Cultural tourism IP personalized customization carrier

By employing a nine-layer composite process and a multi-layer modular structure, the problems of insufficient material and process precision and inefficient integration of brand and culture in the cultural tourism IP derivative industry have been solved. This has enabled high-precision, low-cost personalized customization, thereby enhancing the health and cultural dissemination effects of the products.

CN224339960UActive Publication Date: 2026-06-09SHANGHAI JIYE INTERNET OF THINGS TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI JIYE INTERNET OF THINGS TECH CO LTD
Filing Date
2025-07-28
Publication Date
2026-06-09

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  • Figure CN224339960U_ABST
    Figure CN224339960U_ABST
Patent Text Reader

Abstract

The utility model provides a kind of cultural tourism IP personalization customized carrier, comprising: carrier main body, IP content layer and LED drive control circuit board;The carrier main body includes lamp holder outer sleeve, lamp holder inner container, outer lampshade layer, main lampshade upper cover outer sleeve, main lampshade upper cover, aperture, aperture upper cover and spring ring;The IP content layer includes pattern printing layer, illustration pattern slide layer, natural plant skin layer and color slide layer.Through nine-layer composite process, high strength, weather resistance and processability of shallow wood skin are realized, which makes it first have the ability to integrate with acrylic and other industrial materials on a large scale, promotes natural wood skin from "niche decoration" to "mainstream functional material", and establishes a new paradigm for the application of bio-based materials in the lighting field.
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Description

Technical Field

[0001] This utility model relates to the field of cultural tourism IP gifts, specifically, to a personalized customization carrier for cultural tourism IP. Background Technology

[0002] The cultural tourism IP derivative industry is expanding along with the development of the cultural tourism industry, but there are still many prominent problems in the industry's development, which restrict product upgrades and market expansion.

[0003] First, there are limitations in materials and processes. Traditional materials lack precision in presenting complex shapes and are prone to shrinkage and deformation; while new materials that can achieve high precision face the dilemma of high production costs and long mass production cycles, making it difficult to balance quality and efficiency.

[0004] Secondly, the integration of brands, IPs, and culture is inefficient. Existing products mostly remain at the level of a simple superposition of "cultural elements + carriers," without forming a systematic integration. This results in a lengthy cultural dissemination chain, high reach costs, and makes it difficult for consumers to perceive unique cultural value.

[0005] These issues collectively constitute a bottleneck for the industry's development, and breakthroughs through technological innovation are urgently needed to drive the cultural tourism IP derivatives industry towards high quality and high efficiency. Utility Model Content

[0006] In view of the deficiencies in the existing technology, the purpose of this utility model is to provide a personalized customization carrier for cultural tourism IP.

[0007] The personalized customization carrier for cultural tourism IP provided by this utility model includes: a carrier body, an IP content layer, and an LED driver control circuit board;

[0008] The carrier body includes a lamp holder outer jacket, a lamp holder inner liner, an outer lamp cover layer, a main lamp cover upper cover outer jacket, a main lamp cover upper cover, an aperture, an aperture upper cover, and a spring ring;

[0009] The IP content layer includes a pattern printing layer, an illustration pattern light sheet layer, a natural plant bark layer, and a colored light sheet layer;

[0010] The components are as follows: the outer lamp cover, the main lamp cover jacket, the main lamp cover, the aperture, and the aperture cover are inserted one by one from the top of the main lamp connecting screw, and tightened together with a brass nut and a spring ring at the top of the main lamp connecting screw; the top of the aperture cover is locked to the top of the main lamp connecting screw with a brass nut; the bottom surface of the main lamp cover is attached to the upper surface of the outer lamp cover; the lamp holder jacket is placed on the lamp holder inner liner, and the main lamp is locked to the lamp holder inner liner at the bottom of the main lamp connecting screw with a brass nut;

[0011] The pattern printing layer is set on the upper surface of the outer lampshade layer; the illustration pattern light sheet layer is inserted into the outer lampshade layer and adhered to the inner wall of the outer lampshade layer; the natural plant skin layer is a multi-layer composite structure, including, from top to bottom, a PTE upper film layer, a first adhesive layer, a pattern printing layer, a UV base coating layer, a dyeing layer, a second adhesive layer, a non-woven fabric layer, a third adhesive layer, and a PET anti-blue light film layer; the colored light sheet layer is a PET colored film lubricating layer;

