CN214259006U

CN214259006U - Combined air duct structure and multipurpose milk adjusting device

Info

Publication number: CN214259006U
Application number: CN202022924029.2U
Authority: CN
Inventors: 杨海波
Original assignee: Foshan Millaide Electrical Technology Co ltd
Current assignee: Foshan Millaide Electrical Technology Co ltd
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-09-24
Anticipated expiration: 2030-12-09

Abstract

The utility model discloses a combined air duct structure and a multipurpose milk adjusting device, wherein the multipurpose milk adjusting device comprises a main body, a heating kettle and a combined air duct structure; a base air inlet is formed in the bottom of the first cavity barrel, and a fan is arranged between the heating socket and the base air inlet; the inner wall of the bottom of the second cavity cylinder is connected with a middle layer; the interior of the first cavity barrel is communicated with the interior of the middle layer based on a combined air channel structure, an air channel air inlet of the combined air channel structure faces the fan, a heating body is arranged in the air channel air inlet, and an air channel air outlet of the combined air channel structure faces the bottom space of the middle layer; the heating kettle is arranged in the first cavity barrel, and a heating plug at the bottom of the heating kettle is electrically connected and matched with the heating socket. The embodiment of the utility model provides an in, use combination formula wind channel structure in multi-purpose milk ware of transferring, can effectively avoid the backward flow of hot-blast refluence and moisture, avoid hot-blast and moisture to cause the influence to the electrical part in the multi-purpose milk ware of transferring, guarantee the normal operating of multi-purpose milk ware of transferring.

Description

Combined air duct structure and multipurpose milk adjusting device

Technical Field

The utility model relates to a transfer milk ware technical field particularly, relate to a modular wind channel structure and multi-purpose milk ware of transferring.

Background

The multipurpose milk mixing device is a household appliance which can realize the functions of boiling water and mixing milk, and can realize the functions of disinfection, drying, milk warming and steaming, and the multipurpose milk mixing device can replace a kettle, a milk mixing device, a steam sterilizer, an auxiliary food machine and a milk warming device, and has good practical use effect.

In the multi-purpose milk adjusting device, the functions of disinfection, drying, milk warming and steaming are realized by a cavity cylinder at one side and a middle layer arranged at the bottom of the cavity cylinder: when the multifunctional milk mixing device realizes the functions of disinfection and steaming, a proper amount of water is required to be added to the bottom of the middle layer, and the heating plate at the bottom of the middle layer heats the water at the bottom of the middle layer and generates high-temperature steam so as to realize the functions of disinfection and steaming; when the multifunctional milk mixing device realizes the milk warming function, a proper amount of water is required to be added to the bottom of the middle layer, and the heating plate at the bottom of the middle layer heats and insulates the water at the bottom of the middle layer so as to realize the milk warming function; when the multifunctional milk mixing device achieves the drying function, a proper amount of water is not required to be added to the bottom of the middle layer, hot air is required to be generated through the fan and the heating body, then the hot air is guided to the bottom of the middle layer through the air channel structure, and objects placed in the middle layer are dried by the hot air from bottom to top, so that the drying function is achieved.

The air duct structure in the multi-purpose milk mixing device has the advantages that in the actual use process, backflow of hot air can occur in the air duct structure, water in the middle layer can enter the air duct structure and flow back in the air duct structure, the backflow of the hot air and the backflow of the water can affect electric devices in the multi-purpose milk mixing device, and certain defects are overcome.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's is not enough, the utility model provides a modular wind channel structure and multi-purpose accent milk ware will modular wind channel structure is used in multi-purpose accent milk ware, can effectively avoid the backward flow of hot-blast refluence and moisture, avoids hot-blast and moisture to cause the influence to the electrical part in the multi-purpose accent milk ware, guarantees the normal operating of multi-purpose accent milk ware.

Correspondingly, the embodiment of the utility model provides a combined air channel structure, combined air channel structure includes first air channel component, air channel baffle, second air channel component and aviation baffle;

the first air channel component comprises a first air channel side plate and a second air channel side plate, the air channel partition plate is arranged between the first air channel side plate and the second air channel side plate, an air channel component opening is formed in the top of the first air channel component, and the second air channel component is connected to the top of the first air channel component and covers the air channel component opening;

an air duct air inlet is formed between the bottom end of the first air duct side plate and the bottom end of the air duct partition plate;

an air duct air guide opening is formed between the top end of the air duct partition plate and the second air duct component, the air deflector is hinged to the bottom of the second air duct component, the bottom of the air deflector is in contact fit with the side face, facing the second air duct side plate, of the air duct partition plate, or the air deflector rotates between the air duct partition plate and the second air duct side plate so as to seal or open the air duct air guide opening;

the bottom of the air duct partition plate extends towards the direction of the second air duct side plate to form an air duct bottom plate, and an air duct air outlet is formed between the bottom of the second air duct side plate and the air duct bottom plate.

