A portable stove which is easy to disassemble and store

By designing a detachable stove structure and using rivet and snap-fit ​​connections, the stove can be easily disassembled and folded, solving the problems of inconvenient storage and transportation and improving the user experience.

CN224320491UActive Publication Date: 2026-06-05NATIAN XINNENG (DONGGUAN) TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NATIAN XINNENG (DONGGUAN) TECH CO LTD
Filing Date
2025-05-28
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing integrated structure of kitchen stoves makes storage and transportation inconvenient, takes up a lot of space, and results in a poor user experience.

Method used

Design a detachable stove structure, including a frame, bracket, support legs and tray. It can be detached and folded through riveting and snap-fit ​​structure. The support legs can rotate to support and hook the crossbeam. The tray can be snapped onto the crossbeam. Limiting plates and locking parts ensure stability. Multiple tray components can be stacked and stored.

Benefits of technology

The stove can be easily disassembled and folded, reducing storage and transportation space requirements and improving its flexibility and portability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of dining stove of easy disassembly storage, including a frame body and the plate assembly supported by the frame body, wherein the frame body includes: bracket, the plate assembly is placed on the bracket, and it further includes support leg, the support leg includes two respectively in the bracket both ends, the support leg includes mutually opposite leg portion and the crossbeam connected between the leg portion, the leg portion end is rotatably connected with the side wall, and tray, the tray both ends are detachably connected on the crossbeam, and the both ends of the tray are respectively provided with the hook portion for the lateral outside of the crossbeam is hooked. It can be disassembled into several parts in the case of not using, and folding is stacked after each other to facilitate storage, so as to reduce the space of storage and facilitate transportation and storage.
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Description

Technical Field

[0001] This utility model relates to the field of kitchen stove technology, specifically to a kitchen stove that is easy to disassemble and store. Background Technology

[0002] A food warmer is a appliance used outdoors or in restaurants to hold and keep food warm. A food warmer generally includes a plate assembly for holding food and a frame for supporting the plate assembly. When in use, a heating device is placed under the plate assembly to keep the food inside the plate assembly warm.

[0003] However, since a stove consists of multiple components and is not used for extended periods, it is typically stored away in a single unit when not in use. Currently, most stoves on the market are one-piece designs, making it inconvenient to store multiple stoves together during storage or transportation. This requires a significant amount of space, resulting in a poor user experience and creating transportation and storage challenges.

[0004] Therefore, there is an urgent need for a new technology that can solve the above-mentioned technical problems. Utility Model Content

[0005] The purpose of this utility model is to provide a kitchen stove that is easy to disassemble and store, in order to solve the above-mentioned technical problems. The utility model adopts the following technical solution:

[0006] A conveniently disassembled and stored cooking stove includes a frame and a tray assembly supported by the frame, the frame comprising:

[0007] The bracket, configured as a frame structure defined by four end-to-end connected sidewalls, upon which the disc assembly is placed, also includes...

[0008] The support leg comprises two legs located at opposite ends of the bracket. Each support leg includes opposing leg portions and a crossbeam connecting the legs. The ends of the legs are rotatably connected to the sidewall. The legs can pivot to switch between a supported state and a folded state.

[0009] The tray is detachably connected to the crossbeam at both ends, and each end of the tray is provided with a hook for hooking the outside of the crossbeam.

[0010] Furthermore, a snap-fit ​​structure is provided between the tray and the crossbeam to snap the tray onto the crossbeam.

[0011] Furthermore, the snap-fit ​​structure includes holes formed on the crossbeam and snap-fit ​​blocks formed on the tray and snapped into the holes.

[0012] Furthermore, the card block includes:

[0013] The protrusion extends beyond the back of the tray;

[0014] An extension, one end of which is formed at the end of the protrusion away from the back of the tray, and the other end extends toward the hook.

[0015] Furthermore, a hole is punched on the tray, and a piece of excess material is formed along the edge of the hole, which is then bent into the card block.

[0016] Furthermore, a limiting plate is formed on the upper part of the leg. The limiting plate is formed at the edge of the leg away from the other leg. When the leg is in a supported state and separated from the bracket, the end of the limiting plate abuts against the lower edge of the bracket. When the leg is in a folded state, the side of the limiting plate facing the other leg abuts against the lower edge of the bracket.

