A detachable high-power stove furnace

By designing a detachable composite combustion chamber and support structure, the problem of inconvenient replacement of the existing high-power stove's combustion chamber has been solved, improving flexibility and reliability, reducing maintenance costs, and adapting to the support requirements of different cookware sizes.

CN224434476UActive Publication Date: 2026-06-30SHAOXING GLENN ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAOXING GLENN ELECTRONIC TECH CO LTD
Filing Date
2025-06-24
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing high-powered stoves use an integrated structure or welded design for the furnace and support base, which makes replacement inconvenient, cannot adapt to different sizes of cookware, and increases maintenance costs.

Method used

The design incorporates a detachable composite combustion chamber and support structure. The support is detachably connected to the bottom or cavity of the composite combustion chamber, and quick connection and positioning are achieved through a snap-fit ​​and fixing mechanism. This meets the support requirements of cookware of different sizes and allows for the replacement of the combustion chamber without replacing the entire high-power stove.

Benefits of technology

It improves the flexibility and reliability of the furnace chamber, reduces maintenance costs, enhances connection strength and stability, adapts to the support requirements of different cookware sizes, and has an aesthetically pleasing structure.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a detachable high-power stove combustion chamber, comprising: a compound combustion chamber, the interior of which has a cavity for gas flow; and a support base; the support base is detachably connected to the bottom of the compound combustion chamber and / or inverted within the cavity of the compound combustion chamber, used for installing the compound combustion chamber onto the high-power stove and / or for supporting the bottom of cookware. This utility model not only allows for selection of the support base's installation position according to the shape of the high-power stove, satisfying the overall installation and disassembly of the combustion chamber, but also meets the support requirements for the bottoms of cookware of different sizes, improving the flexibility and reliability of the combustion chamber during use. Furthermore, when the combustion chamber is damaged, only the combustion chamber needs to be replaced, without replacing the entire high-power stove, greatly reducing maintenance costs.
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Description

Technical Field

[0001] This utility model relates to a detachable high-power stove furnace. Background Technology

[0002] There are many types of high-powered stoves. Some high-powered stoves use natural air intake, which not only fails to achieve the required heat but also results in incomplete combustion of the gas, leading to gas waste. Other high-powered stoves are equipped with blowers, which can achieve sufficient heat when stir-frying food and ensure complete combustion of the gas.

[0003] The combustion chamber is a crucial component of a high-powered stove, and its performance and structural design directly determine whether the stove and combustion chamber can be stably installed. Current technologies use an integrated structure for the combustion chamber and support base, or weld the combustion chamber directly to the stove's casing. This makes combustion chamber replacement inconvenient, increases maintenance costs, and only provides support for the bottom of cookware of a specific size, failing to effectively support smaller cookware. Utility Model Content

[0004] The purpose of this utility model is to provide a technical solution for a detachable high-power stove combustion chamber to address the shortcomings of existing technologies. This solution not only allows for the selection of the support base installation position according to the shape of the high-power stove, thus satisfying the overall installation and disassembly of the combustion chamber, but also meets the support requirements for cookware of different sizes, improving the flexibility and reliability of the combustion chamber during use. Furthermore, when the combustion chamber is damaged, only the combustion chamber needs to be replaced, without replacing the entire high-power stove, greatly reducing maintenance costs.

[0005] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:

[0006] A detachable high-power stove firebox includes:

[0007] A compound combustion chamber, the interior of which is provided with a cavity for gas flow;

[0008] and support base;

[0009] Its features are:

[0010] The support base is detachably connected to the bottom of the composite combustion chamber and / or inverted within the cavity of the composite combustion chamber, used for installing the composite combustion chamber on the high-power stove and / or for supporting the bottom of the cookware. Through the design of the above structure, not only can the installation position of the support base be selected according to the shape of the high-power stove to meet the overall installation and disassembly of the furnace, but it can also meet the support requirements for cookware of different sizes, improving the flexibility and reliability of the furnace during use. At the same time, when the furnace is damaged, only the furnace needs to be replaced, without replacing the entire high-power stove, greatly reducing maintenance costs.

