CN210717736U - Integrated kitchen of supplementary exhaust - Google Patents

Abstract

The utility model discloses an auxiliary exhaust's integrated kitchen, aim at overcome the difficult heat dissipation of wind box place environment, the not smooth defect of air flow in current integrated kitchen. The integrated kitchen is including the organism that is provided with bellows subassembly and first air intake, the bellows subassembly is provided with the second air intake and matches the fan subassembly with the second air intake, the fan subassembly has the air outlet, be equipped with the first cavity of the first air intake of intercommunication and second air intake in the bellows subassembly, be equipped with the second cavity that deviates from first cavity in the organism, still be provided with the inlet port on the bellows subassembly, the air current in the second cavity passes through the inlet port and gets into the fan subassembly and discharge from the air outlet. The utility model provides a supplementary radiating integrated kitchen, the operation of fan subassembly can make the gas that is located the organism pass through the inlet port and get into the fan subassembly, outside through the air outlet discharge machine, and internal steam and gas just can be discharged like this, reduce or avoid the internal potential safety hazard because of gathering gaseous formation of cabinet.

Description

Integrated kitchen of supplementary exhaust

Technical Field

This use is novel belongs to kitchen appliance technical field, designs an auxiliary exhaust's integrated kitchen.

Background

The existing integrated kitchen range generally comprises an air inlet assembly, an air box assembly, a fan assembly and an air channel assembly, under the action of the fan assembly, oil smoke enters the air box assembly from the air inlet assembly, then enters the fan assembly from the air box assembly, and then is blown into the air channel assembly by the fan assembly, and finally is discharged from the air channel assembly. Bellows subassembly parcel is in the fan subassembly outside, and bellows subassembly and wind channel subassembly set up again in the cabinet body, and the wind channel subassembly passes through blast pipe and external intercommunication, and the internal portion of cabinet is comparatively inclosed cavity usually, forms high temperature easily under the effect of gas-cooker, do not do benefit to the maintenance of integrated sterilizer, steam ager or oven at the internal of cabinet, and the internal content of cabinet easily gathers the gas, has potential safety hazards such as explosion, fire.

SUMMERY OF THE UTILITY MODEL

The utility model discloses problem to prior art existence provides an integrated kitchen of supplementary air inlet, aim at overcome current integrated kitchen wind box air inlet, ventilate not smooth, have the defect of potential safety hazard.

In order to realize the above-mentioned purpose, the utility model provides an integrated kitchen of supplementary intake, including the organism that is provided with bellows subassembly and first air intake, bellows subassembly be provided with the second air intake and with the fan subassembly that the second air intake matches, the fan subassembly has the air outlet, a serial communication port, be equipped with the intercommunication in the bellows subassembly first air intake with the first cavity of second air intake, be equipped with in the organism and deviate from the second cavity of first cavity, still be provided with the inlet port on the bellows subassembly, the air current in the second cavity passes through the inlet port gets into the fan subassembly is followed the air outlet is discharged.

In the cooking process, oil smoke enters the machine body from the first air inlet, enters the first cavity through the second air inlet and is finally discharged from the air outlet through the fan assembly, the second cavity located at the front end of the air box assembly is arranged in the machine body, the air inlet hole is formed in the air box assembly, and therefore gas in the second cavity can enter the fan assembly through the air inlet hole and is finally discharged from the air outlet. Such setting has not only satisfied the requirement of the normal oil absorption cigarette of integrated kitchen to establish the inlet port on the bellows subassembly in addition and can also be used for advancing the air intake and the bellows subassembly of oil smoke and be located the anterior second cavity of the inside bellows subassembly of organism and communicate with each other on the organism, still in order to play the inside circulation of air's of organism effect like this, prevent to store up bad gas in the second cavity like this, prevent the production of potential safety hazard.

Furthermore, the fan assembly comprises a volute, a motor and a wind wheel, the motor is mounted on the volute, the wind wheel is mounted on the motor, a third air inlet matched with the second air inlet and a motor mounting opening opposite to the third air inlet are formed in the volute, and the air inlet is communicated with the second cavity and the motor mounting opening.

Furthermore, the air inlet hole is located on one side of the air box assembly close to the second cavity, and the projection of the air inlet hole on the volute is located in the motor installation hole.

