A wiring harness routing structure on a mirror cabinet
By setting up a maintenance area and rationally arranging the power cords in the mirror cabinet, the problems of messy power cords and inconvenient maintenance in the mirror cabinet are solved, achieving a reasonable layout of power cords and convenient maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 上海奥特普实业有限公司
- Filing Date
- 2025-08-14
- Publication Date
- 2026-07-07
AI Technical Summary
The existing mirror cabinet has messy internal wiring that makes maintenance inconvenient, and the power box is located on the top of the cabinet, which also makes maintenance difficult.
A maintenance area is set up in the mirror cabinet, where the power box, controller and external junction box are located. Power cords are guided by sleeves and positioning slots, and the wiring harness is reasonably laid out and quickly connected by snap-fit connectors and plugs and sockets.
The power cord layout is optimized, avoiding messy wiring, facilitating maintenance, and improving the practicality and modularity of the mirror cabinet.
Smart Images

Figure CN224473010U_ABST
Abstract
Description
TECHNICAL FIELD
[0001] The utility model relates to mirror cabinet structure technical field especially a kind of wire harness wiring structure on mirror cabinet. BACKGROUND
[0002] At present, mirror cabinet is various, there are wooden mirror cabinet, stainless steel mirror cabinet, PVC mirror cabinet and aluminum alloy mirror cabinet.In prior art, for the problem of insufficient light, illumination lamp is usually added on mirror surface to improve mirror brightness, and some mirror cabinets also install light belt on cabinet body to improve brightness near mirror cabinet.Each light belt is connected with power box through power line, but each power line is messy inside mirror cabinet, and existing power box is arranged at the top of cabinet body, so maintenance is not convenient. SUMMARY
[0003] The utility model discloses a kind of wire harness wiring structure on mirror cabinet, each power line is reasonably wired in cabinet body, not messy.
[0004] The utility model discloses a kind of wire harness wiring structure on mirror cabinet, including cabinet body, the cabinet body is equipped with maintenance area, the maintenance area is equipped with power box, controller and external terminal box, the power box is connected with external terminal box by first connecting line, the cabinet body is located in the upper of maintenance area and is equipped with the slot opening for leading in and leading out maintenance area, the power box is connected with first wire harness, the first wire harness includes sleeve and the first power line A, first power line B and first power line C being equipped in sleeve, the sleeve extends to the outside of maintenance area by slot, and extend on the upper end surface of cabinet body along the height direction of cabinet body, each first power line is connected with power box by first plug-in connector, and the other end is extended to the upper end surface of cabinet body by being arranged in sleeve, the first power line A and first power line B and first power line C are opposite to each other and are laid on the cabinet body, the cabinet body is located in the upper of maintenance area and is equipped with touch screen, the controller is connected with touch screen by second connecting line and is connected with power box by third connecting line, the touch screen is connected with second wire harness, second wire harness includes second power line A and second power line B, the second power line A and second power line B are located in the front side of first wire harness, second power line A and second power line B end respectively extend to the left and right sides of cabinet body, the external terminal box is connected with third wire harness, and the third wire harness includes third power line, the third power line is located below power box and controller, one end of the third power line is connected with socket, and the other end is connected with external terminal box.
[0005] The above technical solution includes a maintenance area with a cabinet door corresponding to the maintenance area location. The power box, controller, and external junction box are all located within the maintenance area for easy maintenance. The lights on the top and sides of the cabinet are connected to the power box via a first wiring harness. Each first power line is installed in a conduit and then distributed at the top of the cabinet, which can power multiple lights without making the wiring harness messy. The second wiring harness powers the lights on the mirror, and a touch switch is installed on the mirror corresponding to the touch screen location. Users can turn the lights on or off by touching the touch switch on the mirror. The third wiring harness powers the sockets. A socket is installed on the mirror cabinet for use with a hair dryer, avoiding the need to install sockets on the wall. The external junction box connects to an external power source to power the internal lights and sockets. The overall structure is reasonable, highly practical, and modular.