In an optional embodiment, a hook is arranged on one side of the bottom of the second air duct member;

a hook plate is arranged at the top end of the first air duct side plate, and a hook part matched with the hook buckle is arranged in the hook plate;

the second air duct member is connected to the top of the first air duct member based on the cooperation of the hook buckle and the hook portion.

In an alternative embodiment, the combined air duct structure further includes a third air duct member and a fourth air duct member;

one end of the third air duct component is connected with the bottom end of the first air duct side plate, and one end of the fourth air duct component is connected with the bottom end of the air duct partition plate;

and the air duct air inlet is formed between the other end of the third air duct component and the other end of the fourth air duct component.

In an alternative embodiment, the third air duct member includes a third air duct straight section and a third air duct circular arc section;

the fourth air duct component comprises a fourth air duct straight line section and a fourth air duct circular arc section;

the air duct air inlet is formed between the third air duct straight line section and the fourth air duct straight line section;

the third air duct circular arc section is connected with the bottom end of the first air duct side plate, and the fourth air duct circular arc section is connected with the bottom end of the air duct partition plate.

In an optional implementation manner, a drainage seam is arranged between the fourth air duct straight line section and the fourth air duct circular arc section.

Optional embodiment, the other end of fourth wind channel straightway is provided with vertical drain bar, vertical drain bar's top is provided with the orientation the horizontal drain bar of fourth wind channel circular arc section, vertical drain bar horizontal drain bar with form between the fourth wind channel circular arc section the drainage seam, just vertical drain bar with be provided with the drainage baffle between the horizontal drain bar.

In addition, the embodiment of the utility model also provides a multi-purpose milk adjusting device, which comprises a main body, a heating kettle and the combined air channel structure;

the main body comprises a first cavity barrel and a second cavity barrel; a heating socket is arranged in the first cavity barrel, a base air inlet is formed in the bottom of the first cavity barrel, and a fan is arranged between the heating socket and the base air inlet; the inner wall of the bottom of the second cavity barrel is connected with a middle layer, and a heating disc is arranged at the bottom of the middle layer;

the interior of the first cavity barrel is communicated with the interior of the middle layer based on the combined air channel structure, an air channel air inlet of the combined air channel structure faces the fan, a heating body is arranged in the air channel air inlet, and an air channel air outlet of the combined air channel structure faces the bottom space of the middle layer;

the heating kettle is arranged in the first cavity barrel, and a heating plug at the bottom of the heating kettle is electrically connected and matched with the heating socket.

In an optional embodiment, the first air duct member of the combined air duct structure is disposed inside the middle layer, and the first air duct side plate of the first air duct member is integrally disposed on the inner wall of the middle layer;

the air duct partition plate of the combined air duct structure is arranged between the inner wall of the middle layer and the second air duct side plate, and an air duct bottom plate at the bottom of the air duct partition plate and the bottom surface of the middle layer are integrated.

In an optional embodiment, a water outlet is arranged at the bottom of the main body, and the water discharge seam of the combined air duct structure is communicated with the water outlet.

In an optional embodiment, the second cavity comprises a second cavity base, a feeding bottle support, an upper layer, an upper partition and an upper cover, the middle layer is connected to the inner wall of the second cavity base, the upper layer is connected to the middle layer, the upper partition is connected to the upper layer, and the upper cover is connected to the upper partition;

the feeding bottle support comprises a feeding bottle support flat plate, a plurality of feeding bottle support flat plate through holes are formed in the feeding bottle support flat plate, one surface of the feeding bottle support flat plate is a milk warming surface, feeding bottle support supporting legs are arranged on the milk warming surface, and the other surface of the feeding bottle support flat plate is a disinfecting and drying surface; the feeding bottle support is arranged in the middle layer in a sliding mode, the milk warming surface faces the bottom surface of the middle layer, or the sterilizing and drying surface faces the bottom surface of the middle layer; when the feeding bottle support is arranged in the middle layer in a sliding mode in which the milk warming surface faces the bottom surface of the middle layer, and when the feeding bottle support legs are in contact with the bottom surface of the middle layer, the feeding bottle support flat plate is positioned above the air outlet of the air duct;

the upper partition comprises an upper partition plate, and a plurality of upper partition plate through holes are formed in the upper partition plate.