[0012] The LED driver control circuit board is connected to the outer lamp cover layer 109 and includes a zone control module to drive monochrome / RGB light sources;

[0013] The lamp holder inner liner is provided with a pre-embedded groove for the charging plug component and a through groove for the lamp body switch, and a charging interface hole is opened on the side wall of the lamp holder outer sleeve; wherein, the charging plug component is a Type-C interface board, the Type-C female plug is inserted into the hole in the side wall of the lamp holder outer sleeve, and the Type-C interface board is simultaneously sunk into the pre-embedded groove for the charging plug component and fixed with a pin.

[0014] Preferably, it also includes carrier hardware, which includes a brass nut, a plastic connecting screw, a metal washer, an internal thread nut, and a connecting screw;

[0015] Specifically: the internal thread nut is tightened into the center of the lamp holder inner tube, the bottom of the connecting screw is screwed into the internal thread nut, the metal washer is sleeved on the connecting screw, the bottom of the plastic connecting screw is threaded to the top of the connecting screw, and the top of the plastic connecting screw is threaded to the brass nut.

[0016] Preferably, the plastic connecting screw is located between the brass nut and the hardware body.

[0017] Preferably, the touch switch wire passes through the wire hole and connects to the LED light board or LED control board. The end of the touch switch wire is welded with a conductive copper sheet or conductive spring and hidden inside the plastic connecting screw. After the brass nut is tightened, the conductive device is tightly attached to its inner wall.

[0018] Preferably, the surface of the PET blue light blocking film is coated or composite with a blue light blocking coating, or is a transparent blue light blocking film.

[0019] Preferably, the colored light sheet layer is composed of one or more spot-color PET films.

[0020] Preferably, the colored light film layer is hollowed out to form a silhouette projection layer, or black light-blocking / semi-light-blocking ink is printed on the PET anti-blue light film layer.

[0021] Preferably, the thickness of the PET illustration film in the illustration pattern light sheet layer is 0.05 to 0.5 mm.

[0022] Preferably, the upper film layer of the PTE is a transparent protective layer.

[0023] Compared with the prior art, the present invention has the following beneficial effects:

[0024] (1) Through a nine-layer composite process, the high strength, weather resistance and processability of light wood veneer are achieved, enabling it to be integrated with industrial materials such as acrylic on a large scale for the first time, promoting the transformation of natural wood veneer from "niche decoration" to "mainstream functional material", and establishing a new paradigm for the application of bio-based materials in the lighting field;

[0025] (2) By layering the functions of “acrylic protective layer → PET creative layer → wood veneer development layer → silhouette projection layer”, the lamps are transformed from “single material with fixed function” to “multi-layer modular evolution”. Each layer is independently replaceable and synergistically enhances the effect, so that the “texture uniqueness” of natural wood veneer and the “pattern precision” of industrial materials form an innovative combination to meet the dual needs of “natural texture + personalized customization”.

[0026] (3) EG0-grade low blue light lamp beads (blue light energy ratio ≤10%) are combined with anti-blue light PET film to form a dual protection of "light source control + surface barrier". The blue light blocking rate is ≥70% and the blue light hazard level of the lamp reaches the RG0 exemption level (IEC62471). Compared with the traditional solution, the anti-blue light efficiency is improved by 30%, while maintaining the light transmittance of wood veneer texture ≥85%, which solves the problem of compatibility between healthy spectrum and natural texture. Attached Figure Description

[0027] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:

[0028] Figure 1 This is a diagram of the main structure of the carrier;

[0029] Figure 2 This is a diagram of the main structure of the carrier;

[0030] Figure 3 This is a sectional view of the main body of the carrier;

[0031] Figure 4a and Figure 4b Images of the front and back of the lamp holder's inner liner;

[0032] Figure 5a and Figure 5b Front and back views of the main lampshade cover;

