A flower box body and flower box
By using a side panel docking structure and a reinforced rib design, the problems of complex and difficult-to-expand existing planting boxes/flower boxes have been solved, resulting in a simple and easy-to-use flower box design that enhances stability and flexibility while reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN LVLI STEREO GREENING CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-06-30
AI Technical Summary
Existing detachable planting boxes/flower boxes have complex structures, low side panel strength, are difficult to expand, and the loss of parts during assembly leads to structural instability, making them unable to meet various planting needs.
Multiple side panels are spliced together through a butt joint structure, utilizing a snap-fit design with tenons and interlocking cavities, combined with reinforcing ribs and a hollow structure, to achieve a simple, reliable, and scalable structure. The bottom support and inner liner can be flexibly selected to adapt to different planting requirements.
It achieves a simple structure, is easy to assemble and use, has multiple combination methods, improves user experience and ease of use, reduces production costs and transportation difficulties, and enhances overall stability and flexibility.
Smart Images

Figure CN224419484U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of planting equipment, and in particular to a flower box body and a flower box. Background Technology
[0002] With urbanization, landscape design is rapidly developing, and more and more plant species are being used in landscaping. However, the land available for planting these plants is becoming increasingly scarce. The emergence of planting boxes / flower boxes has effectively solved this problem. Currently, planting boxes / flower boxes are mainly used for planting landscape trees or flowers. They can be easily placed in squares, parks, courtyards, and other locations, effectively improving the efficiency of landscaping and reducing costs.
[0003] Initially, planting boxes / flower boxes were pre-assembled in the factory and then transported to the planting site, making on-site installation impossible. This resulted in high transportation costs and made disassembly and repair inconvenient. When damage occurred, the entire box had to be replaced, leading to high operating costs and failing to meet user needs. As a result, some detachable planting boxes / flower boxes emerged, allowing for on-site assembly and effectively solving the drawbacks of the original planting boxes / flower boxes.
[0004] However, these current detachable planting boxes / flower boxes still have the following drawbacks:
[0005] 1. Existing detachable planting boxes / flower boxes usually require complex and varied parts to achieve their assembly effect. For example, in order to reduce the structural weight, the side panels of detachable planting boxes / flower boxes are often relatively lightweight, which results in lower structural strength of the side panels. Therefore, corresponding frame and corner support are required, which makes the structure more complex. In particular, if parts are lost during the assembly process, the structure may not be able to be formed.
[0006] 2. Existing detachable planting boxes / flower boxes often have a fixed structure, which makes them unscalable and difficult to meet various planting needs, greatly affecting the user experience. Utility Model Content
[0007] The technical problem to be solved by this utility model is to provide a flower box body and a flower box.
[0008] To achieve the above-mentioned utility model objectives, this utility model provides a flower box body, comprising: multiple side panels;
[0009] The multiple side plates are spliced together in a ring to form a regular hollow structure, wherein the sides of adjacent side plates are connected to each other by a butt joint structure.
[0010] The docking structure includes: a first docking portion and a second docking portion;
[0011] The first mating portion is provided with a plurality of tenons, and the plurality of tenons are arranged at intervals along the side edge of the side plate;
[0012] A first snap-fit structure may be optionally provided on the end face of the tenon along its length direction;
[0013] The second mating portion is provided with a plurality of insertion cavities for the mating insertion of the tenon, and the inner side of the insertion cavity is provided with a second snap-fit structure that matches the first snap-fit structure.
[0014] According to one aspect of the present invention, the tenon is a hollow structure with an opening on one side, and the opening side of the tenon is the same side as the inner side of the side plate to which it is installed.
[0015] The hollow portion of the tenon is provided with at least one first reinforcing rib.
[0016] According to one aspect of the present invention, adjacent tenons are connected by a plate-shaped connecting part, and the plate-shaped connecting part is fixed to the side on which the tenon is installed.
[0017] According to one aspect of the present invention, the second docking portion includes: a hollow beam body with an opening on one side, and a plurality of spaced baffles disposed inside the hollow beam body;
[0018] The opening side of the hollow beam is the same as the inner side of the side plate on which it is installed;
[0019] Along the length of the hollow beam, multiple spacer baffles are regularly arranged to divide the multiple insertion cavities;
[0020] In the vertical direction, the lower end of the hollow beam is flush with or extends beyond the bottom end of the side plate.
[0021] According to one aspect of the present invention, the side plate includes: a side plate body, an upper side beam disposed at the upper end of the side plate body, and a lower side beam disposed at the lower end of the side plate body;
[0022] Along the length of the upper beam, a plurality of linear grooves are arranged at equal intervals on the outer side of the side plate body, and the bottom of the linear grooves protrudes from the inner side of the side plate body.