[0017] Furthermore, the leg is also formed with a locking member corresponding to the side wall. When the leg is in a folded state, the locking member and the side wall engage with each other. The locking member includes a side portion formed on the leg and a locking part formed on the side portion away from the leg and bent toward the other leg. The locking part and the leg define a locking cavity for locking the side wall inside.

[0018] Furthermore, the side portion is formed at the edge of the leg away from the other leg or on the end of the limiting plate protruding from the leg.

[0019] Furthermore, a reinforcing groove is formed on the sidewall and / or leg, the bottom of the reinforcing groove protruding from the surface of the sidewall and / or leg, and the reinforcing groove extending along the length direction of the sidewall and / or leg.

[0020] Furthermore, the disk assembly includes:

[0021] A chassis, which is mounted on the bracket and has a placement cavity formed inside the chassis;

[0022] The sub-tray includes a plurality of sub-trays arranged side by side along the length of the placement cavity and disposed within the placement cavity, and the plurality of sub-trays are provided with receiving cavities for holding items.

[0023] The upper cover covers the chassis to enclose the sub-disc within the placement cavity, and a recessed portion is formed on the upper cover, with a handle rotatably connected within the recessed portion.

[0024] The beneficial effects of this utility model are as follows:

[0025] The present invention provides a detachable and foldable stove. In use, the legs are rotatably connected to the side wall of the bracket via rivets. After the legs rotate along the rivets, separating from the bracket, the legs open and support the bracket, facilitating the placement of the tray assembly on the bracket for support. This allows the tray assembly to be suspended, making it easy to place a heating device under the tray assembly to heat and keep the food inside. Simultaneously, after the two supporting legs open, the tray is detachably mounted on the crossbeam, and the hook at the end of the tray engages with the outer edge of the crossbeam. This prevents the supporting legs from opening too wide or from increasing the angle between the supporting legs and the bracket due to the weight of the tray assembly and the food inside. This ensures stable operation of the stove during use. During the storage process, after the tray assembly is removed from the bracket, multiple tray assemblies can be stacked on top of each other for storage. The tray is removed from the support leg, and the support leg can rotate along the rivet towards the bracket to fold the frame, thus folding the frame into a flat structure for stacking. In this embodiment, by independently setting up the three parts of the stove and disassembling and folding them together, the stove can be reasonably stored for convenient storage and transportation, reducing the time and storage space required during the storage process. Attached Figure Description

[0026] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0027] Figure 2 This is a schematic diagram of the structure of this utility model after the tray is removed.

[0028] Figure 3 This is a schematic diagram of the tray structure in this utility model. Figure 1 .

[0029] Figure 4 This is a schematic diagram of the tray structure in this utility model. Figure 2 .

[0030] Figure 5 for Figure 4 A magnified view of a portion of point A in the middle.

[0031] Figure 6This is a schematic diagram of the structure of this utility model after removing the top cover.

[0032] In the diagram: 10-Frame; 20-Panel assembly; 100-Bracket; 110-Side wall; 120-Support leg; 121-Leg; 122-Crossbeam; 130-Panel; 131-Hook; 1221-Hole; 132-Clamping block; 1321-Protrusion; 1322-Extension; 133-Punch; 1211-Limiting plate; 1212-Clamping part; 12121-Side side; 12122-Clamping part; 21213-Clamping cavity; 1213-Reinforcing groove; 200-Chassis; 210-Sub-panel; 211-Receiving cavity; 220-Top cover; 221-Sunken part; 222-Handle. Detailed Implementation

[0033] To facilitate understanding by those skilled in the art, the present invention will be further described below with reference to embodiments and accompanying drawings. The content mentioned in the embodiments is not intended to limit the present invention. The present invention will be described in detail below with reference to the accompanying drawings.

[0034] In this embodiment, a convenient disassembly and storage stove is provided. When not in use, the stove can be disassembled into several parts, folded, and stacked for easy storage, thereby reducing storage space and facilitating transportation and storage.