[0033] Figure 6a and Figure 6b Images of the front and back of the aperture cover;

[0034] Figure 7 This is a structural diagram of the main hardware components;

[0035] Figure 8A schematic diagram of the overall assembly of the lighting fixtures;

[0036] Figure 9 Schematic diagram of the charging interface hole for the opening on the side wall of the lamp holder jacket;

[0037] Figure 10 This is a diagram of the IP content layer structure. Detailed Implementation

[0038] The present invention will now be described in detail with reference to specific embodiments. These embodiments will help those skilled in the art to further understand the present invention, but do not limit the present invention in any way. It should be noted that those skilled in the art can make several changes and improvements without departing from the concept of the present invention. These all fall within the protection scope of the present invention.

[0039] Example

[0040] This utility model provides a personalized customization carrier for cultural tourism IP, including: carrier body, carrier hardware, IP content layer, and LED driver control circuit board 106.

[0041] The carrier body includes: lamp holder outer sleeve 100, lamp holder inner liner 101, outer lamp cover layer 109, main lamp cover upper cover outer sleeve 100.1, main lamp cover upper cover 113, aperture 117, aperture upper cover 118, and spring ring.

[0042] The main lamp connecting screw 201 is the overall locking part of the lamp body. Before the lamp body is locked by the main lamp connecting screw 201, the lamp holder outer sleeve 100, lamp holder inner liner 101, outer lamp cover layer 109, main lamp cover upper cover outer sleeve 100.1, main lamp cover upper cover 113, aperture 117, and aperture upper cover 118 are all in a loosely engaged state. The outer lamp cover layer 109, main lamp cover upper cover outer sleeve 100.1, main lamp cover upper cover 113, aperture 117, and aperture upper cover 118 are inserted one by one from the top of the main lamp connecting screw. The brass nut 201.1 is fitted with a spring ring and tightened together with the spring ring on the top of the plastic connecting screw 201.2. The main lamp connecting screw 201 passes through the first screw through hole 101. 5. The second screw through hole 103.6 and the third screw through hole 118.3 are provided. The lamp holder outer sleeve 100 is set on the lamp holder inner liner 101. At the bottom of the main lamp connecting screw 201, that is, the lamp holder inner liner groove, the main lamp is locked to the lamp holder inner liner 101 by brass nut 201.1. At the top of the aperture cover 118, brass nut 201.1 is used to lock it to the top of the main lamp connecting screw 201. Then, the lamp holder outer sleeve 100, the lamp holder inner liner 101, the outer lamp cover layer 109, the main lamp cover upper cover outer sleeve 100.1, the main lamp cover upper cover 113, the aperture 117, and the aperture cover 118 are locked and engaged with each other. The bottom surface of the main lamp cover upper cover 113 is attached to the upper surface of the outer lamp cover layer 109.

[0043] Front and back views of lamp holder inner tube 101 are shown below. Figure 4a and Figure 4b As shown. Currently, the charging port of the lamp is located at the top 118.2. Through the pre-embedded groove 101.2 of the charging plug element, the top charging port 118.2 can be moved to the bottom of the lamp holder. The charging plug element is a Type-C interface board. The Type-C female connector is inserted into the side wall hole of the lamp holder outer sleeve 100, and the Type-C interface board is simultaneously recessed into the pre-embedded groove 101.2 of the charging plug element and fixed with a pin. The lamp body switch through-hole groove 101.6 is used to embed the lamp body main switch element. The manual touch head is at the bottom of the lamp holder, and the main power switch is turned on manually. The inner liner 101 of the lamp holder is a protruding part that is embedded in the center of the outer lamp cover layer 109. The recessed platform of the slot 101.3 of the outer lamp cover layer 109 is in contact with the bottom of the outer lamp cover layer 109.

[0044] The front and back views of the main light cover 113 are shown below. Figure 5a and Figure 5b As shown. The power cable through-hole 103.4 is mainly used to connect the power and signal lines of the main control circuit and sub-control circuit of the LED driver control circuit board 106, requiring them to pass through the 103.4 power cable through-hole. The aperture 117 recess 103.5 is mainly used to fix the bottom surface of the aperture 117 in place. The slot 113.7 of the outer lamp cover layer 109 has the same function as the lamp holder inner tube 101 and slot 101.3, only differing in orientation and material.