[0023] Along the length of the upper beam, a plurality of second reinforcing ribs are arranged at equal intervals on the inner side of the side plate body;
[0024] The upper end of the second reinforcing rib is fixedly connected to the upper side beam, the lower end of the second reinforcing rib is fixedly connected to the lower side beam, and one side of the second reinforcing rib is fixedly connected to the bottom of the linear groove.
[0025] According to one aspect of the present invention, the upper beam is a hollow structure with an opening on one side, and the opening side of the upper beam is the same side as the inner side of the side plate.
[0026] The lower beam has an opening on one side, and the opening side of the lower beam is the same side as the inner side of the side plate.
[0027] The length of the tenon is greater than the spacing between adjacent tenons.
[0028] To achieve the above-mentioned utility model objectives, this utility model provides a flower box, comprising: a flower box body and a bottom support;
[0029] The main body of the flower box includes: multiple side panels;
[0030] The multiple side plates are spliced together in a ring to form a regular hollow structure;
[0031] The sides of adjacent side plates are connected to each other by a butt joint structure, and the side of the bottom support is connected to the bottom end of the side plate by a butt joint structure.
[0032] The docking structure includes: a first docking portion and a second docking portion;
[0033] The first mating portion is provided with a plurality of tenons, and the plurality of tenons are arranged at intervals along the side edge of the side plate;
[0034] A first snap-fit structure (121a1) may be optionally provided on the end face of the tenon along its length direction.
[0035] The second mating portion is provided with a plurality of insertion cavities for the mating insertion of the tenon, and the inner side of the insertion cavity is provided with a second snap-fit structure that matches the first snap-fit structure.
[0036] According to one aspect of the present invention, the upper side of the bottom support is provided with a first reinforcing rib structure and a first support column;
[0037] There are multiple first support columns arranged in a regular pattern, and some of the first support columns are provided with overflow outlets at their tops.
[0038] To achieve the above-mentioned utility model objectives, this utility model provides a flower box, comprising: a flower box body and an inner liner;
[0039] The main body of the flower box includes: multiple side panels;
[0040] The multiple side plates are spliced together in a ring to form a regular hollow structure;
[0041] The sides of adjacent side plates are connected to each other using a butt joint structure;
[0042] The docking structure includes: a first docking portion and a second docking portion;
[0043] The first mating portion is provided with a plurality of tenons, and the plurality of tenons are arranged at intervals along the side edge of the side plate;
[0044] A first snap-fit structure may be optionally provided on the end face of the tenon along its length direction;
[0045] The second mating portion is provided with a plurality of insertion cavities for the mating insertion of the tenon, and the inner side of the insertion cavity is provided with a second snap-fit structure that matches the first snap-fit structure.
[0046] According to one aspect of the present invention, the inner liner includes: a hollow inner liner body;
[0047] The inner liner body is provided with a second reinforcing rib structure on the inner side, and the bottom of the inner liner body is provided with a second support column;
[0048] There are multiple second support columns arranged in a regular pattern, and some of the second support columns are provided with overflow outlets at the top;
[0049] The upper end of the inner liner body is provided with an outwardly bent skirt, and a connecting rib is provided between the skirt and the inner liner body;
[0050] The bottom of the inner liner body may optionally be provided with a roller mounting position for detachable connection of rollers.
[0051] According to one embodiment of this utility model, this embodiment has the advantages of simple and reliable structure, convenient assembly and easy use. In addition, this embodiment also has multiple combination methods, which makes it more scalable and flexible.
[0052] According to one aspect of this utility model, all the side panels, bottom supports, inner liner and other structures can be integrally molded, effectively avoiding the number of scattered parts and greatly ensuring the convenience of assembly and use.
[0053] According to one aspect of this utility model, the bottom support or inner liner can be flexibly selected as the load-bearing structure for filling, which enables the solution to adapt to different planting requirements, expands the scope of application of the solution, and provides users with more flexible options, thus more effectively improving the user's convenience and flexibility.
[0054] According to one aspect of this utility model, the docking structures used in this solution are installed together by interlocking. Based on the interlocking and restraint between the structures, the entire docking structure becomes a combined beam that can connect and support at the edges, effectively ensuring the overall structural reliability and stability of the flower box.
[0055] According to one aspect of this utility model, the structure preferably adopts a hollow design, which ensures structural strength while effectively reducing overall weight and production costs.
[0056] According to one aspect of this utility model, the mating structure adopted in this solution is based on the close cooperation between the two parts, realizing the matching filling of the tenon with the insertion cavity. This not only effectively avoids the irregular shaking caused by the gaps between them after installation, but also enables the mating structure to form a stable composite beam. This ensures the structural stability of the entire flower box body at the corner and forms sufficient force support. It effectively eliminates the complex structure of traditional spliced flower boxes that require the arrangement of support columns / beams at the corners, realizes the simplification and optimization of the entire flower box structure, and effectively reduces the user's difficulty of use and the corresponding production cost.