[0035] Specifically, such as Figure 1-6 As shown in the present invention, a detachable and foldable stove is provided, including a frame 10 and a tray assembly 20 supported by the frame 10. The tray assembly 20 is used to hold food. The frame 10 includes a bracket 100, support legs 120 and a tray 130. The bracket 100 is configured as a frame structure defined by four side walls 110 connected end to end. The tray assembly 20 is placed on the bracket 100. The support legs 120 include two located at both ends of the bracket 100. The support legs 120 include opposing legs 121 and a crossbeam 122 connected between the legs 121. The ends of the legs 121 are rotatably connected to the side walls 110. The legs 121 can rotate along a pivot to switch between a supported state and a folded state. The two ends of the tray 130 are detachably connected to the crossbeam 122, and the two ends of the tray 130 are respectively provided with hooks 131 for hooking the outside of the crossbeam 122.

[0036] In use, the legs 121 are rotatably connected to the side wall 110 of the bracket 100 via rivets. After the legs 121 rotate along the rivets, separating from the bracket 100, the legs 121 open and support the bracket 100, facilitating the placement of the tray assembly 20 on the bracket 100 for support, thus suspending the tray assembly 20. This allows a heating device to be placed under the tray assembly 20 to heat and keep the food inside warm. After the two support legs 120 are opened, the tray 130 is detachably mounted on the crossbeam 122, and the hook 131 at the end of the tray 130 hooks the outer edge of the crossbeam 122, thereby preventing the support legs 120 from opening too wide, or preventing the support legs 120 from rotating along the rivets again under the gravity of the tray assembly 20 and the food inside the tray assembly 20, thus increasing the angle between the support legs 120 and the bracket 100, thereby ensuring that the stove can be set up stably when in use. During the storage process, after the tray assembly 20 is removed from the bracket 100, multiple tray assemblies 20 can be stacked on top of each other for storage. The tray 130 is removed from the support leg 120, and the support leg 120 can rotate along the rivet towards the bracket 100 to fold the frame 10, thereby folding the frame 10 into a flat structure, which can then be stacked. In this embodiment, by independently setting up the three parts of the stove and disassembling and folding them together, the stove can be reasonably stored for convenient storage and transportation, reducing the time and storage space required during the storage process.

[0037] like Figure 2-5 As shown, a snap-fit ​​structure is also provided between the pallet 130 and the crossbeam 122 to snap the pallet 130 onto the crossbeam 122.

[0038] Specifically, the snap-fit ​​structure includes a hole 1221 formed on the crossbeam 122, and a snap-fit ​​block 132 formed on the tray 130 and snap-fitted into the hole 1221.

[0039] During use, after the locking block 132 is engaged with the hole, the tray 130 is assembled onto the bracket 100. Through the engagement of the tray 130 and the crossbeam 122, and the hook at the end of the tray 130 hooking the outer edge of the crossbeam 122, the movement space of the crossbeam 122 in the inner and outer directions can be restricted, thereby keeping the position of the crossbeam 122 and the tray 130 fixed. In other words, the position of the support leg 120 on the bracket 100 is fixed, thereby improving the stability of the support leg 120 supporting the bracket 100.

[0040] like Figure 4-5As shown, in this embodiment, the card block 132 includes a protrusion 1321 and an extension 1322, wherein the protrusion 1321 protrudes from the back of the tray 130; one end of the extension 1322 is formed at the end of the protrusion 1321 away from the back of the tray 130, and the other end extends toward the hook 131.

[0041] During the process of connecting the pallet 130 and the crossbeam 122, the protrusion 1321 passes through the hole and clamps the extension 1322 with the edge of the hole, thereby completing the interlocking of the pallet 130 and the crossbeam 122. At the same time, since the extension 1322 extends towards the hook, the extension 1322 and the hook can cooperate to clamp the crossbeam 122, thereby improving the fixing and limiting effect of the pallet 130 on the support leg 120 and ensuring the stability of the support leg 120 supporting the bracket 100.

[0042] In this embodiment, the card block 132 is formed by stamping, which reduces the number of processing steps for the tray 130 and lowers processing costs. Figure 5 As shown, a punch 133 is punched on the tray 130. When punching, the punch 133 punches along a non-closed arc, thereby punching out a piece of material with one end integrated with the tray 130. After bending the piece of material, the card block 132 is formed.

[0043] In this embodiment, in order to further limit the angle of the support leg 120 when it is in the support state by rotating along the rivet, and to prevent the support leg 120 from being over-folded and moving upward toward the side wall 110 after it is folded, a limiting plate 1211 is formed on the leg 121. The limiting plate 1211 is formed on the edge of the leg 121 away from the other leg 121. When the leg 121 is in the support state and separated from the bracket 100, the end of the limiting plate 1211 abuts against the lower edge of the bracket 100. When the leg 121 is in the folded state, the side of the limiting plate 1211 facing the other leg 121 abuts against the lower edge of the bracket 100.