[0011] Furthermore, the composite combustion chamber includes a furnace body and a baffle ring formed by folding outward along the top edge of the furnace body. The baffle ring is annular and has at least three limiting parts. Adjacent limiting parts cooperate to form a limiting groove, which is used to limit and support when the support seat is inverted in the cavity of the furnace body. This can meet the requirement of supporting smaller pots and increase the usable range of the furnace.

[0012] Furthermore, a first support part is provided between the limiting part and the retaining ring to support the bottom of the pot, which is used to support the bottom of a larger pot.

[0013] Furthermore, an annular ring is provided at the bottom of the furnace body, and the annular ring is connected to the furnace body through a connecting rod. The support base includes an arc-shaped plate, which is connected to the connecting rod and the furnace body through a snap-fit ​​mechanism and a fixing mechanism, respectively, which facilitates the quick connection and positioning between the support base and the furnace body and improves the connection strength and stability between the support base and the composite combustion chamber.

[0014] Furthermore, the snap-fit ​​mechanism includes at least two snap-fit ​​parts arranged in the same direction as the arc plate. The snap-fit ​​parts and the arc plate cooperate to form a snap-fit ​​groove. By rotating the support base, the snap-fit ​​groove is snapped into the connecting rod, thereby realizing the snap-fit ​​positioning between the support base and the composite combustion chamber, which facilitates the installation and disassembly of the support base and the composite combustion chamber.

[0015] Furthermore, the fixing mechanism includes a first fixing hole, a second fixing hole, and fasteners. The first fixing hole is located at the bottom of the furnace body, and the second fixing hole is located on the arc-shaped plate. The fasteners pass through the second fixing hole and the first fixing hole to achieve the fixed assembly between the support base and the composite combustion chamber.

[0016] Furthermore, the ring has at least two mounting holes arranged in a ring shape for connecting to a high-powered stove.

[0017] Furthermore, the support also includes an arc-shaped cover integrally formed with the arc-shaped plate. Both ends of the arc-shaped plate and the arc-shaped cover are fitted with notches to facilitate the insertion of the ejector tube through the notches to connect to the composite combustion chamber.

[0018] Furthermore, at least three connecting blocks are arranged in a ring on the arc-shaped cover. Each connecting block is integrally formed with at least one second support part and at least one support strip. The second support part and the support strip are both arranged in a concentric manner. Through the design of the connecting blocks, the connection strength and stability between the second support part, the support strip and the arc-shaped cover can be improved, so as to meet the support requirements of the bottom of pots of different sizes, or to facilitate the support base to support the furnace body.

[0019] Furthermore, the second support part has a support surface on the side near the connecting block and a toothed groove on the side away from the connecting block. By fitting the support surface into the limiting groove, the support seat can be placed upside down in the cavity of the composite combustion chamber. The toothed groove design makes it easy to place the furnace body horizontally on the high-power stove and has an anti-slip function.

[0020] Furthermore, the support bar is equipped with stepped grooves to support the bottom of the cookware, meeting the support requirements for cookware of different sizes.

[0021] Furthermore, a mounting bracket is provided on the side of the furnace body near the notch. The mounting bracket includes a side plate and a mounting plate. The mounting plate is inclined at one end of the two side plates, and the other end of the side plate is integrally formed on the outer surface of the furnace body. The mounting plate, side plates and furnace body cooperate to form a storage cavity. The inclined mounting plate makes it easy to install the rotary switch at an angle, making it convenient for users to turn the rotary switch. At the same time, the storage cavity formed by the mounting plate, side plates and furnace body is used to place ejector tubes, wires, etc., making the structure of the high-power stove furnace more beautiful and also providing protection.

[0022] Furthermore, the side plate is provided with a third support part, the bottom surface of which is flush with the toothed side of the second support part, thereby improving the stability of the entire high-power stove furnace during use.

[0023] This utility model, by adopting the above-mentioned technical solution, has the following beneficial effects:

[0024] 1. This utility model can not only select the installation position of the support base according to the shape of the high-power stove to meet the overall installation and disassembly of the furnace, but also meet the support requirements of different sized pots, improve the flexibility and reliability of the furnace during use. At the same time, when the furnace is damaged, only the furnace needs to be replaced, without replacing the entire high-power stove, which greatly reduces maintenance costs.

