CN115711411A - Gas stove panel structure and kitchen appliance - Google Patents

Abstract

The application discloses gas stove panel structure and kitchen appliance. Gas-cooker panel structure includes the panel, the fixed plate, hold liquid dish and fastener, the panel is equipped with first through-hole, the fixed plate is equipped with the second through-hole, the fixed plate is connected in the lower surface of panel so that second through-hole and first through-hole intercommunication, it is equipped with the third through-hole to hold the liquid dish, grafting portion and overlap joint portion, grafting portion makes third through-hole and first through-hole intercommunication in order to insert to locate first through-hole along the axial extension of third through-hole, overlap joint portion radially extends with the butt in the upper surface of panel along the third through-hole, the fastener is equipped with and wears to establish the fixed plate in order to connect grafting portion. This application technical scheme is through setting up panel and fixed plate, thereby hold the liquid dish and wear to establish the panel and can use the fastener to wear to establish the fixed plate and be connected to and hold the liquid dish, when the fastener fastening, just make and hold liquid dish and fixed plate and press from both sides tight panel jointly, firm in connection not only, the fastener still can not expose in gas kitchen panel structure to the outward appearance that does not influence the product.

Description

Gas stove panel structure and kitchen appliance

Technical Field

The application relates to the technical field of kitchen appliances, in particular to a gas stove panel structure and a kitchen appliance.

Background

In the related art, the liquid bearing disc of the gas appliance is usually fixed with the panel by screwing screws above the panel, so that the screws are exposed above the panel to influence the overall aesthetic degree.

Disclosure of Invention

The present application is directed to solving, at least to some extent, the technical problems in the related art. Therefore, the gas stove panel structure is provided, the bolt cannot be exposed, and the overall attractiveness of a product is improved.

In order to achieve the above object, the present application discloses a gas stove panel structure, comprising:

a panel provided with a first through hole;

the fixing plate is provided with a second through hole and is connected to the lower surface of the panel so as to enable the second through hole to be communicated with the first through hole;

the liquid bearing disc is provided with a third through hole, an inserting part and a lap joint part, the inserting part extends along the axial direction of the third through hole to be inserted into the first through hole so as to enable the third through hole to be communicated with the first through hole, and the lap joint part extends along the radial direction of the third through hole to abut against the upper surface of the panel; and

and the fastening piece penetrates through the fixing plate to be connected with the inserting part.

In some embodiments of the present application, a portion of the fixing plate is exposed from the first through hole, and is defined as an exposed portion, and the fastening element penetrates through the exposed portion to connect with the insertion portion.

In some embodiments of the present application, the insertion portion is provided with a first positioning structure, the exposed portion is provided with a second positioning structure, and the first positioning structure is connected to the second positioning structure.

In some embodiments of the present application, one of the first positioning structure and the second positioning structure is a boss, and the other is a positioning hole.

In some embodiments of the present application, the exposed portion includes a flange, and the flange is inserted into the first through hole.

In some embodiments of the present application, the exposed portion includes a mounting platform, a second positioning structure provided with the exposed portion, and the fastening member is inserted into the mounting platform to connect the insertion portion.

In some embodiments of the application, the flanges of the exposed portion and the mounting platforms are alternately distributed at intervals along the circumferential direction of the second through hole.

In some embodiments of the present application, the fixing plate is provided with a first groove surrounding the second through hole, and the first groove is used for injecting glue to be bonded with the panel;

and/or the panel is provided with a first groove surrounding the first through hole, and the first groove is used for injecting glue to be bonded with the fixing plate.

In some embodiments of the present application, the first recess includes an exposed portion of the fixation plate.

In some embodiments of the present application, the insertion part comprises a plurality of insertion parts arranged at intervals around the third through hole;

or the insertion part is annular and surrounds the third through hole.

In some embodiments of the present application, the lap joint is adhesively secured to the upper surface of the panel;

and/or, at least one of the overlap joint portion and the panel is equipped with the holding tank, the holding tank is equipped with the sealing washer, the sealing washer centre gripping in the overlap joint portion with between the panel.

In some embodiments of the present application, the gas range panel structure further comprises a frame fixed to a side of the panel and a lower surface of the fixing plate.

In some embodiments of the present application, the frame is adhesively fixed to the side surface of the panel and the lower surface of the fixing plate;

and/or the frame comprises a vertical part and a transverse part which are arranged in an intersecting manner, the vertical part is fixed on the side surface of the panel, and the transverse part is fixed on the lower surface of the fixing plate.

In some embodiments of this application, gas-cooker panel structure still includes the frame, the frame is fixed in the side and the lower surface of panel, the panel or the fixed plate be equipped with first alternate second recess of recess, the second recess is used for the injecting glue with fixed the panel with the fixed plate.

