Gas double-head single-tail frying furnace
Through its integrated design and dual gas connection method, the problem of inconvenient movement of dual-head single-tail wok stoves has been solved, enabling flexible use of gas wok stoves and enhancing applicability and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING DAJIANGNAN KITCHEN EQUIP CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-06-05
AI Technical Summary
Existing double-headed single-tailed wok stoves are inconvenient to move and lack flexibility and applicability due to the use of gas pipe connections.
It adopts an integrated design, combining gas pipe connection and gas cylinder connection, and is equipped with a gas cylinder placement box, slide rail, fixed track, ventilation holes and cooling fan to realize the movement and fixation of the furnace platform, enhancing its applicability.
This improves the flexibility and applicability of gas-fired wok stoves, allowing them to be moved or fixed in place when needed, thus enhancing ease of use and safety.
Smart Images

Figure CN224327229U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of gas-fired wok stove technology, specifically a gas-fired double-headed single-tail wok stove. Background Technology
[0002] The double-headed single-tail wok is one of the core pieces of equipment in a commercial kitchen, combining efficient cooking with space optimization. Its design takes into account two main stoves (wok) and one auxiliary area (sink or soup stove).
[0003] Furnace body and combustion system
[0004] Furnace body structure: The main body is made of stainless steel (panel thickness 0.8mm, side plate thickness 0.6mm), which is corrosion resistant and easy to clean.
[0005] Heating method:
[0006] Gas / oil type: It burns natural gas or liquefied gas through a high-efficiency burner head, and the flame temperature can reach more than 1300℃. The best state is when the fire is concentrated and turns blue-purple. 410
[0007] Electromagnetic type: Adopts German Infineon IGBT module, heats cookware through electromagnetic eddy current, with a thermal efficiency of over 92%, saving 50%-60% more energy than gas.36
[0008] Energy-saving technology: Some gas engine models are equipped with waste heat recovery systems, such as heat transfer oil pipes that use the waste heat of flue gas to preheat air, with a comprehensive energy saving rate of 30%–50%54.
[0009] Drainage and Residue Treatment
[0010] The concave filter screen is paired with a vibrating pin mechanism. The motor drives the cam to lift the crossbar, so that the pin disperses the residue and vibrates the filter screen, avoiding clogging of the drain pipe 1.
[0011] The filter screen is designed to be detachable (by inserting a stand into a fixing block) for easy cleaning of residue.
[0012] Currently, this type of double-headed single-tailed wok is widely used in the catering industry. However, many of these woks are currently connected via gas pipes, making them inconvenient to move. Therefore, there is an urgent need for an improved technology to solve this problem in the existing technology. Utility Model Content
[0013] The purpose of this utility model is to provide a gas-fired double-headed single-tailed wok stove that adopts an integrated design, can be moved or fixed, and uses a dual method of gas pipe connection and gas tank connection, which greatly improves the applicability and flexibility of the gas wok stove, so as to solve the problems mentioned in the background art.
[0014] To achieve the above objectives, this utility model provides the following technical solution: a gas-fired double-headed single-tailed wok stove, comprising a gas-fired wok stove, a water receiving tank, and a gas cylinder storage box. The gas-fired wok stove is equipped with a stove platform, and gas heads A and B are symmetrically arranged above the stove platform. A water receiving tank is located near the rear center of the stove platform. The water receiving tank is funnel-shaped, and a drain pipe is located at the bottom center of the water receiving tank. A water flow control valve is installed inside the drain pipe. A faucet is vertically installed on one side of the water receiving tank. The faucet is fixedly installed on the stove platform, and a water flow control valve is installed inside the faucet.
[0015] The furnace platform has a gas cylinder storage box in the center, located directly below the water tank. The gas cylinder storage box is a cuboid, with a sliding rail and a fixed track at the bottom. The sliding rail is located near the two side edges of the bottom of the gas cylinder storage box, and the fixed track is fixedly installed to the inner bottom plate of the furnace platform. The back of the gas cylinder storage box has a ventilation hole, with a buffer ring on one side of the ventilation hole, and a cooling fan inside the ventilation hole.
