CN219177777U - Air door plate and gas stove - Google Patents

Abstract

The application discloses air door board and gas-cooker belongs to the technical field of kitchen thermal equipment to solve the unstable technical problem of air door plant and injection pipe connection of present gas-cooker. The air door plate comprises a door plate body and a fixed plate body, wherein the door plate body is provided with an air inlet and an air inlet, the door plate body is arranged at the air inlet end of an injection pipe of the gas stove and is fixed with the injection pipe, and the fixed plate body is connected with the door plate body and is fixed with a bottom shell of the gas stove. In the air door plate provided by the embodiment of the application, the door plate body is arranged at the air inlet end of the injection pipe, so that fuel gas and primary air can be input into the injection pipe through the air inlet and the air inlet of the door plate body, the door plate body is connected with the fixed plate body, and the door plate body and the fixed plate body are respectively connected with the injection pipe and the bottom shell of the gas stove, so that the air door plate is simultaneously and mutually supported and fixed with the injection pipe and the bottom shell, the position of the air door plate is stable and reliable, and the position of the injection pipe is also stable and reliable.

Description

Air door plate and gas stove

Technical Field

The application belongs to the technical field of kitchen heating equipment, and particularly relates to a damper plate and a gas stove.

Background

A gas range is a combustion apparatus that generates flames by igniting a mixed gas of gas and air to heat a to-be-heated member such as a cooker placed on the gas range. The air door plate is arranged at the air inlet end of the injection pipe of the gas stove, and the air door plate can control the primary air quantity sucked by the injection pipe.

In the related art, the air door plate is connected with the air inlet end of the injection pipe in a clamping manner, so that the connection effect of the air door plate and the injection pipe is unreliable, and the air door plate is easy to drop from the injection pipe.

Disclosure of Invention

The air door and the ejector pipe of the gas stove are connected with each other in an unreliable mode. For this reason, the application provides a damper plate and gas-cooker.

The embodiment of the application provides a damper board, include:

the door plate body is provided with an air inlet and an air inlet, and is arranged at the air inlet end of the injection pipe of the gas stove and fixed with the injection pipe; and

the fixed plate body is connected with the door plate body and is fixed with the bottom shell of the gas stove.

In the air door plate provided by the embodiment of the application, the door plate body is arranged at the air inlet end of the injection pipe, so that fuel gas and primary air can be input into the injection pipe through the air inlet and the air inlet of the door plate body, the door plate body is connected with the fixed plate body, and the door plate body and the fixed plate body are respectively connected with the injection pipe and the bottom shell of the gas stove, so that the air door plate is simultaneously and mutually supported and fixed with the injection pipe and the bottom shell, the position of the air door plate is stable and reliable, and the position of the injection pipe is also stable and reliable.

In some embodiments, the fixing plate body is bent with respect to the door plate body, and a side surface of the fixing plate body facing away from the door plate body is attached to the inner wall of the bottom shell

In some embodiments, a first fixing hole is formed in a side, facing away from the door plate body, of the fixing plate body, and an opening corresponding to the first fixing hole is formed in the inner wall of the bottom shell.

In some embodiments, the bottom shell comprises a bottom plate and a top plate which are opposite, the fire outlet side of the gas stove is positioned on one side of the top plate, which is opposite to the bottom plate, and the fixed plate body is attached to one side of the bottom plate, which is opposite to the top plate.

In some embodiments, the damper panel further comprises a retaining ring disposed in the air inlet, and the retaining ring is configured to sleeve the air inlet end of the ejector tube therein.

In some embodiments, the door panel body, the fixing plate body, and the fixing ring are in an integral structure, and the door panel body, the fixing plate body, and the fixing ring are prepared by an integral molding process.

In some embodiments, the number of the air inlets and the number of the fixing rings are two, the two air inlets and the two air inlets are respectively in butt joint with the two injection pipes, and the two fixing rings are respectively sleeved at the air inlet ends of the two injection pipes.

In a second aspect, based on the above air door plate, an embodiment of the present application further provides a gas stove, including the above air door plate.

In some embodiments, the gas stove further comprises an injection pipe, a bottom shell and a distributor, wherein the injection pipe is connected with the distributor, and the air door plate is connected with the injection pipe and the bottom shell.

In some embodiments, the gas cooker further comprises a tube support frame, wherein the tube support frame is supported by the injection tube and is connected with a bottom shell of the gas cooker.