The air enters the volute through the third air inlet and is discharged from the air outlet, the motor mounting port is arranged at the relative position of the third air inlet and used for arranging the motor, normal operation of the fan assembly is guaranteed, meanwhile, the air inlet is communicated with the second cavity and the motor mounting port, the air in the second cavity can be more easily sucked through negative pressure generated by the air inlet in the operation process of the fan assembly, and the air flowability in the second cavity is guaranteed.

Further, the air inlet holes are circumferentially arranged around the axis of the fan assembly.

Furthermore, the air inlet hole is formed by arranging a plurality of strip-shaped holes which are arranged in parallel.

The suction force at the central position of the fan component is larger, the negative pressure is stronger, so the air inlet holes are arranged around the axial line circumference of the fan component, the turning of the air flow path between the air inlet holes and the fan component can be reduced, the stronger negative pressure can be formed at the air inlet holes,

furthermore, the distance between the air inlet holes is gradually reduced from the horizontal plane passing through the axis to the upper direction and the lower direction.

Therefore, the arc-shaped structures of the air inlet holes in the new city can correspond to the outline of the fan assembly, the air flow turning is effectively reduced, and the heat dissipation effect is improved.

Furthermore, the air inlet holes comprise a plurality of groups, and the plurality of groups of air inlet holes are symmetrically arranged relative to the axis of the fan assembly.

Like this with the inlet port be the symmetry setting about the fan subassembly, can guarantee that the effect of circulation of air is more even.

Furthermore, the air box assembly comprises a front plate for isolating the second cavity and a back plate arranged opposite to the front plate, the air inlet is arranged on the front plate, and the first cavity is formed between the back plate and the volute.

Furthermore, an air supplementing port communicated with the second cavity is arranged on the machine body, and the air supplementing port is communicated with the fan assembly through the air inlet hole.

Furthermore, the air supply ports include a first air supply port and a second air supply port, and the first air supply port and the second air supply port are respectively located at the upper part and the lower part of the front surface of the body.

Set up the supply air mouth on the organism, the second cavity can communicate with each other with the organism outward like this, can guarantee that the second cavity is internal can the inflow gas, has guaranteed the circulation of air, through setting up the supply air mouth in the positive upper portion of organism and lower part respectively, increases the supply mouth of air like this, is favorable to the all-round circulation that flows of gas in the organism, improves the radiating effect.

Drawings

FIG. 1 is an overall structure view of an integrated cooker;

FIG. 2 is a schematic view of an internal cavity of the integrated cooker body;

FIG. 3 is a schematic view of a first angular configuration of the interior of the bellows assembly;

FIG. 4 is a schematic view of a second angular configuration of the interior of the bellows assembly;

FIG. 5 is a schematic view of the interior of the housing;

FIG. 6 is a schematic structural view of the second chamber and bellows assembly inside the housing;

FIG. 7 is an exploded schematic view of a bellows assembly.

1. A bellows assembly; 11. a front plate; 12. a back plate; 2. a body; 21. a first air supplement port; 22. a second air supplement port; 23. skirting boards; 24. a boss; 25; a cabinet body; 3. a first air inlet; 4. a second air inlet; 5. a first cavity; 6. a second cavity 7, a fan assembly; 71. a volute; 72. a motor; 721. a motor mounting port; 73. a wind wheel; 74. an air outlet; 75. an axis of the fan assembly; 8. a third air inlet; 9. and (4) air inlet holes.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

This embodiment provides an auxiliary exhaust's integrated kitchen, including the organism 2 that is provided with bellows subassembly 1 and first air intake 3, bellows subassembly 1 is provided with second air intake 4 and the fan subassembly 7 that matches with second air intake 4, fan subassembly 7 has air outlet 74, be equipped with the first cavity 5 of the first air intake 3 of intercommunication and second air intake 4 in the bellows subassembly 1, be equipped with the second cavity 6 that deviates from first cavity 5 in the organism 2, still be provided with inlet port 9 on the bellows subassembly 1, the air current of 6 in the second cavity passes through inlet port 9 and gets into fan subassembly 7 and discharge from air outlet 74.

