The present invention relates to a storage-carried box, and in particular, to a lightweight large-capacity miniature-carried box.
Miniature model boxes used by tabletop wargame players are mainly used for the tabletop game players to carry the tabletop miniature models. In the prior art, a conventional carrying tool is a box with a deformable soft cushion layer (such as a sponge cushion layer, an air bag cushion layer, and the like) inside, and each miniature model is placed independently in independent space partitioned by the soft cushion layer. Such carrying tool can protect the miniature model extremely well by using partition of the soft cushion layer, so that the miniature model is not bumped during carrying. However, an internal space utilization rate of an entire box is extremely low, making it difficult to carry a large quantity of miniature models.
To resolve the above technical problem, the present invention provides a lightweight large-capacity miniature-carried box. The box has advantages of light weight, high strength, large capacity, and a high space utilization rate, so that a large quantity of miniature models of tabletop games can be easily carried.
Technical solutions of the present invention are as follows.
A lightweight large-capacity miniature-carried box, including a box body provided with a box door on a circumferential surface, the box body includes several lightweight panels, several goods sliding grooves are symmetrically formed on opposite surfaces of the lightweight panels located on two sides of the box door of the box body, the several goods sliding grooves are disposed in a horizontal direction, a tray is erected between two goods sliding grooves that are symmetrically horizontally arranged, the tray is capable of being pulled and pushed in a direction of the box door, the tray has a tray-shaped structure that is capable of magnetically attracting a miniature model, and a shape of the tray matches a cross section of the box body.
A further technical solution is as follows: several small protruding blocks are formed on the lightweight panels on which the goods sliding grooves are located, and the goods sliding grooves are formed between two adjacent rows of small protruding blocks; and preferably, a height of the several small protruding blocks in a vertical direction is 1-2 cm, and a height of each row of small protruding blocks is consistent, and a width of the goods sliding groove is 0.2-0.8 cm.
A further technical solution is as follows: the lightweight panel is a hollow double-layer panel, and the box body is formed by splicing several of the double-layer panels, and several reinforcing grooves are formed on inner side surfaces of the double-layer panels, and the several reinforcing grooves are staggered at intervals.
A further technical solution is as follows: the reinforcing grooves have long waist-shaped structures, and the reinforcing grooves are arranged in a same direction on a same double-layer panel.
A further technical solution is as follows: an included angle is formed between an arrangement direction of the several reinforcing grooves located on opposite surfaces of the double-layer panels on both sides of the box door and a length direction of the goods sliding grooves, and the included angle is preferably 90°.
A further technical solution is as follows: the box body has a square box-shaped structure, and the square box-shaped structure includes a left side panel and a right side panel which are oppositely arranged, a rear panel is inserted and assembled at rear ends between the left side panel and the right side panel, a top panel is detachably and firmly connected to tops of the left side panel and the right side panel, a bottom panel is detachably and firmly connected to bottoms of the left side panel and the right side panel, and front ends of the left side panel and/or right side panel are rotatably connected to the box door.
A further technical solution is as follows: end surfaces at the tops and bottoms of the left side panel and the right side panel are respectively pre-embedded with pre-embedded nuts for detachably fastening the top panel and the bottom panel, and the top panel and the bottom panel are respectively in threaded connection with the pre-embedded nuts through threaded connectors.
A further technical solution is as follows: side edges of the top panel and the bottom panel are provided with first threaded connectors protruding toward the left side panel and the right side panel respectively, corresponding positions of the left side panel and the right side panel are provided with counterbores, and it is designed that the second threaded connectors are in threaded connection with the first threaded connectors after passing through the counterbores, so that the left side panel and the right side panel are locked on the top panel and the bottom panel.
A further technical solution is as follows: the lightweight panel is a lightweight plastic foam board, and the box body is integrally formed by several lightweight plastic foam boards.
A further technical solution is as follows: the box door is provided with a transparent window, an illumination light strip is disposed around a periphery of the transparent window on an inner side surface of the box door, and an illumination surface of the illumination light strip is obliquely disposed toward the transparent window.
A further technical solution is as follows: limiting strips that are convex and block-shaped are respectively formed on two inner side surfaces of a top and bottom of the box body, and the limiting strips respectively stop at the top and bottom of inner side surfaces of the box door.
A further technical solution is as follows: chuck grooves are respectively formed at a top end face and a bottom end face of the door panel; and positions on the inner side surfaces of the top and bottom of the box body and corresponding to the chuck grooves are respectively provided with protruding chucks that are convex, and the protruding chucks are capable of being elastically clamped into the corresponding chuck grooves and are limited in the chuck grooves.
