in FIG. 4, the transparent and visible state of the transparent intelligent ring is shown, when the ring is worn and used, the transparent inner ring side wall 11 and the transparent outer ring side wall 12 are utilized, the requirements of intelligent electronic module 2 on finger monitoring and external sensing/interaction can be met, a hole site is not required to be additionally arranged on the ring inner ring or the ring outer ring as in the conventional technology, a transparent part is additionally arranged, the complex procedure of the hole site is omitted, moreover, the composition and the design modeling of the intelligent electronic module 2 can be seen from the outside of the intelligent ring, the intelligent ring is concise and elegant, the design theme is outstanding, the visual sense is better, the technological sense is also more displayed, and the decorative sense is strong.

As shown in fig. 5 and 6, a specific structure of a second embodiment of the present invention is shown.

The second embodiment has basically the same structure as the first embodiment, and the main difference is that the transparent ring body 1 of the transparent intelligent ring of the second embodiment is added with an auxiliary ring body 3 for decoration and/or reinforcing structural strength. Specifically:

a transparent intelligent ring comprises a transparent ring body 1, an intelligent electronic module 2 and an auxiliary ring body 3.

The transparent ring body 1 is provided with a wearing hole 101, and the transparent ring body 1 extends from the finger belly side of the wearing hole 101 towards the finger back side of the wearing hole 101 to form a closed ring body or a non-closed ring body with a fracture 102 arranged at the finger back side of the fracture 102; the auxiliary ring body 3 is arranged on the transparent ring body 1, the auxiliary ring body 3 is a decorative ring and/or a reinforcing ring, and the auxiliary ring body 3 extends along the circumferential direction of the transparent ring body 1; the intelligent electronic module 2 is embedded in the transparent ring body 1 in a fully wrapped manner, and the transparent ring body 1 is provided with a transparent inner ring side wall 11 coated on the inner ring side of the intelligent electronic module 2 and a transparent outer ring side wall 12 coated on the outer ring side of the intelligent electronic module 2; inside the wearing hole 101, the intelligent electronic module 2 is transparent through the transparent inner ring side wall 11, and outside the transparent intelligent ring, the intelligent electronic module 2 is transparent through the area of the transparent outer ring side wall 12 which is not covered by the auxiliary ring body 3. The transparent ring body 1 is formed by curing transparent colloid, and the intelligent electronic module 2 is wrapped by the transparent ring body 1 and combined and fixed when the transparent colloid is formed by curing. The auxiliary ring body 3 is combined and fixed with the transparent ring body 1 when the transparent colloid is solidified and formed; or, the auxiliary ring body 3 is assembled on the solidified transparent ring body 1, and the assembling and fixing mode can adopt adhesive fixing, tight-fitting clamping fixing, ultrasonic bonding fixing and the like. Obviously, through burying the intelligent electronic module 2 in the transparent ring body 1, waterproof sweat-proof is effectual, when wearing the use, when satisfying intelligent electronic module 2 to finger monitoring demand, can see the design molding of intelligent electronic module 2 from intelligent ring outside, visual sense is better, also more show the science and technology sense, decorate the sense strong, moreover, this kind of structural style, easily production preparation is better to the location and the protection of intelligent electronic module 2, be favorable to promoting the product quality of intelligent ring, and, the transparent ring body 1 of this kind of transparent intelligent ring is convenient for shaping different shape molding, still accessible supplementary ring body 3 increases decorativeness, reinforcing structure intensity etc. is suitable for batch production and popularization and application.

In the second embodiment, the auxiliary ring 3 is disposed at the front end and the rear end of the transparent ring 1 in the axial direction. In actual design, the auxiliary ring 3 may be provided only at the axial front end or the axial rear end of the transparent ring 1. The auxiliary ring body 3 may be made of any one of different materials, such as a crystal material, a jade material, an enamel color material, a metal material, a glass material, a sapphire glass material, a ceramic material, a carbon fiber material, a glass fiber material, a plastic material, and a composite material. The transparency of the auxiliary ring body 3 may not be limited, and it is blocked at the front end and the rear end of the transparent ring body 1 in the axial direction, so that the transparent areas of the inner ring side and the outer ring side of the intelligent ring are not affected.

Taking the auxiliary ring body 3 as an example, precious metal such as gold, silver and the like can be preferably selected, and the auxiliary ring body 3 made of metal is combined with the transparent ring body 1, so that the smart ring has a thick luxurious feel while considering the fashion sense of science and technology, and has better deformation resistance and falling resistance. Of course, the surface of the auxiliary ring body 3 or the transparent ring body 1 may be further designed, for example, an ornament is added on the outer surface of the metal material, for example, the ornament may be coated enamel, or a diamond or a gemstone inlaid on the outer surface, the gemstone may be diamond, ruby, sapphire, emerald, nephrite, jades, verdigris, topaz, opal, red tourmaline, etc., thereby being beneficial to improving the appearance aesthetic degree of the ring.

