A wood-fired griddle oven
By using wood as fuel, combined with circulating air ducts and flame regulation, the problems of insufficient temperature and complex maintenance of gas ovens are solved, providing high-temperature uniform heating and smoke aroma, and achieving portability and economy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG CANBO ELECTRICAL
- Filing Date
- 2025-06-19
- Publication Date
- 2026-07-03
AI Technical Summary
Existing gas-fired ovens have insufficient upper temperature limits, lack smoky aromas, have bulky and inconvenient fuel canisters, pose a risk of sudden gas shortages, and are complex to maintain.
Using wood as fuel, the design includes a combustion chamber assembly and a circulating air duct. A blower system delivers high-temperature hot air to the reflector assembly. Combined with a flame adjustment device and a simplified structure, it provides higher temperatures and more uniform heating.
It achieves higher grilling temperatures and more even heating, imparts a smoky aroma, reduces weight and volume for easier transport, simplifies cleaning and maintenance, is economical, and avoids dependence on fuel canisters.
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Figure CN224441111U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of outdoor stoves, and more particularly to a wood-fired griddle oven. Background Technology
[0002] In related technologies, outdoor stoves mostly use gas-fired grills, but the most common complaint about them is their insufficient temperature ceiling. Charcoal easily reaches temperatures above 300℃, while gas is limited to around 260℃. This temperature difference directly affects the Maillard reaction, resulting in a lack of smoky aroma in gas-fired grills, impacting the flavor and texture of food. More importantly, the gas canisters for gas-fired grills are inconvenient, posing a risk of running out of gas suddenly. Furthermore, the gas canisters are bulky, making them difficult to move and store. Compared to the readily available charcoal, gas-fired grills have a significant drawback in this regard. Therefore, it is clear that gas-fired grills have certain shortcomings. Utility Model Content
[0003] To overcome the shortcomings of related technologies, this application provides a wood-fired griddle oven.
[0004] A wood-fired griddle oven includes a griddle assembly, a combustion chamber assembly, and a reflector assembly mounted on the oven body. The griddle assembly is positioned above the oven body and is fixedly connected to the oven body via the reflector assembly. The combustion chamber assembly is located inside the oven body and includes a combustion chamber cavity, an outer combustion chamber panel, an outer combustion chamber bottom plate, and a combustion channel. The combustion chamber cavity has multiple first ventilation holes. The outer combustion chamber panel encloses the combustion chamber cavity, and the sidewall of the outer combustion chamber panel is connected to the combustion channel. The outer combustion chamber panel and the outer combustion chamber bottom plate are fixedly connected.
[0005] The combustion chamber is connected to the reflector assembly and forms a circulating air duct. An air supply device is installed on the circulating air duct. The air supply device blows the high-temperature hot air in the combustion chamber into the reflector assembly, so that the frying pan assembly heats up quickly and at a uniform temperature.
[0006] Furthermore, the wood-fueled griddle oven is also equipped with a flame adjustment device, which includes a pair of blades and a pair of connecting rods. The blades are provided with multiple second ventilation holes, and the ends of the connecting rods are provided with adjustment handles. A single connecting rod and a single blade are fixedly connected, and rotating the adjustment handle drives the blades to rotate.
[0007] Optionally, the reflector assembly includes a fire distribution plate and a heat collection plate, which are detachably connected.
[0008] Optionally, the reflector assembly includes a square disk and a third base, with the square disk positioned above the third base and integrally welded to it.
[0009] Furthermore, the air supply device is configured as a fan, and the fan is connected to the side wall of the outer panel of the combustion chamber.
[0010] Furthermore, the furnace body is also equipped with an interface for connecting an external charging power source.
[0011] Furthermore, a storage battery is installed inside the furnace.
[0012] Furthermore, the furnace body includes an upper furnace body and a frame, with the left side plate, front plate, rear plate, and right side plate of the furnace body forming the upper furnace body.
[0013] Furthermore, the frame includes a left frame weldment, a frame connecting plate, a frame side plate, a right frame weldment, an upper front frame plate, a lower front frame plate, a rear upper frame plate, door weldments, and a frame center partition.