In some embodiments of the present application, the gas stove panel structure further includes an installation frame, the installation frame is used for installing the oil collecting tank and the grating, one side of the installation frame is lapped on the upper surface of the panel, and the upper surface of the panel is fixed through glue.

In some embodiments of the present application, the panel is a glass panel;

and/or the fixing plate is an aluminum plate;

and/or the panel and the fixing plate are fixedly bonded;

and/or the fastening piece is a screw, and the inserting part and the fixing plate are respectively provided with a fastening hole;

and/or, the gas stove panel structure further comprises a stove support, and the stove support is sleeved on the liquid bearing disc.

The application also discloses a kitchen appliance, kitchen appliance includes above-mentioned gas stove panel structure.

This application technical scheme is through setting up panel and fixed plate, thereby it wears to establish the panel and can use the fastener to wear to establish the fixed plate and be connected to the grafting portion of holding the liquid dish to hold the liquid dish, again because it still is provided with overlap joint portion to hold the liquid dish, the upper surface of overlap joint portion butt at the panel, when the fastener fastening, just make and hold liquid dish and fixed plate and press from both sides tight panel jointly, firm in connection not only, the fastener still can not expose in gas kitchen panel structure, from not influencing the outward appearance of product.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of a gas cooktop panel in some embodiments;

FIG. 2 is a schematic view of a gas range panel according to some embodiments;

FIG. 3 is an enlarged view of FIG. 2 shown in phantom;

FIG. 4 is a schematic view of a gas range panel structure according to some embodiments (without a liquid bearing plate and a range bracket);

FIG. 5 is an enlarged view of FIG. 4 shown in phantom;

FIG. 6 is a cross-sectional view of a gas cooktop panel in some embodiments;

FIG. 7 is an enlarged view of FIG. 6 shown in middle dashed lines;

FIG. 8 is an enlarged view of the left side of FIG. 6 shown in phantom;

FIG. 9 is an enlarged view of the right side of FIG. 6 shown in phantom;

FIG. 10 is a schematic view of the gas cooktop panel structure in some embodiments (similar to FIG. 7, except that the liquid pan is provided with a third groove);

FIG. 11 is a schematic view showing the assembly of the structure of the gas range panel in some embodiments (similar to FIG. 8, except that the fixing plate is not connected to the rim)

FIG. 12 is a schematic view of a liquid bearing disk according to some embodiments;

FIG. 13 is a schematic view of a liquid bearing disk according to some embodiments;

FIG. 14 is a schematic view of a retaining plate according to some embodiments;

fig. 15 is an enlarged view shown by a dotted line in fig. 14.

The reference numbers illustrate:

panel 1000, first through hole 1100, upper surface 1200, side 1400;

the fixing plate 2000, the second through hole 2100, the exposed portion 2200, the mounting block 2210, the second positioning structure 2211, the fastening hole 2212, the flange 2220, the first groove 2230 and the second groove 2300;

the liquid bearing plate 3000, a third through hole 3100, an inserting part 3200, a first positioning structure 3210, a fastening hole 3220, a lapping part 3300, an accommodating groove 3310, a sealing ring 3320 and a third groove 3330;

a fastener 4000;

the mounting frame 5100, the fourth groove 5110, the grid 5200 and the oil collecting groove 5300;

a frame 6000, a vertical portion 6100, a lateral portion 6200;

a stove support 7000.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that all directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In this application, unless expressly stated or limited otherwise, the terms "connected," "secured," and the like are to be construed broadly, and thus, for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, descriptions in this application as to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope claimed in the present application.

The gas stove is a device for cooking food materials by burning gas, generally speaking, the gas stove is provided with a panel, the panel is provided with a through hole so as to expose a burner inside the gas stove from the through hole, in order to meet the requirements of installation of the burner and the like, the through hole of the panel is arranged to be relatively large, in order to avoid soup, residue or other foreign matters from entering the inside of the gas stove through the through hole in the cooking process, a liquid bearing disc is usually arranged at the through hole, the liquid bearing disc can block the soup, the residue or other foreign matters from entering the inside of the gas stove, and the foreign matters can be temporarily collected so as to facilitate cleaning of a user.

Therefore, the application provides a gas-cooker panel structure, and this gas panel structure can realize hiding of screw, and the screw can not expose in the outside of product to can promote the whole appearance design of product, more can not lead to the existence at clean dead angle, promote user experience.

It will be appreciated that the gas burner panel structure may be applied to some integrated kitchen appliances in addition to the conventional gas burner. For example, an integrated cooker combining a gas stove and a range hood, or an integrated cooker combining a gas stove and an oven, etc.

In some embodiments, as shown in connection with fig. 1-7, a gas cooktop panel structure includes a panel 1000, a fixing plate 2000, a drip pan 3000, and fasteners 4000.

