Integrated cover line structure, door cover line and wall body guard plate

The integrated cable management system solves the problems of inflexible cable adjustment and complex installation, achieving flexibility in size adjustment and a smooth appearance, meeting the needs of modern minimalist decoration styles, and reducing production and construction costs.

CN224396304UActive Publication Date: 2026-06-23GUANGDONG HUANGPAI CUSTOM HOME FURNISHING GRP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG HUANGPAI CUSTOM HOME FURNISHING GRP CO LTD
Filing Date
2025-06-19
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing door trims require customization or production of various specifications based on the thickness of the door opening, resulting in high production costs, inflexible width adjustment, complex installation, and uneven appearance, making it difficult to meet the needs of modern minimalist decoration styles.

Method used

Design an integrated sleeve structure, in which the insert plate and sleeve plate are integrally formed by adjustment, and a cutting groove is set on the insert plate to achieve the flexibility of size adjustment. The structure adopts a combination of hollow insert plate and connecting plate, with the cutting groove extending in the direction of the width of the sleeve plate, and the arc groove and arc surface enhance the structural stability.

Benefits of technology

It achieves flexibility in size adjustment and ease of installation, has a flat and beautiful appearance, a stable and reliable structure, reduces construction difficulty and cost, extends service life, and meets the needs of modern minimalist decoration style.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224396304U_ABST
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Abstract

The utility model discloses an integrated casing line structure, door casing line and wall body guard board belong to door and window technical field. One end of adjusting plug -in board and casing board integrative setting are set up with, and the width extension direction of adjusting plug -in board and the width extension direction of casing board are set up perpendicularly, and the end of adjusting plug -in board away from casing board is used for inserting the fixed section bar glue injection slot and is fixed, is equipped with the cutting groove on adjusting plug -in board, and cutting groove is used for guiding cutting adjusting plug -in board to make adjusting plug -in board can be according to the width adjustment of different thickness wall hole. The integrated casing line structure disclosed by the utility model can be adaptively cut according to the need of door hole thickness, and the flexibility of size adjustment is realized.
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Description

Technical Field

[0001] This utility model relates to the field of door and window technology, and in particular to an integrated casing structure, door casing, and wall panel. Background Technology

[0002] As an important component of doors, door casing not only serves an aesthetic purpose but also functions to protect walls and secure door panels. With technological advancements and the diversification of interior design styles, the application of door casing has expanded significantly, being widely used in interior and exterior doors, as well as wainscoting. However, most current door casings require customization based on the thickness of the door opening, or the production of various specifications to accommodate different door opening thicknesses. This approach not only increases the number of production molds, leading to a substantial rise in production costs, but also restricts the flexibility of adjusting the casing width.

[0003] like Figure 1 As shown, the common door trim structure on the market uses a method of splicing snap-on panels and then fitting a decorative trim cover plate. Although this structure can adapt to door openings of different thicknesses by splicing multiple snap-on panels 10, its installation process is relatively complicated, requiring the snap-on panels 10 to be spliced ​​first, and then the decorative cover plate 20 to be fitted on, resulting in low construction efficiency. In addition, due to the gaps and height differences between the splices of the snap-on panels 10, step differences are easily created, resulting in an uneven overall appearance and complex lines, which is difficult to meet the needs of modern minimalist decoration styles. Utility Model Content

[0004] The purpose of this utility model is to provide an integrated casing structure, door casing, and wall panel that can be adapted to the thickness of the door opening, thus achieving flexibility in size adjustment.

[0005] In a first aspect, this utility model provides an integrated sleeve structure, comprising:

[0006] Wire clips;

[0007] An adjusting insert plate is provided, one end of which is integrally formed with the sleeve plate, and the width extension direction of the adjusting insert plate is perpendicular to the width extension direction of the sleeve plate. The end of the adjusting insert plate away from the sleeve plate is used to insert into the glue injection groove of the fixing profile for fixation. The adjusting insert plate is provided with a cutting groove, which is used to guide the cutting of the adjusting insert plate so that the width of the adjusting insert plate can be adjusted according to the wall opening of different thicknesses.