[0014] Furthermore, the frying pan assembly is equipped with guide holes and guide plates for discharging oil.
[0015] This application has at least one of the following effects:
[0016] 1. This application modifies the original gas-fired structure to a wood-fueled structure, correspondingly adding a combustion chamber assembly and altering the structure of the frying pan assembly and combustion chamber assembly to form a complete circulating air duct. The air supply device blows the high-temperature hot air from the combustion chamber into the reflector assembly, enabling the frying pan assembly to heat up rapidly and evenly. This application avoids the burner design of gas ovens, preventing the area above the burner from having the highest temperature and the area further away from the burner from having a lower temperature, which could lead to uneven temperature distribution within the oven. It also avoids the drawback of gas ovens requiring more attention to the placement of food.
[0017] 2. The maximum grilling temperature achievable by this application is higher than that of a gas-fired grill. Gas combustion primarily generates convective heat. A wood-fired grill provides more intense infrared radiation heat, which is more direct and effective in forming a crispy crust. Furthermore, this application imparts a smoky aroma, affecting the flavor and texture of the food.
[0018] 3. Compared to gas-fired ovens, this application optimizes the design of the gas cylinder, reducing the overall weight and volume of the wood-fired griddle oven, making it easier to transport. The wheel assembly design facilitates the movement of the griddle oven.
[0019] 4. In terms of cleaning and maintenance, the drip tray and burner of a gas-fired oven are practically magnets for grease. Stainless steel surfaces also easily attract fingerprints, requiring extensive wiping after each use. The wood-fired oven in this application is relatively easy to clean. Furthermore, the drip tray and oil collection cup of a gas-fired oven require regular cleaning; otherwise, accumulated grease not only becomes dirty but can also be a source of odor and even pose a fire risk (grease ignition). The burner holes are easily clogged by grease drips, food residue, or insect nests, requiring regular inspection and cleaning. Gas-fired ovens have more components (valves, pipes, igniters, multiple burners, etc.), meaning more areas requiring maintenance and prone to problems. The wood-fired griddle oven in this application has a simple and compact structure, and the design of the guide holes, guide plates, and oil cup assembly facilitates oil collection and cleaning maintenance.
[0020] 5. In the long run, for barbecue enthusiasts, using wood as fuel is more economical than using gas. Charcoal can be used as needed for a single barbecue, which is convenient and quick, and also avoids the problem of gas grills suddenly running out of gas.
[0021] 6. Compared to gas-fired ovens, this application offers greater flavor depth and higher extreme temperature capabilities, eliminating reliance on fuel canisters and avoiding the maintenance challenges and potential component failures associated with more complex gas-fired ovens, thus reducing overall costs and making it more economical. This application caters to users seeking the ultimate flavor and high-temperature grilling experience. Attached Figure Description
[0022] Figure 1 This is a three-dimensional schematic diagram of the overall structure of the griddle oven described in the embodiments of this application from a front view perspective;
[0023] Figure 2 This is a three-dimensional schematic diagram of the overall structure of the griddle oven described in the embodiments of this application from a rear view perspective;
[0024] Figure 3 This is an exploded schematic diagram of the overall structure of the griddle oven described in the embodiments of this application;
[0025] Figure 4 This is a schematic diagram of the structure of the frying pan assembly described in the embodiments of this application;
[0026] Figure 5 This is a schematic diagram of the reflector assembly structure described in Embodiment 1 of this application.
[0027] Figure 6 This is a schematic diagram of the heat distribution of the reflector assembly described in Embodiment 1 of this application.
[0028] Figure 7 This is a schematic diagram of the reflector assembly structure described in Embodiment 2 of this application.
[0029] Figure 8 This is a schematic diagram of the heat distribution of the reflector assembly described in Embodiment 2 of this application.
[0030] Figure 9 This is an exploded schematic diagram of the combustion chamber assembly structure according to an embodiment of this application.
[0031] Figure 10 This is a diagram showing the flame adjustment opening state of the combustion chamber assembly in the application embodiment.
[0032] Figure 11 This is a diagram showing the flame adjustment shutdown state of the combustion chamber assembly in the application embodiment.
[0033] Figure 12 This is a diagram showing the flame adjustment and opening state of the combustion chamber in the embodiment of the application.