[0057] According to one aspect of this utility model, by providing a linear groove on the side plate body and making the bottom of the linear groove protrude, a reinforcing rib structure can be formed on the inner side of the side plate body, which is more beneficial to ensuring the structural strength and overall flatness of the side plate body.
[0058] According to one aspect of this utility model, the structure of the side plate body is further enhanced by arranging a second reinforcing rib on the inner side of the side plate body. In particular, the second reinforcing rib is connected to the bottom of the upper beam, the lower beam and the linear groove, thereby enabling the various structures to support each other, giving the side plate better structural strength, and also effectively reducing the weight of the side plate and reducing production costs.
[0059] According to one aspect of this utility model, the lower beam of the side plate can be flexibly adjusted in terms of the position of the rib structure, thereby enabling it to be used for matching and engaging with the tenon for structural expansion. This not only ensures the strength and stability of the overall structure but also effectively achieves structural reuse, greatly improving the flexibility of this solution.
[0060] According to one embodiment of this invention, the bottom of the inner liner may optionally be provided with a roller mounting position for detachable connection of rollers. This roller mounting position facilitates quick and easy assembly and disassembly of the rollers, further facilitating the movement of the inner liner. Especially after filling, the installed rollers allow for easier and less strenuous movement to the designated location, enhancing its usability. Furthermore, the rollers can be removed when movement is not required, allowing for customized assembly and disassembly for different user scenarios, effectively improving the flexibility of this solution. Attached Figure Description
[0061] Figure 1 A perspective view of the main body of the flower box according to one embodiment of this utility model;
[0062] Figure 2 An exploded view of two adjacent side panels of the flower box body according to one embodiment of this utility model;
[0063] Figure 3 This is a side plate view showing the first docking portion in one embodiment of the present invention.
[0064] Figure 4 A side plate diagram showing the second docking portion in one embodiment of this utility model;
[0065] Figure 5 This is a structural diagram of a flower box according to one embodiment of the present invention;
[0066] Figure 6 This is a partial exploded view of a flower box according to one embodiment of the present invention;
[0067] Figure 7 This is a structural diagram of a flower box according to another embodiment of the present invention;
[0068] Figure 8 This is a bottom view of the flower box according to another embodiment of the present invention.
[0069] Figure 9 This is a structural diagram of the inner liner of a flower box according to another embodiment of the present invention. Detailed Implementation
[0070] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the embodiments will be briefly described 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 any creative effort.
[0071] In describing embodiments of this utility model, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer" express orientations or positional relationships based on the orientations or positional relationships shown in the relevant drawings. They are only for the convenience of describing 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, the above terms should not be construed as limitations on this utility model.
[0072] The present invention will now be described in detail with reference to the accompanying drawings and specific embodiments. The embodiments cannot be described in detail here, but the embodiments of the present invention are not limited to the following embodiments.
[0073] Combination Figure 1 and Figure 2 As shown, according to one embodiment of the present invention, a flower box body includes: multiple side panels 11; wherein the multiple side panels 11 are spliced together in a ring to form a regular hollow structure. In this embodiment, the side panels 11 can be rectangular in shape, thus, by splicing them sequentially, the flower box body can be formed into a rectangular hollow structure, which is open at both the top and bottom. In this embodiment, the sides of adjacent side panels 11 are connected to each other using butt joint structures 12; wherein, the butt joint structures 12 are installed together by interlocking, and the interlocking and restraint between the structures makes the entire butt joint structure 12 a combined beam that can connect and support the edges, effectively ensuring the overall structural reliability and stability of the flower box body. Specifically, the docking structure 12 includes a first docking portion 121 and a second docking portion 122. In this embodiment, the first docking portion 121 is provided with a plurality of tenons 121a, and the plurality of tenons 121a are arranged at intervals along the side edge of the side plate 11. Further, a first snap-fit structure 121a1 may be selectively provided on the end face of the tenon 121a in the length direction to achieve a fixed connection with the second docking portion 122. In this embodiment, the second docking portion 122 is provided with a plurality of insertion cavities 122a for the mating insertion of the tenons 121a, and a second snap-fit structure 122a1 matching the first snap-fit structure 121a1 is provided on the inner side of the insertion cavity 122a. Thus, the snap-fit cooperation between the first snap-fit structure 121a1 and the second snap-fit structure 122a1 achieves mutual stable constraint.
[0074] Combination Figure 1 , Figure 2 , Figure 3 As shown, according to one embodiment of the present invention, the first mating portion 121 is provided with three protruding tenons 121a, and the three protruding tenons 121a are arranged at equal intervals on the side edge of the side plate 11. Of course, the interval between adjacent protruding tenons 121a can also be set differently. In addition, the length of the protruding tenons 121a can be set according to the side edge length of the side plate 11, and can be set to be the same or different. In this embodiment, it is preferable that the three protruding tenons 121a are equally spaced and of equal length. This not only simplifies its design and processing, but also makes it more convenient to use, which is beneficial to improving the versatility of the side plate using this arrangement.
