CN217685188U - Cooking utensils panel and cooking utensils and integrated kitchen - Google Patents

Abstract

The utility model relates to a cooking utensils panel and cooking utensils and integrated kitchen, including the glass panels who has two furnace end holes, this glass panels rear end is sunken and the breach of the U type of extending about forming, be provided with the heat-conducting plate on glass panels's the lower surface, this heat-conducting plate sets up between two furnace end holes, and the adjacent above-mentioned breach in rear end of this heat-conducting plate, and leaves the clearance respectively between both ends and the furnace end hole that corresponds about the heat-conducting plate. The heat conducting plate can transfer the heat near the gap to the space between the two furnace head holes with relatively low temperature, thereby reducing the temperature at the gap and avoiding the glass panel from bursting due to the accumulation of thermal stress on the gap.

Description

Cooking utensils panel and cooking utensils and integrated kitchen

Technical Field

The utility model relates to a cooking utensils field especially relates to a cooking utensils panel and cooking utensils and integrated kitchen.

Background

An integrated range is a device that integrates a range with other household appliances, for example, a gas range is combined with a cooking device, a smoke extractor, a sterilizing cabinet, or the like. For example, the present integrated cooker is disclosed in chinese invention patent with application number CN202011409253.6 (publication number CN112555906 a), chinese utility model patent with publication number ZL 202022154907.7 (publication number CN 213686958U), chinese utility model patent with application number CN202010107110.3 (publication number CN111389135 a), and the like.

In a panel of a kitchen range of an existing integrated kitchen range, an exhaust port is arranged on the rear side of the panel, and exhaust gas generated by a cooking device is discharged outside through the exhaust port, for example, the invention patent of china with the application number of 202110023721.4 (with the publication number of CN 112856502A) discloses an exhaust cover plate structure for the integrated kitchen range and the integrated kitchen range with the structure. Because the rear side is required to be provided with an exhaust port, the panel of the cooker generally adopts a U-shaped port special-shaped surface. In recent years, the heat load efficiency of the burner of the cooker is higher and higher, so that the temperature of the panel is higher and higher during the use of the cooker, the thermal stress of the panel is higher and higher, and the thermal stress of the panel is concentrated to the R angle of the U-shaped opening, so that the risk of the panel bursting due to high temperature is increased.

Disclosure of Invention

The utility model aims to solve the first technical problem that provides a can reduce cooking utensils panel of glass panel breach department temperature to prior art.

The utility model aims to solve the second technical problem that provides a cooking utensils panel that piece splashes when can avoid glass panels to be broken to prior art.

The third technical problem to be solved by the utility model is to provide a cooking utensils panel that glass panels temperature is low to prior art.

The fourth technical problem to be solved by the utility model is to provide a cooking utensils with above-mentioned cooking utensils panel to prior art.

The fifth technical problem to be solved by the utility model is to provide an integrated kitchen with above-mentioned cooking utensils to prior art.

The utility model provides a technical scheme that at least one above-mentioned technical problem adopted does: the utility model provides a cooking utensils panel, is including the glass panels who has two furnace end holes, and this glass panels rear end is sunken and forms the breach of the U type that extends about, its characterized in that, be provided with the heat-conducting plate on the lower surface of glass panels, this heat-conducting plate sets up between two furnace end holes, and the rear end of this heat-conducting plate is close to above-mentioned breach, and leaves the clearance respectively between both ends and the furnace end hole that corresponds about the heat-conducting plate.

Further, the notch of the glass panel and the heat conducting plate are in a bilateral symmetry structure taking the central line between the two furnace head holes as the center. This enables the thermal stresses on the gap to be distributed uniformly and the heat-conducting plate to be better positioned in the relatively low-temperature region between the two burner ports.

Further, the distance between the rear end of the heat conducting plate and the notch is respectively greater than the distance between the left end and the right end of the heat conducting plate and the corresponding furnace head hole. Thereby preventing the heat-conducting plate from transferring the heat at each furnace end hole to the notch.

Furthermore, the rear end edge of the heat conducting plate extends along the left-right direction, the left end edge and the right end edge of the heat conducting plate are respectively arc sections, and the radius of each arc section is larger than the corresponding furnace head hole. Thereby can increase the region that the heat-conducting plate rear end is relative with the breach to accelerate the heat-conducting plate and transfer the heat of breach department to the efficiency between two furnace head holes, and then improve the radiating efficiency of heat-conducting plate to breach department.

Furthermore, the whole shape of the heat conducting plate is T-shaped, and the length of the rear end edge of the heat conducting plate is more than or equal to the length of the notch along the left-right direction. The heat-conducting plate can be fully high-efficient ground with the heat transfer of breach department to between two furnace end holes like this, further promotes the radiating effect to breach department.