If the auxiliary ring 3 is made of other composite materials (also called composite materials), the composite materials are made of two or more materials with different properties, and the materials with new properties are formed on the macroscopic (microscopic) surface by a physical or chemical method. The materials complement each other in performance and generate a synergistic effect, so that the comprehensive performance of the composite material is superior to that of the original composition material, and various different requirements are met. Matrix materials of composite materials fall into two broad categories, metallic and nonmetallic. The metal matrix is commonly used as aluminum, magnesium, copper, titanium and alloys thereof. The nonmetallic substrate mainly comprises synthetic resin, rubber, ceramic, graphite, carbon and the like. The reinforcing materials selected for the composite material mainly comprise glass fibers, carbon fibers, boron fibers, aramid fibers, silicon carbide fibers, asbestos fibers, whiskers, metal wires, hard grains and the like.

Furthermore, a front arc-shaped guiding surface 103 is arranged at the corner of the inner circumference of the transparent ring body 1 near the front end, and the front arc-shaped guiding surface 103 is positioned outside the area covered by the auxiliary ring body 3; or/and, a rear arc-shaped guide surface 104 is arranged at the corner of the inner periphery of the transparent ring body 1 near the rear end, and the rear arc-shaped guide surface 104 is positioned outside the area covered by the auxiliary ring body 3. When the auxiliary ring body 3 is designed, the inner ring side surface of the auxiliary ring body 3 can be designed to be in connection with the arc-shaped guide surface of the transparent ring body 1.

As shown in fig. 7 and 8, a specific structure of a third embodiment of the present invention is shown.

The third embodiment is basically the same as the second embodiment in terms of the main difference that the auxiliary ring body 3 of the third embodiment is different in terms of structure, specifically:

the radial cross section of the auxiliary ring body 3 of the third embodiment is L-shaped, and comprises an end face annular plate 31 and an outer annular plate 32 which are integrally connected, the auxiliary ring body 3 is respectively arranged at the front end corner of the outer periphery of the transparent ring body 1 and the rear end corner of the outer periphery of the transparent ring body 1, and can cover the front end of the outer periphery of the transparent outer ring side wall 12 and the front end of the transparent ring body 1, and cover the rear end of the outer periphery of the transparent outer ring side wall 12 and the rear end of the transparent ring body 1. In actual design, the auxiliary ring body 3 may be provided only at the front end corner of the outer periphery of the transparent ring body 1 or at the rear end corner of the outer periphery of the transparent ring body 1.

As shown in fig. 8, it can be seen that the outer ring plate 32 of the auxiliary ring body 3 is exposed on the outer ring surface of the transparent ring body 1, and a groove 105 is formed between the outer ring plates 32 of the two auxiliary ring bodies 3, further, a transparent glue layer can be formed by filling (e.g. coating, brushing, etc.) the groove 105, and the transparent glue layer can be colorless and transparent, or the transparent glue layer is in a transparent shape with a slight color, so that the requirements of perspective (or external sensing, interactive communication, etc.) of the outer ring side of the transparent intelligent ring can be met, and the design of the appearance and decorative effect of the transparent intelligent ring can be more flexible and diversified.

As shown in fig. 9 and 10, a specific structure of a fourth embodiment of the present invention is shown.

The fourth embodiment is basically the same as the third embodiment in that the transparent ring body 1 of the fourth embodiment is different in structure, specifically:

the front end and the rear end of the outer periphery of the side wall 12 of the transparent outer ring of the transparent ring body 1 in the third embodiment are provided with the sinking groove 106, so that the outer side ring plate 32 of the auxiliary ring body 3 can be positioned in the sinking groove 106, the height of the outer side ring plate 32 protruding on the outer ring surface of the transparent ring body 1 is reduced, and the outer surface of the outer side ring plate 32 can be kept flush with the outer ring surface of the transparent ring body 1 during actual manufacturing. The surface of the outer ring plate 32 may be slightly lower than the outer ring surface of the transparent ring body 1, the outer ring surface a of the transparent ring body 1 is not limited to a flat surface design, and may be designed into a convex-concave three-dimensional surface as required, and the auxiliary ring body 3 plays a role in setting off, so as to more highlight the three-dimensional design of the outer ring surface of the transparent ring body 1. Of course, in the case where the auxiliary ring body 3 or the outer ring plate 32 is not disposed higher than or flush with the outer ring surface of the transparent ring body 1, the outer side of the transparent ring body 1 may be designed (for example, as a convex-concave three-dimensional surface).

