Gas hob
By using a bracket structure in the gas stove to connect the wireless signal module to the gas inlet pipe, the problems of cumbersome installation and signal shielding are solved, achieving the effects of simplified production and improved communication quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU ROBAM APPLIANCES CO LTD
- Filing Date
- 2025-06-05
- Publication Date
- 2026-06-26
AI Technical Summary
The installation process of the wireless signal module in existing gas stoves is cumbersome, which increases production costs and time on the production line. At the same time, the signal shielding of the signal module by metal parts affects the communication quality.
The wireless signal module is installed inside the gas stove using a bracket structure. The bracket is snapped into the gas inlet pipe to ensure that the signal module is separated from the metal parts, thus avoiding interference and signal shielding.
It simplifies the installation process of wireless signal modules, reduces production costs and time, and improves the reliability and communication quality of signal modules.
Smart Images

Figure CN224415201U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of kitchen stove technology, and more particularly to a gas stove. Background Technology
[0002] In modern kitchen appliances, smart cooktops have become a significant trend. The introduction of wireless communication technologies such as Bluetooth linkage between the cooktop and range hood allows users to remotely control the cooktop via smartphones or other smart devices, improving both convenience and safety.
[0003] Currently, gas stoves communicate with external devices via a wireless signal module. This module is installed inside the gas stove's body, which includes a chassis and a panel covering the chassis. The wireless signal module is attached to the bottom of the panel using adhesive.
[0004] However, the installation process of the wireless signal module is cumbersome, and the gas stove needs to be pre-installed, bonded and cured on the auxiliary line in the production process, which increases the production cost and time of the production line. Utility Model Content
[0005] Based on this, this application provides a gas stove to solve the problem that the complicated installation process of the wireless signal module in the related technology leads to increased production costs and time on the production line.
[0006] This application provides a gas stove, including a body and an air inlet pipe, a bracket and a wireless signal module respectively installed in the body;
[0007] The intake pipe includes an intersecting first intake section and a second intake section, with one end of the first intake section connected to the middle of the second intake section;
[0008] The bracket includes a mounting base, a first leg, and a second leg. The mounting base is located above the intake pipe. The first leg includes a first support arm and two second support arms. One end of the first support arm is connected to one side of the mounting base, and the other end of the first support arm is connected to the ends of the two second support arms. One end of the second leg is connected to the side of the mounting base opposite to the first leg. Each second support arm and the second leg are provided with a buckle at the end away from the first support arm and at the end away from the mounting base, respectively. The buckles on the two second support arms are engaged with the second intake section, and the buckles on the second leg are engaged with the first intake section.
[0009] The wireless signal module is mounted on the mounting base;
[0010] The buckle includes two spaced-apart limiting arms, which are located on both sides of the corresponding air intake section. The distance between the two limiting arms is greater than or equal to the outer diameter of the corresponding air intake section.
[0011] In one possible implementation, the wireless signal module is mounted on the side of the mounting base facing the air intake pipe;
[0012] The body includes a chassis and a panel covering the chassis. The chassis has a cavity in which the air intake pipe, bracket and wireless signal module are housed. The panel abuts against the side of the mounting base away from the air intake pipe.
[0013] Each clip has an opening for the corresponding air intake section to extend into, and the opening of the clip is located away from the panel.
[0014] In one possible implementation, the mounting base is provided with an elastic part, and the end of the elastic part away from the mounting base abuts against the panel.
[0015] In one possible implementation, the elastic part is an elastic arm, and elastic arms are respectively provided on opposite sides of the mounting base. One end of the elastic arm is connected to the mounting base, and the other end of the elastic arm extends toward the side away from the air intake pipe and abuts against the panel.
[0016] In one possible implementation, the two second support arms are located on opposite sides of the first air intake section.
[0017] In one possible implementation, the first leg further includes a connecting arm that intersects with the first support arm, with the end of the first support arm away from the mounting base connected to the connecting arm, and the ends of the two second support arms respectively connected to the two ends of the connecting arm.
[0018] In one possible implementation, the opening of each latch is located at the end of the latch that faces away from the mounting base.