A further technical solution is as follows: the box door includes one or two door panels rotatably connected to a lightweight panel on a side surface of the box body, and preferably, the box door includes a front small door opening panel and a front large door opening panel that are rotatably connected to front ends of two opposite lightweight panels of the box body.
A further technical solution is as follows: the top of the box body is positioned with a handle, the handle includes a lifting and holding part and a fastening part, and the fastening part is firmly connected to the top of the box body; and grooves are respectively formed on the inner side surface of the top of the box body and corresponding to two free ends of the lifting and holding part, the two free ends of the lifting and holding parts respectively pass through side walls of the corresponding grooves and are rotatably connected to the fastening part.
Beneficial effects of the present invention are as follows.
To understand the technical means of the present invention more clearly and implement the technical means according to the content of the specification, specific implementations of the present invention are further described in detail below with reference to the drawings and embodiments. The following embodiments are used to illustrate the present invention, but are not used to limit the scope of the present invention.
The embodiments describe in detail a lightweight large-capacity miniature-carried box. The box may be a box-shaped structure of any shape with a hollow interior. In specific embodiments, a square box-shaped structure is used as an example for description.
Refer to
The box body is formed by splicing the several hollow double-layer plastic panels. In this specific embodiment, the box body 100 has a square box-shaped structure and includes five of the above double-layer plastic panels, namely, a left side panel 1, a right side panel 2, a top panel 3, a bottom panel 4, and a rear panel 5. The five double-layer plastic panels and the box door 6 form six sides of the square box.
The left side panel 1 and the right side panel 2 are disposed opposite to each other, and the rear panel 5 is inserted and assembled at rear ends between the left side panel 1 and the right side panel 2. A specific structure may be that side surfaces at the rear ends between the left side panel and the right side panel are provided with corresponding slots 101, and two side edges of the rear panel 5 are both provided with inserted parts 501 matching the slots. The inserted parts are assembled into the slots by inserting, so that the left side panel 1 and the right side panel 2 are assembled together by using the rear panel 5.
The top panel 3 is detachably and firmly connected to tops of the left side panel 1 and the right side panel 2, and the bottom panel 4 is also detachably and firmly connected to bottoms of the left side panel and the right side panel. A specific detachable and firm connection structure is as follows, as shown in
End surfaces at the tops and bottoms of the left side panel 1 and the right side panel 2 are respectively pre-embedded with pre-embedded nuts 301 for detachably fastening the top panel 3 and the bottom panel 4, and pre-embedded positions may be corresponding to four corners of the top panel 3 and the bottom panel 4, or may be arranged along cross sections of the whole left side panel 1 and right side panel 2. Positions on the top panel 3 and the bottom panel 4 and corresponding to the pre-embedded nuts 301 are provided with through holes, and threaded connectors 302 (such as bolts) may be used to penetrate the through holes and be connected to the pre-embedded nuts 301, so that the top panel 3 and the bottom panel 4 are firmly connected to the top and bottom respectively. The nuts are pre-embedded, so that the top panel 3 and the bottom panel 4 are fastened more firmly and are not easy to fall compared with a conventional manner in which threaded holes are provided on plastic panels and connection is performed by threaded connectors.
The box door 6 is rotatably connected to front ends of the left side panel and/or the right side panel. The box door may be a lightweight panel that is rotatably connected to a side surface of the box body as a door panel, or may be two lightweight panels that are rotatably connected to a lightweight panel on a side surface of the box body as the door panels. In this specific embodiment, the latter is used. The box door 6 includes a front small door opening panel 61 and a front large door opening panel 62 that are rotatably connected to front ends of two opposite lightweight panels of the box body 100.
The front small door opening panel 61 is rotatably connected to a front end of the left side panel 1, the front large door opening panel 62 is rotatably connected to a front end of the right side panel 2, and the front small door opening panel and the large door opening panel are buckled together to form the above box door 6. A specific structure of rotating connection may be as follows: protruding rotating shafts 601 are formed on a top surface and bottom surface of the front small door opening panel 61 and the front large door opening panel 62 (the rotating shafts 601, the front small door opening panel, and the front large door opening panel may be integrally formed or may be separately formed, and an integrally formed structure is used in this embodiment). Positions on the top panel 3 and the bottom panel 4 and corresponding to the rotating shafts 601 are provided with rotating shaft grooves 303. The rotating shafts are axially limited in the rotating shaft grooves, so that the front small door opening panel and large door opening panel can rotate around the rotating shafts to implement door opening and door closing. When in use, the front large door opening panel and the front small door opening panel can be opened toward two sides; and the front large door opening panel 62 is provided with a transparent window 602 to facilitate observing a situation in the box. When the box door 6 is only a lightweight panel as a door panel, a structure of rotating connection is consistent with the above situation, and the transparent window 602 is opened only on the lightweight panel.