An embodiment of the utility model provides a modular wind channel structure and multi-purpose milk ware of transferring will modular wind channel structure is used in multi-purpose milk ware of transferring, based on the aviation baffle with the wind channel baffle orientation the side contact cooperation of second wind channel curb plate can effectively avoid the backward flow of hot-blast refluence and moisture, avoids hot-blast and moisture to cause the influence to the electrical part in the multi-purpose milk ware of transferring, guarantees the normal operating of multi-purpose milk ware of transferring.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of a combined air duct structure according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a first air duct member according to an embodiment of the present invention;

FIG. 3 is a schematic view of the second duct member and air deflection plate according to an embodiment of the present invention;

FIG. 4 is a schematic three-dimensional structure of the multi-purpose milk adjust device in the embodiment of the present invention;

FIG. 5 is an exploded view of the multi-purpose milk adjust device in the embodiment of the present invention;

FIG. 6 is a cross-sectional view of the multi-purpose milk adjust device in an embodiment of the present invention;

fig. 7 is a schematic three-dimensional structure diagram of the fan in the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Fig. 1 is a schematic view of a combined air duct structure in an embodiment of the present invention.

The embodiment of the utility model provides a modular wind channel structure, modular wind channel structure includes first wind channel component 1, wind channel baffle 2, second wind channel component 3 and aviation baffle 4.

The first air duct member 1 comprises a first air duct side plate 11 and a second air duct side plate 12, the air duct partition plate 2 is arranged between the first air duct side plate 11 and the second air duct side plate 12, an air duct member opening 13 is formed in the top of the first air duct member 1, and the second air duct member 3 is connected to the top of the first air duct member 1 and covers the air duct member opening 13.

An air duct air inlet 51 is formed between the bottom end of the first air duct side plate 11 and the bottom end of the air duct partition plate 2.

An air duct air guide opening 52 is formed between the top end of the air duct partition plate 2 and the second air duct component 3, the air deflector 4 is hinged to the bottom of the second air duct component 3, the bottom of the air deflector 4 is in contact fit with the side face, facing the second air duct side plate 12, of the air duct partition plate 2, or the air deflector 4 rotates between the air duct partition plate 2 and the second air duct side plate 12, so that the air duct air guide opening 52 is closed or opened.

The bottom of the air duct partition plate 2 extends towards the second air duct side plate 12 to form an air duct bottom plate 21, and an air duct air outlet 53 is formed between the bottom of the second air duct side plate 12 and the air duct bottom plate 21.

In a specific implementation, the hot air may enter the combined air duct structure through the air duct inlet 51, then the hot air flows upward between the first air duct side plate 11 and the air duct partition plate 2, flows into between the air duct partition plate 2 and the second air duct side plate 12 through the air duct outlet 52 and the air deflector 4, then flows downward between the air duct partition plate 2 and the second air duct side plate 12, and finally is sent out through the air duct outlet 53.

Based on the contact fit between the air deflector 4 and the side surface of the air duct partition plate 2 facing the second air duct side plate 12, hot air can only flow from between the first air duct side plate 11 and the air duct partition plate 2 to between the air duct partition plate 2 and the second air duct side plate 12, that is, hot air can only flow in from the air duct air inlet 51, and the hot air can only flow out from between the air duct air outlet 53 through the air duct air deflector opening 52 and the air deflector 4, and can not flow from between the air duct partition plate 2 and the second air duct side plate 12 to between the first air duct side plate 11 and the air duct partition plate 2, that is, hot air can not flow in from the air duct air outlet 53, and the hot air can not flow out from between the air duct air deflector opening 52 and the air deflector 4, and can finally flow out from the air duct air inlet 51.

In addition, moisture may enter between the air duct partition 2 and the second air duct side plate 12 through the air duct outlet 53, and based on the contact fit between the air deflector 4 and the air duct partition 2 toward the side surface of the second air duct side plate 12, the moisture cannot flow into between the first air duct side plate 11 and the air duct partition 2 from between the air duct partition 2 and the second air duct side plate 12.

