CN218572013U - Dual-purpose machine with brewing and baking functions - Google Patents

Abstract

The utility model discloses a dual-purpose machine with brewing and baking functions, which comprises a machine shell, a brewing machine and a baking machine, wherein the brewing machine and the baking machine are arranged on the machine shell; the roaster comprises a heat dissipation cavity and a first heat dissipation opening which are arranged in the installation cavity, wherein the first heat dissipation opening is communicated with the heat dissipation cavity, and the first heat dissipation opening corresponds to the water storage tank so as to guide hot air blown out from the heat dissipation cavity to blow to the surface of the water storage tank through the first heat dissipation opening, and heat the water stored in the water storage tank. The utility model discloses a correspond the storage water tank setting with the first thermovent of heat dissipation chamber intercommunication to the guide blows to the surface of storage water tank through first thermovent from the hot-blast of heat dissipation intracavity, for the storage water tank heating, and then dashes the bubble machine and just when reheating the water in using the storage water tank, can reduce the heating power and then reduce the heating energy consumption to the water, realizes dashing the energy consumption saving of bubble machine when using.

Description

Dual-purpose machine with brewing and baking functions

Technical Field

The utility model relates to a kitchen appliance technical field especially relates to a dual-purpose machine with dash and steep and toast function.

Background

Coffee machines and tea making machines are household electrical appliances with brewing function, and are widely used in families or commercial places. Wherein, the coffee machine is an automatic brewing electric appliance which can realize the functions of grinding, pressing, filling, brewing, removing residues and the like.

Air fryer and oven are household appliances with baking function, which are widely used in household. The air fryer is a kitchen cooking appliance capable of frying by using air, and the main principle is that a high-speed air circulation technology is used, so that hot air in a quick circulation manner replaces hot oil in a traditional fryer, and food in the air fryer is cooked; simultaneously, the hot-air that its produced can also blow away the moisture on food surface layer, makes food surface form crisp surface layer, thereby pins the inside moisture of edible material and makes the edible material in the air fryer reach the culinary art effect of approximate fried.

At present, because consumers pay more attention to kitchen space, the volume of kitchen appliances is more and more emphasized, the appliances are required to be small in volume and have multiple functions, and therefore, household appliances similar to breakfast machines appear, and the combination of an oven and a coffee machine is realized. For example, chinese patent ZL201920151973.3, a breakfast machine, includes an oven assembly, a coffee machine assembly, and a fry pan; the oven component comprises an inner box body, an outer box body, electric heating pipe groups and a box door, wherein the inner box body is arranged in the outer box body, the box door is pivoted on the outer box body, the electric heating pipe groups are arranged in the inner box body, the top of the outer box body is provided with a frying pan clamping hole, the top of the inner box body is provided with a heat radiation hole, and the frying pan is clamped in the frying pan clamping hole; the coffee maker assembly is fixed to one side of the outer case. The breakfast machine has the functions of an oven, a frying pan and a coffee machine, a user can conveniently and simultaneously bake food, fry food and make coffee, the operation is simple and convenient, and the mess of hands and feet can be avoided; in addition, the frying pan is clamped in the frying pan clamping hole, so that the frying pan can fry food by using the heat of the oven component, and the energy utilization efficiency is improved. In the technical scheme, the method for frying the food by using the heat of the oven component through the frying pan is provided, so that the energy utilization efficiency is improved.

Therefore, how to realize energy consumption saving of products with small volume and multiple functions by combining different electric appliances is a problem to be solved continuously and optimally.

SUMMERY OF THE UTILITY MODEL

In order to overcome the prior art defect one of, the utility model provides a dual-purpose machine with dash bubble and toast function can reduce the heating power to dashing the bubble machine water and then reduce the heating energy consumption, realizes dashing the energy consumption saving of bubble machine when using.