[0025] 2. The bottom of the furnace body is provided with an annular ring, which is connected to the furnace body through a connecting rod. The support base includes an arc-shaped plate, which is connected to the connecting rod and the furnace body through a snap-fit ​​mechanism and a fixing mechanism, respectively. This facilitates quick connection and positioning between the support base and the furnace body, and improves the connection strength and stability between the support base and the composite combustion chamber.

[0026] 3. The design of the connecting block can improve the connection strength and stability between the second support part, the support strip and the arc cover, meet the support requirements of the bottom of pots of different sizes, or facilitate the support seat to support the furnace body.

[0027] 4. The inclined mounting plate facilitates the tilting installation of the rotary switch, making it convenient for users to turn the rotary switch. At the same time, the storage cavity formed by the mounting plate, side plate and furnace body is used to place the ejector tube, wires, etc., making the structure of the high-power stove furnace more beautiful and also providing protection. Attached image description:

[0028] The present invention will be further described below with reference to the accompanying drawings:

[0029] Figure 1 This is a rendering of Embodiment 1 of a detachable high-power stove furnace according to the present invention;

[0030] Figure 2 for Figure 1 Schematic diagram of the structure in direction A;

[0031] Figure 3 This is a rendering of Embodiment 2 of the present invention;

[0032] Figure 4 for Figure 3 Schematic diagram of the structure in the B direction;

[0033] Figure 5 This is a rendering of Embodiment 3 of this utility model;

[0034] Figure 6 for Figure 5 Schematic diagram of the structure in the C-direction;

[0035] Figure 7 This is a connection diagram between the composite combustion chamber and the mounting bracket in this utility model;

[0036] Figure 8 for Figure 7 Schematic diagram of the structure in the D direction;

[0037] Figure 9 for Figure 7 The main view;

[0038] Figure 10 This is a rendering of the support base in this utility model;

[0039] Figure 11 for Figure 10 A schematic diagram of the structure in the E direction.

[0040] Wherein: 1-composite combustion chamber; 101-retaining ring; 102-furnace body; 103-annular ring; 104-limiting part; 105-limiting groove; 106-first support part; 107-connecting rod; 108-through groove; 109-first fixing hole; 110-mounting hole;

[0041] 2-Support base; 201-Arc-shaped plate; 202-Arc-shaped cover; 203-Notch; 204-Snap-fit ​​part; 205-Slot; 206-Second fixing hole; 207-Connecting block; 208-Second support part; 209-Groove; 210-Support bar; 211-Stepped groove; 212-Support surface;

[0042] 3-Mounting bracket; 301-Side plate; 302-Mounting plate; 303-Third support; 304-Mounting ear plate;

[0043] 4-Cavity; 5-Storage cavity. Detailed Implementation

[0044] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.

[0045] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.

[0046] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this utility model are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion.

[0047] Example 1 (Support base 2 is installed at the bottom of the furnace body 102)

[0048] like Figure 1 , Figure 2 , Figures 7 to 11 As shown, this utility model discloses a detachable high-power stove combustion chamber, including a composite combustion chamber 1, a support base 2, and a mounting bracket 3. The support base 2 is detachably connected to the bottom of the composite combustion chamber 1 for mounting the composite combustion chamber 1 to the high-power stove.

[0049] The interior of the composite combustion chamber 1 is provided with a cavity 4 for gas flow.

[0050] The composite combustion chamber 1 includes a furnace body 102 and a baffle ring 101 formed by folding outward along the top edge of the furnace body 102. The furnace body 102 has a funnel-shaped structure, with the upper opening being larger than the lower opening.

[0051] The retaining ring 101 is provided with at least three limiting parts 104 in a ring shape. In this application, five limiting parts 104 are used as an example. The limiting parts 104 protrude upward along the top surface of the retaining ring 101. The length of the limiting part 104 on the side closer to the mounting bracket 3 is greater than the length of the other limiting parts 104.

[0052] The two adjacent limiting parts 104 cooperate to form a limiting groove 105, which facilitates the entry of air into the cavity 4 and improves the combustion effect.