[0075] In this embodiment, the length of the tenon 121a is greater than the interval between adjacent tenons 121a, so that the proportion of the total length of all tenons 121a on the side is effectively increased, so as to realize a large-scale connection with the second mating part 122, and fully improve the overall stiffness and stability of the composite beam.
[0076] In this embodiment, the first snap-fit structure 121a1 can be configured as a protrusion or a groove. When configured as a protrusion, the protrusion is a protrusion with an inclined upper surface. That is, along the direction of insertion of the tenon 121a into the insertion cavity 122a, the upper surface of the protrusion shows a trend of gradually increasing height. Therefore, during the insertion process, the connection position needs to be driven to slowly generate elastic deformation based on the abutment between the structures. When the protrusion is fully snapped into the corresponding position, the protrusion can be stabilized and restricted in the corresponding position under the action of elastic recovery to prevent it from falling out in the opposite direction. This effectively ensures the reliability of the connection position.
[0077] In this embodiment, for the same tenon 121a, a first engaging structure 121a1 can be provided at each of the opposite ends of the tenon 121a, or a first engaging structure 121a1 can be provided on one end face. Furthermore, the structure type of the first engaging structure 121a1 on the same tenon 121a can be both a protrusion and a groove, or one end can be a protrusion and the other end a groove. Preferably, the first engaging structures 121a1 at both opposite ends of the tenon 121a in the middle position are both protrusions. This is more beneficial for ensuring the installation consistency of the tenon 121a in the middle position, allowing it to maintain consistent installation limit at both ends, and is more beneficial for suppressing or eliminating the sudden disengagement of one end of the tenon 121a during use.
[0078] In this embodiment, the first engaging structure 121a1 provided on the tenons 121a at different positions in the first mating portion 121 can have different structural types. For example, the first engaging structure 121a1 provided on the tenon 121a at the middle position is a protrusion, while the first engaging structure 121a1 provided on the tenons 121a at other positions can be a groove. Therefore, this alternating arrangement allows the second engaging structure 122a1 to change accordingly. This effectively suppresses the sudden disengagement of the second mating portion 122 for different side plates, thus providing a reliable guarantee for improving the connection reliability of this solution. In this embodiment, on the tenon 121a adjacent to the upper or lower end of the side plate 11, the first snap-fit structure 121a1 is only provided at one end of the tenon 121a, and the first snap-fit structure 121a1 is arranged on the end face of the tenon 121a away from the middle. Therefore, it is not only beneficial to ensure the connection reliability of the end position of the side plate 11, but also reduces the corresponding processing cost and difficulty.
[0079] like Figure 3As shown, according to one embodiment of the present invention, the tenon 121a is a hollow structure with an opening on one side, and the opening side of the tenon 121a is the same side as the inner side of the side plate 11 to which it is installed; in this embodiment, the tenon 121a can be configured as a rectangular structure as a whole, and its width is consistent with the side width of the side plate 11. Its protrusion height and overall length can be set based on the stability requirements of the connection, which will not be elaborated here.
[0080] By making the tenon 121a hollow, the weight of the tenon 121a can be effectively reduced, achieving structural lightweighting. Furthermore, it also effectively reduces material usage and saves on production costs. In addition, the hollow structure and the properties of the tenon 121a material allow for a certain degree of elasticity at the connection point of the first snap-fit structure 121a1. Therefore, after connecting with the second snap-fit structure 122a1, the elasticity at the corresponding position effectively ensures the reliability of the connection between the first snap-fit structure 121a1 and the second snap-fit structure 122a1, which is more beneficial to ensuring the structural stability of this solution.
[0081] In this embodiment, the hollow portion of the tenon 121a is provided with at least one first reinforcing rib 121a11; specifically, in the length direction of the tenon 121a, the first reinforcing rib 121a11 is arranged parallel to and spaced apart from the opposite ends of the tenon 121a. The provided first reinforcing rib 121a11 ensures that the shape of the tenon 121a is reliably maintained, so that the tenon 121a has sufficient structural reliability to facilitate installation with other structures. In this embodiment, two first reinforcing ribs 121a11 are provided at intervals. The interval between the first reinforcing ribs 121a11 or between the first reinforcing ribs 121a11 and the end of the tenon 121a is adjustable. This is designed to improve the overall structural reliability and installation stability of the tenon 121a. For example, the interval between two adjacent first reinforcing ribs 121a11 is greater than the interval between the first reinforcing ribs 121a11 and the end of the tenon 121a. This ensures that the shape of the adjacent positions at the end of the tenon 121a is reliably maintained, resulting in better installation stability. Of course, in other embodiments, the number of first reinforcing ribs 121a11 can also be set to three, four, etc., and the corresponding interval distance can also be adjusted accordingly, which will not be elaborated here.
[0082] like Figure 3 As shown, according to one embodiment of the present invention, adjacent tenons 121a are connected by a plate-shaped connecting part 1211, and the plate-shaped connecting part 1211 is fixed to the side of the tenon 121a.