The utility model discloses a solve the technical scheme that its problem adopted and be: a dual-purpose machine with brewing and baking functions comprises a machine shell, and a brewing machine and a baking machine which are arranged on the machine shell, wherein an installation cavity is arranged inside the machine shell, and the dual-purpose machine comprises:

the brewing machine comprises a water storage tank arranged in the mounting cavity;

the roaster comprises a heat dissipation cavity and a first heat dissipation port, wherein the heat dissipation cavity and the first heat dissipation port are arranged in the installation cavity, the first heat dissipation port is communicated with the heat dissipation cavity, and the first heat dissipation port corresponds to the water storage tank, so that hot air blown out from the heat dissipation cavity is guided to blow to the surface of the water storage tank through the first heat dissipation port, and the water body stored in the water storage tank is heated.

Therefore, the utility model discloses a correspond the storage water tank setting with the first thermovent of heat dissipation chamber intercommunication to the guide blows off from the heat dissipation intracavity hot-blast surface that blows to the storage water tank through first thermovent, for the storage water tank heating, thereby realize preheating the water of the inside storage of storage water tank through the heat-conduction of storage water tank, and then the brewing machine is using the water in the storage water tank and when reheating the water, can reduce the heating power and then reduce the heating energy consumption to the water, realize that the energy consumption of brewing machine when using is practiced thrift. Meanwhile, the air temperature in the heat dissipation cavity is higher than the temperature of normal temperature air, so that the water stored in the water storage tank is preheated by hot air in the heat dissipation cavity, the water can be recycled by the aid of heat energy which needs to be directly discharged originally, energy consumption is further saved, the water stored in the water storage tank is preheated, the water heating speed of the brewing machine can be increased, and the water outlet speed of the brewing machine is facilitated.

In one embodiment, a communication hole is arranged between the mounting cavity and the heat dissipation cavity, and the heat dissipation cavity is communicated with a second heat dissipation port and communicated to the outside of the machine shell through the second heat dissipation port;

and air in the mounting cavity enters the heat dissipation cavity through the communication hole and is discharged to the outside of the machine shell from the second heat dissipation port.

In one embodiment, the heat dissipation cavity is disc-shaped and radial flow fan blades are disposed in the heat dissipation cavity, and a first heat dissipation channel and a second heat dissipation channel are respectively communicated with a side wall of the heat dissipation cavity, wherein:

the first heat dissipation channel is provided with the first heat dissipation port and is intersected with the heat dissipation cavity;

the second heat dissipation channel is provided with the second heat dissipation opening and is tangentially arranged with the heat dissipation cavity.

In one embodiment, the baking machine further includes a heat dissipation cover disposed in the installation cavity, and the heat dissipation cavity, the first heat dissipation channel, and the second heat dissipation channel are formed inside the heat dissipation cover.

In one embodiment, the first heat dissipation channel includes a first flow guiding wall formed on the heat dissipation cover, the first flow guiding wall intersects with the heat dissipation cavity and is arranged in a circular arc shape, so as to guide hot air blown out from the heat dissipation cavity to flow to the surface of the water storage tank along the surface of the first flow guiding wall.

In one embodiment, the second heat dissipation channel includes a third flow guiding wall and a fourth flow guiding wall formed on the heat dissipation cover, the third flow guiding wall is tangential to the heat dissipation cavity, and the fourth flow guiding wall is arc-shaped.

In one embodiment, a driving motor and a wind shield are arranged on the heat dissipation cover, the driving motor is in transmission connection with the radial flow fan blades, and the wind shield is arranged around the outside of the driving motor.

In one embodiment, the second heat dissipation channel comprises a wind guide section communicated with the heat dissipation cavity and a diameter expansion section communicated to the outside of the casing, and the width of the diameter expansion section is larger than that of the wind guide section.

In one embodiment, the water tank comprises a first side wall and a second side wall which are adjacently arranged, and a flow guide angle in a circular arc shape is arranged between the first side wall and the second side wall;

the first heat dissipation opening is arranged corresponding to the first side wall, and/or the first heat dissipation opening is arranged corresponding to the diversion angle.

In one embodiment, the water storage tank is made of a plastic material or a metal material.

