CN210861190U - Integrated stove with cooking device - Google Patents

Abstract

The utility model relates to a take integrated kitchen of culinary art device, including the culinary art device that has a body, cooking utensils and the electronic component that the during operation can generate heat, above-mentioned cooking utensils include the kitchen shell, a serial communication port, the door body is including adjacent first door plant and the second door plant of establishing, leaves the ventilation intermediate layer between the two, and electronic component installs in this ventilation intermediate layer, is provided with cooling system in the above-mentioned kitchen shell, and this cooling system includes heat dissipation channel and the fan of setting in this heat dissipation channel, heat dissipation channel have the air-out port, and seted up the gas vent on the preceding lateral wall of kitchen shell, this gas vent and above-mentioned air-out port fluid intercommunication mutually, under the door body closed condition, the interbedded import of ventilating and above-mentioned gas vent fluid intercommunication mutually. Compared with the prior art, the utility model discloses on the realization is to the radiating basis of door body cooling, realize the heat dissipation to electronic component, avoid electronic component during operation high temperature and influence and make normal function and life.

Description

Integrated stove with cooking device

Technical Field

The utility model relates to a culinary art device field especially relates to a take integrated kitchen of culinary art device.

Background

Integration is the development direction of future cooking equipment, and integrated cooking equipment has advantages such as occupation kitchen space is little, convenient to use. The existing integrated cooker generally integrates a cooker and a steam box or an oven or a dish washer or a disinfection cabinet. The oil smoke exhaust is one of the important problems to be solved by the integrated cooker, the existing integrated cooker generally utilizes the existing range hood in the kitchen to process the oil smoke generated during the operation of the integrated cooker, the oil smoke problem generated by the cooker part of the integrated cooker can be better solved by the mode, but the oil smoke or steam generated by other parts (such as a steam box, an oven and the like) of the integrated cooker has poor treatment effect.

Further, electrical components such as controllers are generally arranged in a base plate of the integrated cooker, when the integrated cooker works, heat in a cooking chamber is upwards transferred to the base plate of the cooker, heat generated by a burner on a cooker panel is also downwards transferred to the base plate of the cooker, the temperature of the base plate of the integrated cooker is too high, and potential safety hazards can be caused to the performance of the electrical components such as the controllers due to the too high temperature. For example: an integrated cooker structure disclosed by Chinese invention patent with the patent number ZL201310193942.1 (the publication number is CN103244974A), Chinese utility model patent with the patent number ZL201721310314.7 (the publication number is CN207378876U) and the like.

Disclosure of Invention

The utility model aims to solve the technical problem that an integrated kitchen of area culinary art device that can effectively dispel the heat the cooling to electronic component is provided to prior art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: an integrated cooker with a cooking device, which comprises the cooking device with a door body, a cooker and an electronic element which can generate heat when in work, wherein the cooker comprises a cooker shell, it is characterized in that the door body comprises a first door plate and a second door plate which are adjacently arranged, wherein the first door plate is positioned at the outer side of the door body, a ventilation interlayer is left between the first door plate and the second door plate, the ventilation interlayer is provided with an inlet at the top and an outlet at the bottom, the electronic components are arranged in the ventilation interlayer, the stove shell is internally provided with a heat dissipation system, the heat dissipation system comprises a heat dissipation channel and a fan arranged in the heat dissipation channel, the heat dissipation channel is provided with an air outlet port, the front side wall of the stove shell is provided with an air outlet, the air outlet is in fluid communication with the air outlet port, and the inlet of the ventilation interlayer is in fluid communication with the air outlet port when the door body is closed.

In order to better blow the air outlet of the air outlet to the ventilation interlayer, a flow guide frame is arranged at the inlet of the ventilation interlayer, the flow guide frame is provided with a flow guide opening and a flow guide surface which are communicated with the inlet of the ventilation interlayer, and the air outlet of the air outlet can be guided to the flow guide opening through the flow guide surface.

For can blow the gas vent to the air current of water conservancy diversion frame leading-in water conservancy diversion mouth better, the appearance of water conservancy diversion frame is the strip, and its length direction along the door body top sets up and covers the interbedded import of above-mentioned ventilation, and above-mentioned water conservancy diversion face and water conservancy diversion mouth extend along the length direction of water conservancy diversion frame respectively, and wherein, the water conservancy diversion face includes first water conservancy diversion face, and this first water conservancy diversion face is vertical to be set up, and above-mentioned water conservancy diversion mouth is located the rear downside of this first water conservancy diversion face, and under the door body closed condition, first water conservancy diversion face is relative with the gas vent. The air outlet of the air outlet is blown forward to the first flow guide surface, and the air flow is turned and downwards guided into the flow guide opening due to the blocking of the first flow guide surface.