[0019] In one possible implementation, the first intake section includes a first intake pipe section, a second intake pipe section, and a third intake pipe section connected in sequence, with the end of the first intake pipe section away from the second intake pipe section connected to the second intake section; both the first and third intake pipe sections extend horizontally, with the third intake pipe section being higher than the first intake pipe section;
[0020] The end of the first leg away from the base extends away from the second leg, and the clip on the second leg engages with the third intake pipe section.
[0021] In one possible implementation, a reinforcing rib is provided on the first support arm, extending from one end of the first support arm to the other end.
[0022] In one possible implementation, the latch also includes an arc-shaped arm connected between the two limiting arms, the arc-shaped arm abutting against the outer wall of the corresponding air intake section.
[0023] The gas stove provided in this application includes a body, an inlet pipe, a bracket, and a wireless signal module. The inlet pipe includes intersecting first and second inlet sections. The wireless signal module is mounted on a mounting base of the bracket. The bracket has a first foot and a second foot on each side of the mounting base. The first foot includes a first support arm and two second support arms. The first foot engages with the second inlet section via latches on the two second support arms, and the second foot engages with the first inlet section via latches on its own. The distance between the two limiting arms of each latch is greater than or equal to the outer diameter of the corresponding inlet section. This allows the wireless signal module to be easily mounted on the inlet pipe via the bracket, simplifying assembly and reducing production line costs and time. The two second support arms of the first foot of the bracket are connected to the same first support arm, preventing interference between the first foot of the bracket and other components of the gas stove. Furthermore, the bracket provides a gap between the wireless signal module and the metal parts of the gas stove, making the signal less susceptible to interference from metal and high temperatures, thus increasing the reliability of the wireless signal module. Attached Figure Description
[0024] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0025] Figure 1 An exploded view of a gas stove provided in an embodiment of this application;
[0026] Figure 2 This is a top view of a gas stove with its panel removed, as provided in an embodiment of this application.
[0027] Figure 3 A cross-sectional view of a gas stove provided in an embodiment of this application;
[0028] Figure 4 This is a schematic diagram showing the bracket connected to the wireless signal module according to an embodiment of this application;
[0029] Figure 5 This is a schematic diagram showing the bracket and wireless signal module after being separated, as provided in an embodiment of this application.
[0030] Figure 6 A side view of the bracket provided in an embodiment of this application;
[0031] Figure 7 for Figure 6 A magnified view of the area within the dashed box;
[0032] Figure 8 This is a schematic diagram of the bracket and intake pipe after disassembly provided in the embodiments of this application;
[0033] Figure 9 This is a schematic diagram showing the connection between the bracket and the air intake pipe provided in the embodiments of this application;
[0034] Figure 10 This is a schematic diagram showing the connection between the bracket, intake pipe, and valve body assembly provided in the embodiments of this application.
[0035] Explanation of reference numerals in the attached figures:
[0036] 100 - Body; 110 - Chassis; 120 - Panel;
[0037] 200 - Intake pipe; 210 - First intake section; 211 - First intake pipe section; 212 - Second intake pipe section; 213 - Third intake pipe section; 220 - Second intake section;
[0038] 300-Bracket; 310-Mounting base; 311-Elastic part; 320-First leg; 321-First support arm; 322-Second support arm; 323-Connecting arm; 324-Reinforcing rib; 330-Second leg; 340-Snap fastener; 341-Limiting arm; 342-Opening; 343-Arc-shaped arm;
[0039] 400-Wireless Signal Module;
[0040] 500 - Valve body assembly; 510 - Waterproof ring;
[0041] 600-Controller. Detailed Implementation
[0042] To make the objectives, technical solutions, and advantages of this application clearer, the technical solutions in the embodiments of this application will be described in more detail below with reference to the accompanying drawings. In the drawings, the same or similar reference numerals denote the same or similar components or components having the same or similar functions throughout. The described embodiments are some, but not all, of the embodiments of this application. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this application, and should not be construed as limiting this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application. The embodiments of this application will be described in detail below with reference to the accompanying drawings.