To sum up, the utility model has the advantages of as follows: correspond the storage water tank setting through the first thermovent with heat dissipation chamber intercommunication to the guide blows off from the heat dissipation intracavity hot-blast surface to the storage water tank through first thermovent, for the storage water tank heating, thereby realize preheating the inside water of storing in the storage water tank through the heat-conduction of storage water tank, and then the machine of steeping in water of using in the storage water tank and when reheating the water, can reduce the heating power and then reduce the heating energy consumption to the water, realize the energy consumption saving of machine of steeping in the use. Meanwhile, the air temperature in the heat dissipation cavity is higher than the temperature of normal temperature air, so that the water stored in the water storage tank is preheated by hot air in the heat dissipation cavity, the water can be recycled by the aid of heat energy which needs to be directly discharged originally, energy consumption is further saved, the water stored in the water storage tank is preheated, the water heating speed of the brewing machine can be increased, and the water outlet speed of the brewing machine is facilitated.

Drawings

FIG. 1 is a schematic perspective view of the dual-purpose machine with brewing and baking functions of the present invention;

FIG. 2 is a schematic perspective view of a first internal structure of the dual-purpose machine with brewing and baking functions;

FIG. 3 is a perspective view of a second internal structure of the dual-purpose machine with brewing and baking functions;

FIG. 4 is a schematic perspective view of a first angle of a heat dissipation cover of the dual-purpose machine with brewing and baking functions;

fig. 5 is a schematic perspective view of a second angle of the heat dissipation cover of the dual-purpose machine with brewing and baking functions of the present invention.

Wherein the reference numerals have the following meanings: 100. a housing; 200. a brewing machine; 300. a baking machine; 4. A mounting cavity; 5. a water storage tank; 51. a first side wall; 52. a second side wall; 53. flow guiding angle _； 6. A heat dissipation cavity; 7. a first heat dissipation channel; 71. a first heat dissipation port; 72. a first guide wall; 73. a second guide wall; 8. a second heat dissipation channel; 81. a second heat dissipation port; 82. a third guide wall; 83. a fourth guide wall; 84. a wind guide section; 85. a diameter expanding section; 9. a communicating hole; 11. radial-flow fan blades; 12. a heat dissipation cover; 13. a drive motor; 14. a wind deflector.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1, the utility model provides a dual-purpose machine with dash and toast function, including casing 100, be provided with on casing 100 and dash bubble machine 200 that steeps the function and have the roaster 300 that toasts the function to both can satisfy user's the demand of steeping, can satisfy user's the demand of toasting again, realize a tractor serves dual-purpose. Wherein, the brewing machine 200 is a coffee machine or a tea making machine, in this embodiment, the brewing machine 200 is a coffee machine, specifically, an espresso machine; the toaster 300 is an air fryer or oven, and in the present embodiment, the toaster 300 is an air fryer.

As shown in fig. 2 to 5, an installation cavity 4 is provided inside the housing 100, the brewing machine 200 includes a water storage tank 5 disposed in the installation cavity 4, and the water storage tank 5 is used for storing water to provide brewing water for the brewing machine 200. In addition, the roaster 300 comprises a heat dissipation chamber 6 arranged in the installation chamber 4 and a first heat dissipation port 71, part of heat generated by the roaster 300 in use is collected into the heat dissipation chamber 6 and is exhausted through the first heat dissipation port 71 in the form of hot air, so that the heat dissipation function of the roaster 300 is realized. Specifically, the heat collected in the heat dissipation chamber 6 includes heat radiation from the toasting chamber and/or heat generated by the drive motor 13 of the toaster 300.

Wherein, first thermovent 71 and heat dissipation chamber 6 intercommunication and first thermovent 71 correspond storage water tank 5 and set up to can guide the hot-blast surface that blows to storage water tank 5 through first thermovent 71 that blows off in the heat dissipation chamber 6, for storage water tank 5 heating, and then realize preheating the inside water of storing of storage water tank 5 through the heat-conduction of storage water tank 5.

