CN220551960U - Combustor support and contain its culinary art machine - Google Patents

Abstract

The utility model provides a burner bracket and a cooking machine comprising the burner bracket, and belongs to the field of kitchen equipment. The burner bracket comprises a bracket body and a heat dissipation part; the bracket body comprises at least one support, the top surface of the support is used for being connected with the burner, and the bottom surface of the support is connected with the heat dissipation part; the radiating part extends along the direction of the top surface deviating from the support, and a plurality of ventilation holes are formed in the radiating part. The bottom surface of the support is connected with the heat dissipation part, heat generated by the burner connected with the top surface of the support can be transferred to the heat dissipation part through the support body, and the heat dissipation part is provided with a plurality of ventilation holes, so that the heat exchange capacity with air is enhanced, the heat can be rapidly released into the air, the effect of cooling the burner support is achieved, the heat transferred from the burner support to other components is reduced, and the performance of the other components is prevented from being influenced by high temperature; the heat dissipation part extends along the direction deviating from the top surface of the support, so that the installation height of the burner is increased, the burner is far away from equipment below the burner support as far as possible, and heat radiation is further reduced.

Description

Combustor support and contain its culinary art machine

Technical Field

The utility model relates to the field of kitchen equipment, in particular to a burner bracket and a cooking machine comprising the same.

Background

Because of the high integration required for cooking machines, particularly integrated range steaming and baking cooking machines, the burner is mounted on a mounting surface in a panel of the cooking machine, and a steam box, an oven or other cooking equipment is mounted below the mounting surface. The burner can release heat during operation, and the temperature of the mounting surface and the interior of the cooking machine can be increased by heat conduction, heat radiation and the like, so that the operation and the service performance of cooking equipment below the mounting surface and other parts in the cooking machine are adversely affected.

To solve this problem, it is common to choose to provide a bracket on the mounting surface, and rest the burner on the bracket to reduce heat conduction caused by direct contact between the burner and the mounting surface. However, since the bracket is connected to the burner and the mounting surface, the bracket itself also transmits heat to the mounting surface, and the effect of reducing the heat transmission to the mounting surface is poor.

Disclosure of Invention

The utility model aims to overcome the defect that a burner bracket in the prior art is poor in heat transfer effect, and provides a burner bracket and a cooking machine comprising the same.

The utility model solves the technical problems by the following technical scheme:

a burner support comprises a support body and a heat dissipation part; the support body comprises at least one support, the top surface of the support is used for being connected with a burner, and the bottom surface of the support is connected with the heat dissipation part; the heat dissipation part extends along the direction deviating from the top surface of the support, and a plurality of ventilation holes are formed in the heat dissipation part.

In the scheme, the bottom surface of the support is connected with the heat dissipation part, heat generated by the burner connected with the top surface of the support can be transferred to the heat dissipation part through the support body, and the heat dissipation part is provided with a plurality of ventilation holes, so that the heat exchange capacity with air is enhanced, the heat can be rapidly released into the air, the effect of cooling the burner support is achieved, the heat transfer from the burner support to other components is reduced, and the performance of the other components is prevented from being influenced by high temperature; in addition, as the heat dissipation part extends along the direction away from the top surface of the support, the installation height of the burner connected to the top surface of the support is also improved, so that the burner is far away from equipment below the burner support as much as possible, and heat radiation is further reduced.

Preferably, the heat dissipation part is in a sheet shape or a plate shape, and the heat dissipation part extends from the edge of the support.

In the scheme, the radiating part is in a sheet shape or a plate shape, so that the radiating part is light and thin in structure and is more beneficial to radiating; meanwhile, the radiating part extends from the edge of the support to leave sufficient and complete space below the support, so that other equipment can be conveniently installed, and interference with the radiating part is avoided.

Preferably, the burner support further comprises a support portion; one end of the supporting part is connected with the bottom surface of the support, the extending direction of the supporting part is the same as that of the radiating part, and the extending length of the supporting part is larger than that of the radiating part.