[0034] Figure 13 This is a diagram showing the combustion chamber flame adjustment closed state in the application embodiment.
[0035] Explanation of reference numerals in the attached drawings: 1. Frying pan assembly; 2. Side platform; 3. Left frame weldment; 4. Left side panel of the furnace body; 5. Frame connecting plate; 6. Lower front panel of the frame; 7. Upper front panel of the frame; 8. Front panel of the furnace body; 9. Combustion chamber mounting plate; 10. Combustion chamber assembly; 11. Rear panel of the furnace body; 12. Right side panel of the furnace body; 13. Right frame weldment; 14. Door weldment; 15. Side panel of the frame; 16. Middle partition of the frame; 17. Rear upper panel of the frame; 18. Reflector assembly; 19. Oil cup assembly; 20. Magnet holder; 21. Magnet; 22. Wheel assembly; 23. Tightening screw; 24. Fan; 101. Combustion chamber cavity; 102. Outer panel of the combustion chamber; 103. Combustion channel; 105. Fuel... 106. Bottom plate outside the burner; 107. First ventilation hole; 108. Pull-down door; 109. Blade; 110. Connecting rod; 111. Second ventilation hole; 112. Adjusting handle; 181. Fire distribution plate; 182. Heat collection plate; 183. First base; 184. Long dispersion plate; 185. Short dispersion plate; 186. Third ventilation hole; 187. Second base; 188. Square groove; 189. Square plate; 190. Third base; 191. Fourth ventilation hole; 192. Base mounting groove; 201. Guide hole; 202. Guide plate; 203. Hook; 204. Interface; 205. Fourth base; 206. Fifth ventilation hole; 207. Column; 208. Square groove of frying pan. Detailed Implementation
[0036] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.
[0037] It should be noted that if the embodiments of this application involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicators will also change accordingly.
[0038] Furthermore, if the embodiments of this application involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, features defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. If the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed in this application.
[0039] Example 1:
[0040] The following is in conjunction with the appendix Figure 1-6 , Figures 9-13 This application will be described in further detail.
[0041] Reference Figure 1 , Figure 2 and Figure 3 A wood-fired griddle oven includes a griddle assembly 11, a combustion chamber assembly 10, and a reflector assembly 18 mounted on the oven body. The griddle assembly 11 is mounted above the oven body and is fixedly connected to the oven body via the reflector assembly 18. The combustion chamber assembly 10 is mounted inside the oven body and includes a combustion chamber cavity 101, an outer combustion chamber panel 102, an outer combustion chamber bottom plate 105, and a combustion channel 103. The combustion chamber cavity 101 is provided with a plurality of first ventilation holes 106. The outer combustion chamber panel 102 encloses the combustion chamber cavity 101, and the side wall of the outer combustion chamber panel 102 is connected to the combustion channel 103. The outer combustion chamber panel 102 and the outer combustion chamber bottom plate 105 are fixedly connected.
[0042] The combustion chamber 101 is connected to the reflector assembly 18, forming a circulating air duct. An air supply device is installed on the circulating air duct. The air supply device blows the high-temperature hot air in the combustion chamber 101 into the reflector assembly 18, so that the frying pan assembly 1 heats up quickly and at a uniform temperature. In this embodiment, the air supply device is a fan 24.
[0043] Reference Figure 3 and Figure 4The frying pan assembly 1 is used for grilling. A guide hole 201 and a guide plate 202 are provided at the bottom of the back side wall of the frying pan assembly 1 for draining oil. The oil cup assembly 19 is equipped with a hook 203 for hanging on the top of the front side wall of the oven body, precisely catching the oil flowing along the guide hole 201 and guide plate 202 for oil collection. The drip tray and oil cup of the gas oven need to be cleaned regularly; otherwise, the accumulated grease will not only be dirty but may also become a source of odor and even pose a fire risk (grease fire). The burner holes are easily clogged by grease drips, food residue, or insect nests, requiring regular inspection and cleaning. Gas ovens have more components (valves, pipes, igniters, multiple burners, etc.), meaning there are more areas requiring maintenance and potential for problems. This application presents a wood-fired frying pan oven with a simple and compact structure. The design of the guide hole 201, guide plate 202, and oil cup assembly 19 facilitates oil collection and cleaning maintenance.