[0008] This utility model provides an integrated wiring structure that integrates the adjusting plate and the wiring plate into a single molding process, and incorporates a cutting groove to accommodate wall openings of varying thicknesses. This achieves flexibility in size adjustment, ease of installation, a smooth and aesthetically pleasing appearance, and structural stability and reliability. This design not only simplifies construction steps, improves installation efficiency, and reduces construction difficulty and labor costs, but also avoids the step differences and gaps that may occur in traditional snap-fit ​​structures. This results in a smoother, more streamlined overall appearance with clean lines, better meeting the needs of modern minimalist interior design. Furthermore, the integrated molding structure offers higher connection strength compared to traditional splicing structures, preventing loosening over long-term use and effectively extending the wiring's lifespan while reducing maintenance costs.

[0009] Furthermore, the adjusting insert includes a hollow insert and a connecting plate, the cutting groove is provided on the hollow insert, the number of hollow inserts is N, and a connecting plate is provided between any two adjacent hollow inserts, where N is a positive integer greater than 1.

[0010] By adopting the above technical solution, and designing the adjusting plate as a combination structure of multiple hollow plates and connecting plates, the adjusting plate has greater overall flexibility and adjustability. This design not only allows for precise cutting and adjustment according to the actual thickness of the wall opening, but also maintains the integrity and stability of the structure after cutting, avoiding the problem of reduced overall structural strength due to local cutting.

[0011] Furthermore, the opening direction of the cutting groove is consistent with the width extension direction of the wire plate, and the connecting plate is located at the end of the hollow insert plate away from the cutting groove.

[0012] Using the above technical solution, the opening of the cutting groove faces the width extension direction of the molding board, i.e., towards the doorway, while the exposed side maintains a neat and aesthetically pleasing appearance. This layout ensures that the cutting groove is not directly exposed on the outside during actual installation, thus avoiding aesthetic defects caused by cutting marks. The exposed part always maintains a smooth and flat surface, blending with the overall decoration style and meeting the high aesthetic requirements of modern minimalist decoration.

[0013] Furthermore, the hollow insert plate includes a first hollow insert plate and a second hollow insert plate arranged adjacent to each other. The first hollow insert plate is located on the side of the second hollow insert plate away from the wire plate, and the number of cutting slots on the first hollow insert plate is greater than the number of cutting slots on the second hollow insert plate.

[0014] By adopting the above technical solution, since the end furthest from the wire guide plate is used for insertion and fixation into the glue injection slot, setting more cutting slots on this side can better meet the needs of actual operation. This design ensures that the number of cutting slots matches the usage requirements of the functional area, avoiding inconvenience caused by unreasonable distribution of cutting slots.

[0015] Furthermore, the spacing between two adjacent cutting slots on the same hollow insert plate is equal.

[0016] Furthermore, the spacing between two adjacent cutting slots on the same hollow insert plate is 10mm.

[0017] Furthermore, the cutting groove is an arc groove.

[0018] By employing the above technical solution, the shape of the arc-shaped groove allows the adjusting plate to maintain high structural strength even after cutting. Even if the cut groove is retained, the edge of the arc-shaped groove will not easily become a weak point like a straight groove. This design enables the adjusting plate to better withstand external forces during installation and use, reducing breakage caused by accidental stress.

[0019] Furthermore, the adjusting plate is also provided with a first arc surface and a second arc surface, which are respectively located on opposite sides of the arc groove.

[0020] By employing the above technical solution, a first arc surface and a second arc surface are respectively provided on both sides of the arc groove, making the overall structure of the adjusting plate more stable. This design not only further disperses stress but also provides additional support for the cutting groove, further reducing the risk of breakage due to external forces. Even if the cutting groove is retained during use, the first and second arc surfaces can effectively prevent the adjusting plate from accidentally breaking due to stress concentration.

[0021] Secondly, this utility model provides a door frame trim, comprising:

[0022] Any of the above-mentioned integrated wire structure;

[0023] The first fixing profile is used to fix it to the wall opening. The first fixing profile is provided with an injection groove, and the adjusting plate is disposed in the injection groove.