[0006] Further features of this invention: The cabinet is provided with a first positioning groove, a second positioning groove, and a third positioning groove. The sleeve is installed in the first positioning groove. The first positioning groove includes an arc-shaped part and a vertical part located at both ends of the groove opening. The vertical part is arranged along the height direction of the cabinet, and the arc-shaped part is located outside the controller. The second wire harness is installed in the second positioning groove, which is arranged along the length direction of the cabinet. The third wire harness is installed in the third positioning groove, which is also arranged along the length direction of the cabinet. Several first positioning plates are provided on each positioning groove along the wire harness routing position.
[0007] With the above-mentioned further configuration, the wire harness is positioned by the positioning groove, making its structure stable and not messy, and installed according to the preset route. The positioning plate prevents the wire harness from falling out of the positioning groove, but does not affect the removal of the wire harness during maintenance.
[0008] A further feature of this invention is that the cabinet is provided with a fourth positioning groove, the first connecting line and the third connecting line are located in the fourth positioning groove, a partition is provided in the fourth positioning groove, the first connecting line and the third connecting line are respectively located on both sides of the partition, the fourth positioning groove is located above the third positioning groove and communicates with the third positioning groove, and a second positioning piece is provided on the fourth positioning groove.
[0009] With the above-mentioned further configuration, the two connecting lines are positioned by the fourth positioning groove and separated by a partition, which saves space and does not affect each other. The first connecting line enters the fourth positioning groove through the third positioning groove.
[0010] A further feature of this invention is that the first wiring harness also includes a first power line D, which is located above the controller and outside the first positioning groove. The end of the first power line D extends into the second positioning groove and is arranged parallel to the second power line A in the second positioning groove.
[0011] With the above-mentioned further configuration, the first power line D is connected to the maintenance light, which can be turned on when the cabinet door is opened to provide lighting for maintenance. The first power line D and the second power line A are set in the same positioning slot, which saves space and avoids the need to set multiple positioning slots, making processing convenient.
[0012] A further feature of this invention is that the cabinet is provided with a snap-fit component at the slot position, and the snap-fit component is provided with four snap-fit interfaces arranged side by side, and the first power line D, the second connecting line, the second power line A and the second power line B are respectively snapped into the corresponding snap-fit interfaces.
[0013] Further, the power cords and connecting wires located in the slot are positioned to prevent them from becoming cluttered, and the snap-fit components are installed on the cabinet with screws.
[0014] A further feature of this invention is that the maintenance area is provided with a first mounting cavity and a second mounting cavity, the controller is fixedly mounted in the first mounting cavity by screws, and the power supply box is fixedly mounted in the second mounting cavity by screws.
[0015] With the above-mentioned further design, the structural layout is reasonable and the assembly and disassembly are convenient and quick.
[0016] A further feature of this invention is that the cabinet has a third mounting cavity, the touch screen is installed in the third mounting cavity, and the third mounting cavity has a hook that hooks onto the outer edge of the touch screen.
[0017] With the above-mentioned further design, the structure is reasonable, and the assembly and disassembly are convenient and quick. It does not require the use of screws for installation and does not affect the appearance of the touch screen.
[0018] A further feature of this invention is that the external junction box includes a male-female plug and a socket, both of which have wiring terminals. The socket has a panel facing the plug, and the panel has a socket. The plug has a plug that is male-female to the socket and has a tongue hook.
[0019] With a further refinement of the above-mentioned configuration, the external power cord is connected to the wiring terminals inside the socket, and the first connecting wire and the third wiring harness on the cabinet are connected to the wiring terminals inside the plug. The plug of the plug and the socket of the socket are connected in a male-female plugging manner, enabling rapid power supply and quick connection and disconnection. The tongue hook is used to hook onto the panel, which can effectively prevent the plug from loosening and detaching. The middle part of the tongue hook is hinged to the plug. The front end of the tongue hook is a pressure end, and the rear end has a hook head for hooking onto the panel. The pressure end can withstand external pressure to drive the hook head to detach from the panel. The elastic element also drives the hook head to return to its original position so that it can hook onto the panel of the socket. After pressing the pressure end of the tongue hook, the hook head can be driven to detach from the panel, realizing quick disassembly of the plug.