[0053] A first support part 106 for supporting the bottom of the pot is provided between the inner side of the limiting part 104 and the retaining ring 101. The first support part 106 is used to support the bottom of the pot with a larger size. The side of the first support part 106 that contacts the bottom of the pot is an inclined surface.

[0054] The bottom of the furnace body 102 is provided with a closed annular ring 103. The annular ring 103 is connected to the furnace body 102 by connecting rods 107. This application uses four connecting rods 107. Two adjacent connecting rods 107, the annular ring 103 and the inner wall of the furnace body 102 cooperate to form a through groove 108.

[0055] The support base 2 includes an arc-shaped plate 201, which is connected to the connecting rod 107 and the furnace body 102 respectively through a snap-fit ​​mechanism and a fixing mechanism. This facilitates the quick connection and positioning between the support base 2 and the furnace body 102, and improves the connection strength and stability between the support base 2 and the composite combustion chamber 1.

[0056] The snap-fit ​​mechanism includes at least two snap-fit ​​parts 204 arranged in the same direction as the arc plate 201. The number of snap-fit ​​parts 204 corresponds one-to-one with the number of connecting rods 107. This application takes four snap-fit ​​parts 204 as an example. The snap-fit ​​parts 204 are preferably L-shaped structures. The snap-fit ​​parts 204 and the arc plate 201 cooperate to form a snap-fit ​​groove 205. By rotating the support base 2, the snap-fit ​​groove 205 is snapped into the connecting rod 107, thereby realizing the snap-fit ​​positioning between the support base 2 and the composite combustion chamber 1, which facilitates the installation and disassembly of the support base 2 and the composite combustion chamber 1.

[0057] The fixing mechanism includes a first fixing hole 109, a second fixing hole 206, and fasteners. The first fixing hole 109 is located at the bottom of the furnace body 102, and the second fixing hole 206 is located on the arc-shaped plate 201. The fasteners pass through the second fixing hole 206 and the first fixing hole 109 to achieve a fixed assembly between the support base 2 and the composite combustion chamber 1. Both the fasteners and the first fixing hole 109, and the fasteners and the second fixing hole 206, are connected by threads.

[0058] The annular ring 103 has at least two mounting holes 110 arranged in a ring. This application takes three mounting holes 110 as an example, and the mounting holes 110 are evenly distributed along the annular ring 103 for connecting to a high-powered stove.

[0059] The support base 2 also includes an arc-shaped cover 202 integrally formed with the arc-shaped plate 201. Both ends of the arc-shaped plate 201 and the arc-shaped cover 202 are fitted together to form notches 203, so that the ejector tube can be passed through the notches 203 and connected to the composite combustion chamber 1.

[0060] At least three connecting blocks 207 are arranged in a ring on the arc-shaped cover 202. Each connecting block 207 is integrally formed with at least one second support part 208 and at least one support bar 210. Taking each connecting block 207 as an example, each connecting block 207 has one second support part 208 and one support bar 210. The second support part 208 and the support bar 210 are both arranged in a concentric manner. Through the design of the connecting block 207, the connection strength and stability between the second support part 208, the support bar 210 and the arc-shaped cover 202 can be improved, which can meet the support requirements of the bottom of pots of different sizes, or facilitate the support seat 2 to support the furnace body 102.

[0061] The second support part 208 has a support surface 212 on the side near the connecting block 207, and a toothed groove 209 on the side away from the connecting block 207. By fitting the support surface 212 into the limiting groove 105, the support seat 2 can be placed upside down in the cavity 4 of the composite combustion chamber 1. The design of the toothed groove 209 makes it easy to place the furnace body 102 horizontally on the high-power stove and has an anti-slip function.

[0062] The support bar 210 is provided with a stepped groove 211 for supporting the bottom of the pot, which meets the support requirements for pots of different sizes.

[0063] Mounting bracket 3 is located on the side of furnace body 102 near notch 203.

[0064] The mounting bracket 3 includes a side plate 301 and a mounting plate 302. The mounting plate 302 is inclined at one end of the two side plates 301, and the other end of the side plate 301 is integrally formed on the outer side of the furnace body 102. The mounting plate 302, the side plate 301 and the furnace body 102 cooperate to form a storage cavity 5. The inclined mounting plate 302 makes it easy to install the rotary switch at an angle, making it convenient for the user to turn the rotary switch. At the same time, the storage cavity 5 formed by the mounting plate 302, the side plate 301 and the furnace body 102 is used to place the ejector tube, wires, etc., making the structure of the high-power stove furnace more beautiful and also providing protection.