[0043] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, an indirect connection through an intermediate medium, or the internal communication between two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this application according to the specific circumstances.
[0044] In the description of this application, it should be understood that the terms "upper", "lower", "front", "back", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the accompanying drawings, and are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application.
[0045] The terms “first,” “second,” and “third” (if any) in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.
[0046] Furthermore, the terms “comprising” and “having”, and any variations thereof, are intended to cover non-exclusive inclusion, such that a process, method, system, product, or display that includes a series of steps or units is not necessarily limited to those steps or units that are explicitly listed, but may include other steps or units that are not explicitly listed or that are inherent to such process, method, product, or display.
[0047] In existing technology, gas stoves communicate with external devices via a wireless signal module. The wireless signal module is installed inside the gas stove's body, which includes a chassis and a panel covering the chassis. The wireless signal module is attached to the bottom surface of the panel using adhesive. However, the installation process is cumbersome, requiring pre-installation and curing on an auxiliary production line, increasing production costs and time. Furthermore, the adhesive method for fixing the wireless signal module to the panel increases production time and after-sales maintenance difficulties, leading to a higher overall cost for the gas stove. Additionally, gas stove panels are typically made of metal or have a metal explosion-proof film on the back. During use, the high temperature of the metal components can shield the wireless signal module's signal, affecting communication quality.
[0048] After repeated consideration and verification, the inventors discovered that if the wireless signal module is installed inside the gas stove body via a bracket, the bracket provides a gap between the wireless signal module and the metal parts of the gas stove, preventing direct contact or excessive proximity between the wireless signal module and the metal, thus ensuring the communication quality of the wireless signal module. Support legs are provided on both sides of the bracket, and each support leg is engaged with the gas stove's air inlet pipe via clips. The distance between the two limiting arms of the clips is not less than the outer diameter of the air inlet pipe, making the assembly of the wireless signal module easier and reducing production line costs and time. One support leg on one side of the bracket includes a first support arm and two second support arms connected to the first support arm. Clips are provided on the two second support arms to engage with different positions on the air inlet pipe. The shape of this support leg makes it less likely for the bracket to interfere with other components of the gas stove.
[0049] In view of this, the inventor designed a gas stove in which a wireless signal module is installed inside the stove body via a bracket, creating a gap between the wireless signal module and the metal parts of the stove. The wireless signal module is fixed to the mounting base of the bracket. The bracket has a first foot and a second foot on each side of the mounting base. The first foot includes a first support arm and two second support arms, each connected to the end of the first support arm away from the mounting base. Clips are provided on the second support arms and the second foot to engage with different positions of the gas stove's air inlet pipe. The gap between the two limiting arms of the clips is not less than the outer diameter of the air inlet pipe, facilitating the engagement between the bracket and the air inlet pipe. The shape of the first foot makes it less likely to interfere with other parts of the gas stove.
[0050] The technical solution of the gas stove provided in the embodiments of this application will be described in detail below with reference to the accompanying drawings.
[0051] Reference Figures 1 to 10 As shown, the gas stove provided in this embodiment includes a body 100 and an intake pipe 200, a bracket 300, and a wireless signal module 400, all installed within the body 100. The intake pipe 200 includes an intersecting first intake section 210 and a second intake section 220, with one end of the first intake section 210 connected to the middle of the second intake section 220. The intake pipe 200 forms an approximate "T" shape, where the horizontal section of the "T" shape is the second intake section 220, and the vertical section of the "T" shape is the first intake section 210. Schematably, the gas stove has two valve assemblies 500 installed inside the body 100, with both ends of the second intake section 220 locked and connected to the two valve assemblies 500. The end of the first intake section 210 furthest from the second intake section 220 is used to connect to a gas pipeline, thereby allowing the intake pipe 200 to guide gas from the gas pipeline to the two valve assemblies 500.