Further, the glass panel heat conduction plate comprises an explosion-proof net attached to the lower surface of the glass panel, and the heat conduction plate is clamped between the glass panel and the explosion-proof net. The piece splashes when the glass panel is broken can be avoided by arranging the explosion-proof net, and the stable setting of the heat-conducting plate can be realized.

Furthermore, the explosion-proof net is provided with through holes which are in one-to-one correspondence with the furnace end holes, each through hole is arranged opposite to the corresponding furnace end hole from top to bottom, and the aperture of each through hole is equal to the radius of the liquid containing disc on the corresponding furnace end hole. When cooking utensils used like this, the heat passed through flourishing liquid dish and transmitted to panel department, and the setting through the through-hole enables the heat that transmits to glass panels department to transmit to the chassis of cooking utensils fast in to reduce the heat transfer to glass panels, reduce glass panels's temperature, also can reduce the temperature of breach department simultaneously better.

Further, the R angle size of the notch is R700. On the one hand, interference cannot be caused to the arrangement of the exhaust port on the panel of the stove, on the other hand, the thermal stress concentration at the notch can be guaranteed to be the lowest, in addition, the distance between the notch and the stove head hole can be enabled to be the largest, and meanwhile, the strength of the glass panel can also be guaranteed.

The technical solution adopted to further solve the fourth technical problem is as follows: a cooker is characterized by comprising the cooker panel.

The technical solution adopted to further solve the fifth technical problem is as follows: an integrated cooker is characterized by comprising the cooker.

Compared with the prior art, the utility model has the advantages of: the heat-conducting plate is arranged between the two furnace end holes of the glass panel, the rear end of the heat-conducting plate is close to the notch of the glass panel, gaps are reserved between the left end and the right end of the heat-conducting plate and the corresponding furnace end holes respectively, and therefore the heat-conducting plate can transfer heat near the notch to the space between the two furnace end holes with relatively low temperature, the temperature of the notch is reduced, and the glass panel is prevented from bursting due to the fact that heat stress is accumulated in the notch.

Drawings

FIG. 1 is a schematic structural view of a panel of a cooking stove in an embodiment of the present invention;

fig. 2 is an exploded view of the panel of the cooking stove in the embodiment of the present invention;

fig. 3 is a schematic view of a local structure of a panel of a cooking stove in an embodiment of the present invention (in a state of hiding an explosion-proof net and a liquid containing tray).

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate the orientation or positional relationship indicated based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, since the disclosed embodiments of the invention can be arranged in different orientations, these directional terms are for illustrative purposes only and should not be considered as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or consistent with the direction of gravity. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

An integrated cooktop includes a cooking device (not shown), such as a steam box, oven, or steam oven, etc., and a cooktop disposed over the cooking device that includes an open-topped pan (not shown) and a cooktop panel covering the pan.

Further, as shown in fig. 1 to 3, the panel of the kitchen range comprises a panel bracket 5, a glass panel 1, an explosion-proof net 3 and a heat-conducting plate 2. Wherein, two furnace head holes 11 have been seted up on glass panels 1, and two furnace head holes 11 are bilateral symmetry and set up, and, this glass panels 1 rear end is sunken and forms the breach 12 of the U type of extending about, can dodge the gas vent 50 on the panel support 5 through this breach 12. The heat conducting plate 2 is disposed on the lower surface of the glass panel 1, and the heat conducting plate 2 is disposed between two burner holes 11, and the rear end of the heat conducting plate 2 is adjacent to the notch 12, and a gap is respectively left between the left and right ends of the heat conducting plate 2 and the corresponding burner holes 11. Therefore, the heat conducting plate 2 can transfer the heat near the notch 12 to the space between the two furnace head holes 11 with relatively low temperature, thereby reducing the temperature at the notch 12 and avoiding the glass panel 1 from bursting due to the accumulation of thermal stress on the notch 12.

In this embodiment, the notch 12 of the glass panel 1 and the heat conducting plate 2 are preferably both of a bilaterally symmetrical structure centered on the center line between the two burner holes 11. This enables a uniform distribution of the thermal stresses on the notches 12 and better positioning of the heat-conducting plate 2 in the relatively low-temperature region between the two burner holes 11. In addition, the distance between the rear end of the heat conducting plate 2 and the notch 12 is respectively greater than the distance between the left end and the right end of the heat conducting plate 2 and the corresponding burner holes 11, so that the heat conducting plate 2 can be prevented from transferring the heat of each burner hole 11 to the notch 12.

Further, the rear end edge of the heat conducting plate 2 extends along the left-right direction, the left end edge and the right end edge of the heat conducting plate 2 are respectively arc sections, and the radius of each arc section is respectively greater than the corresponding furnace end hole 11, so that the area of the rear end of the heat conducting plate 2 relative to the notch 12 can be increased, the efficiency of the heat conducting plate 2 for transferring the heat of the notch 12 to the space between the two furnace end holes 11 is accelerated, and the heat dissipation efficiency of the heat conducting plate 2 to the notch 12 is improved. Specifically, the heat-conducting plate 2 is T-shaped as a whole, and the length of the rear end edge of the heat-conducting plate 2 is equal to or greater than the length of the notch 12 in the left-right direction. Therefore, the heat conducting plate 2 can fully and efficiently transfer the heat at the notch 12 to the space between the two furnace head holes 11, and further improves the heat dissipation effect on the notch 12.