[0083] The above-mentioned arrangement strengthens the side of the side plate between adjacent tenons 121a, effectively ensuring the stability of the spacing between adjacent tenons 121a during use, which is more beneficial to ensuring the reliable connection between the first mating part 121 and the second mating part 122 during use.
[0084] Combination Figure 2 and Figure 4 As shown, according to one embodiment of the present invention, the second docking portion 122 includes: a hollow beam 1221 with an opening on one side, and a plurality of spaced baffles 1222 disposed inside the hollow beam 1221; wherein, the opening side of the hollow beam 1221 is the same side as the inner side of the side plate 11 on which it is installed; thereby, the tenon 121a can be inserted from the opening side of the hollow beam 1221 to achieve mutual connection. In this embodiment, multiple spaced baffles 1222 are regularly arranged along the length of the hollow beam 1221 to divide multiple insertion cavities 122a. In this embodiment, the length, width, and depth of the insertion cavity 122a are consistent with the tenon 121a. This achieves a tight fit between the various positions after insertion and ensures that the tenon 121a matches and fills the insertion cavity 122a. This not only effectively avoids irregular shaking caused by gaps after installation but also enables the docking structure 12 to form a stable composite beam. This ensures the structural stability of the entire flower box body at the corner and provides sufficient support. It effectively eliminates the complex structure of traditional spliced flower boxes that require support columns / beams at corners, achieving a simplified and optimized structure for the entire flower box. It also effectively reduces the user's difficulty of use and the corresponding production costs.
[0085] In this embodiment, the second snap-fit structure 122a1 is matched with the first snap-fit structure 121a1. Therefore, the second snap-fit structure 122a1 can be disposed on the inner surface of the spacer baffle 1222 and / or the end of the hollow beam 1221 that contacts the tenon 121a. The second snap-fit structure 122a1 can be configured as a protrusion, a groove, or a through hole, as long as it can achieve a matching snap-fit with the first snap-fit structure 121a1.
[0086] In this embodiment, the lower end of the hollow beam 1221 is flush with or extends beyond the bottom end of the side plate 11 in the vertical direction; preferably, the lower end of the hollow beam 1221 extends beyond the bottom end of the side plate 11, so that the support of the entire flower box body can be formed at the corner position based on the docking structure 12, thus realizing the full expansion of the structural function.
[0087] like Figure 2As shown, according to one embodiment of this utility model, for the same side plate 11, the two opposite ends can be provided with the same mating portion, for example, both can be simultaneously provided as the first mating portion 121 or both as the second mating portion 122. This arrangement ensures structural versatility and facilitates user installation. Of course, in other arrangements, the mating portions on the same side plate 11 can be different, i.e., one side is the first mating portion 121 and the other side is the second mating portion 122. This arrangement is advantageous for simplifying the production molds of the side plate 11.
[0088] Combination Figure 1 and Figure 2 As shown, according to one embodiment of the present invention, the side plate 11 includes: a side plate body 111, an upper side beam 112 disposed at the upper end of the side plate body 111, and a lower side beam 113 disposed at the lower end of the side plate body 111; wherein, along the length direction of the upper side beam 112, a plurality of linear grooves 111a are arranged at equal intervals on the outer side of the side plate body 111, and the bottom of the linear grooves 111a protrudes from the inner side of the side plate body 111; in this embodiment, the extending direction of the linear grooves 111a is consistent with the height direction of the side plate 11.
[0089] By setting the linear groove 111a on the side plate body 111 and making the bottom of the linear groove 111a protrude, a reinforcing rib structure can be formed on the inner side of the side plate body 111, which is more beneficial to ensuring the structural strength and overall flatness of the side plate body 111.
[0090] In this embodiment, along the length of the upper beam 112, a plurality of second reinforcing ribs 111b are arranged at equal intervals on the inner side of the side plate body 111. The upper end of each second reinforcing rib 111b is fixedly connected to the upper beam 112, the lower end of each second reinforcing rib 111b is fixedly connected to the lower beam 113, and one side of each second reinforcing rib 111b is fixedly connected to the bottom of the linear groove 111a. The spacing between the second reinforcing ribs 111b is greater than the spacing between the linear grooves 111a.
[0091] With the above arrangement, the structure of the side plate body 111 is further enhanced by further arranging the second reinforcing rib 111b on the inner side of the side plate body 111. In particular, the second reinforcing rib 111b is connected to the bottom of the upper side beam 112, the lower side beam 113 and the linear groove 111a. As a result, the various structures can form a mutual support effect, giving the side plate 11 better structural strength. At the same time, it can also effectively reduce the weight of the side plate 11 and reduce the production cost.