Therefore, the utility model discloses a correspond storage water tank 5 setting with the first thermovent 71 of heat dissipation chamber 6 intercommunication, blow to storage water tank 5's surface through first thermovent 71 to the hot-blast heat that blows off from heat dissipation chamber 6 in the guide, heat for storage water tank 5, thereby realize preheating the water of 5 inside storages of storage water tank through storage water tank 5's heat-conduction, and then dash bubble machine 200 when using the water in storage water tank 5 and reheat the water, can reduce the heating power and then reduce the heating energy consumption to the water, realize dashing the energy consumption saving of bubble machine 200 when using. Meanwhile, the air temperature in the heat dissipation cavity 6 is higher than the temperature of the air at normal temperature, so that the hot air in the heat dissipation cavity 6 is utilized to preheat the water stored in the water storage tank 5, the recycling of the heat energy which needs to be directly discharged originally can be realized, the energy consumption is further saved, the water stored in the water storage tank 5 is preheated, the water heating speed of the brewing machine 200 can be accelerated, and the water boiling speed of the brewing machine 200 is facilitated.

For further explanation the utility model discloses an actual effect, the utility model discloses the people passes through the test, and the hot-blast more than 70 degrees that can reach generally that blow off in the heat dissipation chamber 6, generally can reach 80 degrees, after long when certain preheating, the water of 5 inside storages of storage water tank can reach more than 50 degrees generally, generally can reach 60 degrees, so, can reduce the water heating energy consumption between normal atmospheric temperature to 50 degrees temperatures, realize the energy consumption saving of brewing machine 200 when using. Meanwhile, 70-degree hot air which needs to be directly discharged originally can be recycled, energy consumption is further saved, the water brewing machine 200 only needs to reheat the 50-degree water stored in the water storage tank 5, the water heating speed of the water brewing machine 200 can be increased, and the speed of the water brewing machine 200 for discharging boiled water is facilitated.

In actual use, the time for brewing the beverage is generally shorter because the time for baking the food is generally longer. Therefore, when the user uses the instant tea maker, the user can bake the food through the baking machine 300 and then use the brewing machine 200 to make the beverage after baking for a period of time. Therefore, the heat dissipation cavity 6 can have enough time to heat the water body in the water storage tank 5, and the preheating effect can be better achieved.

Wherein, the hot-blast back that blows off in the heat dissipation chamber 6 blows to storage water tank 5 still need discharge to the casing 100 outside, and the mode that can be advisable adopts single passageway, sets up the drainage channel who links to each other with first thermovent 71, discharges the casing 100 outside to blowing the hot-blast drainage once more behind storage water tank 5 surface. The following problems exist with the above approach: firstly, the original heat dissipation structure needs to be changed greatly; secondly, if the arranged drainage channel is directly connected to the outside of the machine shell 100, the heat exchange time between the hot air and the water storage tank 5 is short, and the utilization rate of the heat energy of the hot air is reduced; if the drainage channel who sets up lays along the lateral wall of storage water tank 5, though can prolong hot-blast and storage water tank 5 and carry out the time of heat exchange, improve the utilization ratio to hot-blast heat energy, owing to increased drainage channel's length, therefore need use more material to will increase manufacturing cost certainly.

Wherein, after the hot air blown out from the heat dissipation cavity 6 blows to the surface of the water storage tank 5, the hot air needs to be discharged to the outside of the machine shell 100, and preferably, a double channel is adopted. That is, a communication hole 9 is provided between the installation cavity 4 and the heat dissipation cavity 6, and the heat dissipation cavity 6 is communicated with the second heat dissipation port 81 and communicated to the outside of the cabinet 100 through the second heat dissipation port 81. With this arrangement, air in the installation cavity 4 can enter the heat dissipation cavity 6 through the communication hole 9 and be discharged to the outside of the casing 100 from the second heat dissipation opening 81. The gas flow thus formed has the following profile, one of which: the hot air in the heat dissipation chamber 6 is discharged to the outside of the casing 100 through the second heat dissipation port 81; the second step is as follows: hot air in the heat dissipation cavity 6 is blown to the surface of the water storage tank 5 through the first heat dissipation port 71; and thirdly: the hot air blown to the surface of the water storage tank 5 is diffused into the mounting cavity 4 and enters the heat dissipation cavity 6 through the communication hole 9, the hot air in the heat dissipation cavity 6 is blown to the surface of the water storage tank 5 through the first heat dissipation hole 71, and/or the hot air in the heat dissipation cavity 6 is discharged to the outside of the machine shell 100 through the second heat dissipation hole 81. With this arrangement, only the first heat dissipation port 71 needs to be added, so that the original heat dissipation structure does not need to be changed greatly.