[0052] The bracket 300 includes a mounting base 310, a first support leg 320, and a second support leg 330. The mounting base 310 is located above the intake pipe 200. The mounting base 310 can be a plate-like structure, with a vertical gap between it and the intake pipe 200. The first support leg 320 includes a first support arm 321 and two second support arms 322. One end of the first support arm 321 is connected to one side of the mounting base 310, and the other end of the first support arm 321 is connected to the ends of the two second support arms 322. Figure 4 and Figure 5 As shown, the first support leg 320 has an approximate "Y" shape, with the two branches of the "Y" shape forming the two second support arms 322. The structure of the first support leg 320 prevents interference with other components of the gas stove, such as the waterproof ring 510 mounted on the valve body assembly 500.
[0053] One end of the second leg 330 is connected to the side of the mounting base 310 opposite to the first leg 320. Specifically, the first leg 320 and the second leg 330 are located on opposite sides of the mounting base 310 in a first direction, which is perpendicular to the thickness direction of the mounting base 310. The first leg 320 and the second leg 330 extend towards the intake pipe 200. Optionally, the mounting base 310, the first leg 320, and the second leg 330 can be integrally formed. The bracket 300 is made of non-metallic material, preferably a flame-retardant and high-temperature resistant polymer material such as flame-retardant PP (Polypropylene), PC (Polycarbonate), or nylon.
[0054] Each of the second support arms 322, at the end furthest from the first support arm 321, and the second leg 330, at the end furthest from the mounting base 310, is provided with a latch 340. The latches 340 on the two second support arms 322 are respectively engaged with the second air intake section 220, and the latches 340 on the second leg 330 are engaged with the first air intake section 210. Those skilled in the art will understand that after the multiple latches 340 of the bracket 300 are engaged with the air intake pipe 200, the bracket 300 can be fixed at three points, preventing it from tipping over and restricting its movement relative to the air intake pipe 200 in all directions.
[0055] The wireless signal module 400 is mounted on the mounting base 310. The wireless signal module 400 can be a Bluetooth module or a WiFi module, etc., and is integrated on a PCB (Printed Circuit Board). Exemplarily, the wireless signal module 400 can be fixed to the mounting base 310 by fastening with fasteners or by snap-fit connection, which is not the only possible method. Illustratively, a controller 600 is installed in the housing 100, and the wireless signal module 400 can be electrically connected to the controller 600 via a wire harness.
[0056] The buckle 340 includes two spaced-apart limiting arms 341, which are located on both sides of the corresponding air intake section. The distance between the two limiting arms 341 is greater than or equal to the outer diameter of the corresponding air intake section. Figure 6 and Figure 7 As shown, one end of the two limiting arms 341 is connected, and the other end of the two limiting arms 341 defines the opening 342 of the latch 340. Optionally, the two limiting arms 341 can be arranged in parallel and spaced apart. When the corresponding air intake section of the air intake pipe 200 extends from the opening 342 of the latch 340 between the two limiting arms 341, the two limiting arms 341 can restrict the movement of the latch 340 in a direction perpendicular to the air intake section.
[0057] In this embodiment, the wireless signal module 400 of the gas stove can be easily installed on the gas inlet pipe 200 via the bracket 300. The assembly of the wireless signal module 400 is relatively easy, which helps reduce production line costs and time. The two second support arms 322 of the first leg 320 of the bracket 300 are connected to the same first support arm 321, which can prevent interference between the first leg 320 of the bracket 300 and other components of the gas stove. Furthermore, the bracket 300 provides a gap between the wireless signal module 400 and the metal parts of the gas stove, making the signal of the wireless signal module 400 less susceptible to interference from metal and high temperatures, thus ensuring high reliability of the wireless signal module 400.
[0058] If the clip 340 of the bracket 300 is fixed to the corresponding air intake section by an interference fit, the ultimate durability life of the clip 340 (high-temperature creep, differences in thermal expansion and contraction between different materials) still has a certain failure rate. In this embodiment, the clip 340 of the bracket 300 is clearance-fitted to the corresponding air intake section, ensuring the service life of the bracket 300 and helping to ensure the reliability of the connection between the bracket 300 and the air intake pipe 200. The bracket 300 is easy to install and remove, facilitating after-sales maintenance of the gas stove.