[0044] The bottom of the frying pan assembly 1 is provided with a fourth base 205, which is square in shape and has a square groove 208 inside. The fourth base 205 is provided with multiple fifth ventilation holes 206. The bottom of the frying pan assembly 1 is also provided with four pillars 207. The fourth base 205 and the pillars 207 are both used to keep the frying pan assembly 1 and the reflector assembly 18 at a certain distance to form a circulating air duct.
[0045] Two side tables 2 are provided on the top sides of the stove body for placing food, utensils or seasonings.
[0046] Reference Figure 5 and Figure 6 The reflector assembly 18 includes a flame distribution plate 181 and a heat collection plate 182. The flame distribution plate 181 includes a first base 183 and four dispersion plates. Four dispersion plates are respectively disposed on the side wall of the first base 183. The four dispersion plates include two long dispersion plates 184 and two short dispersion plates 185 arranged opposite each other. The four dispersion plates extend outward to form a circulating air duct, expand the heating area, and provide uniform heating. The flame distribution plate 181 is provided with a plurality of third ventilation holes 186 for uniform heating. The heat collection plate 182 includes a second base 187 and a square groove 188. The square groove 188 is disposed on the top of the second base 187. The side wall of the square groove 188 is configured as an inverted trapezoid extending outward to form a circulating air duct, expand the heating area, and provide uniform heating. The second base 187 has a base mounting groove 192 at its center that fits with the first base 183. The first base 183 can be inserted into the base mounting groove 192. The flame distribution plate 181 and the heat collection plate 182 are detachably connected for easy replacement and maintenance of parts.
[0047] The furnace body includes a frame, a left side plate 4, a front plate 8, a rear plate 11, and a right side plate 12. The left side plate 4, the front plate 8, the rear plate 11, and the right side plate 12 together form the upper furnace body, which is used to install the combustion chamber assembly 10.
[0048] Reference Figure 3 and Figure 9 The entire combustion chamber assembly 10 is fixedly installed on the combustion chamber mounting plate 9. The combustion chamber assembly 10 includes a combustion chamber cavity 101, an outer combustion chamber panel 102, an outer combustion chamber bottom plate 105, and a combustion channel 103, and is connected to a fan 24. The surface of the combustion chamber cavity 101 is provided with multiple first ventilation holes 106 for ventilation. The top of the combustion chamber cavity 101 is set to be open. The outer combustion chamber panel 102 is set to be a four-sided cuboid and wraps around the combustion chamber cavity 101. The bottom of the outer combustion chamber panel 102 is fixedly connected to the outer combustion chamber bottom plate 105. The combustion channel 103 is connected to the front of the side wall of the outer combustion chamber panel 102. The combustion channel 103 is provided with a pull-down door 107, which can be folded open from the bottom of the pull-down door 107 for adding wood.
[0049] Reference Figure 10 , Figure 11 , Figure 12 , Figure 13 The wood-fired grill also includes a flame adjustment device, comprising a pair of blades 108 and a pair of connecting rods 109. Each blade 108 has multiple second ventilation holes 110. Each connecting rod 109 has an adjustment handle 111 at its end. A single connecting rod 109 is fixedly connected to a single blade 108. Rotating the adjustment handle 111 rotates the blades 108, adjusting the flame size and extinguishing the flame. The blades 108 are located within the combustion chamber 101. The end of the adjustment rod passes through the front panel 8 of the grill body and connects to the adjustment handle 111. When the adjustment handle 111 is vertical, both blades 108 are also vertical, resulting in the flame threshold of the flame adjustment device at its maximum ("on"). When the adjustment handle 111 is horizontal, both blades 108 are horizontal, resulting in the flame threshold of the flame adjustment device at its minimum ("off"). The two blades 108 collide to block most of the flame, extinguishing it. As the adjustment handle 111 rotates from "off" to "on," the flame size increases sequentially.