The water tank comprises a first side wall 51 and a second side wall 52 which are adjacently arranged, a flow guide angle 53 which is arc-shaped and used for guiding hot air to flow is arranged between the first side wall 51 and the second side wall 52, namely, an arc angle is arranged between the first side wall 51 and the second side wall 52, and further, the first heat dissipation opening 71 is arranged corresponding to the first side wall 51, and/or the first heat dissipation opening 71 is arranged corresponding to the flow guide angle 53. Therefore, the design of the arc-shaped flow guide angle 53 is adopted, the blocking of the hot air flowing can be avoided when the right angle is formed between the first side wall 51 and the second side wall 52, the coanda effect can be utilized by adopting the arc-shaped setting, when the hot air flows on the surface of one side wall, the hot air can flow to the surface of the other side wall along the surface of the flow guide angle 53 through the guiding of the flow guide angle 53, so that the heat exchange time of the hot air and the water storage tank 5 is effectively prolonged under the condition of not setting a flow guide channel, the utilization rate of hot air heat energy is improved, the use of materials is effectively reduced, and the production cost of products is favorably reduced. In addition, because of the limitation of the volume of the electric appliance, the space in the installation cavity 4 is limited, and the angle of the first heat dissipation port 71 corresponding to the water storage tank 5 is easily limited, so that the flow of hot air can be guided as required through the arranged flow guide angle 53, the requirement of the angle of the first heat dissipation port 71 corresponding to the water storage tank 5 is reduced, and the flexibility of the internal structure design of the product is improved.

For example, in one embodiment, the first heat dissipation opening 71 is disposed corresponding to the first sidewall 51, and the hot air may flow as follows: firstly, after hitting the surface of the first side wall 51, the hot air flows towards the diversion angle 53 and flows onto the surface of the second side wall 52 along the surface of the diversion angle 53; secondly, after the hot air hits the surface of the first sidewall 51, the hot air is divided into two air flows, the first air flow flows along the surface of the first sidewall 51 toward the diversion angle 53 and flows along the surface of the diversion angle 53 onto the surface of the second sidewall 52, and the second air flow flows along the surface of the first sidewall 51 toward the direction away from the diversion angle 53. In another embodiment, the first heat dissipating opening 71 is disposed corresponding to the diversion angle 53, and the hot air can flow in the following direction: after the hot air hits the surface of the diversion angle 53, the hot air is divided into two air flows, the first air flow flows towards the surface of the first side wall 51, and the second air flow flows towards the surface of the second side wall 52. In the present embodiment, the first heat dissipation opening 71 is disposed corresponding to the first sidewall 51 and the diversion corner 53. The other hot air flow directions are not listed here.

Wherein, heat dissipation chamber 6 is discoid to the inside of heat dissipation chamber 6 is provided with runoff flabellum 11, so, when runoff flabellum 11 rotates, because runoff flabellum 11 is the side direction air-out, therefore makes hot-blast being blown to on the lateral wall of heat dissipation chamber 6. Furthermore, the side walls of the heat dissipation chamber 6 are respectively communicated with a first heat dissipation channel 7 and a second heat dissipation channel 8, so that the hot air on the side walls respectively enters the first heat dissipation channel 7 and the second heat dissipation channel 8. Still further, the first heat dissipation channel 7 has a first heat dissipation opening 71 and the first heat dissipation channel 7 intersects with the heat dissipation cavity 6; the second heat dissipation channel 8 has a second heat dissipation opening 81, and the second heat dissipation channel 8 is tangential to the heat dissipation chamber 6. So, the wind-force that gets into first heat dissipation channel 7 can be great relatively, makes to have more hot-blastly to blow to the surface of storage water tank 5, and simultaneously, the wind-force that gets into second heat dissipation channel 8 can be less relatively, makes the hot-blastly of going away less relatively to be favorable to prolonging hot-blastly and walk the time, improve the utilization ratio to hot-blast heat energy.