[0020] A further feature of this invention is that the panel has a hook opening, and one side wall of the hook opening has a tongue piece. After the plug and socket are inserted into each other, the tongue hook passes through the hook opening and hooks onto the tongue piece.
[0021] The above-mentioned further design facilitates the entry of the rear end of the tongue hook, while the tongue hook is still moving in the hook mouth. Attached Figure Description
[0022] Figure 1 This is a wiring harness diagram of a specific embodiment of the present utility model;
[0023] Figure 2 for Figure 1 Enlarged view of section A;
[0024] Figure 3 This is a schematic diagram of a snap-fit connector according to a specific embodiment of the present utility model;
[0025] Figure 4 This is a schematic diagram of the cabinet according to a specific embodiment of the present utility model;
[0026] Figure 5 for Figure 4 Enlarged view of section B;
[0027] Figure 6 for Figure 4 Enlarged view of section C;
[0028] Figure 7 This is a schematic diagram of the plug and socket after being plugged in according to a specific embodiment of the present invention;
[0029] Figure 8 This is a split diagram of the plug and socket according to a specific embodiment of the present utility model;
[0030] Figure 9 This is a schematic diagram of the wiring harness installed on the cabinet according to a specific embodiment of the present invention;
[0031] Figure 10 This is a schematic diagram of the cabinet in a specific embodiment of the present utility model.
[0032] In the diagram: 1. Cabinet; 11. Groove; 12. First positioning groove; 13. Second positioning groove; 14. Third positioning groove; 15. First positioning piece; 16. Fourth positioning groove; 161. Divider piece; 17. Second positioning piece; 18. Third mounting cavity; 181. Hook; 2. Maintenance area; 21. First mounting cavity; 22. Second mounting cavity; 3. Power supply box; 31. First connecting wire; 32. First wire harness; 320. Sleeve; 321. First power cord A; 322. First power cord B; 323. First power cord C; 324. Fourth power cord D; 325. Connector; 4. Controller; 41. Second connecting cable; 42. Third connecting cable; 5. External junction box; 51. Third wiring harness; 511. Third power cord; 512. Socket; 513. Second connector; 52. Plug; 521. Pin; 522. Tongue hook; 53. Socket; 531. Panel; 532. Socket; 533. Hook; 534. Tongue; 6. Touch screen; 61. Second wiring harness; 611. Second power cord A; 612. Second power cord B; 7. Snap-on connector; 71. Snap-on interface; 72. Elastic sheet. Detailed Implementation
[0033] The technical solutions in this embodiment will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0034] It should be noted that all directional indicators (such as up, down, forward, backward, etc.) in the description of this utility model are only used to explain the relative positional relationship and movement of the components in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0035] Furthermore, in this utility model, the use of terms such as "first," "second," etc., is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. In the description of this utility model, "a number" means at least two, such as two, three, etc., unless otherwise explicitly specified.
