Split waterproof ultra-thin power shell

Abstract

The utility model belongs to power box technical field especially relates to a split waterproof ultrathin power shell, including base, upper cover, left side plate, right side plate, front side plate and back side plate, left side plate and right side plate are connected in the left and right two ends of base respectively, and both of them are integrally casted with base. Front side plate and back side plate are located in the front and back two ends of base respectively, and front side plate forms detachable connection with base through first locking part. Back side plate forms detachable connection with base through second locking part. The upper end of left side plate and right side plate is buckled with upper cover, and one end of upper cover forms detachable connection with front side plate through third locking part. The other end of upper cover forms detachable connection with back side plate through fourth locking part. The waterproof performance of shell is improved significantly, can reach IP68 waterproof grade, and guarantees the stable operation of plant lamp.

Description

Technical Field

[0001] This utility model belongs to the field of power supply box technology, and in particular relates to a split-type waterproof ultra-thin power supply shell. Background Technology

[0002] Plant lights, as important devices to supplement or replace natural light sources, are widely used in greenhouses, plant factories, and home gardening to promote plant growth, regulate flowering periods, and increase crop yields. Plant lights typically contain a power system that not only needs to provide efficient and stable power but also must have good waterproofing to withstand complex and changing outdoor or humid indoor environments, preventing safety hazards and equipment damage caused by electrical faults. Traditional plant light power supply casings often use a one-piece design; if one part is damaged, the entire casing may need to be replaced, resulting in high repair costs and inconvenience. Furthermore, one-piece casings make it difficult to achieve precise waterproofing of complex structures during manufacturing, making them vulnerable to moisture penetration. Utility Model Content

[0003] The purpose of this utility model is to provide a split-type waterproof ultra-thin power supply shell, which aims to solve the technical problems of poor sealing and waterproof effect in the prior art.

[0004] To achieve the above objectives, this utility model provides a split-type waterproof ultra-thin power supply housing, including a base, a top cover, a left side panel, a right side panel, a front side panel, and a rear side panel. The left and right side panels are respectively connected to the left and right ends of the base, and both are integrally cast with the base. The front and rear side panels are located at the front and rear ends of the base, respectively. The front side panel is detachably connected to the base by a first locking member. The rear side panel is detachably connected to the base by a second locking member. The top cover is fastened to the upper ends of the left and right side panels, and one end of the top cover is detachably connected to the front side panel by a third locking member. The other end of the top cover is detachably connected to the rear side panel by a fourth locking member.

[0005] Furthermore, the corners of the base are sequentially designated as the first bottom, the second bottom, the third bottom, and the fourth bottom; the corners of the front panel are sequentially designated as the first front part, the second front part, the third front part, and the fourth front part; the corners of the rear panel are sequentially designated as the first rear part, the second rear part, the third rear part, and the fourth rear part; and the corners of the top cover are sequentially designated as the first top part, the second top part, the third top part, and the fourth top part.

[0006] Furthermore, both the first bottom and the second bottom are provided with a first connecting main hole, and corresponding to the first front and the second front are provided with a first connecting secondary hole. The first locking member passes through the first connecting main hole and the first connecting secondary hole in sequence to lock the front side plate to the base. Both the third bottom and the fourth bottom are provided with a second connecting main hole, and corresponding to the first rear and the second rear are provided with a second connecting secondary hole. Another first locking member passes through the second connecting main hole and the second connecting secondary hole in sequence to lock the rear side plate to the base.

[0007] Furthermore, both the first and second tops are provided with a third main connecting hole, and the corresponding third front and fourth front parts are provided with a third secondary connecting hole. The second locking member passes through the third main connecting hole and the third secondary connecting hole in sequence to lock the front side plate to the top cover. Both the third and fourth tops are provided with a fourth main connecting hole, and the corresponding third rear and fourth rear parts are provided with a fourth secondary connecting hole. Another second locking member passes through the fourth main connecting hole and the fourth secondary connecting hole in sequence to lock the rear side plate to the top cover.