[0016] The bottom of the furnace platform is equipped with rubber pads and lifting casters near the four corners. The rubber pads are installed by screws that fit into the bottom of the furnace platform.
[0017] The furnace platform is equipped with a fume extractor near the back, with the port of the fume extractor being bent. Two high-speed fans are installed on the inner surface of the fume extractor near the bottom.
[0018] Preferably, two firepower adjustment pedals are symmetrically arranged on the front of the furnace platform near the bottom. The firepower adjustment pedals are installed in conjunction with the furnace platform, and the firepower adjustment pedals are connected to the gas valve on the gas head by a pull lock.
[0019] Preferably, a liquid level sensor is provided on the lower inner side of the upper opening of the water receiving pool, and the liquid level sensor is arranged in a ring at a position 4-5 cm below the opening of the water receiving pool.
[0020] Preferably, both gas head A and gas head B are provided with gas connectors at their bottoms, and both gas head A and gas head B are provided with gas head supports below them. The gas head supports are fixedly installed on the lower surface of the furnace platform. Ventilation openings are provided around the gas head supports. A gas interface mounting hole is provided in the center of the bottom support plate of the gas head supports, and the gas connector is fitted inside the gas interface mounting hole.
[0021] Preferably, the back of the furnace platform is provided with two external gas pipe mounting holes.
[0022] Compared with the prior art, the beneficial effects of this utility model are:
[0023] (1) Two firepower adjustment pedals are symmetrically installed on the front of the stove near the bottom. The firepower adjustment pedals are installed in conjunction with the stove. The firepower adjustment pedals are connected to the gas valve on the gas head by a pull lock. The user controls the amount of gas by controlling the force of pressing the firepower adjustment pedals, thereby controlling the firepower of the gas stove.
[0024] (2) A liquid level sensor is installed on the lower inner side of the upper opening of the water receiving pool. The liquid level sensor is arranged in a ring 4-5cm below the opening of the water receiving pool. The water level is detected by the liquid level sensor to automatically adjust the water flow control valve inside the drain pipe and the water flow control valve inside the faucet. This can ensure the water level inside the water receiving pool. This method not only controls the height of the water level, but also prevents water from overflowing onto the furnace platform.
[0025] (3) A ventilation hole is provided on the back of the gas cylinder storage box, and a buffer ring is provided on one side of the ventilation hole to prevent the gas pipe from impacting the back of the gas cylinder storage box when the gas cylinder storage box is pushed in.
[0026] (4) A cooling fan is installed inside the ventilation hole. The fan drives the airflow to keep the inside of the gas cylinder storage box at a low temperature, which greatly improves the safety of the gas cylinder during use.
[0027] (5) The gas cylinder storage box adopts a drawer-type design, which can be pulled out and pushed in freely. The gas cylinder storage box is used for outdoor use or when it is inconvenient to connect the gas pipe, which greatly improves the flexibility of the gas stove.
[0028] (6) The gas-fired wok is designed as an integral unit, which can be moved or fixed. It adopts a dual method of gas pipe connection and gas tank connection, which greatly improves the applicability and flexibility of the gas-fired wok. Attached Figure Description
[0029] Figure 1 This is a front view of the gas-fired wok stove of this utility model;
[0030] Figure 2 This is a schematic diagram of the overall structure of the gas-fired wok stove of this utility model;
[0031] Figure 3 This is a rear view of the gas-fired wok stove of this utility model;
[0032] Figure 4 This is a cross-sectional view of the gas cylinder placement box of this utility model;
[0033] Figure 5 This is a schematic diagram of the overall structure of the water receiving pool mechanism of this utility model.