[0059] In one embodiment, such as Figure 6 and Figure 7As shown, the buckle 340 also includes an arc-shaped arm 343 connected between the two limiting arms 341, and the arc-shaped arm 343 abuts against the outer wall of the corresponding air intake section.
[0060] The latch 340 has an approximate "U" shaped structure, with two limiting arms 341 forming the two sides of the "U" shape and an arc-shaped arm 343 forming the bottom. Understandably, when the outer wall of the air intake section abuts against the arc-shaped arm 343, the engagement between the arc-shaped arm 343 and the corresponding outer wall of the air intake section provides a certain degree of restraint on the bracket 300. When the distance between the two limiting arms 341 is greater than the outer diameter of the air intake section, the latch 340 of the bracket 300 is less likely to shift relative to the corresponding air intake section. This design improves the reliability of the bracket 300 assembly.
[0061] like Figure 9 As shown, the two second support arms 322 are located on opposite sides of the first air intake section 210. That is, the end of the first air intake section 210 connected to the second air intake section 220 is located between the two second support arms 322. Through the engagement of the latches 340 on the two second support arms 322 and the first air intake section 210, the side of the bracket 300 with the first support leg 320 can be limited, restricting the movement of the side of the bracket 300 with the first support leg 320 relative to the air intake pipe 200 along the extension direction of the second air intake section 220. This further ensures the reliability of the connection between the bracket 300 and the air intake pipe 200.
[0062] like Figure 4 and Figure 5 As shown, the first support leg 320 also includes a connecting arm 323 that intersects with the first support arm 321. The end of the first support arm 321 away from the mounting base 310 is connected to the connecting arm 323, and the ends of the two second support arms 322 are respectively connected to the two ends of the connecting arm 323.
[0063] For example, the extension direction of the first support arm 321 is parallel to the extension direction of the second support arm 322, and both the extension directions of the first support arm 321 and the second support arm 322 are perpendicular to the extension direction of the connecting arm 323. The first support arm 321, the connecting arm 323, and the two second support arms 322 can be integrally formed into a single piece. By setting the length of the connecting arm 323, the spacing between the two second support arms 322 can be ensured, avoiding interference between the second support arms 322 and the first air intake section 210.
[0064] In one possible implementation, such as Figures 3-5 As shown, a reinforcing rib 324 is provided on the first support arm 321, and the reinforcing rib 324 extends from one end of the first support arm 321 to the other end of the first support arm 321.
[0065] The reinforcing rib 324 is located on the side of the first support arm 321 facing the air intake pipe 200. The reinforcing rib 324 can be integrally formed onto the first support arm 321. Optionally, the height of the reinforcing rib 324 gradually decreases from the mounting base 310 towards the second leg 330. The reinforcing rib 324 strengthens the structural strength of the first support arm 321 of the first leg 320, improving the stability of the bracket 300.
[0066] In one embodiment, such as Figures 1-3 and Figure 10 As shown, the wireless signal module 400 is mounted on the side of the mounting base 310 facing the air intake pipe 200. For example, a mounting groove may be provided on the side of the mounting base 310 facing the air intake pipe 200, in which the wireless signal module 400 can be detachably mounted.
[0067] The body 100 includes a chassis 110 and a panel 120 covering the chassis 110. The chassis 110 has a cavity in which the air intake pipe 200, the bracket 300, and the wireless signal module 400 are all housed. The panel 120 abuts against the side of the mounting base 310 opposite to the air intake pipe 200. In one possible implementation, the top of the chassis 110 has a flange, and the panel 120 covers and is fixed to the flange. Exemplarily, the air intake pipe 200 can be locked to the bottom wall of the cavity by a support.
[0068] Each latch 340 has an opening 342 for the corresponding air intake section to extend into, and the opening 342 of the latch 340 is located away from the panel 120. Specifically, the opening 342 of each latch 340 is located on the lower side of the latch 340. During the assembly of the gas stove, the corresponding air intake section enters the latch 340 through the opening 342.