[0044] After the support leg 120 is rotated along the rivet to be in a supported state, the end of the limiting plate abuts against the lower surface of the side wall 110, thereby limiting the further folding of the support leg 120 and thus limiting the opening angle of the support leg 120, ensuring the stability of the support. Similarly, after the support leg 120 is rotated along the rivet and gradually turns into a folded state, the side of the limiting plate abuts against the lower edge of the side wall 110, thereby preventing the support leg 120 from being over-folded and swinging to the upper side of the side wall 110.

[0045] In this embodiment, as Figure 2 As shown, in order to ensure high stability of the support leg 120 and bracket 100 after folding and to prevent separation between them, a locking member 1212 corresponding to the side wall 110 is formed on the leg 121. When the leg 121 is folded, the locking member 1212 and the side wall 110 are locked together. The locking member 1212 includes a side portion 12121 formed on the leg 121 and a locking portion 12122 formed on the side portion 12121 away from the end of the leg 121 and bent toward the other leg 121. A locking cavity 12123 is defined between the locking portion 12122 and the leg 121 for locking the side wall 110 inside. When the support leg 120 is folded toward the bracket 100, so that the frame 10 is in a folded state, the side wall 110 gradually inserts into the engaging cavity 12123 and is clamped by the engaging member 1212. This allows the leg 121 and the side wall 110 to engage with each other in the folded state, preventing the leg 121 and the side wall 110 from separating in the folded state, ensuring the stability of the frame 10 in the folded state, and facilitating its storage and transportation.

[0046] In this embodiment, the engaging member 1212 is formed on the edge of one side of the leg 121. Specifically, the side portion 12121 is formed on the edge of the leg 121 away from the other leg 121, thereby enabling the engaging portion 12122 and the leg 121 to define an engaging cavity 12123 in which the side wall 110 is engaged.

[0047] In other embodiments, the engaging member 1212 can also be formed on the limiting plate 1211. Specifically, the side portion 12121 is formed on the end of the limiting plate 1211 that protrudes from the leg portion 121. That is, the side portion 12121 and the limiting plate 1211 are integrally formed, and the end of the side portion 12121 is bent to form the engaging portion 12122. In this embodiment, the end of the engaging portion 12122 is inclined toward the leg 121, thereby closing the opening of the engaging cavity 12123 and preventing the side wall 110 from falling out of the engaging cavity 12123.

[0048] To ensure sufficient support for the frame 10 during the support of the disk assembly 20, reinforcing grooves 1213 are formed on the side walls 110 and / or legs 121. The bottom of the reinforcing grooves 1213 protrudes from the surface of the side walls 110 and / or legs 121, and extends along the length of the side walls 110 and / or legs 121. In this embodiment, reinforcing grooves 1213 are provided on both the side walls 110 and legs 121, thereby improving the bending resistance of the side walls 110 and legs 121 and preventing bending of the legs 121 or side walls 110. It is conceivable that a groove-shaped structure is stamped onto the side walls 110 and legs 121. This improves the bending resistance of long strip-shaped workpieces, thereby improving the load-bearing capacity and reliability of the frame 10.

[0049] In this embodiment, as Figure 6 As shown, the tray assembly 20 is used to hold food. Specifically, the tray assembly 20 includes a base 200, a secondary tray 210, and a top cover 220. The base 200 is mounted on the bracket 100 and has a placement cavity formed inside. The secondary tray 210 includes multiple trays arranged side by side along the length of the placement cavity and is disposed within the placement cavity. Each of the multiple secondary trays 210 has a receiving cavity 211 for holding items. The top cover 220 covers the base 200 to enclose the secondary trays 210 within the placement cavity. A recessed portion 221 is formed on the top cover 220, and a handle 222 is rotatably connected within the recessed portion 221.