Further, in order to better guide the air flow blown to the first flow guide surface into the flow guide opening, preferably, the upper end of the first flow guide surface is curved in a circular arc shape from bottom to top toward the back. Thereby can avoid the gas current that the gas vent blows to first water conservancy diversion face to escape upwards.

Furthermore, the lower side edge of the first flow guide surface is the front opening edge of the flow guide opening, so that the airflow can flow along the first flow guide surface after turning under the action of the first flow guide surface and can be smoothly guided into the flow guide opening under the action of the wall attachment.

The second flow guide surface is an arc surface which is horizontally arranged and inclines upwards from front to back, is positioned at the rear side of the flow guide opening, and is positioned at the front lower part of the exhaust opening when the door body is closed. In the air current blown to the flow guide opening through the action of the first flow guide surface, part of escaped air current is recaptured under the blockage of the second flow guide surface and is finally guided into the flow guide opening.

Preferably, the front side edge of the second flow guide surface is the rear opening edge of the flow guide opening, so that the airflow recaptured by the second flow guide surface can be better guided into the flow guide opening.

In order to enable the airflow entering the ventilation interlayer to be blown to the electronic element better, flow deflectors are arranged below the flow guide port and are arranged at intervals along the length direction of the flow guide port, each flow deflector is vertically arranged, and the length direction of each flow deflector is intersected with the length direction of the flow guide port.

In order to further improve the heat dissipation effect on the electronic element, the electronic element is mounted on the first door panel. The first door plate is positioned on the outer side of the door body, so that the temperature is lower, and the heat dissipation effect on the electronic element can be further improved.

Further, preferably, the flow guide openings are located in the openings of the ventilation interlayer and are opposite to the electronic component. Therefore, the airflow entering from the flow guide port directly impacts the electronic element, and the airflow sweeps across the electronic element from top to bottom, so that the heat dissipation effect on the electronic element can be further improved.

Compared with the prior art, the utility model has the advantages of: the utility model discloses well electronic component sets up in the ventilation intermediate layer of the door body, convenience of customers directly operates integrated kitchen, and be provided with heat dissipation channel in the kitchen shell, the air current in the heat dissipation channel can blow to the gas vent on the lateral wall before the kitchen shell through the air-out port above that, and the air-out of gas vent can blow to the ventilation intermediate layer of the door body in, on the realization is to the radiating basis of door body cooling, realize the heat dissipation to electronic component, avoid electronic component during operation high temperature and influence its normal function and life.

Drawings

Fig. 1 is a schematic structural view of an integrated cooker in an embodiment of the present invention;

fig. 2 is a sectional view of an integrated cooker in the embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic view of a partial structure of an integrated cooker in an embodiment of the present invention;

fig. 5 is a schematic structural view of a diversion frame in an embodiment of the present invention;

fig. 6 is a schematic structural view in another direction of fig. 5.

Detailed Description

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

As shown in fig. 1 to 6, an integrated cooker with a cooking device includes a cooker and a cooking device, the cooker includes a cooker shell 1, the cooking device includes a cooking chamber 21 and a door 22, in this embodiment, the cooking device with the cooking chamber 21 is an integrated steaming and baking machine, the integrated steaming and baking machine includes a housing 2 and the cooking chamber 21 disposed in the housing 2, and the cooker shell 1 includes a chassis 12 and a panel 11 covering the chassis 12.

The heat dissipation system 3 is disposed in the stove housing 1, the heat dissipation system 3 includes a fan 32 and a heat dissipation channel 310, the heat dissipation channel 310 has an air inlet 310a and an air outlet 310b, in this embodiment, the fan 32 is a centrifugal fan, the fan 32 is disposed on the inner bottom surface of the chassis 12, the fan 32 is disposed on the air inlet 310a of the heat dissipation channel 310, and the left and right side walls of the chassis 12 are provided with vents 123. The fan 32 rotates, negative pressure is formed at the center of the fan 32, and cold air enters the oven shell 1 through each vent, enters the heat dissipation channel 310 after being acted by the fan 32, and is discharged from the air outlet 310b of the heat dissipation channel 310.