The panel 1000 is a structure exposed in a visual field of a user, for example, when the gas cooker panel structure is applied to an integrated cooker product, the integrated cooker product is embedded in a cabinet, and the panel 1000 is exposed on a table top of the cabinet. The panel 1000 may be made of various materials, for example, the panel 1000 may be made of metal, glass, or other materials, and may be selected according to actual conditions of products. The panel 1000 has a first through hole 1100, and the first through hole 1100 is a through hole structure and penetrates through an upper surface 1200 of the panel 1000 and a lower surface of the panel 1000. The first through holes 1100 may be one, two, three or more, for example, in the present embodiment, three first through holes 1100 are provided, and three first through holes 1100 respectively correspond to burners, which protrude from the first through holes 1100, so that gas can be burned to heat the food material. When first through-hole 1100 is three, the size of first through-hole 1100 can be the same big, also can not be the same big, for example, three first through-hole 1100 is for being triangular distribution, wherein the size of two first through-holes 1100 is bigger for the size of third first through-hole 1100, arrange in the front and be closer to the user (be the place ahead with being close to user when the product normal use), can place bigger pan, third first through-hole 1100 size is less relatively, then can place the pan of small dimension, be located between two first through-holes 1100 in the front and be close to the rear setting.

The fixing plate 2000 is positioned below the panel 1000 and fixed to a lower surface of the panel 1000, specifically, an upper surface of the fixing plate 2000 is opposite to a lower surface of the panel 1000, so that the fixing plate 2000 is fixed to the lower surface of the panel 1000. Since the fixing plate 2000 is located below the panel 1000, the fixing plate 2000 is generally invisible to a user after the product is assembled, and thus the fixing manner between the fixing plate 2000 and the panel 1000 may be implemented in various manners, for example, the fixing manner between the fixing plate 2000 and the panel 1000 is implemented by bonding, welding, clamping, edge fixing, and the like, and the arrangement of the fixing plate 2000 thereby provides a basis for fixing the liquid receiving tray 3000 (detailed below).

Similar to the panel 1000, the fixing plate 2000 has a second through hole 2100, the second through hole 2100 is also a through hole, and penetrates through the upper surface of the fixing plate 2000 and the lower surface of the fixing plate 2000, and the number of the second through holes 2100 of the fixing plate 2000 and the number of the first through holes 1100 of the panel 1000 are in one-to-one correspondence and are communicated, so that the burner can be exposed through the second through hole 2100 and the first through holes 1100 in sequence.

The overall shape of the liquid receiving tray 3000 is adapted to the shape of the first through hole 1100, for example, if the shape of the first through hole 1100 is circular, then the shape of the liquid receiving tray 3000 is also circular, or if the shape of the first through hole 1100 is rounded rectangle, then the shape of the liquid receiving tray 3000 is also rounded rectangle. Of course, the shape of the liquid receiving plate 3000 is different from the shape of the first through hole 1100, for example, the shape of the first through hole 1100 is circular, and the shape of the liquid receiving plate 3000 is rounded rectangle. As long as it is ensured that the liquid receiving plate 3000 can cover the first through hole 1100, when the liquid receiving plate 3000 covers the first through hole 1100, it means that the second through hole 2100 is covered. It will be appreciated that the drip pan 3000 is provided with a third through hole 3100 for the burner exposure.

Specifically, the liquid receiving tray 3000 is provided with a third through hole 3100, the third through hole 3100 is also in a through hole structure, and penetrates through the upper surface of the liquid receiving tray 3000 and the lower surface of the liquid receiving tray 3000, the size of the third through hole 3100 can be made small enough to be matched with a burner, taking the circular shape of the liquid receiving tray 3000 as an example, and the third through hole 3100 is approximately located in the middle of the liquid receiving tray 3000. The drip tray 3000 is further provided with a bridge 3300 and a spigot 3200, the spigot 3200 extending in the axial direction of the third through hole 3100, it being understood that the axial extension here does not have to extend completely in the axial direction, but the spigot 3200 extends downwards in the axial direction as a whole, for example in the orientation shown in fig. 7. Thus, when the liquid receiving tray 3000 is mounted on the panel 1000, the liquid receiving tray 3000 moves from top to bottom to insert the insertion part 3200 into the first through hole 1100, and due to the existence of the insertion part 3200, the liquid receiving tray 3000 can be quickly positioned when the liquid receiving tray 3000 is mounted, so that the third through hole 3100 is communicated with the first through hole 1100, namely, the third through hole 3100 is communicated with the second through hole 2100. When the inserting section 3200 is inserted in place, the overlapping section 3300 abuts against the upper surface of the panel 1000, specifically:

the bridge 3300 extends in a radial direction of the third through hole 3100, it being understood that such a radial direction need not extend entirely in a radial direction, but rather the bridge 3300 extends towards both sides in a radial direction as a whole, such as the orientation shown in fig. 7. Thus, when the insertion section 3200 is inserted into the first through hole 1100, the lower surface of the bridge 3300 may abut against the upper surface 1200 of the panel 1000, for example, at a position close to the first through hole 1100 on the upper surface 1200. That is, the inserting connection part 3200 and the overlapping part 3300 are intersected to form an included angle, and when the drip tray 3000 is mounted on the panel 1000, the inserting connection part 3200 and the overlapping part 3300 are mutually matched and clamped at the periphery of the first through hole 1100.

After the liquid receiving plate 3000 is mounted on the panel 1000, the worker may penetrate the fixing plate 2000 by using the fastening member 4000 and connect with the insertion part 3200, thereby fastening the liquid receiving plate 3000, the panel 1000 and the fixing plate 2000 to each other. For example, the fastening element 4000 is a threaded fastening element, which may be a screw, a bolt, etc., the fixing plate 2000 is provided with a fastening hole 2212, and the insertion portion 3200 is also provided with a corresponding fastening hole 3220, but it should be noted that the fastening hole 3220 on the insertion portion 3200 is a blind hole, so that when the fastening element 4000 penetrates the fastening hole 2212 of the fixing plate 2000 and can be screwed into the fastening hole 3220 of the insertion portion 3200, in the screwing process of the fastening element 4000, the overlapping portion 3300 of the drip pan 3000 and the portion of the fixing plate 2000 close to the second through hole 2100 clamp the panel 1000 together, thereby achieving effective connection among the panel 1000, the fixing plate 2000 and the drip pan 3000 without exposing the fastening element 4000 in the visual field of a user.

Alternatively, when the liquid receiving tray 3000 is mounted to the panel 1000, the insertion part 3200 is inserted into the first through hole 1100 to abut against the fixing plate 2000, so that deformation of the fixing plate 2000 can be reduced when the fastening member 4000 is coupled to the insertion part 3200.

For example, in some gas cooker panel structures, in order to make the product have a better appearance, the panel 1000 may be a glass panel, and the fixing plate 2000 may be a metal plate, preferably an aluminum plate, so that it is difficult to form fastening holes in the glass panel, and thus the metal plate may be adhered to the lower surface of the glass panel, and the metal plate may be formed with fastening holes 2212, which facilitates fixing the liquid pan 3000.

The size of the fixing plate 2000 is approximately the same as that of the panel 1000, and since the heat dissipation capability of the glass panel (panel 1000) is not very excellent, the metal plate (fixing plate 2000) can also accelerate the heat dissipation of the glass panel and prevent the glass panel from bursting open. Of course, the size of the fixing plate 2000 may be smaller than that of the panel 1000, and a metal foil (aluminum foil) or the like is bonded to a portion of the panel 1000 where the fixing plate 2000 does not contact to conduct heat.

Through setting up panel 1000 and fixed plate 2000, thereby it wears to establish panel 1000 and can use fastener 4000 to wear to establish fixed plate 2000 and be connected to the grafting portion 3200 of holding liquid dish 3000 to hold liquid dish 3000, again because it still is provided with bridging portion 3300 to hold liquid dish 3000, bridging portion 3300 butt is at the upper surface of panel 1000, when fastener 4000 fastens, just make to hold liquid dish 3000 and fixed plate 2000 and press from both sides tight panel 1000 jointly, firm in connection not only, fastener 4000 still can not expose in gas kitchen range panel structure, from not influencing the outward appearance of product.

In some embodiments, in order to facilitate the fastening device 4000 to penetrate the fixing plate 2000 to connect with the inserting portion 3200 of the liquid receiving tray 3000, as shown in fig. 4 and 5, the fixing plate 2000 needs to be exposed in the first through hole 1100, and it is understood that the exposed portion is at the outer side of the panel 1000, and the portion of the fixing plate 2000 can be observed through the first through hole 1100, for example, above the panel 1000, and the portion of the fixing plate 2000 is exposed in the first through hole 1100 from top to bottom. The portion of the fixing plate 2000 exposed to the first through hole 1100 is referred to as an exposed portion 2200, so that when the liquid receiving tray 3000 is installed, the insertion portion 3200 is inserted into the first through hole 1100 and is opposite to the exposed portion 2200 in the vertical direction, so that the exposed portion 2200 and the insertion portion 3200 can be connected by using the fastener 4000, and the connection can be achieved without the complicated structural matching between the insertion portion 3200 and the fixing plate 2000 over the fixing plate 2000, thereby improving the installation efficiency. For example, the exposed portion 2200 is provided with a fastening hole 2212, and when the drip pan 3000 is mounted on the panel 1000, the insertion portion 3200 is inserted into the first through hole 1100 and abuts on the exposed portion 2200, and the worker can connect the fastening member 4000 to the fastening hole 2212 of the exposed portion 2200 and the fastening hole 3220 of the insertion portion 3200 only by inserting the fastening member.