[0065] Side panel 301 can be fitted with mounting ears at the bottom for installation on a high-powered stove.

[0066] The side plate 301 is provided with a third support part 303. The bottom surface of the third support part 303 is flush with one side of the tooth groove 209 of the second support part 208, which improves the stability of the entire high-power stove furnace during use.

[0067] The above structural design allows for the selection of the installation position of the support base 2 based on the shape of the high-powered stove, satisfying the overall installation and disassembly of the furnace chamber. It also meets the support requirements for cookware of different sizes, improving the flexibility and reliability of the furnace chamber during use. Furthermore, when the furnace chamber is damaged, only the furnace chamber needs to be replaced, without replacing the entire high-powered stove, greatly reducing maintenance costs.

[0068] Example 2 (Support base 2 is installed inside cavity 4 of furnace body 102)

[0069] like Figure 3 , Figure 4 , Figures 7 to 11 As shown, this utility model discloses a detachable high-power stove combustion chamber, including a composite combustion chamber 1, a support base 2, and a mounting bracket 3. The support base 2 is detachably placed upside down inside the cavity 4 of the composite combustion chamber 1 to support the bottom of the cookware.

[0070] The interior of the composite combustion chamber 1 is provided with a cavity 4 for gas flow.

[0071] The composite combustion chamber 1 includes a furnace body 102 and a baffle ring 101 formed by folding outward along the top edge of the furnace body 102. The furnace body 102 has a funnel-shaped structure, with the upper opening being larger than the lower opening.

[0072] The retaining ring 101 is provided with at least three limiting parts 104 in a ring shape. In this application, five limiting parts 104 are used as an example. The limiting parts 104 protrude upward along the top surface of the retaining ring 101. The length of the limiting part 104 on the side closer to the mounting bracket 3 is greater than the length of the other limiting parts 104.

[0073] The two adjacent limiting parts 104 cooperate to form a limiting groove 105, which facilitates the entry of air into the cavity 4 and improves the combustion effect. The limiting groove 105 is used to limit and support the support seat 2 when it is placed upside down in the cavity 4 of the furnace body 102, which can meet the needs of supporting smaller pots and increase the usable range of the furnace.

[0074] A first support part 106 for supporting the bottom of the pot is provided between the inner side of the limiting part 104 and the retaining ring 101. The first support part 106 is used to support the bottom of the pot with a larger size. The side of the first support part 106 that contacts the bottom of the pot is an inclined surface.

[0075] The bottom of the furnace body 102 is provided with a closed annular ring 103. The annular ring 103 is connected to the furnace body 102 by connecting rods 107. This application uses four connecting rods 107. Two adjacent connecting rods 107, the annular ring 103 and the inner wall of the furnace body 102 cooperate to form a through groove 108.

[0076] The annular ring 103 has at least two mounting holes 110 arranged in a ring. This application takes three mounting holes 110 as an example, and the mounting holes 110 are evenly distributed along the annular ring 103 for connecting to a high-powered stove.

[0077] The support base 2 also includes an arc-shaped cover 202 integrally formed with the arc-shaped plate 201, and both ends of the arc-shaped plate 201 and the arc-shaped cover 202 are fitted together to form notches 203.

[0078] At least three connecting blocks 207 are arranged in a ring on the arc-shaped cover 202. Each connecting block 207 is integrally formed with at least one second support part 208 and at least one support bar 210. Taking each connecting block 207 as an example, each connecting block 207 has one second support part 208 and one support bar 210. The second support part 208 and the support bar 210 are both arranged in a concentric manner. Through the design of the connecting block 207, the connection strength and stability between the second support part 208, the support bar 210 and the arc-shaped cover 202 can be improved, which can meet the support requirements of the bottom of pots of different sizes, or facilitate the support seat 2 to support the furnace body 102.