[0092] like Figure 2As shown, according to one embodiment of the present invention, the upper beam 112 is a hollow structure with an opening on one side, and the opening side of the upper beam 112 is the same side as the inner side of the side plate 11. In this embodiment, in order to further improve the supporting strength of the upper beam 112, a rib structure can be further provided in the upper beam 112 to fully reduce the overall mass of the side plate 11 while ensuring its structural strength.
[0093] like Figure 2 As shown, according to one embodiment of this utility model, the lower beam 113 has a hollow structure with an opening on one side, and the opening side of the lower beam 113 is the same side as the inner side of the side plate 11. In this embodiment, to further improve the supporting strength of the lower beam 113, a rib structure can be further provided in the lower beam 113 to significantly reduce the overall mass of the side plate 11 while ensuring its structural strength. Furthermore, the lower beam 113, with the aforementioned configuration, can flexibly adjust the position of the rib structure, thereby enabling it to be used for matching and engaging with the tenon 121a for structural expansion. This not only ensures the strength and stability of the overall structure but also effectively achieves structural reuse, greatly improving the flexibility of this solution.
[0094] According to one embodiment of the present invention, the side plate 11 and the docking structure 12 are both PP plastic parts; wherein, the first docking part 121 and the installed side plate 11 are integrally formed, and the second docking part 122 and the installed side plate 11 are integrally formed.
[0095] According to one embodiment of the present invention, at least a portion of the outer surface of the side panel 11 is provided with a floral pattern or a wood grain pattern.
[0096] Combination Figure 1 , Figure 2 , Figure 5 and Figure 6As shown, according to one embodiment of the present invention, a flower box is provided, comprising: a flower box body 1 and a bottom support 2; in this embodiment, the flower box body 1 includes: multiple side plates 11; wherein, the multiple side plates 11 are spliced together in a ring to form a regular hollow structure. In this embodiment, the side plates 11 can be rectangular in shape, thus, by splicing them sequentially, the flower box body can be made into a rectangular hollow structure, which is open at both the top and bottom ends. In this embodiment, the sides of adjacent side plates 11 are connected to each other by a butt joint structure 12; wherein, the butt joint structure 12 is installed together by interlocking, and the interlocking and restraint between the structures makes the entire butt joint structure 12 a combined beam that can connect and support the edges, effectively ensuring the overall structural reliability and stability of the flower box body. Specifically, the docking structure 12 includes a first docking portion 121 and a second docking portion 122. In this embodiment, the first docking portion 121 is provided with a plurality of tenons 121a, and the plurality of tenons 121a are arranged at intervals along the side edge of the side plate 11. Further, a first snap-fit structure 121a1 may be selectively provided on the end face of the tenon 121a in the length direction to achieve a fixed connection with the second docking portion 122. In this embodiment, the second docking portion 122 is provided with a plurality of insertion cavities 122a for the mating insertion of the tenons 121a, and a second snap-fit structure 122a1 matching the first snap-fit structure 121a1 is provided on the inner side of the insertion cavity 122a. Thus, the snap-fit cooperation between the first snap-fit structure 121a1 and the second snap-fit structure 122a1 achieves mutual stable constraint.
[0097] Furthermore, the structural configuration of the flower box body 1 is the same as the aforementioned configuration, and will not be repeated here.
[0098] In this embodiment, the side of the bottom support 2 and the bottom end of the side plate 11 are connected to each other by a butt joint structure 12. Through the above arrangement, the consistency of the butt joint structure at each position is effectively guaranteed, making its structural design, processing and use more convenient, and ensuring the flexibility of this solution.
[0099] like Figure 6 As shown, according to one embodiment of the present invention, the bottom support 2 is generally rectangular in shape, and each of its four sides is provided with a first docking portion 121. Thus, by arranging the second docking portion 122 at the bottom of the four side plates 11, the bottom support 2 and the flower box body 1 can be docked and installed.
[0100] In this embodiment, the specific structure of the first docking portion 121 provided on the four sides of the bottom support 2 is as described above, and will not be repeated here.
[0101] In this embodiment, as described above, the second mating portion 122 arranged at the bottom end of the side plate 11 is achieved by adjusting the position of the rib structure in the lower side beam 113 so that an insertion cavity 122a for the tenon 121a to be inserted is formed in the lower side beam 113. In addition, a corresponding second snap-fit structure 122a1 is matched and provided at the corresponding position of the insertion cavity 122a, thereby completing the construction of the second mating portion 122.
[0102] like Figure 6 As shown, according to one embodiment of the present invention, the upper side of the bottom support 2 is provided with a first reinforcing rib structure 21 and a first support column 22; wherein, the first reinforcing rib structure 21 is generally in the form of a mesh structure, thereby fully reinforcing the bottom support 2 as a whole and effectively ensuring the load-bearing capacity of the bottom support 2. Furthermore, multiple first support columns 22 are regularly arranged, and some of the first support columns 22 are provided with overflow outlets at their tops.