In addition, on two opposite inner side surfaces of the top panel 3 and the bottom panel 4, limiting strips 304 that are convex and block-shaped are formed corresponding to inner side surfaces of the front small door opening panel 61 and the front large door opening panel 62 respectively. The limiting strips respectively stop at the tops and bottoms of the inner side surfaces of the two door panels, so that the two door panels cannot rotate toward the inside of the box along rotating shafts 601 of the two door panels, thereby preventing the door panels from being recessed because a user closes the box with an excessive force. A shape of the convex block-shaped structure of the above limiting strip 304 and close to the inner side surface of the door panel matches the inner side surface of the door panel. For example, in this specific embodiment, the inner side surface of the door panel is a vertical plane, and a corresponding surface of the limiting strip is also a vertical panel.
In addition, on the two opposite inner side surfaces of the top panel 3 and the bottom panel 4, protruding chucks 305 that are convex are formed respectively corresponding to top end faces and the bottom end faces of the front small door opening panel 61 and the front large door opening panel 62; and matching chuck grooves 603 that are concave are formed on the top end face and the bottom end face of the box door 6 and corresponding to the protruding chucks 305. When the two door panels of the box door are closed, the protruding chucks 305 enter the chuck grooves 603 and are limited in the chuck grooves, so that the door panel can be closed tightly and positioned in place. In this way, when the box is carried during walking, the door panel is not opened due to shaking. In this specific embodiment, the protruding chucks 305 are in strip-shaped structures, and a radial cross-section of the strip-shaped structure is semicircular, that is, an outer surface of the protruding chuck is an arc surface. The corresponding chuck grooves 603 are strip-shaped grooves corresponding to the protruding chucks, and radial sections of the strip-shaped grooves are bowl-shaped structures matching the protruding chucks, and the bottoms of the bowl-shaped structures are flat, and both sides extend upward along two sides of the plane to form concave surfaces. The depths of the chuck grooves are not less than the heights of the protruding chucks. In this way, when the panel is pushed to the protruding chucks, the protruding chucks use elasticity of plastic parts and the arc surface structure to smoothly enter the chuck grooves. When the box is carried for movement, the protruding chucks 305 are difficult to slide out of the chuck grooves 603, thereby implementing positioning of the door panel.
In addition, in this specific embodiment, two protruding chucks 305 are provided on the bottom panel or the top panel. The two protruding chucks 305 correspond to the front small door opening panel 61 and the front small door opening panel 62 respectively, and are arranged symmetrically on the bottom panel 3 or the top panel 4. In this way, if the user has requirements for a direction in which the box door is opened, the front large door opening panel and the front small door opening panel of the box can be exchanged at will during assembly, and the protruding chucks and the corresponding chuck grooves can play corresponding roles. When only one box door is provided, only one protruding chuck 305 may be provided.
To clearly see placement of articles in the box in case of dim light, the present invention further provides an illumination light strip 604 around a periphery of the transparent window 602 on an inner side surface of the box door 6. An illumination surface of the illumination light strip 604 is obliquely disposed toward the transparent window 602. More specifically, an LED light strip may be selected for the illumination light strip, and two LED light strips are vertically embedded at both sides of the transparent window on the inner side surface of the box door. An irradiation surface of the illumination light strip faces the inside of the box body, and an angle at which the irradiation surface is inclined is preferably 45°, so that a maximum range of an inner region of the box body can be illuminated by a light strip with the same brightness. In addition, a battery box 605 for holding a dry battery is also disposed on an inner side of the box door provided with the LED light strip. Electrical contacts disposed in the battery box communicate with the LED strip through wires, and a switch button is disposed on a communication line, and a push end of the switch button is disposed on an outer side surface of the box door.