[0036] Furthermore, the technical solutions of the various embodiments of this utility model can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or cannot be implemented, it should be considered that such combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0037] like Figures 1-10As shown, a wiring structure for a mirror cabinet includes a cabinet body 1. The cabinet body 1 has a maintenance area 2, which contains a power supply box 3, a controller 4, and an external junction box 5. The power supply box 3 is connected to the external junction box 5 via a first connecting cable 31. A slot 11 is provided above the maintenance area 2 on the cabinet body 1 to allow communication between the inside and outside of the maintenance area 2. A first wiring harness 32 is connected to the power supply box 3. The first wiring harness 32 includes a sleeve 320 and first power lines A321, B322, and C323 housed within the sleeve 320. The sleeve 320 extends through the slot 11 to the outside of the maintenance area 2 and extends along the height of the cabinet body 1 to the upper surface of the cabinet body 1. One end of each first power cord is connected to the power box 3 via a first connector 325, and the other end extends through a sleeve 320 to the upper surface of the cabinet 1. The first power cords A321, B322, and C323 are laid flat on the cabinet 1 with opposite orientations. A touch screen 6 is provided on the cabinet 1 above the maintenance area 2. The controller 4 is connected to the touch screen 6 via a second connecting cable 41 and to the power box 3 via a third connecting cable 42. A second wiring harness 61 is connected to the touch screen 6. The second wiring harness 61 includes a second power cord A611 and a second power cord B612. The second power cords A611 and B612 are located in front of the first wiring harness 32. The ends of the second power cord A611 and the second power cord B612 extend to the left and right sides of the cabinet 1, respectively. A third wiring harness 51 is connected to the external junction box 5. The third wiring harness 51 includes a third power cord 511, which is located below the power box 3 and the controller 4. One end of the third power cord 511 is connected to a socket 512, and the other end is connected to the external junction box 5. The third power cord 511 is segmented, with the middle section connected via a second connector 513 for easy maintenance and replacement. A maintenance area 2 is provided, and a cabinet door is provided on the cabinet 1 corresponding to the maintenance area 2. The power box 3, the controller 4, and the external junction box 5 are all located in the maintenance area 2 for easy maintenance. The lighting on the top and sides of the cabinet 1 is connected to the power box 3 via a first wiring harness 32. The power cord is installed inside the conduit 320 and then distributed at the top of the cabinet 1. This allows for power supply to multiple lights without making the wiring messy. The second wiring harness 61 powers the lights on the mirror, and a touch switch is installed on the mirror corresponding to the touch screen 6. Users can turn the lights on or off by touching the touch switch on the mirror. The third wiring harness 51 powers the socket 512. The socket 512 is installed on the mirror cabinet for use with a hair dryer, avoiding the need to install the socket 512 on the wall. It is connected to an external power source through the external junction box 5 to power the internal lights and the socket 512. The overall structure is reasonable, highly practical, and modular. All parts that need maintenance are located in the maintenance area, making maintenance convenient without disassembling other parts.
[0038] The cabinet 1 is provided with a first positioning groove 12, a second positioning groove 13, and a third positioning groove 14. The sleeve 320 is installed in the first positioning groove 12. The first positioning groove 12 includes an arc-shaped portion and a vertical portion located at both ends of the groove opening 11. The vertical portion is arranged along the height direction of the cabinet 1, and the arc-shaped portion is located outside the controller 4. The second wire harness 61 is installed in the second positioning groove 13, which is arranged along the length direction of the cabinet 1. The third wire harness 51 is installed in the third positioning groove 14, which is also arranged along the length direction of the cabinet 1. Several first positioning pieces 15 are provided on each positioning groove along the wire harness routing position to position the wire harness. Its structure is stable and uncluttered. It is installed according to a preset route. The positioning plate prevents the wire harness from falling out of the positioning slot, but does not affect the removal of the wire harness during maintenance. The first wire harness 32 also includes a first power line D. The first power line D is located above the controller 4 and outside the first positioning slot 12. The end of the first power line D extends into the second positioning slot 13 and is arranged parallel to the second power line A611 in the second positioning slot 13. The first power line D is connected to a maintenance light. When the cabinet door is opened, the maintenance light can be lit to provide illumination during maintenance. The first power line D and the second power line A611 are set in the same positioning slot, which saves space and avoids the need to set multiple positioning slots, making processing convenient.
[0039] The cabinet 1 is also provided with a fourth positioning groove 16. The first connecting line 31 and the third connecting line 42 are located in the fourth positioning groove 16. A partition plate 161 is provided in the fourth positioning groove 16. The first connecting line 31 and the third connecting line 42 are located on both sides of the partition plate 161. The fourth positioning groove 16 is located above the third positioning groove 14 and communicates with the third positioning groove 14. A second positioning plate 17 is provided on the fourth positioning groove 16. The two connecting lines are positioned by the fourth positioning groove 16 and separated by the partition plate, which saves space and does not affect each other. The first connecting line 31 enters the fourth positioning groove 16 through the third positioning groove 14.