[0103] Combination Figure 1 , Figure 2 , Figure 7 , Figure 8 and Figure 9 As shown, according to another embodiment of the present invention, a flower box is provided, comprising: a flower box body 1 and an inner liner 3; wherein, the flower box body 1 includes: multiple side panels 11; wherein, the multiple side panels 11 are spliced together in a ring to form a regular hollow structure. In this embodiment, the side panels 11 can be rectangular in structure as a whole, thereby, by splicing them sequentially, the flower box body can be made into a rectangular hollow structure, which is open at both the top and bottom ends. In this embodiment, the sides of adjacent side panels 11 are connected to each other by a butt joint structure 12; wherein, the butt joint structure 12 is installed together by interlocking, and the mutual interlocking and restraint between the structures makes the entire butt joint structure 12 a combined beam that can connect and support the edges, effectively ensuring the overall structural reliability and stability of the flower box body. Specifically, the docking structure 12 includes a first docking portion 121 and a second docking portion 122. In this embodiment, the first docking portion 121 is provided with a plurality of tenons 121a, and the plurality of tenons 121a are arranged at intervals along the side edge of the side plate 11. Further, a first snap-fit structure 121a1 may be selectively provided on the end face of the tenon 121a in the length direction to achieve a fixed connection with the second docking portion 122. In this embodiment, the second docking portion 122 is provided with a plurality of insertion cavities 122a for the mating insertion of the tenons 121a, and a second snap-fit structure 122a1 matching the first snap-fit structure 121a1 is provided on the inner side of the insertion cavity 122a. Thus, the snap-fit cooperation between the first snap-fit structure 121a1 and the second snap-fit structure 122a1 achieves mutual stable constraint.
[0104] Furthermore, the structural configuration of the flower box body 1 is the same as the aforementioned configuration, and will not be repeated here.
[0105] like Figure 7 As shown, according to one embodiment of the present invention, the inner liner 3 is detachably arranged inside the flower box body 1. The inner liner 3 and the flower box body 1 can be detachably connected or in sliding contact, or they can be non-contacting, depending on the specific requirements. In this embodiment, the inner liner 3 includes a hollow inner liner body 31; wherein the inner liner body 31 is a regular cylindrical body with an open top, and a second reinforcing rib structure 31a is provided on the inner side of the inner liner body 31, and a second support column 31b is provided at the bottom of the inner liner body 31; in this embodiment, the second reinforcing rib structure 31a also adopts a mesh structure to reliably reinforce the inner liner body 31. In this embodiment, multiple second support columns 31b are regularly arranged, and some of the second support columns 31b have overflow outlets at their tops.
[0106] In this embodiment, the cross-section of the inner liner body 31 can be set to gradually decrease along the vertical direction. This arrangement facilitates the installation of the inner liner 3 inside the flower box body 1, and its larger opening at the top enables positioning, ensuring flexible and accurate installation.
[0107] In this embodiment, the upper end of the inner liner body 31 is provided with an outwardly bent skirt 31c, and a connecting rib 31d is provided between the skirt 31c and the inner liner body 31. This arrangement effectively ensures the structural strength of the open end of the inner liner 3, making it easier to maintain reliable and stable structure during disassembly, assembly, and filling processes.
[0108] In this embodiment, the bottom of the inner liner body 31 may optionally be provided with a roller mounting position 31e for detachable connection of rollers. The roller mounting position 31e facilitates quick and easy assembly and disassembly of the rollers, further facilitating the movement of the inner liner 3. Especially after filling, the installed rollers allow for easier and less strenuous movement to the designated location, enhancing its usability. Furthermore, the rollers can be removed when transport is not required, allowing for customized assembly and disassembly for different user scenarios, effectively improving the flexibility of this solution.
[0109] In this embodiment, the inner liner 3 is a PP plastic part, and it is manufactured by one-piece molding.
[0110] The above content is merely an example of a specific solution of this utility model. For the equipment and structures not described in detail, it should be understood that they are implemented using common equipment and methods already available in the field.
[0111] The above description is merely one solution of this utility model and is not intended to limit it. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A flower box body, characterized in that, include: Multiple side panels (11); The multiple side plates (11) are spliced together in a ring to form a regular hollow structure, wherein the sides of adjacent side plates (11) are connected to each other by a butt joint structure (12). The docking structure (12) includes: a first docking portion (121) and a second docking portion (122); The first docking portion (121) is provided with a plurality of tenons (121a), and the plurality of tenons (121a) are arranged at intervals along the side edge of the side plate (11); The end face of the tenon (121a) in the length direction may optionally be provided with a first snap-fit structure (121a1). The second mating portion (122) is provided with a plurality of insertion cavities (122a) for the mating insertion of the tenon (121a), and the inner side of the insertion cavity (122a) is provided with a second snap-fit structure (122a1) that matches the first snap-fit structure (121a1).
2. The flower box body according to claim 1, characterized in that, The tenon (121a) is a hollow structure with an opening on one side, and the opening side of the tenon (121a) is the same side as the inner side of the side plate (11) to which it is installed. The hollow portion of the tenon (121a) is provided with at least one first reinforcing rib (121a11).