Further, the anti-explosion net 3 is adhered to the lower surface of the glass panel 1, the heat conducting plate 2 is clamped between the glass panel 1 and the anti-explosion net 3, fragments can be prevented from splashing when the glass panel 1 is broken by arranging the anti-explosion net 3, and meanwhile the heat conducting plate 2 can be stably arranged. Preferably, the anti-explosion net 3 has through holes 31 corresponding to the burner holes 11 one by one, each through hole 31 is arranged opposite to the corresponding burner hole 11 up and down, and the aperture of each through hole 31 is equal to the radius of the liquid containing disc 4 on the corresponding burner hole 11. When the cooking utensils use like this, the heat transmits to glass panels 1 department through flourishing liquid dish 4, and the setting through-hole 31 enables the heat that transmits to glass panels 1 department to transmit to the chassis of cooking utensils fast in to reduce the heat transfer to glass panels 1, reduce the temperature of glass panels 1, also can reduce the temperature of breach 12 department better simultaneously.

In this embodiment, the panel holder 5 is a frame, and includes a frame 51 and an elongated cover plate 52, the exhaust port 50 is provided on the cover plate 52, the frame 51 includes a left support plate 511, a right support plate 512, and a front support plate 513, wherein the left support plate 511 and the right support plate 512 extend forward and backward, respectively, the front support plate 513 extends leftward and rightward, the left support plate 511, the right support plate 512, and the front support plate 513 are sequentially connected to form the frame 51, the glass panel 1 is fixed on the frame 51, and the cover plate 52 extends in the leftward and rightward direction and covers the rear end of the glass panel 1, so that the glass panel 1 can be stably disposed. Preferably, in this embodiment, the R angle of the notch 12 is R700. On the one hand, interference cannot be caused to the arrangement of the exhaust port 50 on the cooker panel, on the other hand, the thermal stress concentration at the position of the notch 12 can be guaranteed to be the lowest, in addition, the distance between the notch 12 and the burner hole 11 can be enabled to be the largest, and meanwhile, the strength of the glass panel 1 can be guaranteed.

Claims (10)

1. The utility model provides a cooking utensils panel, is including glass panels (1) that have two furnace end holes (11), and this glass panels (1) rear end is sunken and is formed about breach (12) of the U type of extending, its characterized in that, be provided with heat-conducting plate (2) on the lower surface of glass panels (1), this heat-conducting plate (2) set up between two furnace end holes (11), and the rear end of this heat-conducting plate (2) is neighbouring above-mentioned breach (12), and leaves the clearance respectively between both ends and the furnace end hole (11) that correspond about heat-conducting plate (2).

2. The cooktop panel according to claim 1, wherein the notch (12) of the glass panel (1) and the heat-conducting plate (2) are both bilaterally symmetrical structures centered on a center line between the two burner holes (11).

3. The cooktop panel of claim 2, wherein the distances between the rear end of the heat-conducting plate (2) and the notches (12) are respectively greater than the distances between the left and right ends of the heat-conducting plate (2) and the corresponding burner holes (11).

4. The cooktop panel of claim 3, wherein the rear end edge of the heat-conducting plate (2) extends in the left-right direction, and the left and right end edges of the heat-conducting plate (2) are arc sections, respectively, and the radius of each arc section is larger than that of the corresponding burner hole (11).

5. The cooking utensil panel as claimed in any one of claims 2 to 4, characterized in that the heat-conducting plate (2) is T-shaped in shape as a whole, and the length of the rear end edge of the heat-conducting plate (2) is greater than or equal to the length of the notch (12) in the left-right direction.

6. The cooking utensils panel as claimed in any one of claims 1-4, characterised in that it also includes an anti-explosion net (3) attached to the lower surface of the glass panel (1), and the heat-conducting plate (2) is sandwiched between the glass panel (1) and the anti-explosion net (3).

7. The cooking range panel as recited in claim 6, wherein the explosion-proof net (3) has through holes (31) corresponding to the burner holes (11) one by one, each through hole (31) is disposed opposite to the corresponding burner hole (11) up and down, and the aperture of each through hole (31) is equal to the radius of the liquid containing disc (4) on the corresponding burner hole (11).

8. Hob panel according to any of the claims 1 to 4, characterized in that the R angle of the indentation (12) is of size R700.

9. A hob characterized by having a hob panel according to any one of the claims 1 to 8.

10. An integrated cooker, characterized by having a cooker as claimed in claim 9.

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