[0034] In the diagram: 1. Gas-fired wok; 2. Stove platform; 3. Gas head A; 4. Gas head B; 5. Water tank; 6. Water tap; 7. Smoke extractor; 8. Heat adjustment pedal; 9. Gas cylinder storage box; 10. Rubber pad; 11. Lifting casters; 12. Gas head bracket; 13. Water flow control valve; 14. Gas connector; 15. Buffer washer; 16. Cooling fan; 17. Vent; 18. Slide rail; 19. Fixed track; 20. Liquid level sensor; 21. External gas pipe mounting hole. Detailed Implementation
[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0036] Please see Figure 1 - Figure 5 This utility model provides a technical solution: a gas-fired double-headed single-tailed wok stove, including a gas wok stove 1, a water receiving tank 5, and a gas cylinder placement box 9. The gas wok stove 1 is equipped with a stove platform 2. Gas heads A3 and B4 are symmetrically arranged above the stove platform 2. Gas connectors 14 are provided at the bottom of both gas heads A3 and B4. Gas head supports 12 are provided below both gas heads A3 and B4. The gas head supports 12 are fixedly installed on the lower surface of the stove platform 2. Ventilation openings are provided around the gas head supports 12 to facilitate heat dissipation of the gas heads during long-term operation. A gas interface mounting hole is provided in the center of the bottom support plate of the gas head support 12. The gas connectors 14 are fitted inside the gas interface mounting hole to connect the movable gas cylinder port to the gas head.
[0037] Two firepower adjustment pedals 8 are symmetrically located near the bottom of the front of the stove 2. The firepower adjustment pedals 8 are installed in conjunction with the stove 2. The firepower adjustment pedals 8 are connected to the gas valve on the gas head by a pull lock. The user controls the amount of gas by controlling the force of pressing the firepower adjustment pedals 8, thereby controlling the firepower of the gas stove.
[0038] A water receiving pool 5 is located in the center of the upper part of the furnace platform 2, near the rear. A faucet 6 is vertically installed on one side of the water receiving pool 5. The faucet 6 is fixedly installed to the furnace platform 2. A water flow control valve 13 is installed inside the faucet 6. The water receiving pool 5 is funnel-shaped. A drain pipe is located in the center of the bottom of the water receiving pool 5. A water flow control valve 13 is installed inside the drain pipe. A liquid level sensor 20 is located on the lower inner side of the upper part of the water receiving pool 5. The liquid level sensor 20 is arranged in a ring 4-5 cm below the opening of the water receiving pool 5. The liquid level sensor 20 detects the water level and automatically adjusts the water flow control valve 13 inside the drain pipe and the water flow control valve 13 inside the faucet 6. This can ensure the water level inside the water receiving pool 5. This method not only controls the water level but also prevents water from overflowing onto the furnace platform 2.
[0039] The gas cylinder placement box 9 is located in the center of the interior of the furnace platform 2. The gas cylinder placement box 9 is located directly below the water receiving pool 5. The gas cylinder placement box 9 is a cuboid. The bottom of the gas cylinder placement box 9 is equipped with a slide rail 18 and a fixed track 19. The slide rail 18 is located at the bottom of the gas cylinder placement box 9 near the two side edges. The fixed track 19 is fixedly installed to the inner bottom plate of the furnace platform 2. The back of the gas cylinder placement box 9 is equipped with a ventilation hole 17. A buffer ring 15 is provided on one side of the ventilation hole 17 to prevent the gas pipe from impacting the back of the gas cylinder placement box 9 when it is pushed in.
[0040] The ventilation hole 17 is equipped with a cooling fan 16, which drives airflow to keep the gas cylinder storage box 9 at a low temperature, thus greatly improving the safety of the gas cylinder during use. The gas cylinder storage box 9 adopts a drawer-type design, which can be pulled out and pushed in freely. The gas cylinder storage box 9 is used for outdoor use or when it is inconvenient to connect a gas pipe, which greatly improves the flexibility of the gas stove 1.
[0041] Rubber pads 10 and lifting casters 11 are provided near the four corners of the bottom of the furnace platform 2. The rubber pads 10 are installed with screws to fit the bottom of the furnace platform 2. The rubber pads 10 can be rotated with a wrench to lift the lifting casters 11 off the ground, so that the furnace platform 2 can stand stably.