[0024] The door leaf is rotatably mounted on the first fixed profile.

[0025] Thirdly, the wall panel provided by this utility model includes:

[0026] Any of the above-mentioned integrated wire structure;

[0027] The second fixing profile is used to fix it to the wall opening. The second fixing profile has a first glue injection groove and a second glue injection groove on its opposite sides. The integrated sleeve structure consists of two parts, and the two adjustment plates are respectively located in the first glue injection groove and the second glue injection groove.

[0028] As can be seen from the above, the integrated casing structure provided by this utility model, by integrally molding the adjusting plate and the casing plate and setting a cutting groove to adapt to wall openings of different thicknesses, achieves flexibility in size adjustment, ease of installation, a smooth and beautiful appearance, and structural stability and reliability. This design not only simplifies the construction steps, improves installation efficiency, and reduces construction difficulty and labor costs, but also avoids the step differences and gaps that may occur in traditional snap-on structures, making the overall appearance of the casing smoother, smoother, and with simpler lines, better meeting the needs of modern minimalist decoration styles. At the same time, the integrated structure has higher connection strength than traditional splicing structures, is not easy to loosen after long-term use, effectively extends the service life of the casing, and reduces maintenance costs.

[0029] Other features and advantages of this application will be set forth in the following description and will be apparent in part from the description or may be learned by practicing embodiments of this application. The objectives and other advantages of this application may be realized and obtained by means of the structures particularly pointed out in the written description and the accompanying drawings. Attached Figure Description

[0030] Figure 1 This is a cross-sectional schematic diagram of a traditional wire mesh structure.

[0031] Figure 2 This is a cross-sectional structural diagram of an integrated sleeve structure proposed in this utility model.

[0032] Figure 3 for Figure 2 Enlarged structural diagram of the central cutting groove.

[0033] Figure 4 This is a schematic diagram of an integrated sleeve structure proposed in this utility model.

[0034] Figure 5 for Figure 4 Enlarged structural diagram of region A of the integrated cable structure.

[0035] Figure 6 This is a schematic cross-sectional view of the door frame structure proposed in this utility model.

[0036] Figure 7 This is a cross-sectional structural diagram of the wall panel proposed in this utility model.

[0037] In the attached diagram: 100, ferrule plate; 200, adjusting insert plate; 210, cutting groove; 220, hollow insert plate; 221, first hollow insert plate; 222, second hollow insert plate; 230, connecting plate; 240, first arc surface; 250, second arc surface; 300, first fixing profile; 310, glue injection groove; 400, door leaf; 500, second fixing profile; 510, first glue injection groove; 520, second glue injection groove. Detailed Implementation

[0038] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0039] The following disclosure provides many different embodiments or examples for implementing various structures of the present invention. To simplify the disclosure, specific examples of components and arrangements are described below. Of course, these are merely examples and are not intended to limit the scope of the invention. Furthermore, reference numerals and / or reference letters may be repeated in different examples; such repetition is for simplification and clarity and does not in itself indicate a relationship between the various embodiments and / or arrangements discussed.

[0040] The integrated molding structure disclosed in this utility model is mainly used in door moldings and wall panels. It can be adapted to the thickness of the door opening, thus achieving flexibility in size adjustment.

[0041] Reference Appendix Figure 2 Appendix Figure 3 Appendix Figure 4 Appendix Figure 5 In one embodiment, the integrated wiring structure includes a wiring plate 100 and an adjusting insert 200. One end of the adjusting insert 200 is integrally formed with the wiring plate 100, and the width extension direction of the adjusting insert 200 is perpendicular to the width extension direction of the wiring plate 100. The end of the adjusting insert 200 away from the wiring plate 100 is used to insert into the glue injection groove of the fixing profile for fixation. The adjusting insert 200 is provided with a cutting groove 210, which is used to guide the cutting of the adjusting insert 200 so that the width of the adjusting insert 200 can be adjusted according to the wall opening of different thicknesses.