Therefore, the air guide plate 4 and the air duct partition plate 2 are in contact fit with each other towards the side face of the second air duct side plate 12, so that backflow of hot air and backflow of moisture can be effectively avoided.

Fig. 2 is a schematic structural diagram of a first air duct member in an embodiment of the present invention, and fig. 3 is a schematic connection diagram of a second air duct member and an air deflector in an embodiment of the present invention.

Specifically, a hook 31 is disposed on one side of the bottom of the second air duct member 3.

The top end of the first air duct side plate 11 is provided with a hooking plate 111, and a hooking part 112 matched with the hook buckle 31 is arranged in the hooking plate 111.

The second air duct member 3 is connected to the top of the first air duct member 1 based on the engagement of the hook 31 and the hook portion 112, so as to realize the stable and detachable connection between the second air duct member 3 and the first air duct member 1.

Specifically, the combined air duct structure further includes a third air duct member 6 and a fourth air duct member 7.

One end of the third air duct member 6 is connected to the bottom end of the first air duct side plate 11, and one end of the fourth air duct member 7 is connected to the bottom end of the air duct partition plate 2.

The air duct inlet 51 is formed between the other end of the third air duct member 6 and the other end of the fourth air duct member 7.

Wherein the third air duct member 6 comprises a third air duct straight section 61 and a third air duct circular arc section 62; the fourth air duct member 7 comprises a fourth air duct straight section 71 and a fourth air duct circular arc section 72; the air duct air inlet 51 is formed between the third air duct straight-line section 61 and the fourth air duct straight-line section 71; the third air duct circular arc section 62 is connected with the bottom end of the first air duct side plate 11, and the fourth air duct circular arc section 72 is connected with the bottom end of the air duct partition plate 2.

Third wind channel straightway 61 with pass through between the first wind channel curb plate 11 third wind channel circular arc section 62 transition, fourth wind channel straightway 71 with pass through between the wind channel baffle 2 fourth wind channel circular arc section 72 transition, third wind channel circular arc section 62 with fourth wind channel circular arc section 72 can play the water conservancy diversion effect well, enable the warp wind channel air outlet 53 hot-blast flow direction of flow in better first wind channel curb plate 11 with between the wind channel baffle 2.

Particularly, a drainage slit 73 is formed between the fourth air duct straight line section 71 and the fourth air duct circular arc section 72, in a specific implementation, water vapor in hot air may be condensed into moisture between the first air duct side plate 11 and the air duct partition plate 2, and the moisture may be timely discharged through the drainage slit 73.

The drainage seam 73 is arranged between the fourth air duct straight line section 71 and the fourth air duct circular arc section 72, and the fourth air duct circular arc section 72 can play a good flow guiding effect on moisture and smoothly guide the moisture to the drainage seam 73 so as to better discharge the moisture.

The other end of the fourth air duct straight line section 71 is provided with a vertical drainage plate 731, the top of the vertical drainage plate 731 is provided with a horizontal drainage plate 732 facing the fourth air duct circular arc section 72, the drainage seam 73 is formed among the vertical drainage plate 731, the horizontal drainage plate 732 and the fourth air duct circular arc section 72, and a drainage partition 733 is arranged between the vertical drainage plate 731 and the horizontal drainage plate 732.

The arrangement of the vertical drainage plate 731 and the horizontal drainage plate 732 can avoid the sputtering of water, and ensure that the water can be completely discharged through the drainage seam 73; the arrangement of the drainage partition 733 can control the drainage flow of the drainage seam 73, and can filter and isolate particles, dust and moisture outside the combined air duct structure to a certain extent.

Fig. 4 is a schematic three-dimensional structure diagram of the multi-purpose milk adjust device in the embodiment of the present invention, fig. 5 is an exploded view of the multi-purpose milk adjust device in the embodiment of the present invention, and fig. 6 is a cross-sectional view of the multi-purpose milk adjust device in the embodiment of the present invention.

In addition, the embodiment of the utility model provides a multi-purpose milk mixing device is still provided, multi-purpose milk mixing device includes main part 86, heating kettle 87 and foretell combination formula wind channel structure.

The body 86 includes a first barrel 861 and a second barrel 862; a heating socket 8611 is arranged in the first chamber cylinder 861, a base air inlet 8612 is arranged at the bottom of the first chamber cylinder 861, and a fan 8614 is arranged between the heating socket 8611 and the base air inlet 8612; the inner wall of the bottom of the second cavity barrel 862 is connected with a middle layer 88, and the bottom of the middle layer 88 is provided with a heating plate 881.