[0045] The carrier hardware includes: a brass nut 201.1, a plastic connecting screw 201.2, a first strip fixing hole 201.3, a second strip fixing hole 201.4, a wire threading port 201.5, a metal washer 201.6, an internal thread nut 201.7, and a connecting screw 201.8.

[0046] The brass nut 201.1 is a hardware accessory made of metal materials such as copper and aluminum and has electrical conductivity.

[0047] The plastic connecting screw 201.2 is a bridging screw made of plastic. Its core function is to isolate and insulate the electrical conductivity between the hardware body 201 and the brass nut 201.1, so as to avoid interference when the brass nut 201.1 is connected to the contact switch wire, which would cause the contact switch to malfunction or be accidentally activated.

[0048] The first strip fixing hole 201.3 and the second strip fixing hole 201.4 are the upper and lower fixing holes for fixing the 18650 lithium battery through strip fixing.

[0049] The wiring port 201.5 is the wiring hole for the LED light board 201.9 and the LED control board 201.10, and it is also the wiring hole for the touch switch wire.

[0050] The metal gasket 201.6 is a gasket device for raising and fixing the LED light panel 201.9.

[0051] The connecting screw 201.8 is a metal screw made of metal material.

[0052] The internal thread nut 201.7 is an internal thread nut that is embedded and tightened in the center of the lamp holder inner liner 101.

[0053] Specifically, the internal thread nut 201.7 is tightened at the center of the lamp holder inner liner 101, and the bottom of the connecting screw 201.8 is tightened to the internal thread of the internal thread nut 201.7. The metal washer 201.6 exists in the form of a metal nut and is tightened at any point on the connecting screw 201.8 to adjust the height of the LED light panel 201.9. The bottom internal thread of the metal rod of the hardware body 201 is tightened to the top external thread of the connecting screw 201.8. Tightening secures and locks the LED light panel 201.9. The bottom external thread of the plastic connecting screw 201.2 is tightened to the top internal thread of the metal rod of the hardware body 201. The top external thread of the plastic connecting screw 201.2 is tightened to the internal thread of the brass nut 201.1.

[0054] Furthermore, the touch switch wire is connected to the LED light board 201.9 or the LED control board 201.10, with the wire passing through and exiting from the wire insertion port 201.5. A conductive device is soldered to the end of the touch switch wire. The conductive device is either a conductive copper sheet or a conductive spring. The conductive device is hidden inside the plastic connecting screw 201.2. When the brass nut 201.1 is tightened with the plastic connecting screw 201.2, it will be tightly attached to the inner wall of the brass nut 201.1 to avoid misoperation or malfunction of the switch due to a loose connection.

[0055] For details, please refer to the following: Figures 1-3 As shown.

[0056] The IP content layer includes: a pattern printing layer, an illustration pattern backlit film layer 110, a natural plant bark layer 111, and a colored backlit film layer. For example... Figure 10 .

[0057] The LED driver control circuit board 106 is connected to the outer lamp cover layer 109 and includes a zone control module to drive monochrome / RGB light sources to switch between ambient and static eye protection modes.

[0058] The pattern printing layer is a personalized IP pattern layer that is printed on the surface of the outer lampshade layer 109 by UV printing, laser engraving, transparent crystal posting, pad printing, or heat transfer.

[0059] The illustration pattern light sheet layer 110 includes a PET illustration film and an illustration pattern printing layer. The illustration pattern light sheet layer 110 is inserted into the outer lampshade layer 109 and is attached to the inner wall of the outer lampshade layer 109.

[0060] The PET illustration film is a highly transparent film layer with any thickness of 0.05 to 0.5 mm.

[0061] The illustration pattern printing layer is a personalized IP pattern layer that is presented on the surface of the illustration pattern printing layer by printing methods such as UV printing, transparent crystal post, pad printing, or heat transfer printing.