In some embodiments, the pipe body support frame includes supporting sheet and connection piece, the fixed slot has been seted up to the supporting sheet, at least part the injection pipe inlays and locates in the fixed slot, the connection piece with the supporting sheet is connected, and is relative the supporting sheet is buckled, the connection piece with the inner wall laminating of the drain pan of gas-cooker is fixed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural view of a gas cooker disclosed in an embodiment of the present application;

FIG. 2 shows a schematic side view of a gas cooker disclosed in an embodiment of the present application;

FIG. 3 illustrates a schematic view of the flush door skin of FIG. 1 from one perspective;

FIG. 4 shows a schematic view of the flush door skin of FIG. 1 from another perspective;

fig. 5 shows a schematic structural view of the pipe body support frame in fig. 1.

Reference numerals:

100-air door plate, 110-door plate body, 111-air inlet, 112-air inlet, 120-fixed plate body, 121-first fixed hole, 130-fixed ring,

200-an injection pipe, 210-an air inlet end,

300-bottom shell, 310-bottom plate, 320-top plate, 330-side plate,

400-a fire distributor, wherein the fire distributor comprises a main body,

500-pipe body support frame, 510-support piece, 511-fixed slot, 520-connection piece, 521-second fixed orifices.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all the directional indicators in the embodiments of the present utility model are only used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture, and if the specific posture is changed, the directional indicators are correspondingly changed.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The present application is described below with reference to specific embodiments in conjunction with the accompanying drawings:

referring to fig. 1 to 3, an embodiment of a damper plate 100 is disclosed, which includes a door plate body 110 and a fixing plate body 120, and the damper plate 100 can be applied to a gas stove, and of course, can also be applied to other combustion devices.

It should be understood that the damper plate 100 is a component for adjusting the primary air supply amount in the gas range, the damper plate 100 is disposed at the air inlet end 210 of the injection pipe 200 of the gas range, the damper plate 100 may be provided with an air inlet 111 abutting against a nozzle of the gas range and an air inlet 112 for allowing external air to enter, the nozzle may input fuel gas into the injection pipe 200 through the air inlet 111 of the damper plate 100, and in this process, the external air may be introduced into the injection pipe 200 as primary air through the air inlet 112 of the damper plate 100, so that the air and the fuel gas may be mixed in the injection pipe 200. The air inlet 112 of the air door panel 100 is adjustable in size, so that the amount of primary air entering the ejector tube 200 through the air inlet 112 of the air door panel 100 is adjustable.

In this application, the door panel body 110 is a basic component of the wind door panel 100 of this application, and the door panel body 110 may provide a mounting base for other at least partial components of the wind door panel 100 of this application. The door plate body 110 is a plate body structural member, and the door plate body 110 is arranged at an air inlet end 210 of the injection pipe 200 and is fixed with the injection pipe 200. The door plate body 110 is provided with an air inlet 111 and an air inlet 112, the air inlet 111 of the door plate body 110 is in butt joint with a nozzle of the gas stove, fuel gas can be input into the injection pipe 200 through the air inlet 111 of the door plate, and outside air can be sucked into the injection pipe 200 for primary air. Specifically, the air inlet 111 of the door panel 110 may be disposed at the center of the air inlet 112, so that the primary air may enter the injection pipe 200 around the fuel gas, and further the primary air and the fuel gas may be mixed more fully.

The fixed plate body 120 is connected with the door plate body 110, and the fixed plate body 120 is also connected with the bottom shell 300 of the gas stove, and the fixed plate body 120 is simultaneously connected with the door plate body 110 and the bottom shell 300 of the gas stove, so that the door plate body 110 can be connected with the bottom shell 300 through the fixed plate body 120, and the door plate body 110 and the bottom shell 300 can be mutually supported and fixed, so that the door plate body 110 is stably and reliably arranged on the bottom shell 300 of the gas stove, and the door plate body 110 is reliably connected with the injection pipe 200, and correspondingly, the butt joint of the air inlet 112 and the air inlet 111 of the door plate body 110 and the air inlet end 210 of the injection pipe 200 is more accurate. Because the door plate body 110 is also connected with the injection pipe 200, the injection pipe 200 can be connected with the bottom shell 300 of the gas stove through the door plate body 110 and the fixed plate body 120, and further the injection pipe 200 and the bottom shell 300 of the gas stove can be mutually supported and fixed, so that the relative position relationship between the injection pipe 200 and the bottom shell 300 of the gas stove is stable and reliable, the offset of the injection pipe 200 can be prevented, and the connection effect of the injection pipe 200 and other parts of the gas stove can be stable and reliable.