[0042] As can be seen from the above, the integrated casing structure provided by this utility model, by integrally molding the adjusting insert 200 and the casing plate 100, and setting the cutting groove 210 to adapt to wall openings of different thicknesses, achieves flexibility in size adjustment, ease of installation, a flat and beautiful appearance, and structural stability and reliability. This design not only simplifies the construction steps, improves installation efficiency, and reduces construction difficulty and labor costs, but also avoids the step differences and gaps that may occur in traditional snap-on splicing structures, making the overall appearance of the casing more flat, smooth, and with simple lines, which can better meet the needs of modern minimalist decoration style. At the same time, the integrated molding structure has higher connection strength than the traditional splicing structure, is not easy to loosen after long-term use, effectively extends the service life of the casing, and reduces maintenance costs.

[0043] Reference Appendix Figure 2 In one embodiment, the adjusting insert 200 includes a hollow insert 220 and a connecting plate 230. The cutting groove 210 is provided on the hollow insert 220. The number of hollow inserts 220 is N, and the number of connecting plates 230 is N-1. A connecting plate 230 is provided between any two adjacent hollow inserts 220. N is a positive integer greater than 1.

[0044] By adopting the above technical solution, and designing the adjusting insert 200 as a combination structure of multiple hollow inserts 220 and connecting plates 230, the adjusting insert 200 has greater overall flexibility and adjustability. This design not only allows for precise cutting and adjustment according to the actual thickness of the wall opening, but also maintains the integrity and stability of the structure after cutting, avoiding the problem of reduced overall structural strength due to local cutting.

[0045] In one embodiment, the opening direction of the cutting groove 210 is consistent with the width extension direction of the wire plate 100, and the connecting plate 230 is disposed at the end of the hollow insert plate 220 away from the cutting groove 210.

[0046] Using the above technical solution, the opening of the cutting groove 210 faces the width extension direction of the molding plate 100, that is, towards the door opening, while the exposed side maintains a neat and aesthetically pleasing appearance. This layout ensures that the cutting groove 210 will not be directly exposed on the outside during actual installation, thus avoiding appearance defects caused by cutting marks. The exposed part always maintains a smooth and flat surface, blending with the overall decoration style and meeting the high aesthetic requirements of modern minimalist decoration.

[0047] In one embodiment, the hollow insert plate 220 includes a first hollow insert plate 221 and a second hollow insert plate 222 arranged adjacent to each other. The first hollow insert plate 221 is disposed on the side of the second hollow insert plate 222 away from the wire plate 100. The number of cutting grooves 210 on the first hollow insert plate 221 is greater than the number of cutting grooves 210 on the second hollow insert plate 222.

[0048] By adopting the above technical solution, since the end furthest from the wire guide plate 100 is used for insertion and fixing into the glue injection slot, providing more cutting slots 210 on this side can better meet the needs of actual operation. This design ensures that the number of cutting slots 210 matches the usage requirements of the functional area, avoiding inconvenience caused by unreasonable distribution of cutting slots 210.

[0049] In one embodiment, the spacing between two adjacent cutting slots 210 on the same hollow insert plate 220 is equal.

[0050] In one embodiment, the spacing between two adjacent cutting slots 210 on the same hollow insert plate 220 is 10 mm.

[0051] Reference Appendix Figure 3 In one embodiment, the cutting groove 210 is an arc groove.

[0052] By employing the above technical solution, the shape of the arc-shaped groove allows the adjusting plate 200 to maintain high structural strength even after cutting. Even if the cutting groove 210 is retained, the edge of the arc-shaped groove will not easily become a weak point like a straight groove. This design enables the adjusting plate 200 to better withstand external forces during installation and use, reducing breakage caused by accidental stress.

[0053] In one embodiment, the adjusting plate 200 is further provided with a first arc surface 240 and a second arc surface 250, which are respectively provided on opposite sides of the arc groove.

[0054] By adopting the above technical solution, a first arc surface 240 and a second arc surface 250 are respectively provided on both sides of the arc groove, making the overall structure of the adjusting plate 200 more stable. This design not only further disperses stress but also provides additional support for the cutting groove 210, further reducing the risk of breakage due to external forces. Even if the cutting groove 210 is retained during use, the first arc surface 240 and the second arc surface 250 can effectively prevent the adjusting plate 200 from accidentally breaking due to stress concentration.