[0050] This application modifies the original gas-fired structure to a wood-fueled structure, correspondingly adding a combustion chamber assembly 10 and altering the structure of the frying pan assembly 1 and the combustion chamber assembly 10 to form a complete circulating air duct. The air supply device blows the high-temperature hot air from the combustion chamber cavity 101 into the reflector assembly 18, enabling the frying pan assembly 1 to heat up rapidly and evenly. This application avoids the burner design of gas-fired ovens, preventing the area above the burner from having the highest temperature and the area further away from the burner from having a lower temperature, which could lead to uneven temperature distribution within the oven. It also avoids the drawback of gas-fired ovens requiring more attention to food placement. Furthermore, the maximum grilling temperature achievable by this application is higher than that of gas-fired ovens. Gas combustion primarily generates convective heat. The wood-fueled frying pan oven provides stronger infrared radiation heat, which is more direct and effective in forming a crispy crust. Additionally, this application provides a smoky aroma, affecting the flavor and texture of the food.
[0051] In this embodiment, the frying pan assembly 1 and the reflector assembly 18 are made of stainless steel plates.
[0052] The frame includes a left frame weldment 3, four frame connecting plates 5, two frame side plates 15, a right frame weldment 13, a frame upper front plate 7, a frame lower front plate 6, a frame rear upper plate 17, a door weldment 14, and a frame center partition 16.
[0053] Two side panels 15 of the frame are fixedly connected to the right frame weldment 13 and the left frame weldment 3, respectively. Four frame connecting plates 5 are fixedly connected above the four support rods of the right frame weldment 13 and the left frame weldment 3, respectively. The upper front panel 7 of the frame is fixedly connected to the right frame weldment 13 and the left frame weldment 3 by screws. The lower front panel 6 of the frame is located below the upper front panel 7 of the frame. The rear upper panel 17 of the frame is fixedly connected to the right frame weldment 13 and the left frame weldment 3 by screws, respectively. The door weldment 14 is located below the rear upper panel 17 of the frame. Two support seats are provided at the bottom of the left frame weldment 3 for stopping the frame. A wheel assembly 22 is provided at the bottom of the right frame weldment 13. The wheel assembly 22 includes two rolling wheels and is fixedly connected to the right frame weldment 13 by hand-tightening screws 23. The wheel assembly 22 is used to move the wood-fired griddle oven, saving manpower. Compared to gas-fired ovens, this application optimizes the design of the gas cylinder, reducing the overall weight and volume of the wood-fired griddle oven, making it easier to transport. The wheel assembly 22 is designed to facilitate the movement of the griddle oven.
[0054] The right frame weldment 13 and the left frame weldment 3 serve as supports. Two frame side plates 15 form two opposing side walls of the frame. The lower front frame plate 6 and the upper front frame plate 7 together form one side wall of the frame. The door weldment 14 and the rear upper frame plate 17 together form one side wall of the frame. A frame partition 16 is provided between the four side walls of the frame for installing the combustion chamber assembly 10. The combustion chamber assembly 10 is installed above the frame partition 16. The combustion chamber mounting plate 9 is fixedly connected to the frame partition 16 and is located above the frame partition 16. The door weldment 14 is fixedly connected to the furnace body via a magnet bracket 20 and a magnet 21. The door weldment 14 is equipped with a handle that allows it to be opened for replenishing wood.
[0055] The frame forms the lower oven body, used to hold the wood. In terms of cleaning and maintenance, the drip tray and burner of a gas grill are practically magnets for oil stains. The stainless steel surface also easily shows fingerprints, requiring a lot of wiping after each use. Cleaning wood ash is relatively simpler with this application. In the long run, for barbecue enthusiasts, using wood as fuel is more economical than gas. Charcoal can be used as needed for a single barbecue, which is convenient and quick, and avoids the problem of a gas grill suddenly running out of gas.
[0056] The fan 24 is controlled by electrical energy. In this embodiment, the fan 24 is a DC fan 24, connected to an external charging power supply. The back of the fan 24 is embedded in the front panel 7 of the frame, and the interface 204 of the external power supply is located on the front panel 7 of the frame. In another embodiment, a battery is installed inside the furnace for storing electricity. In the absence of an external power supply, the battery is electrically connected to the fan 24 to provide power to the fan 24.