Several goods sliding grooves 9 are symmetrically formed on opposite surfaces of the lightweight panels located on two sides of the box door of the box body 100. The several goods sliding grooves 9 are disposed in a horizontal direction, and a tray 200 is erected between two goods sliding grooves that are symmetrically horizontally arranged. The tray can be pulled and pushed in a direction of the box door. The goods sliding groove 9 is formed in such a way in which several small protruding blocks 8 are formed on the lightweight panels on which the goods sliding grooves 9 are located, and the goods sliding grooves 9 are formed between two adjacent rows of the small protruding blocks 8. In this specific embodiment, the small protruding blocks 8 are in strip structures, and a length direction of the small protruding blocks with the strip structures are arranged along a push-pull direction of the tray 200. The small protruding blocks 8 are specifically disposed on two opposite inner side surfaces of the left side panel 1 and the right side panel 2, to be spread the entire inner side surfaces. When the above small protruding blocks are disposed, the small protruding blocks can be arranged in group of upper and lower rows or in a single row. In addition, a length of the small protruding blocks may be the same as or shorter than a width of the left side panel 1 or the right side panel 2 (that is, in the pull-push direction of the tray).
A height of the several small protruding blocks 8 in a vertical direction is 1-2 cm, preferably 1 cm, and a height of each row of small protruding blocks is consistent. A width of the goods sliding groove 9 is 0.2-0.8 cm, most preferably 0.5 cm. The height of the small protruding blocks 8 and the width of the goods sliding grooves 9 are designed, so that a height position of the tray 200 in the box can be finely adjusted, to adapt to miniature models with different heights, and prevent the waste of space in the box.
In addition, considering carrying portability, the five panels and the box door that form the box body 100 are all plastic panels or metal sheets, and are hollow double-layer panels, so the strength is not high. To resolve the technical problem and increase the firmness of the box, in addition to increase of the strength of the double-layer hollow panels by arranging the small protruding blocks 8 on the opposite inner side surfaces of the left side panel 1 and the right side panel 2, a several reinforcing grooves 10 arranged at intervals can also be formed on the inner side surfaces of the double-layer hollow panels forming the box body 100. In this specific embodiment, the reinforcing grooves 10 have long waist-shaped structures, and the reinforcing grooves are arranged in a same direction on a same double-layer hollow panel. For example, a length direction of the reinforcing grooves 10 on the inner side surfaces of the top panel 3 and the bottom panel 4 is the same as a length direction of the panels. The length direction of the reinforcing grooves 10 on inner side surfaces of the rear panel 5 and the box door 6 (such as a single box door or the front large door opening panel 62) is arranged vertically. A direction of the reinforcing grooves 10 on an inner side surface of the front small door opening panel 61 is the same as a width direction of the front small door opening panel. An included angle is formed between an arrangement direction of the several reinforcing grooves 10 located on opposite surfaces of the double-layer hollow panels on both sides of the box door (that is, on the inner side surfaces of the left side panel 1 and the right side panel 2) and a length direction of the goods sliding grooves 9, and the included angle is preferably 90°. To be specific, the length direction of the reinforcing grooves 10 with the long waist-shaped structures is perpendicular to the length direction of the goods sliding grooves 9. Through arrangement and an arrangement manner for the small protruding blocks 8 and the reinforcing grooves 10, the strength of the plastic panel can be increased, and concave deformation of the flat plastic panel after being stressed can be prevented.
In addition, in this specific embodiment, the small protruding blocks 8 are arranged in a manner in which the small protruding blocks 8 are shorter than the width direction of the side panel and are arranged in group of two adjacent rows, as shown in
The top of the box body 100 is positioned with a handle 11 that can rotate movably. The handle 11 includes a lifting and holding part 1101 and a fastening part 1102. Grooves 102 are respectively formed on the inner side surface of the top of the box body 100 and corresponding to two free ends 1101a of the lifting and holding part. The two free ends 1101a of the lifting and holding parts 1101 respectively pass through side walls of the corresponding grooves 102 and are rotatably connected to the fastening part 1102. The fastening part 1102 is a fastening sleeve, which has a rod-shaped structure with hollow ends or hollow interior. Two ends of the fastening sleeve are respectively sleeved and in threaded connection with the two free ends 1101a. The fastening sleeve is firmly connected to the top of the box body 100, and a specific connection manner is as follows: the fastening part 1102 is provided with threaded holes, two of the threaded holes are provided at intervals in this embodiment, and each threaded hole is correspondingly provided with a threaded connector 1105, and the threaded connector 1105 sequentially passes through a gasket 1106 and a lightweight panel at the top of the box body, and then is screwed into the threaded hole, to firmly connect the fastening sleeve to the top of the box body. In this way, the handle can be more firmly fastened on the box body.