[0055] Reference Appendix Figure 6 This utility model also provides a door frame trim, comprising:

[0056] The integrated sleeve structure of any of the above embodiments;

[0057] The first fixing profile 300 is used to fix it on the wall opening. The first fixing profile 300 is provided with an injection groove 310, and the adjusting plate 200 is disposed in the injection groove 310.

[0058] The door leaf 400 is rotatably mounted on the first fixed profile 300.

[0059] Reference Appendix Figure 7 This utility model also provides a wall panel, comprising:

[0060] The integrated sleeve structure of any of the above embodiments;

[0061] The second fixing profile 500 is used to fix it on the wall opening. The two sides of the second fixing profile 500 are respectively provided with a first glue injection groove 510 and a second glue injection groove 520. The integrated sleeve structure consists of two parts, and two adjusting plates 200 are respectively provided in the first glue injection groove 510 and the second glue injection groove 520.

[0062] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of this utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0063] The above descriptions are merely some embodiments of this utility model. For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and all such modifications and improvements fall within the protection scope of this utility model.

Claims

1. An integrated cover structure, characterized by, include: Wire sleeving plate (100); An adjusting insert (200) is provided, one end of which is integrally formed with the sleeve plate (100), and the width extension direction of the adjusting insert (200) is perpendicular to the width extension direction of the sleeve plate (100). The end of the adjusting insert (200) away from the sleeve plate (100) is used to be inserted into the glue injection groove of the fixing profile for fixing. The adjusting insert (200) is provided with a cutting groove (210), which is used to guide the cutting of the adjusting insert (200) so that the width of the adjusting insert (200) can be adjusted according to the wall opening of different thicknesses.

2. The integrated jacketed wire structure of claim 1, wherein, The adjusting insert (200) includes a hollow insert (220) and a connecting plate (230). The cutting groove (210) is provided on the hollow insert (220). The number of hollow inserts (220) is N, and the number of connecting plates (230) is N-1. A connecting plate (230) is provided between any two adjacent hollow inserts (220). N is a positive integer greater than 1.

3. The integrated jacketed line of claim 2, wherein, The opening direction of the cutting groove (210) is consistent with the width extension direction of the sleeve plate (100), and the connecting plate (230) is located at the end of the hollow insert plate (220) away from the cutting groove (210).

4. The integrated jacketed line of claim 2, wherein, The hollow insert plate (220) includes a first hollow insert plate (221) and a second hollow insert plate (222) arranged adjacent to each other. The first hollow insert plate (221) is located on the side of the second hollow insert plate (222) away from the wire plate (100). The number of cutting grooves (210) on the first hollow insert plate (221) is greater than the number of cutting grooves (210) on the second hollow insert plate (222).

5. The integrated jacketed line of claim 4, wherein, The spacing between two adjacent cutting slots (210) on the same hollow insert plate (220) is equal.

6. The integrated jacketed line of claim 5, wherein, The spacing between two adjacent cutting slots (210) on the same hollow insert plate (220) is 10 mm.

7. The integrated jacketed line of claim 1, wherein, The cutting groove (210) is an arc groove.

8. The integrated jacketed line of claim 7, wherein, The adjusting plate (200) is also provided with a first arc surface (240) and a second arc surface (250), the first arc surface (240) and the second arc surface (250) being respectively provided on opposite sides of the arc groove.

9. A door trim strip, characterized by include: The integrated sleeve structure as described in any one of claims 1-8; The first fixing profile (300) is used to fix it on the wall opening. The first fixing profile (300) is provided with an injection groove (310). The adjusting plate (200) is provided in the injection groove (310). The door leaf (400) is rotatably mounted on the first fixed profile (300).

10. A wall cladding, characterised in that, include: The integrated sleeve structure as described in any one of claims 1-8; Second fixed section (500) for fixing on wall hole, opposite sides of the second fixed section (500) are respectively provided with first glue injection slot (510) and second glue injection slot (520), the integrated sleeve line structure is two, two adjusting plug-in boards (200) are respectively arranged in the first glue injection slot (510) and the second glue injection slot (520).