[0050] During use, the placement cavity of the chassis 200 is used to hold multiple auxiliary plates 210. The receiving cavities 211 of different auxiliary plates 210 are used to hold different foods. At the same time, the placement cavity also contains liquid to maintain a uniform temperature. During the heating and heat preservation process, the heating device heats the bottom of the chassis 200, causing the liquid in the placement cavity to heat up, thereby evenly heating all the auxiliary plates 210. This ensures that the food in the multiple auxiliary plates 210 has a roughly the same temperature, ensuring the heat preservation effect. Meanwhile, the upper cover 220 seals the auxiliary plates 210 in the placement cavity, ensuring the hygiene of the food while keeping it warm. During storage, the multiple base plates 200 and the auxiliary plates 210 can be stacked on top of each other, thereby reducing the space occupied during storage. At the same time, during storage, the handle 222 of the top cover 220 can be folded into the recessed part 221. During the stacking of multiple top covers 220, the handles 222 will not interfere with each other, and the contact between the stacked top covers 220 is tight, reducing the appearance of gaps. This ensures that the top covers 220 have a small space and are relatively stable after being stacked.

[0051] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model in any way. Although the present utility model has been disclosed above with preferred embodiments, it is not intended to limit the present utility model. Any person skilled in the art can make some changes or modifications to the above-disclosed technical content to create equivalent embodiments without departing from the scope of the present utility model. Any simple modifications, equivalent changes and modifications made to the above embodiments based on the present utility model without departing from the scope of the present utility model shall fall within the scope of the present utility model.

Claims

1. A conveniently disassembled and stored cooking stove, comprising a frame and a tray assembly supported by said frame, characterized in that, The frame includes: The bracket, configured as a frame structure defined by four end-to-end connected sidewalls, upon which the disc assembly is placed, also includes... The support leg comprises two legs located at opposite ends of the bracket. Each support leg includes opposing leg portions and a crossbeam connecting the legs. The ends of the legs are rotatably connected to the sidewall. The legs can pivot to switch between a supported state and a folded state. The tray is detachably connected to the crossbeam at both ends, and each end of the tray is provided with a hook for hooking the outside of the crossbeam. A limiting plate is formed on the upper part of the leg. The limiting plate is formed at the edge of the leg away from the other leg. When the leg is in a supported state and separated from the bracket, the end of the limiting plate abuts against the lower edge of the bracket. When the leg is in a folded state, the side of the limiting plate facing the other leg abuts against the lower edge of the bracket.

2. A kitchen stove that is easy to disassemble and store according to claim 1, characterized in that, A snap-fit ​​structure is also provided between the pallet and the crossbeam to snap the pallet onto the crossbeam.

3. A kitchen stove that is easy to disassemble and store according to claim 2, characterized in that, The snap-fit ​​structure includes holes formed on the crossbeam and snap-fit ​​blocks formed on the tray and snapped into the holes.

4. A kitchen stove that is easy to disassemble and store according to claim 3, characterized in that, The card block includes: The protrusion extends beyond the back of the tray; An extension, one end of which is formed at the end of the protrusion away from the back of the tray, and the other end extends toward the hook.

5. A kitchen stove that is easy to disassemble and store according to claim 4, characterized in that, A hole is punched on the tray, and a piece of excess material is formed along the edge of the hole. The excess material is bent into the card block.

6. A kitchen stove that is easy to disassemble and store according to claim 1, characterized in that, The leg is also formed with a locking member corresponding to the side wall. When the leg is in a folded state, the locking member and the side wall engage with each other. The locking member includes a side portion formed on the leg and a locking part formed on the side portion away from the leg and bent toward the other leg. The locking part and the leg define a locking cavity for locking the side wall inside.

7. A kitchen stove that is easy to disassemble and store according to claim 6, characterized in that, The side portion is formed at the edge of the leg away from the other leg or on the end of the limiting plate protruding from the leg.

8. A kitchen stove that is easy to disassemble and store according to claim 1, characterized in that, A reinforcing groove is also formed on the sidewall and / or leg, the bottom of the reinforcing groove protruding from the surface of the sidewall and / or leg, and the reinforcing groove extending along the length direction of the sidewall and / or leg.

9. A kitchen stove that is easy to disassemble and store according to claim 1, characterized in that, The disk assembly includes: A chassis, which is mounted on the bracket and has a placement cavity formed inside the chassis; The sub-tray includes a plurality of sub-trays arranged side by side along the length of the placement cavity and disposed within the placement cavity, and the plurality of sub-trays are provided with receiving cavities for holding items. The upper cover covers the chassis to enclose the sub-disc within the placement cavity, and a recessed portion is formed on the upper cover, with a handle rotatably connected within the recessed portion.