3. The flower box body according to claim 1 or 2, characterized in that, Adjacent tenons (121a) are connected by a plate-shaped connecting part (1211), and the plate-shaped connecting part (1211) is fixed to the side where the tenon (121a) is installed.
4. The flower box body according to claim 3, characterized in that, The second docking part (122) includes: a hollow beam (1221) with an opening on one side, and a plurality of spaced baffles (1222) disposed inside the hollow beam (1221). The opening side of the hollow beam (1221) is the same side as the inner side of the side plate (11) on which it is installed; Along the length of the hollow beam (1221), a plurality of spacer baffles (1222) are regularly arranged to divide the plurality of insertion cavities (122a). In the vertical direction, the lower end of the hollow beam (1221) is flush with or extends beyond the bottom end of the side plate (11).
5. The flower box body according to claim 4, characterized in that, The side plate (11) includes: a side plate body (111), an upper side beam (112) disposed at the upper end of the side plate body (111), and a lower side beam (113) disposed at the lower end of the side plate body (111). Along the length direction of the upper beam (112), a plurality of linear grooves (111a) are arranged at equal intervals on the outer side of the side plate body (111), and the bottom of the linear grooves (111a) protrudes from the inner side of the side plate body (111). Along the length of the upper beam (112), a plurality of second reinforcing ribs (111b) are arranged at equal intervals on the inner side of the side plate body (111). The upper end of the second reinforcing rib (111b) is fixedly connected to the upper side beam (112), the lower end of the second reinforcing rib (111b) is fixedly connected to the lower side beam (113), and one side of the second reinforcing rib (111b) is fixedly connected to the bottom of the linear groove (111a).
6. The flower box body according to claim 5, characterized in that, The upper beam (112) is a hollow structure with an opening on one side, and the opening side of the upper beam (112) is the same side as the inner side of the side plate (11). The lower beam (113) has an opening on one side, and the opening side of the lower beam (113) is the same side as the inner side of the side plate (11). The length of the tenon (121a) is greater than the spacing between adjacent tenons (121a).
7. A flower box, characterized in that, include: The flower box body (1) and bottom support (2); The flower box body (1) includes: multiple side panels (11); The multiple side plates (11) are spliced together in a ring to form a regular hollow structure; The sides of adjacent side plates (11) are connected to each other by a butt joint structure (12), and the side of the bottom support (2) is connected to the bottom end of the side plate (11) by a butt joint structure (12). The docking structure (12) includes: a first docking portion (121) and a second docking portion (122); The first docking portion (121) is provided with a plurality of tenons (121a), and the plurality of tenons (121a) are arranged at intervals along the side edge of the side plate (11); The end face of the tenon (121a) in the length direction may optionally be provided with a first snap-fit structure (121a1). The second mating portion (122) is provided with a plurality of insertion cavities (122a) for the mating insertion of the tenon (121a), and the inner side of the insertion cavity (122a) is provided with a second snap-fit structure (122a1) that matches the first snap-fit structure (121a1).
8. The flower box according to claim 7, characterized in that, The upper side of the bottom support (2) is provided with a first reinforcing rib structure (21) and a first support column (22). There are multiple first support columns (22) arranged in a regular pattern, and some of the first support columns (22) have overflow outlets at their tops.
9. A flower box, characterized in that, include: The flower box body (1) and inner liner (3); The flower box body (1) includes: multiple side panels (11); The multiple side plates (11) are spliced together in a ring to form a regular hollow structure; The sides of adjacent side plates (11) are connected to each other by a butt joint structure (12); The docking structure (12) includes: a first docking portion (121) and a second docking portion (122); The first docking portion (121) is provided with a plurality of tenons (121a), and the plurality of tenons (121a) are arranged at intervals along the side edge of the side plate (11); The end face of the tenon (121a) in the length direction may optionally be provided with a first snap-fit structure (121a1). The second mating portion (122) is provided with a plurality of insertion cavities (122a) for the mating insertion of the tenon (121a), and the inner side of the insertion cavity (122a) is provided with a second snap-fit structure (122a1) that matches the first snap-fit structure (121a1).
10. The flower box according to claim 9, characterized in that, The inner liner (3) includes: a hollow inner liner body (31); The inner liner body (31) is provided with a second reinforcing rib structure (31a) on the inner side, and a second support column (31b) is provided at the bottom of the inner liner body (31). Multiple second support columns (31b) are arranged in a regular pattern, and some of the second support columns (31b) are provided with overflow outlets at their tops; The upper end of the inner liner body (31) is provided with an outwardly bent skirt (31c), and a connecting rib (31d) is provided between the skirt (31c) and the inner liner body (31). The bottom of the inner liner body (31) may optionally be provided with a roller mounting position (31e) for detachable connection of rollers.