In the damper plate 100 provided by the embodiment of the application, the door plate body 110 is arranged at the air inlet end 210 of the injection pipe 200, so that fuel gas and primary air can be input into the injection pipe 200 through the air inlet 111 and the air inlet 112 of the door plate body 110, the door plate body 110 is connected with the fixed plate body 120, and the door plate body 110 and the fixed plate body 120 are respectively connected with the injection pipe 200 and the bottom shell 300 of the gas stove, so that the damper plate 100 is simultaneously and mutually supported and fixed with the injection pipe 200 and the bottom shell 300, the position of the damper plate 100 is stable and reliable, and the position of the injection pipe 200 is also stable and reliable.

In some embodiments, the fixing plate 120 of the present application may be configured to bend with respect to the door plate 110, such that the fixing plate 120 forms an angle with the door plate 110. Specifically, the fixing plate 120 is a plate structural member, so that the opposite side surfaces of the fixing plate 120 have larger surface areas relative to the side walls of the two sides of the fixing plate 120, one side surface of the fixing plate 120 is connected with the door plate 110, the other side surface of the fixing plate 120 can be provided with a connecting structure so that the fixing plate 120 can be connected with the bottom shell 300, and the plate with larger area of the fixing plate 120 can be provided with a connecting structure on the plate conveniently so that the fixing plate 120 and the bottom shell 300 have better connecting effect.

In addition, the fixed plate 120 is bent with the door plate 110, so that the structure of the damper 100 is more compact, and correspondingly, as the damper plate 100 is connected with the bottom shell 300 and the injection pipe 200 at the same time, the space between the injection pipe 200 and the inner wall of the bottom shell 300 is relatively smaller, so that the connection effect of the injection pipe 200 and the bottom shell 300 is more reliable.

In some embodiments, in order to further stabilize and reliable the connection effect between the fixing plate 120 and the bottom case 300, the fixing plate 120 may be provided with a first fixing hole 121, and accordingly, an inner wall of the bottom case 300 may be provided with an opening corresponding to the first fixing hole 121 of the fixing plate 120, and by aligning the first fixing hole 121 of the fixing plate 120 with the opening of the inner wall of the bottom case 300 and providing a fixing member in the openings of the first fixing hole 121 of the fixing plate 120 and the bottom case 300, the fixing plate 120 may be reliably connected to the bottom case 300. Specifically, the first fixing hole 121 of the fixing plate 120 and the opening of the bottom chassis 300 may be provided as screw holes, and the fixing member may be provided as a bolt, so that the fixing plate 120 may be firmly and reliably coupled with the bottom chassis 300 by screwing the bolt into the first fixing hole 121 of the fixing plate 120 and the opening of the bottom chassis 300. Therefore, the mounting mode of the fixing plate 120 and the bottom shell 300 is simple, and the fixing plate 120 can be conveniently detached from the bottom shell 300, so that the damper plate 100 is convenient to mount and dismount.

Of course, in other embodiments, the fixing plate 120 may be further connected to the inner wall of the bottom case 300 by a snap connection, specifically, a bayonet may be disposed on the inner wall of the bottom case 300, and a snap component engaged with the bayonet of the inner wall of the bottom case 300 may be disposed on the fixing plate 120, so that the fixing plate 120 may be snapped onto the inner wall of the bottom case 300. In addition, the fixing plate 120 and the bottom case 300 may be fixed by welding or bonding.

In some embodiments, the bottom case 300 of the gas cooker may be specifically configured to include a bottom plate 310, a top plate 320, and side plates 330, the bottom plate 310 and the top plate 320 being disposed at opposite intervals, and a plurality of side plates 330 being disposed along the circumferential direction of the bottom plate 310 and the top plate 320 and being connected to the bottom plate 310 and the top plate 320, such that the bottom plate 310, the top plate 320, and the side plates 330 may be enclosed to form the bottom case 300, and the injection pipe 200 is located in an area between the bottom plate 310 and the top plate 320. One side plate surface of the fixing plate 120 may be disposed to be attached to the bottom plate 310, so that the fixing plate 120 has a larger contact area with the inner wall of the bottom case 300, so that the connection effect between the fixing plate 120 and the bottom case 300 is reliable. The fixed plate 120 is connected with the bottom plate 310, so that the bottom plate 310 can also support the air door plate 100, specifically, since the door plate 110 is connected with the injection pipe 200, at least part of the dead weight of the injection pipe 200 can fall onto the door plate 110 and the fixed plate 120, and then fall onto the bottom plate 310 connected with the fixed plate 120, so that the bottom plate 310 can also play a role in supporting the injection pipe 200.