[0069] In related technologies, one method involves mounting the wireless signal module 400 onto the chassis 110 using a snap-fit connector. However, the wireless signal module 400 is not securely fixed, affecting the overall structure of the gas stove. Over long-term use, the wireless signal module 400 is prone to loosening or damage. In this embodiment, the mounting base 310 of the bracket 300 abuts against the panel 120, preventing the bracket 300 from moving up and down relative to the air inlet pipe 200. The bracket 300 is fully fixed and limited in its position by the cooperation of multiple snap-fits 340 on the bracket and the air inlet pipe 200.
[0070] To ensure a reliable connection between the bracket 300 and the air intake pipe 200, the above-mentioned arrangement reliably fixes the wireless signal module 400 inside the body 100, guaranteeing the reliable operation of the wireless signal module 400. Furthermore, the wireless signal module 400 is located on the side of the mounting base 310 facing the air intake pipe 200, preventing it from contacting the panel 120. This ensures that the signal of the wireless signal module 400 is not easily affected by metal or high temperatures, thereby guaranteeing the communication quality of the wireless signal module 400.
[0071] In a specific embodiment, such as Figures 3-5 and Figure 8 As shown, an elastic part 311 is provided on the mounting base 310, and the end of the elastic part 311 away from the mounting base 310 abuts against the panel 120.
[0072] Understandably, after the gas stove is assembled, the elastic part 311 is clamped between the panel 120 and the mounting base 310, and the elastic deformation of the elastic part 311 can apply a downward elastic force to the bracket 300. In one possible implementation, an elastic element can be used as the elastic part 311, with one end connected to the mounting base 310 and the other end abutting against the bottom surface of the panel 120.
[0073] With the above-described configuration, an elastic element is placed between the panel 120 and the mounting base 310 to prevent the wireless signal module 400 on the mounting base 310 from being too close to the panel 120, further preventing the signal of the wireless signal module 400 from being affected by metal and high temperature. Furthermore, the elastic deformation of the elastic element allows the panel 120 to reliably limit the position of the bracket 300, preventing the bracket 300 and the wireless signal module 400 on the bracket from moving up and down relative to the air intake pipe 200 due to the gap between the panel 120 and the bracket 300, thus ensuring the reliability of the wireless signal module 400's installation.
[0074] In one specific embodiment, the elastic part 311 is an elastic arm, and elastic arms are respectively provided on opposite sides of the mounting base 310. One end of the elastic arm is connected to the mounting base 310, and the other end of the elastic arm extends toward the side away from the air intake pipe 200 and abuts against the panel 120.
[0075] The elastic arm is a strip-shaped structure. One end of the strip-shaped structure can be integrally formed and connected to the mounting base 310. The other end of the strip-shaped structure extends upward relative to the mounting base 310 and is used to abut against the panel 120. In one possible implementation, the mounting base 310 is provided with elastic arms on opposite sides along a second direction, which is perpendicular to the first direction and the thickness direction of the mounting base 310. The number and position of the elastic arms are not limited and can be configured as needed by those skilled in the art. It is understood that when the panel 120 is mounted on the chassis 110, the panel 120 presses down on the elastic arm, causing the elastic arm to bend and deform. The deformation of the elastic arm applies a downward elastic force to the main body of the bracket 300.
[0076] This structure makes the bracket 300 relatively simple, which facilitates its assembly and helps reduce the cost of the gas stove.
[0077] In one embodiment, such as Figures 6-8 As shown, the opening 342 of each clip 340 is located at the end of the clip 340 facing away from the mounting base 310. Specifically, the openings 342 of the two clips 340 on the first support leg 320 and the opening 342 on the second support leg 330 both face directly downwards. During the assembly of the gas stove, the bracket 300 moves from top to bottom to achieve the engagement between each clip 340 and the corresponding air intake section. The above arrangement facilitates the assembly of the bracket 300 and helps to further reduce production line costs and time.
[0078] like Figure 3 and Figure 8 As shown, the first intake section 210 includes a first intake pipe section 211, a second intake pipe section 212, and a third intake pipe section 213 connected in sequence. The end of the first intake pipe section 211 away from the second intake pipe section 212 is connected to the second intake section 220. Both the first intake pipe section 211 and the third intake pipe section 213 extend horizontally, with the third intake pipe section 213 being higher than the first intake pipe section 211. Schematically, a downwardly recessed portion is provided on the bottom wall of the chassis 110 to accommodate two valve body assemblies 500. The second intake section 220 is located within the recess, and the shape of the first intake section 210 matches the shape of the bottom wall of the chassis 110. The second intake pipe section 212 can be arranged inclined to the horizontal plane.