Alternatively, it is good to mention that the exposed portion 2200 can increase the installation efficiency of the drip pan 3000, but in the process of installing the drip pan 3000, the fastening hole 3220 of the insertion portion 3200 and the fastening hole 2212 of the exposed portion 2200 of the drip pan 3000 need to be adjusted in alignment, and particularly, when the fastening hole 3220 of the insertion portion 3200 and the fastening hole 2212 of the exposed portion 2200 do not correspond, a phenomenon of thread slipping occurs when the fastener 4000 is tightened, so that the insertion portion 3200 and the exposed portion 2200 are not firmly connected. Therefore, in some embodiments, as shown in fig. 4 and 5, and fig. 12 to 15, the insertion section 3200 and the exposed section 2200 are preliminarily positioned and matched by the positioning structure, and when the insertion section 3200 and the exposed section 2200 are positioned, the fastening hole 3220 of the insertion section 3200 and the fastening hole 2212 of the exposed section 2200 can be opposite to each other.

For example, the positioning structure includes a first positioning structure 3210 and a second positioning structure 2211, the first positioning structure 3210 and the second positioning structure 2211 can be matched with each other, the first positioning structure 3210 is disposed on the insertion portion 3200, the second positioning structure 2211 is disposed on the exposed portion 2200, when the insertion portion 3200 is inserted into the first through hole 1100, the first positioning structure 3210 and the second positioning structure 2211 are easier to align with respect to the fastening hole, that is, the first positioning structure 3210 and the second positioning structure 2211 function to position the insertion portion 3200 and the exposed portion 2200 without fixing the two, and therefore the specific form of the first positioning structure 3210 and the second positioning structure 2211 can be varied and selected most conveniently.

Optionally, in some embodiments, the first positioning structure 3210 may be a convex pillar, the second positioning structure 2211 is a positioning hole, or the first positioning structure 3210 may be a positioning hole and the second positioning structure 2211 is a convex pillar. The first positioning structure 3210 is a convex column, and the second positioning structure 2211 is a positioning hole.

First location structure 3210 that holds liquid dish 3000 to set up is the projection, specifically set up to grafting portion 3200 on, when installation holds liquid dish 3000, grafting portion 3200 inserts the in-process of first through-hole 1100, it has sheltered from first through-hole 1100 to hold liquid dish 3000, that is to say, the locating hole on fixed plate 2000 can not be seen from the outside of panel 1000 this moment to the staff, however, the staff can aim at projection and locating hole roughly before the installation, insert first through-hole 1100 after grafting portion 3200, only need the minizone to rotate to hold liquid dish 3000 can realize the grafting cooperation between projection and the locating hole, thereby make fastening hole 3220 of grafting portion 3200 and the corresponding of fastening hole 2212 of exposure portion 2200, the cooperation of projection and locating hole is simple swift, effectively improve operating efficiency.

Alternatively, as shown in fig. 5, 10, 14 and 15, the exposed portion 2200 includes a flange 2220, for example, the flange 2220 is disposed along the circumference of the second through hole 2100 and extends upward from the edge of the second through hole 2100, so that the flange 2220 can be inserted into the first through hole 1100 when the fixing plate 2000 and the panel 1000 are connected, and the flange 2220 is disposed in a fixed position, thereby facilitating the quick assembly of the fixing plate 2000 and the panel 1000.

In some embodiments, as shown in fig. 13-15, in order to facilitate the insertion of the fastener 4000 without affecting the flange 2220, the exposed portion 2200 includes a mounting block 2210, for example, the mounting block 2210 extends along the radial direction of the second through hole 2100 to protrude into the second through hole 2100, thereby forming a mounting plane, the insertion portion 3200 can abut against the mounting block 2210 when inserted into the first through hole 1100, and the mounting block 2210 is provided with the aforementioned second positioning structure 2211, thereby achieving the effect of not affecting the flange 2220. The mounting block 2210 is provided with a fastening hole 2212 through which the fastener 4000 is inserted into the mounting block 2210 to be coupled with the insertion part 3200.