In other embodiments, the auxiliary ring 3 may be disposed at the front end or/and the rear end of the outer periphery of the transparent outer ring sidewall 12, which may be understood as omitting the end face ring plate 31 in the third and fourth embodiments.

And, as shown in fig. 11, it shows a front view of a transparent intelligent ring with a non-closed ring design, where the transparent ring body 1 and the intelligent electronic module 2 are both in a non-closed ring design, and the auxiliary ring body 3 mentioned in the foregoing various embodiments may also be disposed on the transparent ring body 1 of the non-closed ring, where the auxiliary ring body 3 may be selectively designed as a non-closed ring or a closed ring, and for a case that a space using a position of the fracture 102 is used for designing a decoration such as a precious stone, the auxiliary ring body 3 may also be used to position the decoration, for example: after the decoration is arranged at the fracture 102, the auxiliary ring body 3 is assembled, and the decoration is blocked by the auxiliary ring body 3, so that the decoration is prevented from falling off.

It should be noted that, the shapes/shapes of the transparent ring body 1, the intelligent electronic module 2 and the auxiliary ring body 3 described above can be flexibly changed according to needs, and the shapes shown in the drawings of the specification are not limited, and the structures and the shapes of the annular forming positioning bracket 10 and the packaging mold 20 described above can be variously changed, the annular forming positioning bracket 10 is mainly used for positioning the intelligent electronic module 2, and simultaneously plays a decisive role in the outer diameter of the transparent ring body 1 during forming, the packaging mold 20 is mainly used for providing the annular forming groove 211, the drawings of the specification only show the local shape of the packaging mold 20, the overall appearance of the packaging mold 20 is not limited, and the requirement of glue injection forming and curing can be met.

In the foregoing, taking the intelligent ring as an example, the intelligent wearing product intelligent movement and the manufacturing process of the intelligent wearing product have been described, in some embodiments, the intelligent ring movement is not limited to a closed ring shape (for example, a closed ring shape), but can also be a notched ring shape, or a C shape, and especially when the intelligent wearing product specifically refers to an intelligent bracelet, an intelligent watch, an intelligent foot ring and an intelligent necklace, the shape of the intelligent wearing product intelligent movement is designed to be a closed ring shape. Of course, for the finished product of the intelligent wearing product, there may be two situations of closed ring and open ring, the finished product of the intelligent wearing made of the closed ring type movement is also a closed ring, and the movement of the open design, the finished product of the intelligent wearing made subsequently may be a closed ring or an open ring (such as a common open ring, an open bracelet, etc.).

Next, please refer to fig. 21A to 29, which illustrate a bracelet movement manufactured by the smart wearable product movement manufacturing process of the present invention, which will now be described:

as shown in fig. 21A to 25, a specific structure of one embodiment of the bracelet core is shown, which includes an intelligent electronic module 2', a transparent colloid 1', and a casing 3', wherein connecting holes are provided at two ends of the casing 3' for installing a chain belt, and the casing 3 is generally arc-shaped. The intelligent electronic module 2' comprises an FPC board and electronic components such as an intelligent chip, a sensor, a wireless communication unit, a battery and the like which are respectively connected with the FPC board; firstly, preparing an intelligent electronic module 2', then placing the intelligent electronic module 2' into a mold cavity of an injection mold, and injecting transparent or semitransparent sizing liquid (the transparent or semitransparent liquid can refer to a solution of plastic, resin, silica gel, epoxy-based material and the like, and the transmittance of the transparent or semitransparent liquid can allow a sensor of the intelligent electronic module to obtain data from a wrist of a user) into the injection mold in a low-temperature injection molding mode (or a low-temperature low-pressure injection molding mode), so that the whole intelligent electronic module 2' is fully coated; after the transparent or semitransparent liquid is solidified and formed into the transparent colloid 1', the transparent colloid 1' is opened and taken out, and then the transparent colloid is put into the shell 3', the shell 3' is provided with an outer side surface far away from the wrist surface and an inner side surface facing the wrist surface, and the inner side surface of the shell 3 is designed to be open, so that the transparent colloid 1' is exposed at the opening of the inner side surface of the shell 3. The specific low-temperature injection molding mode (or low-temperature low-pressure injection molding mode) and steps can refer to fig. 20 and another intelligent ring movement manufacturing process described in the corresponding text section, and are not described herein.

As shown in fig. 26 to 29, the specific structure of another embodiment of the bracelet core is basically the same as that of the previous embodiment of the bracelet core and the manufacturing method, and similarly, the bracelet core comprises an intelligent electronic module 2", a transparent colloid 1", and a housing 3", and the main difference is that: the outer side surface of the shell 3' is designed to be open, so that the transparent colloid 1' is exposed at the open position of the outer side surface of the shell 3 '.