Of course, in other embodiments, the fixing plate 120 may be connected to the top plate 320 or the side plate 330 of the bottom case 300, and is adhered to the top plate 320 or the side plate 330 of the housing, so that the inner wall of the bottom case 300 can be fully utilized to make the connection between the fixing plate 120 and the bottom case 300 stable. In addition, the quantity of fixed plate body 120 still can set up to two, and two fixed plate bodies 120 all can be connected with door plant body 110 to specifically be connected with door plant body 110 opposite sides, two fixed plate bodies 120 can laminate with bottom plate 310 and roof 320 respectively and set up, can make the door plant body 110 of this application more stable with the connection effect of drain pan 300 like this. In addition, the two fixing plates 120 are connected with the bottom plate 310 and the top plate 320, so that the door panel body 110 and the two fixing plates 120 can support the bottom plate 310 and the top plate 320, and the relative positional relationship between the bottom plate 310 and the top plate 320 is stable, thereby stabilizing the structure of the bottom case 300 and preventing the bottom case 300 from being easily deformed and damaged by external force.

In some embodiments, referring to fig. 3, in order to enable the door panel body 110 of the present application to interface with the air inlet end 210 of the injector tube 200 and to enable the door panel body 110 to connect with the injector tube 200, the door panel body 110 may also be provided with a securing ring 130. The fixing ring 130 is connected with the door plate body 110, and the fixing ring 130 can sleeve the air inlet end 210 of the injection pipe 200 inside, so that the fixing ring 130 is fixed with the injection pipe 200, and further the door plate body 110 is fixed with the injection pipe 200. Specifically, the fixing ring 130 is an annular structural member, the fixing ring 130 encloses the air inlet 111 and the air inlet 112 of the door plate body 110, the fixing ring 130 covers the air inlet end 210 of the injection pipe 200, the inner wall of the fixing ring 130 abuts against the outer wall of the air inlet end 210 of the injection pipe 200, and the fixing ring 130 can be clamped on the air inlet end 210 of the injection pipe 200, so that the air inlet 111 and the air inlet 112 of the door plate body 110 can be in butt joint communication with the air inlet end 210 of the injection pipe 200.

The inner wall of the fixed ring 130 abuts against the outer wall of the air inlet end 210 of the ejector tube 200, so that the inner wall of the fixed ring 130 can support the air inlet end 210 of the ejector tube 200, and the ejector tube 200 can be kept stable. In addition, when the damper plate 100 is installed on a gas stove, the fixing ring 130 can be fixed at the air inlet end 210 of the injection pipe 200, the inner diameter of the fixing ring 130 and the outer diameter of the air inlet end 210 of the injection pipe 200 are set to enable the fixing ring 130 to rotate relative to the air inlet end 210 of the injection pipe 200, so that when the damper plate 100 is installed, the angle of the fixing ring 130 relative to the air inlet end 210 of the injection pipe 200 can be adjusted, and then the angle of the door plate body 110 and the fixing plate body 120 can be adjusted, so that the first fixing hole 121 of the fixing plate body 120 can be aligned with the opening of the bottom shell 300, and the fixing piece can be installed in the first fixing hole 121 of the fixing plate body 120 and the opening of the bottom shell 300 conveniently. Thus, the fixing ring 130 can be installed first and then the fixing ring 130 can be adjusted, thereby improving the installation efficiency of the damper plate 100.

In some embodiments, in order to facilitate the preparation of the damper plate 100 of the present application, the plate body 110, the fixing plate body 120 and the fixing ring 130 may be integrally formed, and the three may be prepared by an integrally forming process, so that the structure of the damper plate 100 may be formed by preparing one plate material by a sheet metal process, so that the process of preparing the damper plate 100 is fewer and simpler, and the structural stability and reliability of the damper plate 100 are also improved.