Alternatively, in some embodiments, as shown in fig. 13 to fig. 15, the mounting table 2210 and the plug portion 3200 are provided for connection, so as to facilitate the arrangement of the mounting table 2210 and the flange 2220, both are arranged around the second through hole 2100 and alternately arranged, that is, in the circumferential direction of the second through hole 2100, the mounting table 2210 is provided with flanges 2220 on both sides, and the mounting table 2210 is provided with flanges 2220 on both sides, so that the arrangement of the flanges 2220 is not affected, and the fit between the mounting table 2210 and the plug portion 3200 is not affected. For example, mounting 2210 may include three spaced apart flanges 2220 may also include three spaced apart flanges, which may save material. Furthermore, such alternate arrangement allows the force applied to the spigot section 3200, i.e., the force applied to the liquid pan 3000, to be more uniformly distributed when the fasteners 4000 connect the mounting table 2210 and the spigot section 3200, thereby preventing a local portion of the liquid pan 3000 in the circumferential direction from being tilted with respect to the upper surface of the panel 1000.

It can be understood that, correspondingly, the plugging portion 3200 also includes a plurality of, i.e. at least two, the number of the plugging portions 3200 corresponds to the number of the mounting tables 2210 one by one, so that the number of the plugging portions 3200 can also be saved, for example, the number of the plugging portions 3200 is also three, and the three plugging portions 3200 are arranged at intervals around the third through hole 3100.

It is also possible that although the mounting table 2210 is provided with a plurality of (a plurality means at least two or more), the insertion part 3200 still presents a ring structure surrounding the third through hole 3100, in which case, it is only necessary to provide the first positioning structures 3210 and the fastening holes 3220 at corresponding positions of the insertion part 3200.

As shown in fig. 7, in some embodiments, in order to achieve the initial fixing when the fixing plate 2000 and the panel 1000 are installed, the fixing plate 2000 and the panel 1000 are fixed by adhesion. For example, taking the panel 1000 as a glass panel, the fixing plate 2000 as an aluminum plate, the fixing plate 2000 is provided with a first groove 2230, which is formed by stamping, the first groove 2230 may be disposed adjacent to the second through hole 2100, and at this time, the first groove 2230 is not visible through the first through hole 1100, glue is injected into the first groove 2230, so that when the panel 1000 and the fixing plate 2000 are stacked relatively, initial fixing between the panel 1000 and the fixing plate 2000 may be achieved by the glue in the first groove 2230, and since the first groove 2230 is close to the second through hole 2100, the periphery of the first through hole 1100 of the panel 1000 and the periphery of the second through hole 2100 of the fixing plate 2000 may be fixed, and if the size of the fixing plate 2000 is large, fastening between the panel 1000 and the fixing plate 2000 may be achieved by fixing the edge portion of the panel 1000 and the edge portion of the fixing plate 2000 again.

In addition, the first groove 2230 may be provided to the panel 1000, which can also provide a similar effect. However, if the panel 1000 is a glass panel 1000, it is difficult to provide the first groove 2230 on the panel 1000.

It is also possible that the first groove 2230 surrounds the second through hole 2100 and is in communication with the second through hole 2100, that is, the first groove 2230 directly surrounds the second through hole 2100, and the first groove 2230 extends from the periphery of the first through hole 1100 into the first through hole 1100, and at this time, the first groove 2230 can be observed from the first through hole 1100, in which case, the primary fixing between the panel 1000 and the fixing plate 2000 can be achieved, and the gap between the periphery of the first through hole 1100 and the periphery of the second through hole 2100 can be effectively blocked. Also, in this case, the exposed portion 2200 may be formed by the portion of the first groove 2230 exposed in the first through hole 1100, so that the mount 2210 and the flange 2220 may be formed on the first groove 2230.

As shown in fig. 7, in some embodiments, in order to effectively prevent liquid from penetrating through the gap between the lap 3300 and the upper surface 1200 of the panel 1000, the upper surface 1200 of the panel 1000 and the lap 3300 are sealed by adhesion, and when the upper surface of the panel 1000 and the lap 3300 are adhered, not only the sealing function but also a certain fixing function are performed. For example, the liquid receiving tray 3000 is made of metal, the panel 1000 is made of glass, the third recess 3330 is formed in the liquid receiving tray 3000, specifically, the third recess 3330 is formed on the overlapping portion 3300 and is arranged around the third through hole 3100, glue is applied to the third recess 3330, and when the liquid receiving tray 3000 is fastened by the fastening member 4000, the overlapping portion 3300 presses against the upper surface of the panel 1000, so that the sealing connection with the upper surface of the panel 1000 is realized. Of course, the third recessed groove 3330 is not limited to be provided on the liquid receiving tray 3000, and may be provided on the panel 1000, and may be selected according to the specific materials of the liquid receiving tray 3000 and the panel 1000.