In the scheme, the extension length of the supporting part is longer than that of the radiating part, so that the radiating part is prevented from being in direct contact with the mounting surface below the burner bracket, and heat transfer is reduced; simultaneously, because install the combustor on the support body, supporting part provides structural support for the support body, avoids the support body to be pushed down, and then leads to the combustor to be less than design planar height.

Preferably, the burner support further comprises a connecting seat; the connecting seat is connected to one end of the supporting part far away from the support seat.

In this scheme, make the supporting part can be connected with the installation face that is located combustor support below through setting up the connecting seat, improve the stability of combustor support.

Preferably, the support portion is provided with a plurality of ventilation holes.

In the scheme, through the structural form, the supporting part also has a heat dissipation function, and heat transfer from the supporting part to other components is reduced.

Preferably, the support body includes a plurality of the support, the support body still includes connecting portion, connecting portion connect between two adjacent support.

In this scheme, the setting of a plurality of supports makes a plurality of combustors of support body installation, connects through connecting portion between the support, and support body integration installation of being convenient for.

Preferably, the connecting part is provided with a flanging and/or a concave-convex profiling.

In the scheme, through the structural form, the structural strength of the connecting part is enhanced, and the stress deformation of the connecting part is prevented.

Preferably, the burner support is made of copper or aluminum.

In the scheme, copper or aluminum has excellent heat conduction performance, so that heat generated by the burner can be transferred to the heat dissipation part as soon as possible and discharged, and heat radiation of the burner is reduced.

A cooking machine comprising a cooking machine body, a burner and a burner support as described above; the burner support is connected to a mounting surface in the cooking machine body, and the burner is connected to the burner support.

In this scheme, through setting up the combustor support between installation face and combustor, avoided the heat conduction that combustor and installation face direct contact lead to, and then reduce the influence to the cooking equipment of installation face below.

Preferably, the cooking machine body comprises at least one air inlet and a fan, and the air inlet is communicated with the air inlet end of the fan; the heat dissipation part is positioned between the air inlet and the air inlet end of the fan.

In this scheme, air intake and the inlet end intercommunication of fan, air form the air current route that flows from the air intake to the fan inlet end, and the radiator is located between air intake and the inlet end of fan, and the radiator is located the air current route promptly, and the cold air that gets into from the air intake can directly sweep the radiator, improves the radiating efficiency of radiator.

The utility model has the positive progress effects that:

according to the utility model, the bottom surface of the support is connected with the heat dissipation part, heat generated by the burner connected with the top surface of the support can be transferred to the heat dissipation part through the support body, and the heat dissipation part is provided with a plurality of ventilation holes, so that the heat exchange capacity with air is enhanced, the heat can be rapidly released into the air, the effect of cooling the burner support is achieved, the heat transfer of the burner support to other components is reduced, and the performance of the other components is prevented from being influenced by high temperature; in addition, as the heat dissipation part extends along the direction away from the top surface of the support, the installation height of the burner connected to the top surface of the support is also improved, so that the burner is far away from equipment below the burner support as much as possible, and heat radiation is further reduced.

Drawings

Fig. 1 is a schematic perspective view of a cooking machine according to a preferred embodiment of the present utility model.

Fig. 2 is a schematic view illustrating an internal structure of a cooking machine according to a preferred embodiment of the present utility model.

Fig. 3 is a schematic perspective view of a burner support according to a preferred embodiment of the present utility model.

Reference numerals illustrate:

cooking machine body 100

Mounting surface 110

Sidewall air intake 120

Knob air inlet 130

Blower 140

Burner 200

Burner support 300

Support 311

Connection portion 312

Flange 313

Concave-convex profiling 314

Heat sink 320

Vent 321

Support 330

Connecting seat 340

Mounting portion 350

Detailed Description

The present utility model will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments are shown.