[0079] The second support part 208 has a support surface 212 on the side near the connecting block 207, and a toothed groove 209 on the side away from the connecting block 207. By fitting the support surface 212 into the limiting groove 105, the support seat 2 can be placed upside down in the cavity 4 of the composite combustion chamber 1. The design of the toothed groove 209 makes it easy to place the furnace body 102 horizontally on the high-power stove and has an anti-slip function.

[0080] The support bar 210 is provided with a stepped groove 211 for supporting the bottom of the pot, which meets the support requirements for pots of different sizes.

[0081] The mounting bracket 3 is integrally formed with the furnace body 102.

[0082] The mounting bracket 3 includes a side plate 301 and a mounting plate 302. The mounting plate 302 is inclined at one end of the two side plates 301, and the other end of the side plate 301 is integrally formed on the outer side of the furnace body 102. The mounting plate 302, the side plate 301 and the furnace body 102 cooperate to form a storage cavity 5. The inclined mounting plate 302 makes it easy to install the rotary switch at an angle, making it convenient for the user to turn the rotary switch. At the same time, the storage cavity 5 formed by the mounting plate 302, the side plate 301 and the furnace body 102 is used to place the ejector tube, wires, etc., making the structure of the high-power stove furnace more beautiful and also providing protection.

[0083] Side panel 301 can be fitted with mounting ears at the bottom for installation on a high-powered stove.

[0084] The side plate 301 is provided with a third support part 303. The bottom surface of the third support part 303 is flush with one side of the tooth groove 209 of the second support part 208, which improves the stability of the entire high-power stove furnace during use.

[0085] The above structural design allows for the selection of the installation position of the support base 2 based on the shape of the high-powered stove, satisfying the overall installation and disassembly of the furnace chamber. It also meets the support requirements for cookware of different sizes, improving the flexibility and reliability of the furnace chamber during use. Furthermore, when the furnace chamber is damaged, only the furnace chamber needs to be replaced, without replacing the entire high-powered stove, greatly reducing maintenance costs.

[0086] Example 3 (The support base 2 is installed simultaneously at the bottom of the furnace body 102 and inside the cavity 4 of the furnace body 102)

[0087] like Figures 5 to 11 As shown, this utility model discloses a detachable high-power stove combustion chamber, including a composite combustion chamber 1, support bases 2, and mounting brackets 3. The two support bases 2 are detachably connected to the bottom of the composite combustion chamber 1 and inverted inside the cavity 4 of the composite combustion chamber 1, respectively, for installing the composite combustion chamber 1 on the high-power stove and for supporting the bottom of the cookware.

[0088] The interior of the composite combustion chamber 1 is provided with a cavity 4 for gas flow.

[0089] The composite combustion chamber 1 includes a furnace body 102 and a baffle ring 101 formed by folding outward along the top edge of the furnace body 102. The furnace body 102 has a funnel-shaped structure, with the upper opening being larger than the lower opening.

[0090] The retaining ring 101 is provided with at least three limiting parts 104 in a ring shape. In this application, five limiting parts 104 are used as an example. The limiting parts 104 protrude upward along the top surface of the retaining ring 101. The length of the limiting part 104 on the side closer to the mounting bracket 3 is greater than the length of the other limiting parts 104.

[0091] The two adjacent limiting parts 104 cooperate to form a limiting groove 105, which facilitates the entry of air into the cavity 4 and improves the combustion effect. The limiting groove 105 is used to limit and support the support seat 2 when it is placed upside down in the cavity 4 of the furnace body 102, which can meet the needs of supporting smaller pots and increase the usable range of the furnace.

[0092] A first support part 106 for supporting the bottom of the pot is provided between the inner side of the limiting part 104 and the retaining ring 101. The first support part 106 is used to support the bottom of the pot with a larger size. The side of the first support part 106 that contacts the bottom of the pot is an inclined surface.

[0093] The bottom of the furnace body 102 is provided with a closed annular ring 103. The annular ring 103 is connected to the furnace body 102 by connecting rods 107. This application uses four connecting rods 107. Two adjacent connecting rods 107, the annular ring 103 and the inner wall of the furnace body 102 cooperate to form a through groove 108.