In other embodiments, the foregoing case 3', case 3″ may be omitted, and the connecting holes at the two ends of the case 3', case 3″ may be directly injection molded on the corresponding transparent colloid 1', transparent colloid 1", so that after the low-temperature injection molding, a modular bracelet core with the transparent colloid fully covered by the intelligent electronic module is obtained, and the holes at the two ends of the bracelet core may be used for connecting the chain belt to form a bracelet finished product.

In summary, in the invention, the intelligent machine core is manufactured independently, so that the main body part of the intelligent product is completely based on standardized operation, and on the basis of the transparent intelligent machine core, various materials, various structures and the like are applied for secondary and tertiary processing as required, so that the diversity of intelligent wearing products is realized, therefore, the traditional process of one-step molding production of one style of traditional intelligent products is thoroughly changed, the thinking of the process design fixed in the industry is broken, the main body part of the intelligent product is manufactured to be standardized and generalized, revolutionary innovation is realized in the aspects of efficient production, product diversity and the like, and the yield of the intelligent wearing products is improved.

The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present invention are still within the scope of the technical solutions of the present invention.

Claims (10)

1. The utility model provides an intelligence wearing product core preparation technology which characterized in that: comprises the following steps of

Step 1, preparing an intelligent electronic module; the intelligent electronic module comprises an FPC board, a chip, a sensor, a wireless communication unit and a battery, wherein the chip, the sensor, the wireless communication unit and the battery are respectively connected to the FPC board;

and step 2, packaging and forming the intelligent electronic module by using a transparent colloid to obtain a transparent body which is wrapped, combined and fixed outside the intelligent electronic module, wherein the intelligent electronic module is buried in the transparent body to form a transparent intelligent movement.

2. The smart wearable product core manufacturing process of claim 1, wherein: in the step 2, the intelligent electronic module is placed in an injection mold, a low-temperature injection molding process is adopted, transparent or semitransparent liquid is injected into the injection mold, the transparent or semitransparent liquid is solidified and molded into transparent colloid, and the intelligent electronic module is packaged and molded in the transparent colloid.

3. The smart wearable product core manufacturing process of claim 1, wherein: the transparent body is a transparent ring body, and the step 2 comprises the following steps of

Step 2-1, placing the intelligent electronic module into an annular forming positioning bracket, wherein the intelligent electronic module is attached to the annular forming positioning bracket to keep a set shape;

step 2-2, placing the annular forming positioning bracket into a packaging mold, and then injecting glue into the packaging mold for packaging to form a transparent ring body for coating the intelligent electronic module;

step 2-3, taking the annular forming positioning bracket with the transparent ring body after encapsulation and solidification out of the encapsulation mold;

and 2-4, demolding the transparent intelligent movement from the annular forming positioning bracket.

4. The smart wearable product core manufacturing process of claim 3, wherein: and the packaging die is provided with an annular forming groove, and in the step 2-2, the annular forming positioning bracket is placed into the annular forming groove.

5. The smart wearable product core manufacturing process of claim 3, wherein: in the step 2-4, the whole annular forming positioning support is disassembled and stripped to obtain the transparent intelligent movement comprising the intelligent electronic module and the transparent ring body.

6. The smart wearable product core manufacturing process of claim 3, wherein: the annular forming positioning support comprises more than two positioning rings which are combined, in the step 2-4, part of the positioning rings are detached and stripped, and the other part of the positioning rings are reserved, so that the transparent intelligent movement comprising the intelligent electronic module, the transparent ring body and the positioning rings combined on the surface of the transparent ring body is obtained.

7. The smart wearable product core manufacturing process of claim 1, wherein: the transparent intelligent movement is an intelligent ring movement, an intelligent bracelet movement or an intelligent watch movement.

8. The smart wearable product core manufacturing process of claim 1 or 7, wherein: the inner ring side of the transparent ring body is provided with a wearing hole, and the transparent ring body is provided with a transparent inner ring side wall coated on the inner ring side of the intelligent electronic module and a transparent outer ring side wall coated on the outer ring side of the intelligent electronic module; in wearing the downthehole, intelligent electronic module is through transparent inner ring lateral wall perspective, in the outside of intelligent wearing product, intelligent electronic module is through transparent outer ring lateral wall perspective.

9. The intelligent wearable product manufacturing process is characterized by comprising the following steps of: comprises the following steps of

Step 1, manufacturing a transparent intelligent movement, which is manufactured by adopting the intelligent wearable product movement manufacturing process according to any one of claims 1 to 8;

and 2, performing a post-processing procedure on the basis of the transparent intelligent movement to obtain an intelligent wearing product finished product.

10. The smart wearable product manufacturing process of claim 9, wherein: the post-process includes a first case and/or a second case; the first case is post-machining the outer surface of the transparent body and the second case is fitting over the outer surface of the transparent body.