[0062] The natural plant veneer 111 has a composite structure, comprising, from top to bottom, a PTE top film layer, a first adhesive layer, a pattern printing layer, a UV base coating layer, a staining layer, a second adhesive layer, a non-woven fabric layer, a third adhesive layer, and a PET anti-blue light film layer. The natural plant veneer 111 includes wood grain (new materials) such as natural wood veneer, engineered wood veneer, and synthetic wood veneer.

[0063] The PET anti-blue light film layer is made of highly transparent PET material, and is coated or laminated with anti-blue light coating on the surface, or is a transparent anti-blue light film, so that it has the function of filtering harmful blue light.

[0064] The colored light sheet layer is a PET colored film polishing layer, which has colored polishing and light-diffusing effects. The colored film layer is composed of one or more films of different colors. Each film has an independent spot color, and each spot color can be replaced at will. After replacement, the original color of the LED light source is not changed, thereby realizing the light color change of the natural plant bark 111. The light color includes, but is not limited to, spot colors or seven-color gradient colors such as red (780-625nm), orange (625-590nm), yellow (590-565nm), green (565-500nm), blue (485-440nm), indigo (approximately 450-420nm), and violet (440-380nm).

[0065] Furthermore, the PET colored film gloss layer can be used as a silhouette light film. After selecting a specific color, a hollow pattern layer is created through engraving, or black light-blocking / semi-light-blocking ink is printed on the PET anti-blue light film layer, achieving the purpose of development through graphic light blocking. The hollow pattern layer is an LED primary color light source that penetrates the upper surface of the natural plant bark 111, thereby obtaining independent light and shadow after diffuse reflection by the natural plant bark, further highlighting the IP light and shadow content.

[0066] The lamp holder housing 100 has a charging interface hole 100.2 on its side wall to accommodate a USB charging connector component, such as... Figure 9 .

[0067] The personalized customization platform for cultural tourism IPs provided in this solution can achieve rapid transformation, specifically as follows:

[0068] I. Methods for achieving quick disassembly and assembly on the carrier

[0069] The front and back of the aperture cover are as follows Figure 6a and Figure 6b As shown. The charging interface hole 118.2 is the same as the charging interface hole 100.2 on the side wall of the lamp holder jacket 100. Specifically, either the charging interface hole or the charging interface hole 100.2 on the side wall of the lamp holder jacket 100 can be selected, but they cannot coexist. The recess 118.4 of the aperture 117 mainly serves to fix the top surface of the aperture 117 in place.

[0070] The LED driver control circuit board 106 exists in two forms: an integrated circuit board and a sub-control board. Regarding the sub-control board receiving slot 118.5 of the high-speed LED driver control circuit board, there are two forms: one is installed inside the receiving slot 118.5, and the other is installed on the lower or upper layer of the LED light board.

[0071] The main lamp connecting screw 201 is the overall locking part of the lamp body. Before the lamp body is locked by the main lamp connecting screw 201, the lamp holder outer sleeve 100, the lamp holder inner liner 101, the outer lamp cover layer 109, the main lamp cover upper cover outer sleeve 100.1, the main lamp cover upper cover 113, the aperture 117, and the aperture upper cover 118 are all in a loose engagement state.