[0040] The cabinet 1 is equipped with a snap-fit component 7 at the slot 11. The snap-fit component 7 has four snap-fit interfaces 71 arranged side by side. The first power cable D, the second connecting cable 41, the second power cable A611, and the second power cable B612 are snapped into the corresponding snap-fit interfaces 71 to position the power cables and connecting cables in the slot 11 and prevent them from becoming messy. The snap-fit component 7 is installed on the cabinet 1 with screws. Each snap-fit interface 71 has two elastic pieces 72 on its side wall. The two elastic pieces 72 are arranged opposite each other and are inclined inwards towards the snap-fit interface 71 to facilitate the entry and exit of the connecting cable or power cable. They are also not easy to detach after installation. The end of the elastic piece 72 abuts against the power cable or connecting cable. The first power cable D, the second connecting cable 41, the second power cable A611, and the second power cable B612 each include two separate wires connected by a connector to facilitate subsequent maintenance and replacement.
[0041] The maintenance area 2 is provided with a first mounting cavity 21 and a second mounting cavity 22. The controller 4 is fixed in the first mounting cavity 21 by screws, and the power box 3 is fixed in the second mounting cavity 22 by screws. The cabinet 1 is provided with a third mounting cavity 18, and the touch screen 6 is installed in the third mounting cavity 18. The third mounting cavity 18 is provided with a hook 181, which is hooked onto the outer edge of the touch screen 6. The structure is reasonable, and the disassembly and assembly are convenient and quick. It does not require the use of screws for installation and does not affect the appearance of the touch screen 6.
[0042] The external junction box 5 includes a male-female plug 52 and a socket 53. Both the plug 52 and socket 53 have terminals. The socket 53 has a panel 531 facing the plug 52, with a socket 532 on the panel. The plug 52 has a plug that interlocks with the socket 532, with a row of pins 521 on the plug and a corresponding row of pin holes 521 on the socket 532. The plug 52 has a hook 522. External wires are connected via the terminals in the socket 53, and the first connecting wire and the third wiring harness on the cabinet are connected via the terminals in the plug 52. The male-female interlocking of the plug 52 with the socket 53 allows for quick power connection and easy plugging / unplugging. The hook also secures the panel 531. 31. This design effectively prevents the plug 52 from loosening and detaching. The middle part of the tongue hook is hinged to the plug 52. The front end of the tongue hook is a pressure end, and the rear end has a hook head for hooking the panel 531. The pressure end can withstand external pressure to drive the hook head to detach from the panel 531. The elastic element also drives the hook head to return to its original position so that it can hook the panel 531 of the socket 53. After pressing the pressure end of the tongue hook, the hook head can be driven to detach from the panel 531, realizing the quick disassembly of the plug 52. Specifically, the panel 531 is provided with a hook opening 533. A tongue piece 534 is provided on one side wall of the hook opening 533. After the plug 52 and the socket 53 are inserted, the tongue hook 522 passes through the hook opening 533 and hooks onto the tongue piece 534, which facilitates the entry of the rear end of the tongue hook. The tongue hook is also movable in the hook opening 533.
Claims
1. A wiring harness structure for a mirror cabinet, comprising a cabinet body (1), characterized in that, The cabinet (1) is provided with a maintenance area (2), which contains a power box (3), a controller (4), and an external junction box (5). The power box (3) is connected to the external junction box (5) via a first connecting line (31). The cabinet (1) has a slot (11) above the maintenance area (2) to conduct electricity between the inside and outside of the maintenance area (2). The power box (3) is connected with a first wire harness (32), which includes a sleeve (320) and first power lines A (321), B (322), and C (323) located in the sleeve (320). The sleeve (320) extends through the slot (11) to the outside of the maintenance area (2) and extends along the height direction of the cabinet (1) to the upper surface of the cabinet (1). One end of each first power line is connected to the power supply box (321). The first power cord (3) is connected to the power box (3) through the first connector (325), and the other end is inserted into the sleeve (320) and extends to the upper surface of the cabinet (1). The first power cord A (321), the first power cord B (322), and the first power cord C (323) are laid flat on the cabinet (1) with opposite orientations. The cabinet (1) is equipped with a touch screen (6) above the maintenance area (2). The controller (4) is connected to the touch screen (6) through the second connecting line (41) and to the power box (3) through the third connecting line (42). The touch screen (6) is connected to a second wiring harness (61). The second wiring harness (61) includes a second power cord A (611) and a second power cord B (612). The second power cord A (611) and the second power cord B (612) are located in front of the first wiring harness (32). The ends of the second power line A (611) and the second power line B (612) extend to the left and right sides of the cabinet (1), respectively. A third wire harness (51) is connected to the external junction box (5). The third wire harness (51) includes a third power line (511). The third power line (511) is located below the power box (3) and the controller (4). One end of the third power line (511) is connected to the socket (512), and the other end is connected to the external junction box (5).