It is also possible, as shown in fig. 10, that in some embodiments, one of the panel 1000 and the bridge 3300 is provided with an accommodating groove 3310, the accommodating groove 3310 is disposed around the third through hole 3100, the accommodating groove 3310 is used for accommodating a sealing ring 3320, the sealing ring 3320 is fixed in the accommodating groove 3310, and when the liquid bearing plate 3000 is fixed by the fastener 4000, the bridge 3300 is pressed against the upper surface of the panel 1000, so that the sealing ring 3320 is clamped between the panel 1000 and the bridge 3300, and thus, the sealing between the bridge 3300 and the panel 1000 can be achieved. For example, when the liquid pan 3000 is made of metal, the panel 1000 is made of glass, and the receiving slots 3310 are formed on the bridge 3300, in other embodiments, the receiving slots 3310 may be formed by selecting specific materials of the liquid pan 3000 and the panel 1000.

As shown in fig. 8, in some embodiments, the gas stove panel structure further includes a frame 6000, and the frame 6000 is fixed to the lower surface of the fixing plate 2000 and the side surface 1400 of the fixing plate 1000, so as to effectively fix the edge of the fixing plate 1000 and the edge of the fixing plate 2000, and the frame 6000 is used to wrap the fixing plate 2000 so as to improve the structural strength of the fixing plate 1000 and the fixing plate 2000, thereby preventing the fixing plate from being damaged, and further enhancing the aesthetic property of the product through the arrangement of the frame 6000.

That is, the size of the fixing plate 2000 is adapted to the size of the panel 1000, and the edge of the fixing plate 2000 extends to the edge of the panel 1000, as described above, the connection between the panel 1000 and the fixing plate 2000 at the peripheral portions of the first through hole 1100 and the second through hole 2100 can be achieved by the arrangement of the first groove 2230, and at this time, a gap may exist at the edge between the panel 1000 and the fixing plate 2000, so that the connection between the panel 1000 and the edge of the fixing plate 2000 can be effectively reinforced by the frame 6000 at the edge between the panel 1000 and the fixing plate 2000, and the gap can be prevented. The frame 6000 is fixed to the side 1400 of the panel 1000 and the lower surface of the fixing plate 2000, for example, the frame 6000 has an L-shaped cross section and has a vertical portion 6100 and a horizontal portion 6200, the vertical portion 6100 and the horizontal portion 6200 intersect with each other, so that the vertical portion 6100 is fixed to the side 1400 of the panel 1000, and the horizontal portion 6200 is fixed to the lower surface of the fixing plate 2000, that is, after the frame 6000 is fixed to the edges of the panel 1000 and the fixing plate 2000, the vertical portion 6100 is also fixed to the side of the fixing plate 2000, so that the edge of the panel 1000 and the edge of the fixing plate 2000 are fixed and prevented from being separated. The frame 6000 may be fixed by various methods, such as bonding, welding, etc., and the vertical portion 6100 and the side surface of the panel 1000 and the side surface of the fixing plate 2000 are bonded and fixed, and the horizontal portion 6200 and the lower surface of the fixing plate 2000 are bonded and fixed, for example, by bonding.

In other embodiments, as shown in fig. 11, the frame 6000 is only fixed to the panel 1000, and the fixing plate 2000 and the panel 1000 are fixed separately, so that the frame 6000 can also reinforce the structural strength of the panel 1000, and can also enhance the aesthetic appearance of the product.

For example, the panel 1000 and the fixing plate 2000 are stacked, the fixing plate 2000 has a certain size, but the size of the fixing plate 2000 is smaller than that of the panel 1000, the fixing plate 2000 is located within the edge of the panel 1000, that is, the edge of the fixing plate 2000 is located at a certain distance from the edge of the panel 1000, when the fixing plate 2000 or the panel 1000 is provided with the second grooves 2300, the second grooves 2300 are spaced apart from the first grooves 2230, the second grooves 2300 may be closer to the edge of the fixing plate 2000, and the second grooves 2300 may be glue-injected to achieve the fixing between the edge of the fixing plate 2000 and the panel 1000. The frame 6000 is disposed around the panel 1000, and the frame 6000 fixes the side 1400 and the lower surface of the panel 1000, so as to enhance the structural strength of the panel 1000 and improve the aesthetic property of the product.

As shown in fig. 6 and fig. 9, in some embodiments, the gas stove panel structure further includes a mounting frame 5100, the mounting frame 5100 is used for mounting the oil collecting groove 5300 and the grid 5200, the grid 5200 can block a large obstacle from entering the oil collecting groove 5300, the oil collecting groove 5300 can temporarily collect oil stain for a user to clean, one side of the mounting frame 5100 is lapped on the upper surface 1200 of the panel 1000 and is adhesively fixed to the upper surface 1200 of the panel 1000, a fourth groove 5110 is provided between the mounting frame 5100 and the panel 1000, and glue is injected into the fourth groove 5110 to adhesively fix the mounting frame 5100 and the panel 1000.