As shown in fig. 1 to 3, the present embodiment provides a cooking machine including a cooking machine body 100, a burner 200, and a burner bracket 300.

The cooking machine body 100 has a mounting surface 110 therein, a steam box, an oven and other cooking devices are mounted below the mounting surface 110, a burner bracket 300 is connected to the mounting surface 110, and a burner 200 is connected to the burner bracket 300 and extends from a panel above the cooking machine body 100 for a user to use.

By providing the burner mount 300 between the mounting surface 110 and the burner 200, heat conduction caused by direct contact of the burner 200 with the mounting surface 110 is avoided, thereby reducing influence on cooking equipment below the mounting surface 110.

As shown in fig. 3, the burner support 300 includes a support body and a heat sink 320; wherein, the bracket body comprises at least one support 311, the top surface of the support 311 is used for connecting the burner 200, and the bottom surface of the support 311 is connected with the heat dissipation part 320; the heat dissipation part 320 extends along a direction away from the top surface of the support 311, and a plurality of vent holes 321 are formed in the heat dissipation part 320.

Through above-mentioned structural style, the bottom surface connection radiating portion 320 of support 311, the heat that the combustor 200 that the top surface connection of support 311 produced can be through support 311 body transfer to radiating portion 320, radiating portion 320 is equipped with a plurality of ventilation holes 321, has strengthened the ability with the air heat exchange, can release the heat in the air rapidly to reach the effect to the cooling of combustor support 300, reduce the heat transfer of combustor support 300 to other parts, avoid other parts to influence the performance because of the high temperature.

In this embodiment, the mounting surface 110, the bracket body or the support 311 is at or substantially at a horizontal plane, and the heat dissipating portion 320 extends in a direction away from the top surface of the support 311, i.e., the heat dissipating portion 320 is perpendicular or substantially perpendicular to the base, such that the heat dissipating portion 320 extends in a vertical or substantially vertical direction, which increases the mounting height of the burner 200 attached to the top surface of the support 311, and further reduces heat radiation by keeping the burner 200 as far away from the mounting surface 110 below the burner bracket 300 as possible.

Specifically, the heat sink 320 is in a sheet or plate shape and extends from the edge of the support 311.

The heat dissipation part 320 is in a sheet shape or a plate shape, so that the structure of the heat dissipation part 320 is light and thin, and the heat dissipation is facilitated; meanwhile, the heat dissipation part 320 extends from the edge of the support 311 to provide sufficient and complete space below the support 311, so that other devices can be conveniently installed, and interference with the heat dissipation part is avoided.

In this embodiment, the support 311 is disc-shaped, and the center of the support 311 has a mounting hole, the top surface of the support 311 is connected with the burner 200 by a screw, the mounting hole is used for the related structure and equipment of the burner 200 to pass through, and the heat dissipation part 320 extends from the edge of the support 311 and is located at one side of the support 311, so as to reduce the space occupation as much as possible. In other alternative embodiments, the top surface of the support 311 and the burner 200 may be connected by a snap fit or other removable means.

Specifically, the burner mount 300 further includes a support 330; one end of the supporting portion 330 is connected to the bottom surface of the support 311, the extending direction of the supporting portion 330 is the same as the extending direction of the heat dissipating portion 320, and the extending length of the supporting portion 330 is greater than the extending length of the heat dissipating portion 320.

The extension length of the supporting portion 330 is longer than that of the heat dissipating portion 320, so that the heat dissipating portion 320 is prevented from directly contacting the mounting surface 110 below the burner support 300, and heat transfer is reduced; meanwhile, since the burner 200 is mounted on the bracket body, the supporting portion 330 provides structural support for the bracket body, so that the bracket body is prevented from being pressed down, and the burner 200 is further caused to be lower than the design plane.

In this embodiment, the supporting portion 330 and the heat dissipating portion 320 are both connected to the support 311 by welding, and in other alternative embodiments, the supporting portion 330 and the heat dissipating portion 320 may be connected to the support 311 by other connection methods such as clamping, integral molding, etc.