2. The wiring harness structure on the mirror cabinet according to claim 1, characterized in that, The cabinet (1) is provided with a first positioning groove (12), a second positioning groove (13) and a third positioning groove (14). The sleeve (320) is installed in the first positioning groove (12). The first positioning groove (12) includes an arc-shaped part and a vertical part located at both ends of the groove opening (11). The vertical part is set along the height direction of the cabinet (1). The arc-shaped part is located outside the controller (4). The second wire harness (61) is installed in the second positioning groove (13). The second positioning groove (13) is set along the length direction of the cabinet (1). The third wire harness (51) is installed in the third positioning groove (14). The third positioning groove (14) is set along the length direction of the cabinet (1). Several first positioning pieces (15) are provided on each positioning groove along the wire harness routing position.
3. The wiring harness structure on the mirror cabinet according to claim 2, characterized in that, The cabinet (1) is also provided with a fourth positioning groove (16), the first connecting line (31) and the third connecting line (42) are located in the fourth positioning groove (16), the fourth positioning groove (16) is provided with a partition plate (161), the first connecting line (31) and the third connecting line (42) are respectively located on both sides of the partition plate (161), the fourth positioning groove (16) is located above the third positioning groove (14) and communicates with the third positioning groove (14), and the fourth positioning groove (16) is provided with a second positioning plate (17).
4. The wiring harness structure on the mirror cabinet according to claim 2 or 3, characterized in that, The first wiring harness (32) also includes a first power line D, which is located above the controller (4) and outside the first positioning groove (12). The end of the first power line D extends into the second positioning groove (13) and is arranged parallel to the second power line A (611) in the second positioning groove (13).
5. The wiring harness structure on the mirror cabinet according to claim 4, characterized in that, The cabinet (1) is provided with a snap-fit component (7) at the slot (11) position. The snap-fit component (7) is provided with four snap-fit interfaces (71) arranged side by side. The first power line D, the second connecting line (41), the second power line A (611) and the second power line B (612) are snapped into the corresponding snap-fit interfaces (71) respectively.
6. The wiring harness structure on the mirror cabinet according to claim 1, 2, or 3, characterized in that, The maintenance area (2) is provided with a first mounting cavity (21) and a second mounting cavity (22). The controller (4) is fixed in the first mounting cavity (21) by screws, and the power supply box (3) is fixed in the second mounting cavity (22) by screws.
7. The wiring harness structure on the mirror cabinet according to claim 1, 2, or 3, characterized in that, The cabinet (1) is provided with a third mounting cavity (18), and the touch screen (6) is installed in the third mounting cavity (18). The third mounting cavity (18) is provided with a hook (181), and the hook (181) is hooked on the outer edge of the touch screen (6).
8. The wiring harness structure on the mirror cabinet according to claim 1, 2, or 3, characterized in that, The external junction box (5) includes a male-female plug (52) and a socket (53). Both the plug (52) and the socket (53) are provided with wiring terminals. The socket (53) has a panel (531) facing the plug (52). The panel (531) is provided with a socket (532). The plug (52) has a plug that can be inserted into the socket (532). The plug (52) is provided with a tongue hook (522).
9. The wiring harness structure on the mirror cabinet according to claim 8, characterized in that, The panel (531) is provided with a hook opening (533), and a tongue piece (534) is provided on one side wall of the hook opening (533). After the plug (52) and the socket (53) are inserted into each other, the tongue hook (522) passes through the hook opening (533) and hooks onto the tongue piece (534).