In the cooking process, oil smoke enters the machine body 2 from the first air inlet 3, enters the first cavity 5 through the second air inlet 4 and is finally discharged from the air outlet 74 through the fan assembly 7, the second cavity 6 located at the front end of the air box assembly 1 is arranged in the machine body 2, an air inlet 9 is formed in the air box assembly 2, and therefore gas in the second cavity 6 can enter the fan assembly 1 through the air inlet 9 and is finally discharged from the air outlet 74. Such setting has not only satisfied the requirement of the normal oil absorption cigarette of integrated kitchen to establish the inlet port on the bellows subassembly in addition and can also be used for advancing the air intake and the bellows subassembly of oil smoke and be located the anterior second cavity of the inside bellows subassembly of organism and communicate with each other on the organism, still in order to play the inside circulation of air's of organism effect like this, prevent to store up bad gas in the second cavity like this, prevent the production of potential safety hazard.

In this embodiment, the fan assembly 7 includes a volute 71, a motor 72 mounted on the volute 71, and a wind wheel 73 mounted on the motor 72, the volute 71 has a third air inlet 8 engaged with the second air inlet 4 and a motor mounting opening 721 opposite to the third air inlet 8, and the air inlet 9 communicates the second cavity 6 and the motor mounting opening 721. Wherein, the air inlet 9 is positioned at one side of the air box assembly 1 close to the second cavity 6, and the projection of the air inlet 9 on the volute 71 is positioned in the motor mounting opening 721.

The gas enters the volute 71 through the third air inlet 8 and is discharged through the air outlet 74, wherein the motor mounting port 721 is arranged at the opposite position of the third air inlet 8 and used for arranging the motor 72, so that the normal operation of the fan assembly is ensured, meanwhile, the air inlet hole is communicated with the second cavity and the motor mounting port, the gas in the second cavity can be more easily sucked through the negative pressure generated by the air inlet hole in the operation process of the fan assembly, and the gas flowability in the second cavity is ensured. Wherein, inlet port 9 sets up around 75 circumference of fan subassembly 7's axis, and inlet port 9 is arranged by a plurality of bar holes and forms, and is a plurality of the bar hole parallel arrangement. Such setting can let the suction that the central point put of fan subassembly is bigger, the negative pressure is stronger, so set up the inlet port around the axis circumference of fan subassembly, can reduce the turn of the air current route between inlet port and the fan subassembly like this for inlet port department can form stronger negative pressure. And from the horizontal plane of axis 75 upwards, the downward direction, the interval of inlet port 9 reduces gradually, and the inlet port forms the structure of arcuation like this and can correspond with the profile of fan subassembly, effectively reduces the air current turn, improves the air inlet effect. The air inlet holes 9 comprise a plurality of sets of air inlet holes 9, the sets of air inlet holes 9 being symmetrically arranged with respect to an axis 75 of the fan assembly 7. Like this with the inlet port be the symmetry setting about the fan subassembly, can guarantee that the effect of circulation of air is more even.

In the present embodiment, the air box assembly 1 includes a front plate 11 separating the second cavity 6 and a back plate 12 disposed opposite to the front plate 11, the air inlet holes 9 are disposed on the front plate 11, the first cavity 5 is formed between the back plate 12 and the volute 71, and the first cavity 5 and the second cavity 6 are communicated through the air inlet holes 9 disposed on the front plate 11. Wherein, the inlet port 9 only sets up on the front bezel 11, prevents like this that too much inlet port 9 can seriously destroy the gas tightness of bellows subassembly, can lead to the suction of bellows subassembly to diminish like this to establish and make things convenient for the gas flow in the second cavity more between fan subassembly and second cavity.