Further, the burner support 300 further includes a connection seat 340; the connecting seat 340 is connected to an end of the supporting portion 330 remote from the support 311.

The stability of the burner bracket 300 is improved by providing the connection seat 340 to enable the support 330 to be connected to the mounting surface 110 located below the burner bracket 300.

In the present embodiment, the connecting seat 340 and the mounting surface 110 are provided with threaded holes corresponding to each other, so that the connecting seat 340 and the mounting surface 110 can be connected by screws; in another alternative embodiment, the connector 340 may be a card type, and a slot may be provided in the mounting surface 110, and the connector 340 may be engaged in the slot on the mounting surface 110.

Of course, the connecting seat 340 is not the only connecting structure between the burner support 300 and the cooking machine body 100, and the mounting portion 350 with a threaded hole is provided at the side of the support 311, so that the support 311 can be connected to the inner sidewall of the cooking machine body 100, and the connection stability of the burner support 300 can be further improved.

In addition, the connecting seat 340 and the supporting portion 330 in the present embodiment are integrally formed, specifically, an L-shaped plate is selected, a vertical surface is used as the supporting portion 330, and a horizontal surface is used as the connecting seat 340. In other alternative embodiments, the connecting seat 340 and the supporting portion 330 may be made of an inverted-t-shaped plate, and the vertical surface is used as the supporting portion 330, and the horizontal surface is used as the connecting seat 340, so that the device is more stable; the connecting seat 340 and the supporting portion 330 may be separate two parts connected together by welding or detachable connection.

Further, the supporting portion 330 is provided with a plurality of ventilation holes 321.

By the above structure, the supporting part 330 also has a heat dissipation function, and heat transfer from the supporting part 330 to other components is reduced.

In this embodiment, the supporting portion 330 provided with the plurality of ventilation holes 321 is also a part of the heat dissipating portion 320, and the supporting portion 330 is connected adjacent to the heat dissipating portion 320, and also extends from the edge of the support 311, and is also in a sheet shape or a plate shape, so as to increase the heat dissipating area of the heat dissipating portion 320.

In other alternative embodiments, the supporting portion 330 may be integrally formed with the heat dissipating portion 320, and then the connecting seat 340 is detachably connected to the end of the supporting portion 330 away from the support 311; or the heat dissipation part 320, the support part 330 and the connection seat 340 are integrally formed. In addition, the supporting portion 330 may be provided in a columnar structure, and the vent 321 may not be provided in the supporting portion 330, so that the supporting portion 330 has only a load-bearing function.

Further, the bracket body includes a plurality of abutments 311, and the bracket body further includes a connection portion 312, the connection portion 312 being connected between two adjacent abutments 311.

The plurality of brackets 311 enable the bracket body to mount the plurality of burners 200, and the brackets 311 are connected by the connection parts 312, so that the bracket body is convenient to be integrally mounted.

In this embodiment, the bracket body includes two abutments 311, which are respectively located at two ends of the mounting surface 110; in other alternative embodiments, the bracket body may include more than two supports 311, and the supports 311 may be connected in a straight shape by a connection portion 312, or may be configured in a polygonal shape or a ring shape according to the operation requirement of a user.

Further, the connecting portion 312 is provided with a flange 313 and/or a concave-convex molding 314.

By the above-described structural form, the structural strength of the connecting portion 312 is enhanced, preventing the stress deformation thereof.

Specifically, in the present embodiment, the connecting portion 312 has a long plate shape, a concave-convex press type 314 is provided in the middle of the connecting portion 312 along the extending direction of the connecting portion 312, and flanges 313 are provided along both sides of the extending direction. In alternative embodiments, the strength of the connection 312 may also be reinforced by adding ribs or ribs.

Further, the burner support 300 is made of copper or aluminum.

