CN217118218U - Air fryer - Google Patents

Abstract

The embodiment of the application provides an air fryer, includes: the machine head is provided with an inner exhaust window penetrating through a machine head shell; the machine head is detachably arranged at the top opening and used for plugging the top opening, the machine head is provided with a first position located inside the machine body component and a second position located outside the machine body component, and an outer exhaust window is arranged on the machine body component; wherein, under the condition that the nose is located the first position, interior exhaust window is linked together with outer exhaust window. According to the air fryer provided by the embodiment of the aspect, the inner exhaust window forms an independent exhaust system of the machine head, and when the air fryer is in a large-capacity mode, the inner exhaust window can directly exhaust redundant gas in the machine head to the outside; and when the air fryer is in the basic capacity mode, the inner exhaust window is communicated with the outer exhaust window, and redundant gas in the machine head is exhausted to the outside through the inner exhaust window and the outer exhaust window in sequence, so that the exhaust function is realized.

Description

Air fryer

Technical Field

The application relates to the technical field of kitchen equipment, in particular to an air fryer.

Background

At present, the capacity of frying the pot is less, and the capacity size can not be adjusted, can not be used for baking bulky whole chicken, whole duck etc. application scope is less, for solving above-mentioned problem, this application can remove through the position that sets up the aircraft nose, thereby make the aircraft nose can install the top position of organism subassembly and increase the space that can place food, realize the air of large capacity mode and fry the pot, also can install inside the organism subassembly, use as the air of basic capacity mode and fry the pot, however, under this condition, need design exhaust system for the air is fried the pot again, make exhaust system all can realize exhaust function at basic capacity mode and large capacity mode.

SUMMERY OF THE UTILITY MODEL

The present application is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present application is to provide an air fryer.

To achieve the above object, a first embodiment of the present application provides an air fryer, including: the head comprises a head shell, a heating part and an air supply assembly, wherein the heating part and the air supply assembly are arranged in the head shell, and an inner exhaust window penetrating through the head shell is arranged on the head; the machine head is detachably arranged at the top opening and used for plugging the top opening, the machine head is provided with a first position located inside the machine body component and a second position located outside the machine body component, and an outer exhaust window is arranged on the machine body component; wherein, under the condition that the nose is located the first position, interior exhaust window is linked together with outer exhaust window.

The air fryer that this aspect embodiment provided includes aircraft nose and organism subassembly, the aircraft nose can be dismantled with the organism subassembly and be connected, be provided with the open-top on the organism subassembly, aircraft nose detachably installs at open-top department and shutoff open-top, the aircraft nose can remove for the organism subassembly, thereby make the aircraft nose have the first position that is located the inside of organism subassembly and the second position that is located the outside of organism subassembly, when the aircraft nose is located the first position, the air fryer is basic capacity mode, when the aircraft nose is located the second position, the aircraft nose is located the outside of organism subassembly, compare in the state that the aircraft nose is located the first position, the capacity increase of air fryer, thereby can be used to the bigger edible material of baking volume. Further, an inner exhaust window is arranged on the machine head, and an outer exhaust window is arranged on the machine body. The inner exhaust window forms an independent exhaust system of the machine head, when the air fryer is in a large-capacity mode, the machine head is positioned outside the machine body assembly, the inner exhaust window can directly exhaust redundant air inside the machine head to the outside, and the balance of air pressure inside the machine head and outside is ensured; when the air fryer is in the basic capacity mode, the machine head is positioned in the machine body assembly, the inner exhaust window is communicated with the outer exhaust window, and redundant air in the machine head is exhausted outside through the inner exhaust window and the outer exhaust window in sequence, so that the exhaust function is realized.

The air fryer that this aspect embodiment provided, through setting up the portable volume that adjusts the air fryer of aircraft nose, increase the space that can place food for the user can be according to waiting to cook the volume mode of eating the material free selection air fryer, and, only need move the position of aircraft nose can realize the switching of air fryer between basic volume mode and large capacity mode, convenient operation. Further, an inner exhaust window is arranged on the machine head, and an outer exhaust window is arranged on the machine body assembly, so that an exhaust system formed by the inner exhaust window and the outer exhaust window can realize an exhaust function in both a basic capacity mode and a large capacity mode. Further, will generate heat and set up on the aircraft nose with isoelectronic device such as air supply subassembly is concentrated, after taking off the aircraft nose, need not worry and lead to the aircraft nose to intake when wasing organism subassembly and damage to convenience of customers explodes the pot to the air and carries out thorough washing, convenience of customers uses.

In addition, the air fryer provided by the above embodiment of the application can also have the following additional technical characteristics:

in some embodiments, the outer exhaust window comprises a window body and a window seat, the engine body assembly comprises a shell and an upper liner positioned inside the shell, the shell is provided with a mounting opening, and the window body is positioned in the mounting opening and connected with the shell; the upper lining is provided with a communication port, the window seat is positioned at the communication port and clamped between the upper lining and the window body, the window seat comprises a communication channel extending into the inner part of the upper lining from the communication port, and the communication channel is abutted to the inner exhaust window.

In the embodiments, the specific structure and the installation structure of the outer exhaust window are further described, specifically, the outer exhaust window includes a window body and a window seat, the window body is used for exhausting air, and the window seat is used for communicating the inner exhaust window and the window body, so that a passage from the inner exhaust window to the window body and then to the outside is smooth, and the exhaust is facilitated. The window body is arranged in the mounting opening of the shell and is connected with the shell to realize the fixed mounting of the window body, and the window seat is arranged at the communication opening of the upper lining and is clamped between the upper lining and the window body to realize the fixed mounting of the window seat. Furtherly, the window seat includes and stretches into the inside intercommunication passageway of last inside lining by the intercommunication mouth, intercommunication passageway and interior exhaust window looks butt to during making the combustion gas can directly enter into the intercommunication passageway in the interior exhaust window, discharge via the window body again, avoided other positions that gas flow arrived aircraft nose inside, improved exhaust efficiency.