Further, in this embodiment, the heat dissipating system 3 further includes an air guiding cover 31, the air guiding cover 31 is covered on the inner bottom surface of the chassis 12 to form the heat dissipating channel 310, the air inlet port 310a is connected to a volute cover 4, the volute cover 4 is covered on the inner bottom surface of the chassis 12 to form a volute cavity 40, a circular air inlet 41 is eccentrically formed on the top surface of the volute cover 4, and the fan 32 is installed in the volute cavity 40 and is concentric with the air inlet 41. The heat dissipating channel 310 includes a straight section 311 extending straight in the front-rear direction, and the straight section 311 is connected to the air outlet end of the volute chamber 40 through an arc transition section 312. Further, the door body 22 includes a first door panel 221 and a second door panel 222 that are adjacently disposed, where the first door panel 221 is located on an outer side of the door body 22, a ventilation interlayer 220 is left between the first door panel 221 and the second door panel 222, the ventilation interlayer 220 has an inlet 220a located at a top portion and an outlet 220b located at a bottom portion, and the electronic component 5 is installed in the ventilation interlayer 220. In this embodiment, the first door panel 221 is an outer glass of the door 22, the second door panel 222 is an intermediate glass of the door 22, the door 22 further includes an inner glass located behind the second door 22, and the ventilation interlayer 220 is disposed between the outer glass and the intermediate glass.

An air outlet 122 is formed on the front side wall of the chassis 12, the air outlet 122 is in fluid communication with the air outlet port 310b (in the embodiment, the air outlet and the air outlet port are adjacently disposed), and the inlet 220a of the ventilation interlayer 220 is in fluid communication with the air outlet 122 when the door 22 is closed. Like this in this embodiment electronic component 5 sets up in the ventilation intermediate layer 220 of door body 22, convenience of customers directly operates integrated kitchen, and be provided with heat dissipation channel 310 in the kitchen shell 1, the air current in heat dissipation channel 310 can blow to the gas vent 122 on the preceding lateral wall of kitchen shell 1 through air-out port 310b on it, and the air-out of gas vent 122 can blow to in the ventilation intermediate layer 220 of door body 22, on the basis of the realization is to the cooling heat dissipation of door body 22, realize the heat dissipation to electronic component 5, avoid electronic component 5 during operation high temperature and influence to make normal function and life. Preferably, the electronic component 5 is mounted on the first door panel 221, and since the first door panel 221 is located at the outer side of the door 22, the temperature is low, and the electronic component 5 is mounted on the first door panel 221, so that the influence of the high working temperature of the cooking chamber 21 on the first door panel can be avoided, and the heat generated during the operation of the electronic component 5 can be dissipated more favorably.

In order to better blow the outlet air of the air outlet 122 to the ventilation interlayer 220, the inlet 220a of the ventilation interlayer 220 is provided with a flow guiding frame 6, the flow guiding frame 6 is provided with a flow guiding opening 63 communicated with the inlet 220a and a flow guiding surface, and the outlet air of the air outlet 122 can be guided to the flow guiding opening 63 through the flow guiding surface and enter the ventilation interlayer 220 through the inlet 220 a. Specifically, in this embodiment, the diversion frame 6 includes a horizontally disposed strip plate 61, and the strip plate 61 is disposed along a length direction of a top end of the door 22 and covers the inlet 220a of the ventilation interlayer 220. The flow guiding surfaces include a first flow guiding surface 621 and a second flow guiding surface 611, and the top surface of the strip-shaped plate 61 is inclined upward from front to back to form an arc-shaped surface, which is the second flow guiding surface 611. The outer edge of the strip plate 61 extends vertically upwards along the length direction thereof to form an extension plate 62, and the inner side surface of the extension plate 62 is the first guiding surface 621. The outer end of the strip-shaped plate 61 forms an opening extending along the length direction thereof, which is the diversion opening 63, that is, in this embodiment, the diversion opening 63 is opened between the first diversion surface 621 and the second diversion surface 611, and the lower side edge of the first diversion surface 621 and the front side edge of the second diversion surface 611 enclose the diversion opening 63. When the door 22 is closed, the exhaust opening 122 is located at the rear upper side of the first guiding surface 621, and the first guiding surface 621 faces the exhaust opening 122. In this way, the airflow in the heat dissipation channel 310 is blown from the air outlet 122 to the first flow guiding surface 621 to turn, and is turned from forward blowing to downward blowing, so that under the action of the wall-attached first flow guiding surface 621, the airflow is blown into the flow guiding opening 63, preferably, the upper end of the first flow guiding surface 621 is curved in an arc shape from bottom to top to back, so that most of the airflow can be guided into the flow guiding opening 63 after passing through the action of the first flow guiding surface 621, and the airflow is prevented from escaping upwards. Further, part of the air escaping backward is turned back forward by the second guide surface 611 and finally guided into the guide opening 63. Preferably, in order to make the airflow entering the ventilation interlayer 220 better blow toward the electronic component 5, the strip plate body 61 is provided with flow deflectors 64 below the flow guiding opening 63, the flow deflectors 64 are arranged at intervals along the length direction of the flow guiding opening 63, each flow deflector 64 is arranged vertically, and the extending direction of each flow deflector 64 is perpendicular to the length direction of the flow guiding opening 63. Preferably, the diversion opening 63 is opposite to the electronic component 5, so that the airflow entering from the diversion opening 63 directly flows towards the electronic component 5, and the airflow passes through the electronic component 5 from top to bottom, so as to further improve the heat dissipation effect on the electronic component 5.