The inside of the first chamber cylinder 861 is communicated with the inside of the middle layer 88 based on the combined air channel structure, an air channel air inlet 51 of the combined air channel structure faces the fan 8614, a heating body 54 is arranged in the air channel air inlet 51, the heating body 54 is arranged between the third air channel straight line section 61 and the fourth air channel straight line section 71, and an air channel air outlet 53 of the combined air channel structure faces the bottom space of the middle layer 88.

The heating kettle 87 is arranged in the first chamber barrel 861, and a heating plug 871 at the bottom of the heating kettle 87 is electrically connected and matched with the heating socket 8611.

In specific implementation, the heating kettle 87 is arranged in the first cavity barrel 861, and based on the electrical connection and matching of the heating plug 871 and the heating socket 8611, the functions of boiling water and mixing milk can be realized on the heating kettle 87.

The functions of disinfection, drying, milk warming and steaming are realized in the second cavity 862 and the middle layer 88 connected to the bottom of the second cavity 862:

the heating plate 881 at the bottom of the middle layer 88 is used for heating and insulating the water at the bottom of the middle layer 88, so that the milk warming function is realized; through the heating plate 881 at the bottom of the middle layer 88, water at the bottom of the middle layer 88 is heated and high-temperature steam is generated, thereby realizing the functions of disinfection and steaming.

The fan 8614 draws outside air through the base air inlet 8612, forms air by using the outside air, and sends the air to a position between the third air duct straight line section 61 and the fourth air duct straight line section 71 through the air duct air inlet 11; the air passes through the heating body 54 between the third air duct straight line section 61 and the fourth air duct straight line section 71 to form hot air; hot air flows between the first air duct side plate 11 and the air duct partition plate 2 through the space between the third air duct circular arc section 62 and the fourth air duct circular arc section 72, and flows upwards between the first air duct side plate 11 and the air duct partition plate 2 to enter the inner part of the middle layer 88; the hot air then flows into the space between the air duct partition plate 2 and the second air duct side plate 12 through the air duct air guiding opening 52 and the air guiding plate 4, and flows downwards between the air duct partition plate 2 and the second air duct side plate 12, so that the hot air is guided to the bottom of the middle layer 88; the hot air is finally delivered out through the air duct outlet 53, enters the bottom space of the middle layer 88, and dries the object placed in the middle layer 88 from bottom to top, thereby realizing the drying function.

Based on the contact fit between the air deflector 4 and the side surface of the air duct partition plate 2 facing the second air duct side plate 12, the hot air formed by the fan 8614 and the heating body 54 can only flow from between the first air duct side plate 11 and the air duct partition plate 2 to between the air duct partition plate 2 and the second air duct side plate 12, that is, the hot air can only flow from the air duct air inlet 51, and the hot air passes through the air duct air guiding opening 52 and the air deflector 4 in the middle and is finally sent out through the air duct air outlet 53.

Moisture in the middle layer 88 may enter between the air duct partition plate 2 and the second air duct side plate 12 through the air duct outlet 53, but due to the contact fit between the air deflector 4 and the air duct partition plate 2 toward the side of the second air duct side plate 12, the moisture cannot flow between the first air duct side plate 11 and the air duct partition plate 2 from between the air duct partition plate 2 and the second air duct side plate 12.

Therefore, in the actual use process of the multipurpose milk blending device, based on the contact and matching of the air deflector 4 and the air duct partition plate 2 towards the side surface of the second air duct side plate 12, hot air backflow and moisture backflow can be effectively avoided, the influence of the hot air and the moisture on electric devices in the multipurpose milk blending device is avoided, and the normal operation of the multipurpose milk blending device is ensured.

Specifically, the first air duct member 1 of the combined air duct structure is disposed inside the middle layer 88, and the first air duct side plate 11 of the first air duct member 1 and the inner wall of the middle layer 88 are integrally disposed.

The air duct partition plate 2 of the combined air duct structure is arranged between the inner wall of the middle layer 88 and the second air duct side plate 12, and the air duct bottom plate 21 at the bottom of the air duct partition plate 2 and the bottom surface of the middle layer 88 are arranged into a whole.

Specifically, a drainage port 863 is arranged at the bottom of the main body 86, and the drainage slit 73 of the combined air duct structure is communicated with the drainage port 863.