[0094] The support base 2 includes an arc-shaped plate 201, which is connected to the connecting rod 107 and the furnace body 102 respectively through a snap-fit ​​mechanism and a fixing mechanism. This facilitates the quick connection and positioning between the support base 2 and the furnace body 102, and improves the connection strength and stability between the support base 2 and the composite combustion chamber 1.

[0095] The snap-fit ​​mechanism includes at least two snap-fit ​​parts 204 arranged in the same direction as the arc plate 201. The number of snap-fit ​​parts 204 corresponds one-to-one with the number of connecting rods 107. This application takes four snap-fit ​​parts 204 as an example. The snap-fit ​​parts 204 are preferably L-shaped structures. The snap-fit ​​parts 204 and the arc plate 201 cooperate to form a snap-fit ​​groove 205. By rotating the support base 2, the snap-fit ​​groove 205 is snapped into the connecting rod 107, thereby realizing the snap-fit ​​positioning between the support base 2 and the composite combustion chamber 1, which facilitates the installation and disassembly of the support base 2 and the composite combustion chamber 1.

[0096] The fixing mechanism includes a first fixing hole 109, a second fixing hole 206, and fasteners. The first fixing hole 109 is located at the bottom of the furnace body 102, and the second fixing hole 206 is located on the arc-shaped plate 201. The fasteners pass through the second fixing hole 206 and the first fixing hole 109 to achieve a fixed assembly between the support base 2 and the composite combustion chamber 1. Both the fasteners and the first fixing hole 109, and the fasteners and the second fixing hole 206, are connected by threads.

[0097] The annular ring 103 has at least two mounting holes 110 arranged in a ring. This application takes three mounting holes 110 as an example, and the mounting holes 110 are evenly distributed along the annular ring 103 for connecting to a high-powered stove.

[0098] The support base 2 also includes an arc-shaped cover 202 integrally formed with the arc-shaped plate 201. Both ends of the arc-shaped plate 201 and the arc-shaped cover 202 are fitted together to form notches 203, so that the ejector tube can be passed through the notches 203 and connected to the composite combustion chamber 1.

[0099] At least three connecting blocks 207 are arranged in a ring on the arc-shaped cover 202. Each connecting block 207 is integrally formed with at least one second support part 208 and at least one support bar 210. Taking each connecting block 207 as an example, each connecting block 207 has one second support part 208 and one support bar 210. The second support part 208 and the support bar 210 are both arranged in a concentric manner. Through the design of the connecting block 207, the connection strength and stability between the second support part 208, the support bar 210 and the arc-shaped cover 202 can be improved, which can meet the support requirements of the bottom of pots of different sizes, or facilitate the support seat 2 to support the furnace body 102.

[0100] The second support part 208 has a support surface 212 on the side near the connecting block 207, and a toothed groove 209 on the side away from the connecting block 207. By fitting the support surface 212 into the limiting groove 105, the support seat 2 can be placed upside down in the cavity 4 of the composite combustion chamber 1. The design of the toothed groove 209 makes it easy to place the furnace body 102 horizontally on the high-power stove and has an anti-slip function.

[0101] The support bar 210 is provided with a stepped groove 211 for supporting the bottom of the pot, which meets the support requirements for pots of different sizes.

[0102] Mounting bracket 3 is located on the side of furnace body 102 near notch 203.

[0103] The mounting bracket 3 includes a side plate 301 and a mounting plate 302. The mounting plate 302 is inclined at one end of the two side plates 301, and the other end of the side plate 301 is integrally formed on the outer side of the furnace body 102. The mounting plate 302, the side plate 301 and the furnace body 102 cooperate to form a storage cavity 5. The inclined mounting plate 302 makes it easy to install the rotary switch at an angle, making it convenient for the user to turn the rotary switch. At the same time, the storage cavity 5 formed by the mounting plate 302, the side plate 301 and the furnace body 102 is used to place the ejector tube, wires, etc., making the structure of the high-power stove furnace more beautiful and also providing protection.

[0104] Side panel 301 can be fitted with mounting ears at the bottom for installation on a high-powered stove.

[0105] The side plate 301 is provided with a third support part 303. The bottom surface of the third support part 303 is flush with one side of the tooth groove 209 of the second support part 208, which improves the stability of the entire high-power stove furnace during use.