Claims (10)

1. An integrated cooker with a cooking device comprises the cooking device with a door body (22), a cooker and an electronic element (5) which can generate heat during working, wherein the cooker comprises a cooker shell (1), and is characterized in that the door body (22) comprises a first door panel (221) and a second door panel (222) which are arranged adjacent to each other, wherein the first door panel (221) is positioned at the outer side of the door body (22), a ventilation interlayer (220) is reserved between the first door panel (221) and the second door panel (222), the ventilation interlayer (220) is provided with an inlet (220a) positioned at the top and an outlet (220b) positioned at the bottom, the electronic element (5) is arranged in the ventilation interlayer (220),

the heat dissipation system (3) is arranged in the stove shell (1), the heat dissipation system (3) comprises a heat dissipation channel (310) and a fan (32) arranged in the heat dissipation channel (310), the heat dissipation channel (310) is provided with an air outlet port (310b), an air outlet (122) is formed in the front side wall of the stove shell (1), the air outlet (122) is in fluid communication with the air outlet port (310b), and an inlet (220a) of the ventilation interlayer (220) is in fluid communication with the air outlet (122) when the door body (22) is closed.

2. The integrated cooker according to claim 1, wherein a guide frame (6) is provided at the inlet (220a) of the ventilation sandwich (220), the guide frame (6) has a guide opening (63) communicating with the inlet (220a) of the ventilation sandwich (220) and a guide surface, and the outlet air of the exhaust opening (122) can be guided to the guide opening (63) through the guide surface.

3. The integrated cooker according to claim 2, wherein the guiding frame (6) is shaped like a strip, and is disposed along a length direction of a top end of the door body (22) and capable of covering an inlet (220a) of the ventilation interlayer (220), the guiding surface and the guiding opening (63) extend along the length direction of the guiding frame (6), respectively, wherein the guiding surface includes a first guiding surface (621), the first guiding surface (621) is vertically disposed, the guiding opening (63) is located at a rear lower side of the first guiding surface (621), and the first guiding surface (621) is opposite to the exhaust opening (122) when the door body (22) is closed.

4. The integrated cooker according to claim 3, wherein the upper end of the first flow guide surface (621) is curved in a circular arc shape from bottom to top toward the rear.

5. The integrated cooker according to claim 3 or 4, wherein the lower side edge of the first guiding surface (621) is the front edge of the guiding opening (63).

6. The integrated cooker according to claim 3 or 4, wherein the guiding surface further comprises a second guiding surface (611), the second guiding surface (611) is an arc-shaped surface which is horizontally arranged and is inclined upwards from front to back, the second guiding surface (611) is located at the rear side of the guiding opening (63), and the second guiding surface (611) is located at the front lower part of the exhaust opening (122) when the door body (22) is in the closed state.

7. The integrated cooker according to claim 6, wherein the front side edge of the second baffle surface (611) is a rear rim of the baffle opening (63).

8. The integrated cooker according to any one of claims 2 to 4, wherein flow deflectors (64) are arranged below the flow guide opening (63), the flow deflectors (64) are arranged at intervals along the length direction of the flow guide opening (63), each flow deflector (64) is arranged vertically, and the length direction of each flow deflector (64) is intersected with the length direction of the flow guide opening (63).

9. The integrated cooker according to any of claims 2 to 4, characterized in that the electronic component (5) is mounted on the first door panel (221).

10. The integrated cooker according to claim 9, characterized in that said deflector opening (63) is located in the inlet (220a) of said ventilation interlayer (220) opposite to the electronic component (5).

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