[0079] The end of the first leg 320 away from the base extends away from the second leg 330, and the clip 340 on the second leg 330 engages with the third intake pipe section 213.
[0080] The second leg 330 can extend vertically downwards, while the first leg 320 extends downwards and away from the second leg 330. Through this configuration, each latch 340 of the bracket 300 engages with the horizontally extending pipe section, ensuring that the air intake pipe 200 can reliably limit the bracket 300 and guaranteeing the reliability of the bracket 300's installation.
[0081] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A gas stove, characterized in that, It includes the body and the air intake pipe, bracket and wireless signal module respectively installed in the body; The intake pipe includes an intersecting first intake section and a second intake section, with one end of the first intake section connected to the middle of the second intake section; The bracket includes a mounting base, a first support leg, and a second support leg. The mounting base is located above the air intake pipe. The first support leg includes a first support arm and two second support arms. One end of the first support arm is connected to one side of the mounting base, and the other end of the first support arm is connected to the ends of the two second support arms respectively. One end of the second support leg is connected to the side of the mounting base opposite to the first support leg. Each of the second support arms is provided with a buckle at the end away from the first support arm and at the end of the second foot away from the mounting base. The buckles on the two second support arms are respectively engaged with the second air intake section, and the buckles on the second foot are engaged with the first air intake section. The wireless signal module is mounted on the mounting base; The buckle includes two spaced-apart limiting arms, which are located on both sides of the corresponding air intake section, and the distance between the two limiting arms is greater than or equal to the outer diameter of the corresponding air intake section.
2. The gas stove according to claim 1, characterized in that, The wireless signal module is installed on the side of the mounting base facing the air intake pipe; The body includes a chassis and a panel covering the chassis. The chassis has a cavity in which the air intake pipe, the bracket, and the wireless signal module are all housed. The panel abuts against the side of the mounting base opposite to the air intake pipe. Each of the aforementioned latches has an opening for the corresponding air intake section to extend into, and the opening of the latch is disposed away from the panel.
3. The gas stove according to claim 2, characterized in that, The mounting base is provided with an elastic part, and the end of the elastic part away from the mounting base abuts against the panel.
4. The gas stove according to claim 3, characterized in that, The elastic part is an elastic arm, and the elastic arms are respectively provided on opposite sides of the mounting base. One end of the elastic arm is connected to the mounting base, and the other end of the elastic arm extends toward the side away from the air intake pipe and abuts against the panel.
5. The gas stove according to claim 1, characterized in that, The two second support arms are located on opposite sides of the first air intake section.
6. The gas stove according to claim 5, characterized in that, The first support leg further includes a connecting arm that intersects with the first support arm. The end of the first support arm away from the mounting base is connected to the connecting arm, and the ends of the two second support arms are respectively connected to the two ends of the connecting arm.
7. The gas stove according to claim 2, characterized in that, The opening of each of the aforementioned buckles is located at the end of the buckle that is away from the mounting base.
8. The gas stove according to claim 1, characterized in that, The first intake section includes a first intake pipe section, a second intake pipe section, and a third intake pipe section connected in sequence. The end of the first intake pipe section away from the second intake pipe section is connected to the second intake section. Both the first intake pipe section and the third intake pipe section extend horizontally, and the third intake pipe section is higher than the first intake pipe section. The end of the first leg away from the base extends away from the second leg, and the buckle on the second leg engages with the third air intake section.
9. The gas stove according to claim 1, characterized in that, The first support arm is provided with a reinforcing rib, which extends from one end of the first support arm to the other end of the first support arm.
10. The gas stove according to claim 1, characterized in that, The buckle also includes an arc-shaped arm connected between the two limiting arms, the arc-shaped arm abutting against the outer wall of the corresponding air intake section.