The baking machine 300 further includes a heat dissipation cover 12 disposed in the installation cavity 4, wherein a heat dissipation cavity 6, a first heat dissipation channel 7 and a second heat dissipation channel 8 are formed inside the heat dissipation cover 12, that is, the heat dissipation cavity 6, the first heat dissipation channel 7 and the second heat dissipation channel 8 are formed by molding the heat dissipation cover 12. In actual production, the heat dissipation cover 12 may be integrally formed by a stamping or casting process, so as to form the heat dissipation cavity 6, the first heat dissipation channel 7 and the second heat dissipation channel 8 in the heat dissipation cover 12.

Wherein, first heat dissipation channel 7 is including forming first water conservancy diversion wall 72 and second water conservancy diversion wall 73 on heat exchanger 12, first water conservancy diversion wall 72 and second water conservancy diversion wall 73 intersect the setting with heat dissipation chamber 6, furtherly, first water conservancy diversion wall 72 is circular-arc setting to the hot-blast surface flow to storage water tank 5 along the surface of first water conservancy diversion wall 72 that guides blow off from heat dissipation chamber 6, so set up, not only be favorable to better guide hot-blast wind-force that gets into first heat dissipation channel 7 in order to increase first heat dissipation channel 7, and make the hot-blast more gentle entering into first heat dissipation channel 7 on the heat dissipation chamber 6 lateral wall, reduce wind and make noise.

The second heat dissipation channel 8 includes a third flow guiding wall 82 and a fourth flow guiding wall 83 formed on the heat dissipation cover 12, the third flow guiding wall 82 is tangent to the heat dissipation cavity 6, and the fourth flow guiding wall 83 is arc-shaped. In this way, even if the second heat dissipation channel 8 is not smoothly exhausted, the hot air entering the second heat dissipation channel 8 is not easily returned to the heat dissipation chamber 6 through the fourth diversion wall 83. Further, the second heat dissipation channel 8 includes a wind guiding section 84 communicated with the heat dissipation cavity 6 and a diameter expansion section 85 communicated to the outside of the casing 100, and the width of the diameter expansion section 85 is greater than that of the wind guiding section 84. In this way, the diameter expanding section 85 is provided, so that the hot air in the second heat dissipation channel 8 is better discharged to the outside of the casing 100, and the hot air entering the second heat dissipation channel 8 is not easy to return to the heat dissipation chamber 6.

Wherein, be provided with driving motor 13 and deep bead 14 on the heat exchanger 12, driving motor 13 is connected with runoff flabellum 11 transmission, and deep bead 14 encloses the outside at driving motor 13. The arranged wind shield 14 can laterally block hot air blown to the surface of the water storage tank 5 from directly flowing back and blowing to the driving motor 13, so that the hot air which can reach the high temperature of 70 ℃ is prevented from directly blowing to the driving motor 13, the hot air can only be diffused in the installation cavity 4 for cooling and then is blown to the driving motor 13 from the vertical direction for cooling the driving motor 13, and the driving motor 13 is effectively protected; meanwhile, the arranged wind deflector 14 can also form a flow gathering effect in the vertical direction, and the following airflow directions are formed: the air in the mounting cavity 4 flows into the area surrounded by the wind shield 14, and the volume of the area surrounded by the wind shield 14 is small, so that negative pressure generated in the heat dissipation cavity 6 can well enable the air in the region surrounded by the wind shield to be sucked into the heat dissipation cavity 6 through the communication hole 9, and therefore the flow gathering effect is achieved.