[0008] Furthermore, both ends of the top cover extend downwards to form a closing part, and both the left and right sides of the cover are provided with outwardly protruding abutment grooves, with the closing part abutting against the upper end of the abutment groove.

[0009] Furthermore, the outermost end of the cover is vertically aligned with the outermost end of the abutment groove.

[0010] Furthermore, the left side panel, right side panel, and top cover plate are all provided with several evenly arranged grooves.

[0011] Furthermore, the front and rear side panels extend outwards to form locking parts, which are provided with through holes for locking.

[0012] Furthermore, the front and rear panels are provided with openings for cable routing.

[0013] The split-type waterproof ultra-thin power supply housing provided in this embodiment of the utility model has at least one of the following technical effects:

[0014] In this design, the base, left side panel, and right side panel, which are integrally cast, are first fixed in position to ensure structural stability. Next, the front and rear side panels are aligned with the front and rear ends of the base, respectively, and secured using the first and second locking devices, while simultaneously checking for leaks. Then, the front and rear side panels are locked to the ends of the top cover using the third and fourth locking devices, ensuring a waterproof seal and completing the assembly of the entire housing. After assembly, a waterproof test and electrical safety check are performed to ensure the housing meets performance standards. The modular design allows for independent disassembly of each component, facilitating repair or replacement of damaged parts and reducing maintenance costs. The combination of integral casting and locking devices significantly improves the housing's waterproof performance, achieving an IP68 waterproof rating and ensuring stable operation of the plant light. Furthermore, with only four sets of locking devices, other locking positions are saved, allowing for a highly compact power supply housing with an ultra-thin internal cavity. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 An overall structural diagram of the split-type waterproof ultra-thin power supply housing provided in this embodiment of the utility model;

[0017] Figure 2 A structural diagram of the base of the split-type waterproof ultra-thin power supply shell provided in this embodiment of the utility model;

[0018] Figure 3 A structural diagram of the top cover of the split waterproof ultra-thin power supply housing provided in an embodiment of this utility model;

[0019] Figure 4 A front view of the front panel of the split waterproof ultra-thin power supply housing provided in an embodiment of this utility model;

[0020] Figure 5 A front view of the rear panel of the split-type waterproof ultra-thin power supply housing provided in an embodiment of this utility model;

[0021] Figure 6 A cross-sectional view of the base and top cover of the split waterproof ultra-thin power supply housing provided in this embodiment of the utility model, with the brackets representing the other end of the reverse symmetry.

[0022] Figure 7 This is a structural diagram of the locking part of the split waterproof ultra-thin power supply shell provided in an embodiment of the present utility model.

[0023] The following are the labeling elements in the figure:

[0024] 100. Base; 110. First bottom; 120. Second bottom; 130. Third bottom; 140. Fourth bottom;

[0025] 200. Top cover; 210. First top; 220. Second top; 230. Third top; 240. Fourth top;

[0026] 300. Left side panel;

[0027] 400. Right side panel;

[0028] 500. Front side panel; 510. First front section; 520. Second front section; 530. Third front section; 540. Fourth front section;

[0029] 600. Rear side panel; 610. First rear section; 620. Second rear section; 630. Third rear section; 640. Fourth rear section;

[0030] 700, First locking element; 701, First main connecting hole; 702, First secondary connecting hole;

[0031] 710. Second locking element; 711. Second main connecting hole; 712. Second auxiliary connecting hole;

[0032] 720. Third locking element; 721. Third main connecting hole; 722. Third auxiliary connecting hole;

[0033] 730. Fourth locking element; 731. Fourth main connecting hole; 732. Fourth auxiliary connecting hole;

[0034] 800, Cover part; 810, Abutment groove; 820, Locking part; 830, Through hole; 840, Groove pattern.

[0035] 900, Opening groove. Detailed Implementation

[0036] The embodiments of this utility model are described in detail below, examples of which are shown in the accompanying drawings 1-7, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The following description is based on the accompanying drawings. Figure 1-7 The described embodiments are exemplary and intended to explain embodiments of the present invention, and should not be construed as limiting the present invention.