Combine shown in fig. 1 and fig. 7, in some embodiments, still including kitchen support 7000, panel 1000 is placed to kitchen support 7000, the pan is placed on kitchen support 7000 in order to be supported, kitchen support 7000 is directly established to holding in the liquid dish 3000 by the cover, for example, it is circular structure to hold liquid dish 3000, kitchen support 7000 has the ring, match with holding liquid dish 3000 through the ring and establish to holding liquid dish 3000 with the cover, it is spacing to form kitchen support 7000 to hold liquid dish 3000, avoid kitchen support 7000 to run, no longer additionally need set up location structure to kitchen support 7000.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications and equivalents of the subject matter of the present application, which is conceived to be equivalent to the above description and the accompanying drawings, or to be directly/indirectly applied to other related arts, are intended to be included within the scope of the present application.

Claims (17)

1. A gas range panel structure, comprising:

a panel provided with a first through hole;

the fixing plate is provided with a second through hole and is connected to the lower surface of the panel so as to enable the second through hole to be communicated with the first through hole;

the liquid bearing disc is provided with a third through hole, an inserting part and a lap joint part, the inserting part extends along the axial direction of the third through hole to be inserted into the first through hole so as to enable the third through hole to be communicated with the first through hole, and the lap joint part extends along the radial direction of the third through hole to abut against the upper surface of the panel; and

and the fastening piece penetrates through the fixing plate to be connected with the inserting part.

2. The gas range panel structure according to claim 1, wherein a portion of the fixing plate exposed from the first through hole is defined as an exposed portion, and the fastening member is inserted through the exposed portion to connect the insertion portion.

3. The gas range panel structure according to claim 2, wherein the insertion part is provided with a first positioning structure, the exposed part is provided with a second positioning structure, and the first positioning structure is connected to the second positioning structure.

4. The gas cooktop panel structure of claim 3, wherein one of the first and second locating structures is a post and the other is a locating hole.

5. The gas cooktop panel structure of claim 2 or 3, wherein the exposed portion includes a flange that is inserted into the first through hole.

6. The gas cooktop panel structure of claim 5, wherein the exposed portion includes a mounting deck, a second locating structure provided with the exposed portion, and the fastener is disposed through the mounting deck to connect with the insert portion.

7. The gas range panel structure of claim 6, wherein the burring of the exposed portion and the mounting boss are alternately spaced in the circumferential direction of the second through hole.

8. The gas range panel structure according to claim 1 or 2, wherein the fixing plate is provided with a first groove surrounding the second through hole, the first groove being used for injecting glue to be adhered to the panel;

and/or the panel is provided with a first groove surrounding the first through hole, and the first groove is used for injecting glue to be bonded with the fixing plate.

9. The gas cooktop panel structure of claim 8, wherein the first recess comprises an exposed portion of the retaining plate.

10. The gas range panel structure of claim 1, wherein the insertion part comprises a plurality of insertion parts arranged at intervals around the third through hole;

or the insertion part is annular and surrounds the third through hole.

11. The gas range panel structure of claim 1, wherein the lap joint part is fixed to the upper surface of the panel by an adhesive;

and/or, at least one of the overlap joint portion and the panel is equipped with the holding tank, the holding tank is equipped with the sealing washer, the sealing washer centre gripping in the overlap joint portion with between the panel.

12. The gas cooktop panel structure of claim 1, further comprising a rim secured to a side of the panel and a lower surface of the mounting plate.

13. The gas range panel structure of claim 12, wherein the rim is fixedly bonded to the side of the panel and the lower surface of the fixing plate;

and/or the frame comprises a vertical part and a horizontal part which are arranged in an intersecting manner, the vertical part is fixed on the side surface of the panel, and the horizontal part is fixed on the lower surface of the fixing plate.

14. The gas cooktop plate structure of claim 8, further comprising a frame secured to the sides and lower surface of the plate, the plate or the fixing plate having second grooves spaced from the first grooves for injecting glue to fix the plate and the fixing plate.

15. The gas range panel structure of claim 1, further comprising a mounting frame for mounting the oil sump and the grill, wherein one side of the mounting frame is overlapped on the upper surface of the panel and is fixed to the upper surface of the panel by an adhesive.

16. The gas range panel structure of claim 1, wherein the panel is a glass panel;

and/or the fixing plate is an aluminum plate;

and/or the panel and the fixing plate are fixedly bonded;

and/or the fastening piece is a screw, and the inserting part and the fixing plate are respectively provided with a fastening hole;

and/or, the gas stove panel structure further comprises a stove support, and the stove support is sleeved on the liquid bearing disc.

17. A kitchen appliance comprising the gas range panel structure of any one of claims 1 to 16.

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