In the practical use process of multi-purpose milk mixing ware, the vapor in the hot-blast probably is in first wind channel curb plate 11 with moisture is condensed into between the wind channel baffle 2, and moisture can pass through drainage seam 73 with outlet 863 in time discharges to the outside of multi-purpose milk mixing ware effectively avoids the backward flow of moisture, avoids moisture to cause the influence to the electrical part in the multi-purpose milk mixing ware, guarantees the normal operating of multi-purpose milk mixing ware.

Specifically, be provided with base air inlet net grid 86121 in the base air intake 8612, base air inlet net grid 86121 can play certain filter effect, filters and isolates granule, dust and moisture in the outside air to a certain extent.

Specifically, the fan 8614 includes a fan inlet 86141 and a fan outlet 86142, the fan inlet 86141 faces the base inlet 8612, and the fan outlet 86142 faces the duct inlet 51.

Specifically, the second cartridge 862 includes a second cartridge base 8621, an upper layer 8622, and an upper cover 8623.

The middle layer 88 is connected the inner wall of second cavity base 8621, upper strata 8622 can choose for use according to actual conditions:

the upper cover 8623 is attached to the middle layer 88 when the upper layer 8622 is not needed.

When the upper layer 8622 is needed, the upper layer 8622 is attached to the middle layer 88 and the upper cover 8623 is attached to the upper layer 8622.

Specifically, the multi-purpose milk mixing device further comprises a milk bottle support 891, and the milk bottle support 891 can be selected according to actual conditions.

The feeding bottle support 891 includes feeding bottle support flat plate 8911, be provided with a plurality of feeding bottle support flat plate through-holes 8912 in the feeding bottle support flat plate 8911, the one side of feeding bottle support flat plate 8911 is warm milk face 8913, be provided with feeding bottle support stabilizer 8914 on the warm milk face 8913, the another side of feeding bottle support flat plate 8911 is disinfection stoving face 8915.

The nursing bottle support 891 is slidably disposed inside the middle layer 88, and the milk warming surface 8913 faces the bottom surface of the middle layer 88, or the sterilizing and drying surface 8915 faces the bottom surface of the middle layer 88.

When the baby bottle holder 891 is slidably disposed inside the middle layer 88 with the milk warming surface 8913 facing the bottom surface of the middle layer 88, and when the baby bottle holder legs 8914 contact the bottom surface of the middle layer 88, the baby bottle holder panel 8911 is located above the air outlet 53 of the air duct.

In specific implementation, when the sterilization function is implemented in the second cavity 862 and the middle layer 88 connected to the bottom of the second cavity 862, a proper amount of water needs to be added to the bottom of the middle layer 88, and at the same time, the bottle holder 891 needs to be slidably disposed inside the middle layer 88 in a manner that the milk warming surface 8913 faces the bottom surface of the middle layer 88, and slide until the bottle holder legs 8914 contact with the bottom surface of the middle layer 88, at this time, the bottle holder panel 8911 is higher than the liquid level of the water, so as to place the articles to be sterilized on the bottle holder panel 8911, the heating plate 881 at the bottom of the middle layer 88 can heat the water at the bottom of the middle layer 88 and generate high-temperature steam, and the high-temperature steam can sterilize the articles to be sterilized on the bottle holder panel 8911 through the plurality of bottle holder panel through holes 8912.

When the drying function is realized in the second cavity 862 and the middle layer 88 connected to the bottom of the second cavity 862, it is not necessary to add a proper amount of water to the bottom of the middle layer 88, the feeding bottle support 891 needs to be slidably disposed inside the middle layer 88 in a manner that the milk warming surface 8913 faces the bottom surface of the middle layer 88, and slide until the feeding bottle support legs 8914 contact with the bottom surface of the middle layer 88, at this time, the feeding bottle support panel 8911 is located above the air duct outlet 53, the articles to be dried are placed on the feeding bottle support panel 8911, and the hot air is sent out through the air duct outlet 53 and is dried by the feeding bottle support panel through holes 8912.