[0037] In the description of the embodiments of this utility model, it should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "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 drawings. They are only for the convenience of describing the embodiments of this utility model 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 utility model.

[0038] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of embodiments of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.

[0039] In this embodiment of the invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this embodiment of the invention according to the specific circumstances.

[0040] In one embodiment of this utility model, such as Figure 1-7 As shown, a split-type waterproof ultra-thin power supply housing is provided, including a base 100, a top cover 200, a left side panel 300, a right side panel 400, a front side panel 500, and a rear side panel 600. The left side panel 300 and the right side panel 400 are respectively connected to the left and right ends of the base 100, and both are integrally cast with the base 100. The front side panel 500 and the rear side panel 600 are located at the front and rear ends of the base 100, respectively. The front side panel 500 is detachably connected to the base 100 by a first locking member 700. The rear side panel 600 is detachably connected to the base 100 by a second locking member 710. The top cover 200 is fastened to the upper ends of the left side panel 300 and the right side panel 400, and one end of the top cover 200 is detachably connected to the front side panel 500 by a third locking member 720. The other end of the top cover 200 is detachably connected to the rear side panel 600 via a fourth locking member 730.

[0041] Specifically, firstly, the integrally cast base 100, left side plate 300, and right side plate 400 are fixed in position to ensure structural stability. Secondly, the front side plate 500 and rear side plate 600 are aligned with the front and rear ends of the base 100, respectively. The first locking member 700 and the second locking member 710, which can be screws, bolts, or rivets, are used to fix the components and check for sealing. The third locking member 720 and the fourth locking member 730, which can also be screws, bolts, or rivets, are used to lock the front side plate 500 and rear side plate 600 to both ends of the top cover 200, ensuring waterproof sealing and completing the assembly of the entire shell. After assembly, a waterproof test and electrical safety check are performed to ensure that the shell performance meets the standards. The split design allows each component to be disassembled independently, facilitating repair or replacement of damaged parts and reducing maintenance costs. By combining one-piece casting and locking components, the waterproof performance of the outer shell is significantly improved, achieving an IP68 waterproof rating and ensuring the stable operation of the plant light. Simultaneously, with only four sets of locking components, other locking positions are saved, allowing for a highly compact power supply shell and an ultra-thin inner cavity.

[0042] Furthermore, such as Figure 1-6 As shown, the corners of the base 100 are sequentially designated as a first bottom 110, a second bottom 120, a third bottom 130, and a fourth bottom 140; the corners of the front panel 500 are sequentially designated as a first front part 510, a second front part 520, a third front part 530, and a fourth front part 540; the corners of the rear panel 600 are sequentially designated as a first rear part 610, a second rear part 620, a third rear part 630, and a fourth rear part 640; and the corners of the top cover 200 are sequentially designated as a first top 210, a second top 220, a third top 230, and a fourth top 240. Specifically, by refining the corner designs of the base 100, the front panel 500, the rear panel 600, and the top cover 200, the connection points and support structures between the components can be more precisely controlled, thereby improving the structural stability and durability of the entire power supply casing.

[0043] Furthermore, such as Figure 1 , 2As shown in Figures 6 and 7, both the first bottom 110 and the second bottom 120 are provided with a first connecting main hole 701, and both the first front part 510 and the second front part 520 are provided with a first connecting secondary hole 702. The first locking member 700 passes through the first connecting main hole 701 and the first connecting secondary hole 702 in sequence to lock the front side plate 500 to the base 100. Both the third bottom 130 and the fourth bottom 140 are provided with a second connecting main hole 711, and both the first rear part 610 and the second rear part 620 are provided with a second connecting secondary hole 712. Another first locking member 700 passes through the second connecting main hole 711 and the second connecting secondary hole 712 in sequence to lock the rear side plate 600 to the base 100. Specifically, the first bottom 110 and the second bottom 120 of the base 100 are designed with precision threaded holes as first main connection holes 701. These threaded holes are aligned with the through holes (i.e., first secondary connection holes 702) of the corresponding positions of the first front portion 510 and the second front portion 520 on the front side plate 500. When the front side plate 500 is installed, a first locking element 700 (not specified), i.e., a bolt, screw, rivet, etc. with a washer and a lock nut, is used to pass through these holes to achieve a firm and waterproof connection between the front side plate 500 and the base 100. The third bottom 130 and the fourth bottom 140 of the base 100 are also designed with threaded holes as second main connection holes 711. These threaded holes are aligned with the through holes (i.e., second secondary connection holes 712) of the corresponding positions of the first rear portion 610 and the second rear portion 620 on the rear side plate 600. When the rear side plate 600 is installed, the first locking element 700 (not specified) is also used, i.e., bolts and lock nuts are used to tightly connect these components together.