In some embodiments, referring to fig. 1, it should be understood that in order to form an inner flame at the distributor 400 and an outer flame surrounding the inner flame in the gas range, an inner ring channel and an outer ring channel may be provided in the distributor 400 of the gas range, and accordingly, the number of the injection pipes 200 may be two, two injection pipes 200 may be connected to the inner ring channel and the outer ring channel of the distributor 400, respectively, and the two injection pipes 200 may be disposed side by side. Therefore, the number of the air inlets 112 and the air inlets 111 of the door panel body 110 can be two, the two air inlets 111 of the door panel body 110 are respectively in butt joint communication with the two injection pipes 200, and the two air inlets 112 of the door panel body 110 are also respectively in butt joint communication with the two injection pipes 200. Specifically, two air inlets 112 of the door plate body 110 are arranged on the door plate body 110 at intervals side by side, two air inlets 111 are respectively positioned at the centers of the two air inlets 112, the two air inlets 111 are symmetrically arranged relative to the center of the door plate body 110, and the fixed plate body 120 is positioned between the two air inlets 111 of the door plate body 110, so that the structure of the air door plate 100 is more stable. The number of the fixing rings 130 can be two, and the two fixing rings 130 can be respectively sleeved at the air inlet ends 210 of the two injection pipes 200, so that the connection effect of the damper plate 100 and the injection pipes 200 is more reliable.

Example two

Referring to fig. 1, 4 and 5, based on the above damper plate 100, the present embodiment also proposes a gas cooker including the above damper plate 100.

Specifically, the gas stove further comprises a distributor 400, an injection pipe 200 and a bottom shell 300, wherein the injection pipe 200 is connected with the distributor 400, the air inlet end 210 of the injection pipe 200 is arranged in the bottom shell 300, the distributor 400 is arranged outside the bottom shell 300, and the air door plate 100 is arranged at the air inlet end 210 of the injection pipe 200. The air door plate 100 may be further connected to a gas pipeline, and the fuel gas in the gas pipeline may be input into the injection pipe 200 through the air inlet 111 of the air door plate 100, and then input into the distributor 400, and finally may be output through the fire hole of the distributor 400 and ignited to form a flame.

In some embodiments, referring to fig. 2 and 5, in order to further stably arrange the injection pipe 200 in the bottom case 300, the gas stove of the present application may further be provided with a pipe body support 500, where the pipe body support 500 may be supported by the injection pipe 200 and connected with the bottom case 300, so that the bottom case 300 and the pipe body support 500 bear the dead weight of the injection pipe 200, so that the bottom case 300 may be supported by the injection pipe 200, and further the installation position of the injection pipe 200 is stable. Specifically, the body support 500 may be coupled to the base plate 310 and supported by the injector tube 200 such that the base plate 310 is capable of withstanding at least a portion of the self weight of the injector tube 200.

The pipe body supporting frame 500 may specifically be configured to include a supporting plate 510 and a connecting plate 520, where the supporting plate 510 is connected to the connecting plate 520, and the supporting plate 510 is connected to the injection pipe 200, and the connecting plate 520 is bent with respect to the supporting plate 510, so that a relatively large plate surface of the connecting plate 520 may face the bottom plate 310, and thus, the connecting plate 520 has a larger area for setting a connection structure, so that the connection structure on the connecting plate 520 is more convenient to set. Specifically, the connecting piece 520 may be provided with a second fixing hole 521, and the bottom plate 310 may be provided with an opening corresponding to the second fixing hole 521 of the connecting piece 520, so that the connecting piece 520 and the bottom plate 310 may be fixed by arranging fixing members in the second fixing hole 521 of the connecting piece 520 and the opening of the bottom plate 310, and the connecting piece 520 and the bottom plate 310 may be easily assembled and disassembled.

Of course, it should be understood that the connection piece 520 of the present application may also be configured to be connected with the top plate 320 or the side plate 330, specifically, the number of connection pieces 520 of the present application may be configured to be two, and the two connection pieces 520 may be connected with two opposite sides of the support piece 510, so that the two connection pieces 520 may be connected with the bottom plate 310 and the top plate 320 respectively, and accordingly, the support piece 510 may be configured to enclose the injection pipe 200, so that the two connection pieces 520 may be relatively supported, thereby making the pipe body support 500 of the present application further play a role in supporting the bottom shell 300, and making the structure of the bottom shell 300 more stable.

The supporting plate 510 may be provided with a fixing groove 511, and the groove shape of the fixing groove 511 is matched with the shape of the injection pipe 200, so that at least part of the injection pipe 200 may be embedded in the fixing groove 511 of the supporting plate 510, and the supporting plate 510 surrounds part of the injection pipe 200. The inner diameter of the fixing groove 511 of the support plate 510 may be set such that the support plate 510 can rotate relative to the injection pipe 200, so that the position of the support plate 510 can be adjusted by rotating the support plate 510, so that the second fixing hole 521 of the connection plate 520 can be aligned with the opening of the bottom plate 310, thereby conveniently adjusting the position of the pipe body support 500, and it should be understood that, in this arrangement, the connection plate 520 has a certain gap with the bottom plate 310, so that the connection plate 520 can rotate relative to the bottom plate 310.