[0057] In summary, this application surpasses gas-fired grills in both flavor depth and extreme high-temperature capability, eliminating reliance on fuel canisters and avoiding the maintenance challenges and potential component failures associated with more complex gas-fired grills, thus reducing overall costs and making it more economical. This application provides a compact, lightweight, and convenient wood-fired grill to meet the needs of users seeking the ultimate flavor and high-temperature grilling experience.
[0058] Example 2:
[0059] Reference Figure 7 and Figure 8 The difference between this embodiment and Embodiment 1 is that the reflector assembly 18 is a single piece, comprising a square disk 189 and a third base 190. The square disk 189 is positioned above the third base 190 and integrally welded to it. Multiple fourth ventilation holes 191 are provided on the surface of the square disk 189 and the bottom of the third base 190. In this embodiment, the enclosed heat transfer cavity of the reflector assembly 18 facilitates uniform heat distribution, and the evenly distributed fourth ventilation holes 191 promote heat flow and rapid transfer. The combustion chamber cavity 101 connects to the reflector assembly 18, forming a circulating air duct.
[0060] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A wood-fired griddle oven, characterized in that, The furnace includes a frying pan assembly (1), a combustion chamber assembly (10), and a reflector assembly (18) mounted on the furnace body. The frying pan assembly (1) is mounted above the furnace body and is fixedly connected to the furnace body via the reflector assembly (18). The combustion chamber assembly (10) is mounted inside the furnace body and includes a combustion chamber cavity (101), an outer combustion chamber panel (102), an outer combustion chamber bottom plate (105), and a combustion channel (103). The combustion chamber cavity (101) is provided with a plurality of first ventilation holes (106). The outer combustion chamber panel (102) covers the combustion chamber cavity (101). The side wall of the outer combustion chamber panel (102) is connected to the combustion channel (103). The outer combustion chamber panel (102) and the outer combustion chamber bottom plate (105) are fixedly connected. The combustion chamber (101) is connected to the reflector assembly (18) and forms a circulating air duct. An air supply device is installed on the circulating air duct. The air supply device blows the high-temperature hot air in the combustion chamber (101) into the reflector assembly (18) so that the frying pan assembly (1) heats up quickly and the temperature is uniform.
2. The wood-burning griddle oven according to claim 1, characterized in that, The wood-fueled griddle oven is also equipped with a flame adjustment device, which includes a pair of blades (108) and a pair of connecting rods (109). The blades (108) are provided with a plurality of second ventilation holes (110), and the ends of the connecting rods (109) are provided with adjustment handles (111). A single connecting rod (109) and a single blade (108) are fixedly connected. Rotating the adjustment handle (111) drives the blades (108) to rotate.
3. The wood-burning griddle oven of claim 1, wherein, The reflector assembly includes a fire distribution plate (181) and a heat collection plate (182), which are detachably connected.
4. The wood-burning griddle oven of claim 1, wherein, The reflector assembly includes a square disk (189) and a third base (190). The square disk (189) is positioned above the third base (190) and is integrally welded to the third base (190).
5. The wood-burning griddle oven of claim 2, wherein, The air supply device is configured as a fan (24), and the fan (24) is connected to the side wall of the outer panel (102) of the combustion chamber.
6. The wood-burning griddle oven of claim 5, wherein, The furnace body is also equipped with an interface (204) for connecting an external charging power supply.
7. The wood-burning griddle oven of claim 5, wherein, The furnace is equipped with a storage battery.
8. The wood-fired griddle oven according to claim 1, characterized in that, The furnace body includes the upper furnace body and the frame. The upper furnace body is formed by the left side plate (4), the front plate (8), the rear plate (11), and the right side plate (12).
9. The wood-burning griddle oven according to claim 8, characterized in that, The frame includes a left frame weldment (3), a frame connecting plate (5), a frame side plate (15), a right frame weldment (13), a frame upper front plate (7), a frame lower front plate (6), a frame rear upper plate (17), a door weldment (14), and a frame center partition (16).
10. The wood-burning griddle stove of claim 1, wherein, The frying pan assembly (1) is provided with a guide hole (201) and a guide plate (202) for discharging oil.