Energy-saving noodle cooking cylinder system with pull-out burner
By incorporating a pull-out burner design into the noodle cooking pot, the difficulties in cleaning and maintenance caused by fixed installation of the burner are solved, achieving convenient operation and efficient heat utilization of the burner.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHONGXIN RANSHU INTELLIGENT SOURCE (CHENGDU) CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-06-23
AI Technical Summary
The fixed installation of the existing noodle-cooking stove makes cleaning and maintenance difficult, requiring manual disassembly while lying down, which is a challenging operation.
Design an energy-saving noodle cooking cylinder system for a pull-out burner. It adopts a double-layer cylinder and a push-pull track seat. The burner body can be pushed and pulled to be installed on a push-pull drawer. When stored, it is located at the bottom of the protruding cylinder of the burner body. The flame and high-temperature flue gas enter the flame flue gas cylinder cavity to heat water. The burner can be pulled out for easy cleaning and maintenance.
It enables convenient cleaning and maintenance of the stove, improves heat conversion efficiency, and simplifies the operation process.
Smart Images

Figure CN224387207U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of steaming and cooking equipment for noodles, and in particular to an energy-saving noodle cooking cylinder system with a pull-out combustion stove. Background Technology
[0002] Noodle cookers are commonly used noodle cooking equipment in restaurants. Their large water capacity allows for the cooking of more noodles, making them popular with restaurants. Currently, the burner in noodle cookers is fixed to the bottom. Because the burner is constantly in use, cleaning and maintenance require disassembly, which is very troublesome. Furthermore, removing the burner requires lying on the ground to operate, and even then, the disassembly work is extremely difficult. Utility Model Content
[0003] The purpose of this invention is to solve the difficulty of cleaning and maintaining the burner in existing noodle cooking tanks, and to provide an energy-saving noodle cooking tank system with a pull-out burner. The bottom of the double-layered cylinder is fixed with a push-pull track seat, and a push-pull drawer is installed on the push-pull track seat. The burner body is installed on the push-pull drawer. When the push-pull drawer is fully retracted into the push-pull track seat, the burner body is located at the bottom of the burner body's protruding cylinder. The combustion flame and high-temperature flue gas of the burner body enter the flame and flue gas chamber of the burner body's protruding cylinder. The combustion flame and high-temperature flue gas heat the water inside the double-layered cylinder and cook noodles and other foods. When not in use, the burner body can be pulled out for easy cleaning and maintenance.
[0004] The objective of this utility model is achieved through the following technical solution:
[0005] An energy-saving noodle-cooking drum system for a pull-out burner includes a double-layered cylinder and a burner body. The bottom plate of the double-layered cylinder has a raised burner body cylinder on its inner side. The raised burner body cylinder is connected to a flue gas corrugated pipe located inside the double-layered cylinder. The outlet of the flue gas corrugated pipe passes through the bottom plate or side plate of the double-layered cylinder and is located outside the double-layered cylinder. A push-pull rail seat is fixed to the bottom of the bottom plate of the double-layered cylinder. A push-pull drawer is installed on the push-pull rail seat, and the burner body is installed on the push-pull drawer. When the push-pull drawer is fully retracted into the push-pull rail seat, the burner body is located exactly at the bottom of the burner body cylinder raised cylinder.
[0006] To better realize this utility model, the push-pull drawer is composed of a drawer slide and an arc-shaped baffle installed at the end of the drawer slide, and the bottom of the double-layer cylinder has a baffle notch corresponding to the arc-shaped baffle.
[0007] Preferably, the push-pull rail seat has rail grooves on both sides, and the drawer slide of the push-pull drawer is slidably installed on the rail grooves of the push-pull rail seat on both sides.
[0008] Preferably, the drawer slide has a stove body mounting hole at the end away from the arc-shaped baffle, and the stove body is installed in the stove body mounting hole of the drawer slide. The stove body has a burner head and an air inlet pipe corresponding to the burner head is connected to the stove body.
[0009] Preferably, the double-layer cylinder is composed of an outer cylinder and an inner cylinder. The outer cylinder is an insulated cylinder, and the inner cylinder has a circular inner step in the middle of its inner side. A perforated plate is placed on the inner step, and the stove body protrusion and flue gas corrugated pipe are located in the space below the perforated plate.
[0010] Preferably, the outlet of the flue gas corrugated pipe is sealed through the bottom plate of the double-layer cylinder, and a fan connected to the outlet of the flue gas corrugated pipe is fixed at the bottom of the bottom plate of the double-layer cylinder.
[0011] Preferably, the inner cavity of the protruding cylinder of the stove body is a flame and flue gas cavity, and the inlet of the flue gas corrugated pipe is in a sealed connection with the flame and flue gas cavity.
[0012] Preferably, a handle is provided on the arc-shaped baffle.
[0013] Preferably, the bottom of the double-layered cylinder is also connected to several support legs.