[0044] Furthermore, such as Figure 1 , 3As shown in Figures 6 and 7, both the first top 210 and the second top 220 are provided with a third connecting main hole 721, and both the third front part 530 and the fourth front part 540 are provided with a third connecting secondary hole 722. The second locking member 710 passes through the third connecting main hole 721 and the third connecting secondary hole 722 in sequence to lock the front side plate 500 and the top cover 200 together. Both the third top 230 and the fourth top 240 are provided with a fourth connecting main hole 731, and both the third rear part 630 and the fourth rear part 640 are provided with a fourth connecting secondary hole 732. Another second locking member 710 passes through the fourth connecting main hole 731 and the fourth connecting secondary hole 732 in sequence to lock the rear side plate 600 and the top cover 200 together. Specifically, the first top 210 and second top 220 of the cover plate are designed with precision threaded holes as third main connection holes 721. These threaded holes are aligned with the through holes (i.e., third secondary connection holes 722) of the third front part 530 and fourth front part 540 on the front side plate 500 at corresponding positions. When installing the front side plate 500, a third locking element 720 (not specified), i.e., a bolt, screw, rivet, etc. with a washer and a lock nut, is used through these holes to achieve a secure and waterproof connection between the front side plate 500 and the base 100. The third top 230 and fourth top 240 of the cover plate are also designed with threaded holes as fourth main connection holes 731. These threaded holes are aligned with the through holes (i.e., fourth secondary connection holes 732) of the third rear part 630 and third rear part 630 at corresponding positions on the rear side plate 600. When installing the rear side plate 600, the fourth locking element 730 (not specified) is also used, i.e., bolts and lock nuts are used to tightly connect these components together.

[0045] Furthermore, such as Figure 1-6 As shown, both ends of the top cover 200 extend downwards to form a closing portion 800. The left side panel 300 and the right side panel 400 each have outwardly protruding abutment grooves 810, with the closing portion 800 abutting against the upper end of the abutment groove 810. The closing portion 800 extending from the top cover 200 matches the abutment grooves 810 on the left side panel 300 (and right side panel 400), forming a more stable connection interface and enhancing the overall waterproofing of the power supply box. The outermost end of the closing portion 800 is vertically aligned with the outermost end of the abutment groove 810, ensuring that the cut surfaces between the left side panel 300 and the right side panel 400 and the top cover 200 are flat, resulting in a smooth and flat overall power supply casing.

[0046] Furthermore, such as Figure 1 As shown, the left side panel 300, right side panel 400, and top cover 200 all have several evenly arranged grooves 840. The grooves 840 increase friction with other objects, thereby improving the product's stability and anti-slip performance. Furthermore, the groove design also provides some heat dissipation and noise reduction.

[0047] Furthermore, such as Figure 1 , 7 As shown, the front side panel 500 and the rear side panel 600 extend outward to form a locking part 820. The locking part 820 is provided with a through hole 830 for locking, which is used to lock the entire power box into the frame of the plant light.

[0048] Furthermore, such as Figure 1 , 4 As shown in Figures 5 and 6, the front panel 500 and the rear panel 600 are provided with openings 900 for running electrical wires.