[0072] The internal thread nut 201.7 is embedded and fixed in the inner groove 101.7 of the lamp holder, forming a single unit. The connecting screw 201.8 is tightened to the internal thread nut 201.7. The metal washer 201.6 is a flat nut and is screwed to the connecting screw 201.8 at any height (height adjusted by tightening). The LED light board 201.9 is fitted into the connecting screw 201.8 and contacts the upper surface of the metal washer 201.6. The bottom of the main lamp connecting screw 201 is tightened to the top of the connecting screw 201.8, simultaneously locking (pressing) the LED light board 201.9 in place. The plastic connecting screw 201.2 is tightened to the top of the main lamp connecting screw 201. The LED light board 201.9 touch switch wire is threaded through the center of the plastic connecting screw 201.2, exits through the wire pass-through port 201.5, and then connected to the LED light board 201.9 via a connecting terminal or soldering. Specifically, the plastic connecting screw 201.2 has an open top, with a diameter matching the spring diameter, and a semi-closed bottom, with only a pre-drilled hole for wiring. The remaining part serves as the spring's bottom support surface, providing a limit for the spring. After soldering the spring to the end of the LED light board 201.9 touch switch wire, the spring is inserted into the plastic connecting screw 201.2 conduit perpendicular to it, with half of the spring exposed externally. From the top, the outer lampshade layer 109, the main lampshade cover jacket 100.1, the main lampshade cover 113, the aperture 117, and the aperture cover 118 are inserted one by one. The main lamp connecting screw 201 passes through the first screw through hole 101.5, the second screw through hole 103.6, and the third screw through hole 118.1 is fitted onto the spring and tightened together on the top of the plastic connecting screw 201.2. The internal spring and the inner groove of the brass nut 201.1 are pressed tightly to prevent loose connection, thus preventing accidental switch activation. When the brass nut 201.1 is tightened, all parts of the lamp body are pressed and fastened together.

[0073] Specifically, the first strip fixing hole 201.3 and the second strip fixing hole 201.4 in the middle part of the main lamp connecting screw 201 are strip fixing holes for fixing the battery. The strip is locked to the lithium battery to achieve a suspended fixation of the lithium battery. The main lamp connecting screw 201 can be a transparent hollow plastic tube. The main lamp connecting brass nut 201.1 is a metal ball nut made of brass material, which has conductive properties. The core function of turning the light on / off and adjusting the color temperature is achieved by touching the metal ball nut. The main lamp connecting screw 201, made of a transparent hollow plastic tube, has a touch switch wire passing through it to the top. A conductive washer or spring is welded to the top of the wire. The diameter of the conductive washer is smaller than the screw opening of the metal ball nut and is embedded inside the screw opening. The end is connected to the signal input interface of the LED driver control circuit board 106. The core function of turning the light on / off and adjusting the color temperature is achieved by touching the metal ball nut. Figure 7 As shown.

[0074] The complete assembly of the lamp is as follows: Figure 8 As shown.

[0075] II. Methods for Carriers to Achieve Disguise 1

[0076] The lamp holder outer sleeve 100, lamp holder inner liner 101, outer lamp cover layer 109, main lamp cover upper cover outer sleeve 100.1, main lamp cover upper cover 113, aperture 117, and aperture upper cover 118 are tightly locked together. The brass nut 201.1, aperture upper cover 118, aperture 117, main lamp cover upper cover 113, main lamp cover upper cover outer sleeve 100.1, and outer lamp cover layer 109 are then disassembled one by one. The illustrated pattern light sheet layer 110, natural plant skin layer 111, PET colored film light-diffusing layer, and PET anti-blue light film layer are then inserted one by one into the outer lamp cover layer 109 from the outside.

[0077] Before insertion, each layer, such as the outer lampshade layer 109, the illustrated pattern light sheet layer 110, the natural plant bark layer 111, and the PET colored film gloss layer, all feature different IP+cultural and creative pattern attributes. Furthermore, the merchant provides a unified electronic pattern database for users to choose from for their DIY customization. Simultaneously, users are offered the core option of different natural plant textures for the natural plant bark layer 111 for DIY customization. A matching DIY colored film is also provided. After customization, the merchant or the user inserts and stacks each functional layer sequentially from the outside in, then inserts the PET anti-blue light film layer, and finally inserts the spring ring. The assembly is then reassembled according to the carrier disassembly steps, completing the most convenient and efficient replacement process. When the carrier's LED light source is activated, beautiful light and shadow create a unique and visually striking atmosphere through each functional layer. The assembled unit is an excellent choice as a bedside lamp for eye protection and sleep aid, a landscape ambient light in the living room, or as a gift.