[0014] Compared with the prior art, this utility model has the following advantages and beneficial effects:
[0015] (1) The bottom of the double-layer cylinder of this utility model is fixed with a push-pull rail seat, and a push-pull drawer is installed on the push-pull rail seat. The burner is installed on the push-pull drawer. When the push-pull drawer is fully retracted and pushed into the push-pull rail seat, the burner is located at the bottom of the protruding cylinder of the burner. The combustion flame and high-temperature flue gas of the burner enter the flame and flue gas chamber of the protruding cylinder of the burner. The combustion flame and high-temperature flue gas heat the water inside the double-layer cylinder and cook food such as noodles. When the burner is not working, it can be pulled out for easy cleaning and maintenance.
[0016] (2) The high-temperature flue gas in the raised cylinder of the stove body of this utility model is transmitted through the flue gas corrugated pipe. The high-temperature flue gas in the flue gas corrugated pipe also serves to exchange heat with the water inside the double-layer cylinder, thereby improving the efficiency of combustion heat conversion. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of the energy-saving noodle cooking drum system after the push-pull drawer is pulled out in the embodiment;
[0018] Figure 2 for Figure 1 A structural diagram viewed from below;
[0019] Figure 3 for Figure 1A structural diagram showing the structure after removing the sliding drawers;
[0020] Figure 4 for Figure 3 A structural diagram viewed from below;
[0021] Figure 5 This is a partial structural diagram of the push-pull rail seat and the combustion stove body in the embodiment;
[0022] Figure 6 for Figure 5 A schematic diagram of the structure from another perspective.
[0023] The names corresponding to the reference numerals in the attached figures are as follows:
[0024] 1 - Double-layer cylinder, 2 - Stove body protruding cylinder, 21 - Flame and flue gas cylinder cavity, 3 - Push-pull track seat, 31 - Track groove, 4 - Flue gas corrugated pipe, 5 - Inner step, 6 - Fan, 7 - Push-pull drawer, 71 - Drawer slide plate, 72 - Arc-shaped baffle, 721 - Handle, 8 - Combustion stove body, 81 - Air inlet, 9 - Baffle notch. Detailed Implementation
[0025] The present invention will be further described in detail below with reference to the embodiments:
[0026] Example
[0027] like Figures 1-6 As shown, an energy-saving noodle-cooking drum system for a pull-out burner includes a double-layered cylinder 1 and a burner body 8. Preferably, the double-layered cylinder 1 is composed of an outer cylinder and an inner cylinder, with the outer cylinder being an insulated cylinder. Several support legs are also connected to the bottom of the double-layered cylinder 1. The inner side of the bottom plate of the double-layered cylinder 1 has a burner body protrusion cylinder 2 (see [reference]). Figure 3 The stove body protrusion 2 protrudes vertically upward from the bottom plate of the double-layer cylinder 1. The stove body protrusion 2 is connected to a flue gas corrugated pipe 4 located inside the double-layer cylinder 1. The outlet of the flue gas corrugated pipe 4 passes through the bottom plate or side plate of the double-layer cylinder 1 in a sealed manner and is located outside the double-layer cylinder 1. Preferably, the outlet of the flue gas corrugated pipe 4 passes through the bottom plate of the double-layer cylinder 1 in a sealed manner, and a fan 6 connected to the outlet of the flue gas corrugated pipe 4 is fixed at the bottom of the bottom plate of the double-layer cylinder 1.
[0028] like Figure 2As shown, a sliding rail seat 3 is fixed to the bottom of the base plate of the double-layer cylinder 1. A sliding drawer 7 is installed on the sliding rail seat 3. A combustion stove body 8 is installed on the sliding drawer 7. The combustion stove body 8 is connected to a natural gas pipe or an oil supply pipe (the oil supply pipe is used to transport liquid fuel or vaporized fuel). The inner cavity of the stove body protrusion cylinder 2 is a flame and flue gas chamber 21. The inlet of the flue gas corrugated pipe 4 is in sealed communication with the flame and flue gas chamber 21. When the sliding drawer 7 is fully retracted into the sliding rail seat 3, the combustion stove body 8 is located at the bottom of the stove body protrusion cylinder 2. At this time, the flame and high-temperature flue gas of the combustion stove body 8 are located in the flame and flue gas chamber 21 of the stove body protrusion cylinder 2.
[0029] In some embodiments, such as Figure 5 As shown, the pull-out drawer 7 consists of a drawer slide 71 and an arc-shaped baffle 72 installed at the end of the drawer slide 71. The bottom of the double-layer cylindrical body 1 has a baffle notch 9 corresponding to the arc-shaped baffle 72 (as shown). Figure 3 (As shown). The push-pull track seat 3 has track grooves 31 on both sides (see...). Figure 6 The sliding rail base 3 has rail grooves 31 on both the left and right sides along its length. The drawer slide plate 71 of the sliding drawer 7 is slidably mounted on the rail grooves 31 of the sliding rail base 3 on both sides. Figure 6 As shown, the drawer slide 71 of the pull-out drawer 7 has slide edges on both sides that slide and slidably engage with the slide rail 31. Figure 1 As shown, a handle 721 is provided on the arc-shaped baffle 72. When pushing and pulling the drawer 7, the person holds the handle 721 to perform the pushing and pulling operation.