In this specific embodiment, the reinforcing grooves arranged on the inner side surface of the top panel can be used as the grooves for positioning the lifting and holding part of the handle. In this way, when the lifting and holding part of the handle is positioned, first, the two free ends pass through side walls of the grooves, and parts penetrating out of the two free ends are close to bottoms of the grooves. Compared with the structure in the prior art that the two free ends of the handle for rotation are disposed in a hollow cavity in the middle of a double-layer plastic panel, and only the two free ends of the handle are supported by using a single-layer plastic panel, two stress positions may be added because the two plastic panels are penetrated when the side walls of the grooves are penetrated. In addition, due to the arrangement of the grooves, the plastic panel located above the rotating part has two sides, and the total thickness can be doubled, thus increasing a bearing capacity of the handle. Two firm connection points are added, which can make the handle more firmly fastened on the top panel.
In this application, a quantity of the trays 200 may be set based on a miniature height and space separation. In this specific embodiment, there are five trays which are independently and movably disposed in the goods sliding grooves 9. The tray 200 has a tray-shaped structure that can magnetically attract the miniature model, and a shape of the tray matches a cross section of the box body. The tray 200 may be made of a magnet, a composite material formed by adding a magnet to a lightweight material, or a structure in which a magnet adsorption layer is formed on a surface of a conventional tray. The tray may alternatively be made of a metal material (such as iron) capable of adsorbing with a magnet, a lightweight composite material mixed with a metal material capable of adsorbing with a magnet, or a conventional tray of which a placing surface is provided with a metal material layer capable of adsorbing with a magnet. When the tray 200 is used in conjunction with the miniature model, usually, a magnet block may be usually added below the miniature model, so that the miniature model can be firmly magnetically attracted to the tray when placed on the tray, thus preventing the miniature models from moving and colliding during carrying of the box. In this specific embodiment, considering the lightweight requirements for the entire box, the tray is usually made of an iron sheet.
Other structures of the second specific embodiment 2 are the same as the structures described in the first embodiment, but differences are as follows:
A top panel 3 is detachably and firmly connected to tops of a left side panel 1 and a right side panel 2, and a bottom panel 4 is also detachably and firmly connected to bottoms of the left side panel and the right side panel. A specific structure of detachable and firm connection may also be described as follows, as shown in
First threaded connectors 306 protruding outward toward the left side panel 1 and the right side panel 2 are respectively formed on side edges of the top panel 3 and the bottom panel 4. The first threaded connectors may be integrally formed with the top panel 3 or the bottom panel 4, or may be connected to the top panel 3 or the bottom panel 4 by post-processing. The first threaded connectors 306 are screw members with external threads, there are at least two screw members, and the at least two screw members are arranged at intervals along a length direction of a side edge of the top panel or the bottom panel. Positions on the left side panel 1 and the right side panel 2 and corresponding to the first threaded connectors 306 are provided with counterbores 103, and it is designed that the second threaded connectors 307 are in threaded connection with the first threaded connectors 306 after passing through the counterbores 103, so that the left side panel 1 and the right side panel 2 are locked on the top panel 3 and the bottom panel 4. The second threaded connector 306 is a hexagonal countersunk head screw sleeve with an internal thread, which penetrates the counterbore 103 and is in threaded connection with an external thread of the screw member, and the side panel is locked on the top panel or the bottom panel through counterbores of the side panel and the countersunk structure of the screw sleeve. In this detachable assembling manner, the appearance is more clean and flat, and, it is more convenient to disassemble and assemble the box in a horizontal direction only by using a hexagon wrench 7, without inverting the box up and down.
In this specific embodiment, a lightweight panel used for a box body 100 is a lightweight plastic foam board which is made of common foamed plastics (such as expanded polystyrene, or the like), and which may be a high-density lightweight plastic foam board. When the lightweight plastic foam board is used, the box body has an integrated structure. When in use, the box may be matched with a shoulder strap bag or a handle bag wrapped outside the box. In this case, the box door may alternatively be the lightweight plastic foam board, and for connection with the box body, the box door may be rotatably connected to a side wall of the box body by hinge structure. When the box body is made of the light plastic foam board, because the box body has a solid structure, no reinforcing groove is provided on each lightweight panel. Other structures are the same as structures mentioned in the first specific embodiment. See
The above is only preferred implementations of the present invention and is not used to limit the present invention. It should be note that a person skilled in the art can make several improvements and variations without departing from the technical principles of the present invention, and these improvements and variations should also be regarded as a protection scope of the present invention.
Number | Date | Country | |
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Parent | 18331041 | Jun 2023 | US |
Child | 18961616 | US |