[0042] The upper part of the furnace platform 2 near the back is equipped with a smoke extractor 7. The port of the smoke extractor 7 is elbow-shaped. Two high-speed fans are installed on the inner surface of the smoke extractor 7 near the bottom. Each high-speed fan of the smoke extractor 7 can be turned on independently or both can be turned on. This can save energy and also quickly exhaust smoke when the smoke is large. The number of high-speed fans to be turned on can be selected according to the actual situation. The back of the furnace platform 2 is equipped with two external gas pipe installation holes 21 for connecting external gas pipes.
[0043] The gas-fired wok 1 adopts an integrated design, which can be moved or fixed. It uses a dual method of gas pipe connection and gas tank connection, which greatly improves the applicability and flexibility of the gas-fired wok 1.
[0044] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A gas-fired double-headed single-tailed wok stove, comprising a gas-fired wok stove (1), a water receiving tank (5), and a gas cylinder storage box (9), characterized in that: The gas-fired wok (1) is equipped with a stove platform (2). Gas head A (3) and gas head B (4) are symmetrically arranged above the stove platform (2). A water receiving pool (5) is provided near the rear center above the stove platform (2). The water receiving pool (5) is funnel-shaped. A drain pipe is provided at the bottom center of the water receiving pool (5). A water flow control valve (13) is provided inside the drain pipe. A faucet (6) is provided vertically on one side of the water receiving pool (5). The faucet (6) is fixedly installed on the stove platform (2). A water flow control valve (13) is provided inside the faucet (6). The furnace platform (2) has a gas cylinder placement box (9) in the center of its interior. The gas cylinder placement box (9) is located directly below the water receiving pool (5). The gas cylinder placement box (9) is a cuboid. The bottom of the gas cylinder placement box (9) is equipped with a slide rail (18) and a fixed track (19). The slide rail (18) is located at the bottom of the gas cylinder placement box (9) near the two side edges. The fixed track (19) is fixedly installed to the inner bottom plate of the furnace platform (2). The back of the gas cylinder placement box (9) is equipped with a ventilation hole (17). A buffer ring (15) is provided on one side of the ventilation hole (17). A cooling fan (16) is provided inside the ventilation hole (17). The bottom of the furnace platform (2) is fitted with rubber pads (10) and lifting casters (11) near the four corners. The rubber pads (10) are installed with screws to fit the bottom of the furnace platform (2). The furnace platform (2) is equipped with a smoke extractor (7) near the back. The port of the smoke extractor (7) is bent. Two high-speed fans are provided on the inner surface of the smoke extractor (7) near the bottom.
2. A gas-fired double-headed single-tailed wok stove according to claim 1, characterized in that: The furnace platform (2) has two symmetrical fire control pedals (8) on its front side near the bottom. The fire control pedals (8) are installed in conjunction with the furnace platform (2). The fire control pedals (8) are connected to the gas valve on the gas head by a pull lock.
3. A gas-fired double-headed single-tail wok stove according to claim 1, characterized in that: A liquid level sensor (20) is provided on the lower inner side of the upper opening of the water receiving pool (5). The liquid level sensor (20) is arranged in a ring at a position 4-5 cm below the opening of the water receiving pool (5).
4. A gas-fired double-headed single-tailed wok stove according to claim 1, characterized in that: Gas connectors (14) are provided at the bottom of both gas head A (3) and gas head B (4). Gas head brackets (12) are provided below both gas head A (3) and gas head B (4). Gas head brackets (12) are fixedly installed on the lower surface of the furnace platform (2). Ventilation openings are provided around the gas head brackets (12). Gas interface mounting holes are provided in the center of the bottom bracket plate of the gas head brackets (12). Gas connectors (14) are fitted inside the gas interface mounting holes.
5. A gas-fired double-headed single-tailed wok stove according to claim 1, characterized in that: The back of the furnace platform (2) is provided with two external gas pipe mounting holes (21).