[0030] In some embodiments, the end of the drawer slide 71 away from the arc-shaped baffle 72 has a stove body mounting hole, and the stove body 8 is fitted into the stove body mounting hole of the drawer slide 71, such as... Figure 5 As shown, the combustion stove body 8 has a burner head, and an air inlet cylinder 81 corresponding to the burner head is connected to the combustion stove body 8. The air inlet cylinder 81 is used to supply air for combustion to the burner head, and an air intake fan can also be installed on the air inlet cylinder 81.
[0031] like Figure 1 As shown, the inner cylinder has a circular inner step 5 in the middle of its inner side. A perforated plate (preferably, the edge of the perforated plate is folded to prevent tipping) is movably placed on the inner step 5. The stove body protrusion cylinder 2 and the flue gas corrugated pipe 4 are located in the space below the perforated plate. The area above the perforated plate is the pasta area. When in use, the double-layer cylinder 1 stores a lot of water, which is a certain distance above the perforated plate. After the water above the perforated plate boils, the pasta is cooked. The perforated plate has fine mesh holes evenly distributed. The perforated plate prevents the pasta from falling into the space below the perforated plate. When cleaning the interior space of the double-layer cylinder 1, the perforated plate can be removed to clean the space below the perforated plate.
[0032] In use, the sliding drawer 7 is installed on the sliding track seat 3. The double-layer cylinder 1 contains a large amount of water, which is a certain distance above the perforated plate. The burner 8 on the sliding drawer 7 is ignited, and the sliding drawer 7 is pushed into the sliding track seat 3. The flame and high-temperature flue gas from the burner 8 on the sliding drawer 7 enter the flame and flue gas chamber 21 of the stove body protrusion 2. The flame and high-temperature flue gas heat the water inside the double-layer cylinder 1. After the water boils, noodles are added. The noodles are blocked and placed above the perforated plate to be cooked. The high-temperature flue gas is discharged from the stove body protrusion 2 to the flue gas corrugated pipe 4. The high-temperature flue gas in the flue gas corrugated pipe 4 also heats the water inside the double-layer cylinder 1. The flue gas is finally discharged into the exhaust pipe through the outlet of the flue gas corrugated pipe 4 and the fan 6 (preferably, the outlet of the flue gas corrugated pipe 4 or the fan outlet is equipped with an exhaust pipe, and the flue gas is discharged into the flue for centralized treatment).
[0033] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. An energy-saving noodle-cooking drum system for a pull-out combustion stove, characterized in that: The device includes a double-layered cylindrical body and a combustion chamber. The bottom plate of the double-layered cylindrical body has a protruding combustion chamber protrusion on its inner side. The combustion chamber protrusion is connected to a flue gas corrugated pipe located inside the double-layered cylindrical body. The outlet of the flue gas corrugated pipe passes through the bottom plate or side plate of the double-layered cylindrical body and is located outside the double-layered cylindrical body. A push-pull rail seat is fixed to the bottom of the bottom plate of the double-layered cylindrical body. A push-pull drawer is installed on the push-pull rail seat. The combustion chamber is installed on the push-pull drawer. When the push-pull drawer is fully retracted into the push-pull rail seat, the combustion chamber is located at the bottom of the combustion chamber protrusion.
2. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 1, characterized in that: The push-pull drawer consists of a drawer slide and an arc-shaped baffle installed at the end of the drawer slide, and the bottom of the double-layer cylinder has a baffle notch corresponding to the arc-shaped baffle.
3. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 2, characterized in that: The push-pull rail base has rail grooves on both sides, and the drawer slide of the push-pull drawer is slidably installed on the rail grooves of the push-pull rail base on both sides.
4. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 3, characterized in that: The drawer slide has a stove body mounting hole at the end away from the arc-shaped baffle. The stove body is installed in the stove body mounting hole of the drawer slide. The stove body has a burner head and an air inlet pipe corresponding to the burner head is connected to the stove body.
5. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 1, characterized in that: The double-layer cylinder is composed of an outer cylinder and an inner cylinder. The outer cylinder is an insulated cylinder. The inner cylinder has a circular inner step in the middle of its inner side. A perforated plate is placed on the inner step. The stove body protrusion and flue gas corrugated pipe are located in the space below the perforated plate.
6. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 1, characterized in that: The outlet of the flue gas corrugated pipe is sealed and penetrates the bottom plate of the double-layer cylinder. A fan connected to the outlet of the flue gas corrugated pipe is fixed at the bottom of the bottom plate of the double-layer cylinder.
7. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 1, characterized in that: The inner cavity of the protruding cylinder of the stove body is a flame and flue gas cavity, and the inlet of the flue gas corrugated pipe is in a sealed connection with the flame and flue gas cavity.
8. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 2, characterized in that: A handle is provided on the arc-shaped baffle.
9. The energy-saving noodle-cooking drum system of a pull-out combustion stove according to claim 1, characterized in that: The bottom of the double-layered cylinder is also connected to several support legs.