When the milk warming function is realized in the second cavity 862 and the middle layer 88 connected to the bottom of the second cavity 862, a proper amount of water needs to be added to the bottom of the middle layer 88, and at the same time, the milk bottle holder 891 needs to be slidably disposed inside the middle layer 88 in a manner that the sterilizing and drying surface 8915 faces the bottom surface of the middle layer 88, and slide until the sterilizing and drying surface 8915 contacts the bottom surface of the middle layer 88, at this time, the milk bottle holder flat plate 8911 is soaked in the water at the bottom of the middle layer 88, and the articles to be warmed are placed on the milk bottle holder flat plate 8911, and the articles to be warmed are also soaked in the water at the bottom of the middle layer 88, and the heating plate 881 at the bottom of the middle layer 88 can heat and preserve the water at the bottom of the middle layer 88, so as to preserve the articles to be warmed on the milk bottle holder flat plate 8911, and realize the milk warming function.

In addition, multi-purpose milk adjusting device still includes upper partition 892, upper partition 892 includes upper partition flat 8921, be provided with a plurality of upper partition flat through-holes 8922 in upper partition flat 8921, upper partition 892 can select according to actual conditions:

when it is desired to use the upper panel 892, but not the upper panel 8622, the upper panel 892 is attached to the middle panel 88 and the upper cover 8623 is attached to the upper panel 892.

When it is desired to use the upper panel 892 and when it is desired to use the upper panel 8622, the upper panel 8622 is attached to the middle panel 88, the upper panel 892 is attached to the upper panel 8622, and the upper cover 8623 is attached to the upper panel 892.

In specific implementation, when the steaming function is realized in the second cavity 862 and the middle layer 88 connected to the bottom of the second cavity 862, a proper amount of water needs to be added to the bottom of the middle layer 88, and meanwhile, the upper partition 892 needs to be installed, and then the to-be-steamed object is placed on the upper partition 892, the heating plate 881 at the bottom of the middle layer 88 heats the water at the bottom of the middle layer 88 and generates high-temperature steam, and the high-temperature steam heats the to-be-steamed object on the upper partition 892 through the plurality of upper partition plate through holes 8922, so that the steaming function is realized.

The embodiment of the utility model provides a modular wind channel structure and multi-purpose accent milk ware will modular wind channel structure is used in multi-purpose accent milk ware, based on aviation baffle 4 with 2 orientation in wind channel baffle the side contact cooperation of second wind channel curb plate 12 can effectively avoid the backward flow of hot-blast refluence and moisture, avoids hot-blast and moisture to cause the influence to the electrical part in the multi-purpose accent milk ware, guarantees the normal operating of multi-purpose accent milk ware.

In addition, the above detailed description is made on the combined air duct structure and the multipurpose milk blender provided by the embodiment of the present invention, and a specific example should be adopted herein to explain the principle and the implementation manner of the present invention, and the description of the above embodiment is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims

1. A combined air duct structure is characterized by comprising a first air duct component, an air duct partition plate, a second air duct component and an air deflector;

2. The combined air duct structure according to claim 1, wherein a hook is provided on one side of the bottom of the second air duct member;

3. The combined duct structure according to claim 1, further comprising a third duct member and a fourth duct member;

4. The combined duct structure according to claim 3, wherein the third duct member includes a third duct straight section and a third duct circular arc section;

5. The combined air duct structure according to claim 4, wherein a drainage slit is provided between the fourth air duct straight section and the fourth air duct circular arc section.

6. The combined air duct structure according to claim 5, wherein a vertical drainage plate is disposed at the other end of the fourth air duct straight line section, a horizontal drainage plate facing the fourth air duct circular arc section is disposed at the top of the vertical drainage plate, the drainage seam is formed among the vertical drainage plate, the horizontal drainage plate and the fourth air duct circular arc section, and a drainage partition plate is disposed between the vertical drainage plate and the horizontal drainage plate.

7. A multi-purpose milk adjust device, characterized in that, the multi-purpose milk adjust device comprises a main body, a heating kettle and a combined air channel structure of any one of claims 1 to 6;

8. The multi-purpose milk adjust device as recited in claim 7, characterized in that the first air duct member of the combined air duct structure is disposed inside the middle layer, and the first air duct side plate of the first air duct member is integrally disposed with the inner wall of the middle layer;

9. The multi-purpose milk adjust device as claimed in claim 7, wherein the bottom of the main body is provided with a water outlet, and the water outlet is communicated with the water outlet through the water outlet seam of the combined air duct structure.

10. The multi-purpose milk mixing device as recited in claim 7, wherein the second chamber comprises a second chamber base, a feeding bottle support, an upper layer, an upper partition and an upper cover, wherein the middle layer is connected to the inner wall of the second chamber base, the upper layer is connected to the middle layer, the upper partition is connected to the upper layer, and the upper cover is connected to the upper partition;