[0106] The above structural design allows for the selection of the installation position of the support base 2 based on the shape of the high-powered stove, satisfying the overall installation and disassembly of the furnace chamber. It also meets the support requirements for cookware of different sizes, improving the flexibility and reliability of the furnace chamber during use. Furthermore, when the furnace chamber is damaged, only the furnace chamber needs to be replaced, without replacing the entire high-powered stove, greatly reducing maintenance costs.

[0107] The above are merely specific embodiments of this utility model, but the technical features of this utility model are not limited thereto. Any simple changes, equivalent substitutions, or modifications made based on this utility model to achieve essentially the same technical effect are all covered within the protection scope of this utility model.

Claims

1. A detachable high-power stove combustion chamber, comprising: A composite combustion chamber, wherein the interior of the composite combustion chamber is provided with a cavity for gas flow; and support base; Its features are: The support base is detachably connected to the bottom of the composite combustion chamber and / or inverted within the cavity of the composite combustion chamber, for installing the composite combustion chamber on a high-powered stove and / or for supporting the bottom of a cookware.

2. The detachable high-power stove combustion chamber according to claim 1, characterized in that: The composite combustion chamber includes a furnace body and a retaining ring formed by folding outward along the top edge of the furnace body. The retaining ring is annularly provided with at least three limiting parts, and two adjacent limiting parts cooperate to form a limiting groove, which is used to limit and support the support seat when it is inverted in the cavity of the furnace body.

3. The detachable high-power stove combustion chamber according to claim 2, characterized in that: A first support portion for supporting the bottom of the pot is provided between the limiting portion and the retaining ring.

4. The detachable high-power stove combustion chamber according to claim 2, characterized in that: The bottom of the furnace body is provided with an annular ring, which is connected to the furnace body through a connecting rod. The support base includes an arc-shaped plate, which is connected to the connecting rod and the furnace body through a snap-fit ​​mechanism and a fixing mechanism, respectively.

5. The detachable high-power stove combustion chamber according to claim 4, characterized in that: The locking mechanism includes at least two locking parts arranged in the same direction as the arc plate. The locking parts and the arc plate cooperate to form a locking groove. By rotating the support base, the locking groove is locked onto the connecting rod, thereby realizing the locking and positioning between the support base and the composite combustion chamber.

6. The detachable high-power stove combustion chamber according to claim 4, characterized in that: The fixing mechanism includes a first fixing hole, a second fixing hole, and a fastener. The first fixing hole is located at the bottom of the furnace body, and the second fixing hole is located on the arc-shaped plate. The fastener passes through the second fixing hole and the first fixing hole to achieve a fixed assembly between the support base and the composite combustion chamber.

7. The detachable high-power stove combustion chamber according to claim 4, characterized in that: The ring has at least two mounting holes arranged in a ring for connecting to a high-powered stove.

8. The detachable high-power stove combustion chamber according to claim 4, characterized in that: The support base also includes an arc-shaped cover integrally formed with the arc-shaped plate, and both ends of the arc-shaped plate and the arc-shaped cover are fitted together to form notches.

9. A detachable high-power stove combustion chamber according to claim 8, characterized in that: The arc-shaped cover has at least three connecting blocks arranged in a ring. Each connecting block is integrally formed with at least one second support part and at least one support strip. The second support part and the support strip are both arranged concentrically.

10. A detachable high-power stove combustion chamber according to claim 9, characterized in that: The second support part has a support surface on the side near the connecting block, and a toothed groove on the side away from the connecting block.

11. A detachable high-power stove combustion chamber according to claim 9, characterized in that: The support bar has stepped grooves for supporting the bottom of the pot.

12. The detachable high-power stove combustion chamber according to claim 10, characterized in that: The furnace body is provided with a mounting bracket on the side near the notch. The mounting bracket includes a side plate and a mounting plate. The mounting plate is inclined at one end of the two side plates. The other end of the side plate is integrally formed on the outer surface of the furnace body. The mounting plate, the side plates and the furnace body cooperate to form a storage cavity.

13. A detachable high-power stove combustion chamber according to claim 12, characterized in that: The side plate is provided with a third support part, and the bottom surface of the third support part is flush with the tooth groove side of the second support part.