Wherein, the water storage tank 5 can be made of plastic material or metal material. The heat conductivity of the plastic material is relatively poor, but the heat preservation effect is good, and the heat conductivity of the metal material is relatively good, but the heat preservation effect is poor, and the plastic material and the metal material respectively have advantages and disadvantages. But because the time of toasting food is generally longer, therefore can provide longer heating time to storage water tank 5 to need not worry the not enough problem of heating temperature, and then adopt the better plastics material of heat preservation effect to prepare storage water tank 5, can have better result of use. Specifically, in this embodiment, the water storage tank 5 is made of PP plastic material.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a dual-purpose machine with dash and toast function which characterized in that, includes the casing and sets up dash bubble machine and the roaster on the casing, the inside of casing is provided with the installation cavity, wherein:

the brewing machine comprises a water storage tank arranged in the mounting cavity;

the roaster is including setting up heat dissipation chamber and first thermovent of installation intracavity, first thermovent with heat dissipation chamber intercommunication just first thermovent corresponds the storage water tank sets up, in order to guide follow the hot-blast warp that blows off in the heat dissipation intracavity first thermovent blows to the surface of storage water tank does the inside water heating of storing water tank storage.

2. The dual-purpose machine with brewing and baking functions as claimed in claim 1, wherein a communication hole is arranged between the installation cavity and the heat dissipation cavity, and the heat dissipation cavity is communicated with a second heat dissipation port and communicated to the outside of the machine shell through the second heat dissipation port;

and air in the mounting cavity enters the heat dissipation cavity through the communication hole and is discharged to the outside of the machine shell from the second heat dissipation port.

3. The dual-purpose machine with brewing and baking functions as claimed in claim 2, wherein the heat dissipation chamber is disc-shaped and radial flow fan blades are disposed in the heat dissipation chamber, and a first heat dissipation channel and a second heat dissipation channel are respectively connected to the side wall of the heat dissipation chamber, wherein:

the first heat dissipation channel is provided with the first heat dissipation port and is intersected with the heat dissipation cavity;

the second heat dissipation channel is provided with the second heat dissipation opening and is tangentially arranged with the heat dissipation cavity.

4. The dual-purpose machine with brewing and toasting functions of claim 3, further comprising a heat dissipation cover disposed within the mounting cavity, the heat dissipation cover having the heat dissipation cavity, the first heat dissipation channel, and the second heat dissipation channel formed therein.

5. The dual-purpose machine with brewing and toasting functions as claimed in claim 4, wherein the first heat dissipating channel comprises a first guiding wall formed on the heat dissipating cover, the first guiding wall intersects with the heat dissipating chamber and is disposed in a circular arc shape, so as to guide the hot air blown out from the heat dissipating chamber to flow along the surface of the first guiding wall to the surface of the water storage tank.

6. The dual-purpose machine with brewing and toasting functions as claimed in claim 4, wherein the second heat dissipation channel comprises a third flow guiding wall and a fourth flow guiding wall formed on the heat dissipation cover, the third flow guiding wall is tangential to the heat dissipation chamber, and the fourth flow guiding wall is arc-shaped.

7. The dual-purpose machine with brewing and baking functions as claimed in claim 4, wherein a driving motor and a wind shield are arranged on the heat dissipation cover, the driving motor is in transmission connection with the radial fan blades, and the wind shield is enclosed outside the driving motor.

8. The dual-purpose machine with brewing and baking functions as claimed in claim 3, wherein the second heat dissipation channel comprises a wind guide section communicated with the heat dissipation cavity and a diameter expansion section communicated to the outside of the machine shell, and the width of the diameter expansion section is larger than that of the wind guide section.

9. The dual-purpose machine with brewing and toasting functions as claimed in any of claims 1-8, wherein the water tank comprises a first side wall and a second side wall which are adjacently arranged, and a diversion angle in the shape of a circular arc is arranged between the first side wall and the second side wall;

the first heat dissipation opening is arranged corresponding to the first side wall, and/or the first heat dissipation opening is arranged corresponding to the diversion angle.

10. The dual-purpose machine with brewing and baking functions as claimed in any one of claims 1-8, wherein the water storage tank is made of plastic or metal.

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