Copper or aluminum has excellent heat conductive property, so that heat generated by the burner 200 can be transferred to the heat radiating part 320 and discharged as soon as possible, and heat radiation of the burner 200 can be reduced. In other alternative embodiments, the burner support 300 may be made of other materials that provide better heat transfer.

Further, the cooking machine body 100 includes at least one air inlet and a blower 140, the air inlet is communicated with an air inlet end of the blower 140; the heat sink 320 is located between the air intake and the air intake end of the blower 140.

Because the air inlet is communicated with the air inlet end of the fan 140, air forms an air flow path from the air inlet to the air inlet end of the fan 140, and the heat dissipation part 320 is positioned between the air inlet and the air inlet end of the fan 140, that is, the heat dissipation part 320 is positioned on the air flow path, cold air entering from the air inlet can directly pass through the heat dissipation part 320, and the heat dissipation efficiency of the heat dissipation part 320 is improved.

In this embodiment, the bracket body includes two supports 311, the cooking machine body 100 includes at least two air inlets, one is a side wall air inlet 120, and is opened on a side wall of the cooking machine body 100, a heat dissipation portion 320 connected to one support 311 in the bracket body faces and is close to the side wall air inlet 120, and an extension length of the heat dissipation portion 320 is close to a height of the side wall air inlet 120; the cooking machine body 100 further includes a knob air inlet 130 adjacent to a heat sink 320 to which the other support 311 in the bracket body is coupled. Therefore, when the blower 140 is operated, the cold air enters the cooking machine body 100 from the side wall air inlet 120 and the knob air inlet 130, and sweeps over the heat dissipation portion 320 (the air hole 321 on the heat dissipation portion) to take away the heat released by the heat dissipation portion 320, and the heated air enters from the air inlet end of the blower 140 and is discharged from the air outlet end of the blower 140.

Because the heat of the heat dissipation portion 320 is continuously taken away, the heat dissipation portion 320 is located in the low temperature region of the burner support 300, and the heat of the burner 200 is continuously conducted to the heat dissipation portion 320 and discharged through the fan 140, so that the heat transfer of the burner 200 to the mounting surface 110 and the heat radiation to the inside of the cooking machine body 100 are reduced, and the performance of other components is prevented from being affected by the high temperature.

In the description of the present utility model, it is to be understood that the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate an azimuth or positional relationship based on a conventional positional relationship when the cooker and the burner mount are installed, put in a conventional manner of use.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (8)

1. The burner support is characterized by comprising a support body and a heat dissipation part;

the support body comprises at least one support, the top surface of the support is used for being connected with a burner, and the bottom surface of the support is connected with the heat dissipation part;

the heat dissipation part extends along the direction away from the top surface of the support, and a plurality of ventilation holes are formed in the heat dissipation part;

the heat dissipation part is in a sheet shape or a plate shape, and extends from the edge of the support;

the burner support further comprises a support portion;

one end of the supporting part is connected with the bottom surface of the support, the extending direction of the supporting part is the same as that of the radiating part, and the extending length of the supporting part is larger than that of the radiating part.

2. The burner support of claim 1, further comprising a connection base;

the connecting seat is connected to one end of the supporting part far away from the support seat.

3. The burner support of claim 1 wherein said support portion is provided with a plurality of said vent holes.

4. The burner mount of claim 1 wherein said mount body includes a plurality of said standoffs, said mount body further including a connecting portion connected between adjacent two of said standoffs.

5. Burner support according to claim 4, wherein the connecting portion is provided with a flange and/or a relief-type.

6. The burner support of claim 1 wherein the burner support is made of copper or aluminum.

7. A cooking machine characterized in that it comprises a cooking machine body, a burner and a burner support according to any one of claims 1-6;

the burner support is connected to a mounting surface in the cooking machine body, and the burner is connected to the burner support.

8. The cooking machine of claim 7 wherein said cooking machine body includes at least one air intake and a blower, said air intake being in communication with an air intake end of said blower;

the heat dissipation part is positioned between the air inlet and the air inlet end of the fan.