[0078] III. Methods for Achieving Color Change on a Carrier

[0079] This method combines a carrier to achieve color transformation. Users can choose a PET colored film for illumination at home, select a specific color film according to different scenarios, and replace the previous film with the original color to restore the original appearance. This changes the personalized color rendering of the outer lampshade layer 109 while maintaining the warm white or warm / cool mixed color of the LED beads. Furthermore, the PET colored film for illumination chosen by the user is a pre-packaged set of color-changing sheets from the vendor, either one or multiple sheets of different colors. The biggest advantage of using color-changing sheets is the exclusivity of the colors. Unlike RGB electronic color mixing, the colors are richer and the color temperature is warmer. When combined with the built-in RGB light source and different color-changing sheets, and incorporating the natural texture and color of natural plant leather and diffuse reflection, the resulting colors are unpredictable and geometrically larger than RGB electronic color mixing, essentially achieving a unique and personalized experience for each lamp.

[0080] IV. Methods for Achieving Pattern Changes on a Carrier

[0081] In summary, regarding the methods for achieving both disguise and color change on the carrier, merchants offer users multiple options before and after purchase. For example, the outer lampshade layer 109, the illustrated pattern light sheet layer 110, the natural plant skin layer 111, and the PET colored film gloss layer all feature different IP + cultural and creative attribute patterns, allowing users to generate patterns based on their own preferences or merchant templates. The outer lampshade layer 109 uses laser engraving, while the illustrated pattern light sheet layer 110 uses UV printing to create a personalized photo of the user. The PET colored film gloss layer offers silhouette engraving, allowing users to hollow out and engrave patterns to create silhouette designs according to their requests.

[0082] V. Methods for Carriers to Achieve Disguise 2

[0083] At the user's request, a personal photo is printed onto the upper surface of the PET color film's gloss layer. The illustration pattern light sheet layer 110 and the natural plant skin layer 111 are removed, leaving the PET anti-blue light film layer. After being inserted back into the outer lampshade layer 109, the outer lampshade layer 109 will clearly display the personal color photo. It is compatible with LED warm white, cool white, or dual-color (warm and cool) light sources or RGB. Through the PET color film, the personal color photo will be further highlighted and made more vibrant, thus enriching the user's DIY personalization options.

[0084] VI. Methods for Carriers to Achieve Disguise (3)

[0085] Combining methods 1 and 2 for achieving costume changes, a personalized photo is printed onto the upper surface of the illustration pattern backlit film layer 110. The illustration pattern backlit film layer 110 is then removed, leaving the PET color film gloss layer and the PET anti-blue light film layer. These are then inserted back into the outer lampshade layer 109. The outer lampshade layer 109 will then clearly display the personal color photo, compatible with LED warm white, cool white, or dual-color (warm and cool) light sources or RGB. Through the PET color film, the personal color photo will be further highlighted and made more vibrant. The biggest advantage of this method is that the PET color film gloss layer can be reused regardless of the costume change, and it is not discarded due to the costume change. It also represents a lower-cost material and method choice, further realizing a low-cost, high-efficiency DIY personalization option.

[0086] VII. Supplementary Explanation of Deformation of Core Components of the Carrier

[0087] The lamp holder outer sleeve 100, lamp holder inner liner 101, outer lampshade layer 109, main lampshade upper cover outer sleeve 100.1, main lampshade upper cover 113, aperture 117, aperture upper cover 118, and spring ring are merely examples listed in this case. Furthermore, the appearance, materials, textures, and shapes of the lamp holder outer sleeve 100, lamp holder inner liner 101, outer lampshade layer 109, main lampshade upper cover outer sleeve 100.1, main lampshade upper cover 113, aperture 117, aperture upper cover 118, and spring ring are diverse and modular. Based on this structure, depending on the scene and subject, the above parts can be selectively replaced with new appearances, materials, textures, and shapes to meet structural deformation needs beyond costume changes.

[0088] In the description of this application, it should be understood that the terms "upper", "lower", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application 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. Therefore, they should not be construed as limitations on this application.

[0089] The specific embodiments of this utility model have been described above. It should be understood that this utility model is not limited to the specific embodiments described above, and those skilled in the art can make various changes or modifications within the scope of the claims, which do not affect the substantive content of this utility model. Unless otherwise specified, the embodiments and features described in this application can be arbitrarily combined with each other.