The support sheet 510 and the connection sheet 520 may also be manufactured in an integrated structure by an integrated molding process, so that the pipe body support 500 may be formed by manufacturing one plate material through a sheet metal process.

Because the number of the injection pipes 200 of the gas stove is two, the number of the fixing grooves 511 on the supporting plate 510 can be two, the two fixing grooves 511 can be arranged on the supporting plate 510 side by side, and the two injection pipes 200 can be respectively embedded in the two fixing grooves 511 of the supporting plate 510. The connecting piece 520 may be provided with two second fixing holes 521, the two second fixing holes 521 may be distributed on opposite sides of the two fixing grooves 511, and correspondingly, the bottom plate 310 may be provided with two openings corresponding to the second fixing holes 521, so that the supporting piece 510 and the bottom plate 310 have a plurality of connection points, and the fixing connection effect of the supporting piece 510 and the bottom plate 310 is more reliable. In addition, the second fixing holes 521 of the connecting piece 520 are located at two opposite sides of the two fixing slots 511, so that the second fixing holes 521 of the connecting piece 520 are located at two sides of the connecting piece 520, and the connection between the two sides of the connecting piece 520 and the bottom plate 310 is more stable and reliable.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

Claims (11)

1. A damper panel, comprising:

the gas stove comprises a door plate body (110) provided with a gas inlet (111) and a gas inlet (112), wherein the door plate body (110) is arranged at a gas inlet end (210) of an injection pipe (200) of the gas stove and is fixed with the injection pipe (200); and

the fixed plate body (120) is connected with the door plate body (110) and is fixed with the bottom shell (300) of the gas stove.

2. The air door plate according to claim 1, wherein the fixing plate body (120) is bent relative to the door plate body (110), and a side surface of the fixing plate body (120) facing away from the door plate body (110) is attached to an inner wall of the bottom case (300).

3. The air door plate according to claim 2, wherein a first fixing hole (121) is formed in a side of the fixing plate body (120) away from the door plate body (110), and an opening corresponding to the first fixing hole (121) is formed in an inner wall of the bottom case (300).

4. A damper plate according to claim 3, wherein the bottom case (300) includes a bottom plate (310) and a top plate (320) opposite to each other, the fire side of the gas stove is located on a side of the top plate (320) facing away from the bottom plate (310), and the fixing plate body (120) is attached to a side of the bottom plate (310) facing the top plate (320).

5. The damper panel according to any one of claims 1 to 4, wherein the damper panel (100) further comprises a fixing ring (130), the fixing ring (130) is disposed at the air inlet (112), and the fixing ring (130) is sleeved with the air inlet end (210) of the ejector tube (200).

6. The wind door panel according to claim 5, wherein the door panel body (110), the fixing plate body (120) and the fixing ring (130) are of an integral structure, and the door panel body (110), the fixing plate body (120) and the fixing ring (130) are manufactured through an integral molding process.

7. The air door plate according to claim 6, wherein the number of the air inlets (111), the number of the air inlets (112) and the number of the fixing rings (130) are two, the two air inlets (111) and the two air inlets (112) are respectively in butt joint with the two injection pipes (200), and the two fixing rings (130) are respectively sleeved at the air inlet ends (210) of the two injection pipes (200).

8. A gas stove, characterized by comprising a damper plate (100) according to any one of claims 1-7.

9. The gas range of claim 8, further comprising an injection pipe (200), a bottom case (300), and an distributor (400), wherein the injection pipe (200) is connected to the distributor (400), and wherein the damper plate (100) is connected to the injection pipe (200) and the bottom case (300).

10. The gas range of claim 9, further comprising a tube support (500), the tube support (500) being supported by the injection tube (200) and being connected to the bottom case (300).

11. The gas stove according to claim 10, wherein the pipe body supporting frame (500) comprises a supporting sheet (510) and a connecting sheet (520), the supporting sheet (510) is provided with a fixing groove (511), at least part of the injection pipe (200) is embedded in the fixing groove (511), the connecting sheet (520) is connected with the supporting sheet (510) and is bent relative to the supporting sheet (510), and the connecting sheet (520) is attached and fixed with the inner wall of the bottom shell (300) of the gas stove.

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