An air supplementing port communicated with the second cavity 6 is arranged on the machine body 2 and is connected with a ventilator component 7 through an air inlet 9. The air supply ports include a first air supply port 21 and a second air supply port 22, and the first air supply port 21 and the second air supply port 22 are respectively located at the upper portion and the lower portion of the front surface of the body 2. Set up the supply air mouth on the organism, second cavity 6 can communicate with each other with organism 2 is outer like this, can guarantee that the second cavity 6 can the inflow gas, has guaranteed the circulation of air, sets up the supply air mouth through positive upper portion and lower part at the organism respectively, increases the supply mouth of air like this, is favorable to the all-round circulation that flows of gas in the organism, improves the radiating effect. In this embodiment, the first air supply hole 21 is located on a boss 24 at the front side of the machine body 2, the boss 24 is disposed protruding from the machine body 2 and is generally used for disposing a dispensing button of a dispensing cooking device, and a burner or an electric wire required for cooking is usually disposed at the position of the boss in the machine body 2, so that the arrangement of the first air supply hole can ensure the air flow in this space. The second air supply hole 22 is located at the position of the skirting board 23, the skirting board 23 is arranged at the lower end of the cabinet body 25, the second air supply hole 22 is arranged at the position, hidden by the skirting board, of the second air supply hole 22, air supply to the inside of the machine body is guaranteed, and meanwhile the integral appearance integrity of the integrated kitchen range is guaranteed.

The gas flow between the internal cavities of the body 2 is shown in fig. 2: firstly, cooking fumes enter the interior of the machine body 2 through the first air inlet 3, then enter the air box assembly 2 along the second air inlet 4, enter the fan assembly 7 through the third air inlet 8 on the volute 71, and finally are discharged from the air outlet 74. Secondly, air outside the machine body 2 can be supplemented with air to the interior of the machine body through the first air supplementing hole 21 and the second air supplementing hole 22, wherein the first air supplementing hole 21 and the second air supplementing hole 22 are respectively located at the boss 24 and the skirting board 23, the air enters the second cavity 6 through the first air supplementing hole 21 and the second air supplementing hole 22, enters the volute 71 through the air inlet hole 9 in the front plate 11 on the wind box assembly 1, and then is discharged from the air outlet 74 under the action of the wind wheel 73 and the motor 72. The above is the gas circulation path in the whole body.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. The utility model provides an auxiliary exhaust's integrated kitchen, is including the organism that is provided with bellows subassembly and first air intake, bellows subassembly be provided with the second air intake and with the fan subassembly that the second air intake matches, the fan subassembly has the air outlet, a serial communication port, be equipped with the intercommunication in the bellows subassembly first air intake with the first cavity of second air intake, be equipped with in the organism and deviate from the second cavity of first cavity, still be provided with the inlet port on the bellows subassembly, the air current in the second cavity passes through the inlet port gets into the fan subassembly is followed the air outlet is discharged.

2. The integrated stove with auxiliary exhaust function according to claim 1, wherein the fan assembly comprises a volute, a motor mounted on the volute, and a wind wheel mounted on the motor, the volute is provided with a third air inlet matched with the second air inlet and a motor mounting opening arranged opposite to the third air inlet, and the air inlet communicates with the second cavity and the motor mounting opening.

3. The exhaust-assisted integrated cooker according to claim 2, wherein the air inlet hole is located on a side of the air box assembly close to the second cavity, and a projection of the air inlet hole on the volute is located in the motor mounting hole.

4. The exhaust assisted integrated cooker of claim 1, wherein the air intake holes are circumferentially disposed about an axis of the fan assembly.

5. The integrated cooker for auxiliary exhaust according to claim 4, wherein the air inlet is formed by arranging a plurality of strip-shaped holes, and the plurality of strip-shaped holes are arranged in parallel.

6. The range of claim 5, wherein the distance between the air intake holes is gradually decreased from a horizontal plane passing through the axis in upward and downward directions.

7. The exhaust-assisted integrated cooker according to claim 4, wherein the air inlets comprise a plurality of sets, and the plurality of sets of air inlets are symmetrically arranged with respect to an axis of the fan assembly.

8. The exhaust-assisted integrated cooker according to claim 2, wherein the air box assembly includes a front plate separating the second cavity and a back plate disposed opposite to the front plate, the air inlet hole is disposed on the front plate, and the first cavity is formed between the back plate and the volute.

9. The integrated stove with auxiliary exhaust function as claimed in any one of claims 1 to 8, wherein the body is provided with an air supplement port communicated with the second cavity, and the air supplement port is communicated with the fan assembly through the air inlet hole.

10. The integrated range for auxiliary exhaust of claim 9, wherein the air supplement ports comprise a first air supplement port and a second air supplement port, and the first air supplement port and the second air supplement port are respectively located at the upper part and the lower part of the front surface of the body.

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