Claims

1. A personalized customization carrier for cultural tourism IP, characterized in that, include: The carrier body, the IP content layer, and the LED driver control circuit board (106); The carrier body includes a lamp holder outer sleeve (100), a lamp holder inner liner (101), an outer lamp cover layer (109), a main lamp cover upper cover outer sleeve (100.1), a main lamp cover upper cover (113), an aperture (117), an aperture upper cover (118), and a spring ring; The IP content layer includes a pattern printing layer, an illustration pattern light sheet layer (110), a natural plant bark layer (111), and a colored light sheet layer; Among them: the outer lamp cover layer (109), the main lamp cover upper cover jacket (100.1), the main lamp cover upper cover (113), the aperture (117), and the aperture upper cover (118) are inserted one by one from the top of the main lamp connecting screw, and are tightened together on the top of the main lamp connecting screw by using brass nuts and spring rings; the top of the aperture upper cover (118) is locked to the top of the main lamp connecting screw by using brass nuts; the bottom surface of the main lamp cover upper cover (113) is attached to the upper surface of the outer lamp cover layer (109); the lamp holder jacket (100) is set on the lamp holder inner liner (101), and the main lamp is locked to the lamp holder inner liner (101) by using brass nuts at the bottom of the main lamp connecting screw; The pattern printing layer is set on the upper surface of the outer lampshade layer (109); the illustration pattern light sheet layer (110) is inserted into the outer lampshade layer (109) and adhered to the inner wall of the outer lampshade layer (109); the natural plant skin layer (111) is a multi-layer composite structure, including, from top to bottom, a PTE upper film layer, a first adhesive layer, a pattern printing layer, a UV base coating layer, a dyeing layer, a second adhesive layer, a non-woven fabric layer, a third adhesive layer and a PET anti-blue light film layer; the colored light sheet layer is a PET colored film lubricating layer; The LED driver control circuit board (106) is connected to the outer lamp cover layer (109) and includes a zone control module to drive monochrome / RGB light sources; The lamp holder inner liner (101) is provided with a charging plug element embedded groove (101.2) and a lamp body switch through hole groove (101.6), and the lamp holder outer sleeve (100) side wall is provided with a charging interface hole (100.2); wherein, the charging plug element is a Type-C interface board, the Type-C female plug is inserted into the hole in the side wall of the lamp holder outer sleeve (100), and the Type-C interface board is simultaneously sunk into the charging plug element embedded groove (101.2) and fixed with a pin.

2. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, It also includes carrier hardware, which includes a brass nut (201.1), a plastic connecting screw (201.2), a metal washer (201.6), an internal thread nut (201.7), and a connecting screw (201.8); Among them: the internal thread nut (201.7) is tightened into the center of the lamp holder inner tube (101), the bottom of the connecting screw (201.8) is screwed into the internal thread nut (201.7), the metal washer (201.6) is sleeved on the connecting screw (201.8), the bottom of the plastic connecting screw (201.2) is threaded to the top of the connecting screw (201.8), and the top of the plastic connecting screw (201.2) is threaded to the brass nut (201.1).

3. The personalized customization carrier for cultural tourism IP according to claim 2, characterized in that, The plastic connecting screw (201.2) is located between the brass nut (201.1) and the hardware body (201).

4. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The touch switch wire passes through the wire hole (201.5) and connects to the LED light board (201.9) or LED control board (201.10). The end of the touch switch wire is welded with a conductive copper sheet or a conductive spring and hidden inside the plastic connecting screw (201.2). After the brass nut (201.1) is tightened, the conductive device is tightly attached to its inner wall.

5. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The surface of the PET anti-blue light film is coated or composite with an anti-blue light coating, or it is a transparent anti-blue light film.

6. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The colored light sheet layer consists of one or more spot-color PET films.

7. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The colored light film layer is hollowed out to form a silhouette projection layer, or black light-blocking / semi-light-blocking ink is printed on the PET anti-blue light film layer.

8. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The thickness of the PET illustration film in the illustration pattern light sheet layer (110) is 0.05-0.5 mm.

9. The personalized customization carrier for cultural tourism IP according to claim 1, characterized in that, The upper film layer of the PTE is a transparent protective layer.