[0049] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A split-type waterproof ultra-thin power supply casing, characterized in that: The system includes a base (100), a top cover (200), a left side plate (300), a right side plate (400), a front side plate (500), and a rear side plate (600). The left side plate (300) and the right side plate (400) are respectively connected to the left and right ends of the base (100), and both are integrally cast with the base (100). The front side plate (500) and the rear side plate (600) are respectively located at the front and rear ends of the base (100). The front side plate (500) is secured to the base (100) by a first locking member (700). The base (100) is detachably connected; the rear side plate (600) is detachably connected to the base (100) by a second locking member (710); the upper cover (200) is fastened to the upper ends of the left side plate (300) and the right side plate (400), and one end of the upper cover (200) is detachably connected to the front side plate (500) by a third locking member (720); the other end of the upper cover (200) is detachably connected to the rear side plate (600) by a fourth locking member (730).

2. The split-type waterproof ultra-thin power supply housing according to claim 1, characterized in that, The corners of the base (100) are sequentially designated as a first bottom (110), a second bottom (120), a third bottom (130), and a fourth bottom (140); the corners of the front side panel (500) are sequentially designated as a first front part (510), a second front part (520), a third front part (530), and a fourth front part (540); the corners of the rear side panel (600) are sequentially designated as a first rear part (610), a second rear part (620), a third rear part (630), and a fourth rear part (640); and the corners of the top cover (200) are sequentially designated as a first top (210), a second top (220), a third top (230), and a fourth top (240).

3. The split-type waterproof ultra-thin power supply housing according to claim 2, characterized in that, The first bottom (110) and the second bottom (120) are each provided with a first connecting main hole (701), and the first front part (510) and the second front part (520) are each provided with a first connecting secondary hole (702). The first locking member (700) passes through the first connecting main hole (701) and the first connecting secondary hole (702) in sequence to lock the front side plate (500) and the base (100) in a tight connection. The third bottom (130) and the fourth bottom (140) are each provided with a second connecting main hole (711), and the first rear part (610) and the second rear part (620) are each provided with a second connecting secondary hole (712). The other first locking member (700) passes through the second connecting main hole (711) and the second connecting secondary hole (712) in sequence to lock the rear side plate (600) and the base (100) in a tight connection.

4. The split-type waterproof ultra-thin power supply housing according to claim 2, characterized in that, The first top (210) and the second top (220) are each provided with a third connecting main hole (721), and the third front part (530) and the fourth front part (540) are each provided with a third connecting secondary hole (722). The second locking member (710) passes through the third connecting main hole (721) and the third connecting secondary hole (722) in sequence to lock the front side plate (500) and the top cover (200) together. The third top (230) and the fourth top (240) are each provided with a fourth connecting main hole (731), and the third rear part (630) and the fourth rear part (640) are each provided with a fourth connecting secondary hole (732). Another second locking member (710) passes through the fourth connecting main hole (731) and the fourth connecting secondary hole (732) in sequence to lock the rear side plate (600) and the top cover (200) together.

5. The split-type waterproof ultra-thin power supply housing according to claim 1, characterized in that, The left and right ends of the top cover (200) both extend downward to form a cover portion (800). The left side plate (300) and the right side plate (400) are both provided with outwardly protruding abutment grooves (810). The cover portion (800) abuts against the upper end of the abutment groove (810).

6. The split-type waterproof ultra-thin power supply housing according to claim 5, characterized in that, The outermost end of the cover (800) is vertically aligned with the outermost end of the abutment groove (810).

7. The split-type waterproof ultra-thin power supply housing according to claim 1, characterized in that, The left side plate (300), the right side plate (400), and the top cover (200) are all provided with a number of evenly arranged grooves (840).

8. The split-type waterproof ultra-thin power supply housing according to claim 1, characterized in that, The front side plate (500) and the rear side plate (600) extend outward to form a locking part (820), and the locking part (820) is provided with a through hole (830) for locking.

9. The split-type waterproof ultra-thin power supply housing according to claim 1, characterized in that, The front panel (500) and the rear panel (600) are provided with openings (900) for running electrical wires.

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