In some embodiments, the communication channel is substantially rectangular in cross-section, and the top wall of the communication channel is a slope that gradually decreases from an end near the upper liner toward the inside of the upper liner.

In these embodiments, the roof through setting up the intercommunication passageway is the inclined plane to by the one end that is close to last inside lining downward sloping gradually to the inside direction of inside lining, make the roof of intercommunication passageway can play the effect of direction, in the process of installing in the organism subassembly from top to bottom at the aircraft nose, interior exhaust window can slide in along the roof of intercommunication passageway, thereby make the inside of installing outer exhaust window that interior exhaust window can be accurate, with outer exhaust window intercommunication, realize the exhaust effect.

In some embodiments, the handpiece further comprises a heat shield, the heat shield is arranged above the heating element, and a heat dissipation opening is formed at the bottom end of the heat shield; the inner exhaust window comprises a window seat butt joint frame and an exhaust hole, the exhaust hole is formed in the side wall of the heat insulation cover, an avoidance opening is formed in the shell of the machine head, and the window seat butt joint frame is installed at the avoidance opening; the first end of the window seat butt-joint frame is abutted against the side wall of the heat shield and surrounds the periphery of the exhaust hole, and the window seat butt-joint frame is abutted against the communicating channel under the condition that the machine head is located at the first position.

In the embodiments, the machine head further comprises a heat shield, the heat shield is arranged above the heating element, and heat of the heating element can directly flow into the machine body assembly through the heat dissipation opening, so that heat transfer is facilitated, and more heat can be used for cooking work in the machine body assembly; the heat shield cover is arranged above the heating element to play a role of heat insulation, so that heat generated by the heating element is prevented from being transmitted to the air supply assembly and the control panel which are arranged above the heat shield in a large quantity, and the service life of electronic components such as the air supply assembly and the control panel is prolonged. Further, inject concrete structure and mounting structure of interior exhaust window, specifically, interior exhaust window includes window seat butt joint frame and exhaust hole, and window seat butt joint frame is installed in the department of dodging that connects the shell, realizes the fixed mounting of window seat butt joint frame, and the exhaust hole sets up on thermal-insulated cover for thermal-insulated cover and the inside cavity that forms of organism subassembly can realize the exhaust effect through exhaust hole and external intercommunication. Further, the window seat butt joint frame plays the effect of intercommunication exhaust hole and outer exhaust window to make the combustion gas can be by the window seat butt joint frame direct guide to the intercommunication passageway in the exhaust hole, discharge via the window body again, avoided gas flow to the inside other positions of aircraft nose, improved exhaust efficiency.

In some embodiments, the air fryer further comprises a hanging grill mounted at the top opening with the head in the second position, the hanging grill comprising a hanging grill body having a ring shape and a hanging position disposed on an inner wall of the hanging grill body and extending inwardly.

In these embodiments, it is further described that the air fryer further comprises a grill hanger mounted at the top opening for supporting the head, thereby enabling the head to be secured in the second position, increasing the cooking space inside the body assembly. Furthermore, hang the gridion including hanging the gridion body and hanging the position, hang the position and be used for hanging put eating the material for eat material can hang and put higher position department in the organism subassembly, and then can roast bulky edible material, like whole chicken, whole duck etc..

In some embodiments, the hanging grill further comprises: the stop strip is arranged at the top of the grill hanging body and is annular, and the machine head is arranged in a space surrounded by the stop strip. So set up, the backstop strip has played the effect of the installation location for the aircraft nose can be accurate install hang the middle part position of gridion, be difficult for taking place the skew, and, because the backstop strip has certain height, also can be by side backstop aircraft nose, make the aircraft nose and hang the assembly between the gridion firm, difficult relative slip can prevent effectively that the aircraft nose from dropping.

In some embodiments, the upper liner surrounds the exterior of the head with the head in the first position, and the grill is supported on the upper liner with the head in the second position; hang the gridion and still include a plurality of stabilizer blades, a plurality of stabilizer blades setting is in the bottom of hanging the gridion body, and the top of going up the inside lining is provided with a plurality of undercut's support position, a plurality of stabilizer blades and a plurality of support position one-to-one.

In the embodiments, the machine body assembly is specifically described to comprise a shell positioned on the outer side and an upper inner liner positioned on the inner side, and when the machine head is positioned at the first position, the machine head is positioned in a cavity formed by the upper inner liner; and thereby under the circumstances that the organism subassembly was pulled out to the locomotive and be located the second position, will hang the gridion and support on last inside lining for the placing of hanging the gridion is steady, and, because last inside lining generally is the metalwork, sets up inside lining support and hangs the gridion and also avoid hanging gridion and be located outside plastic casing direct contact and lead to the casing deformation. Furthermore, through the matching of the plurality of support legs and the plurality of support positions, the hanging grill and the upper liner are more stably assembled, and the horizontal displacement is not easy to generate.

In some embodiments, the housing assembly has a side opening in a side wall thereof, and the air fryer further comprises: the inner pot component is detachably arranged in the machine body component and is positioned at the side opening, and under the condition that the machine head is positioned at the first position, the inner pot component can be separated from the side opening and the machine body component.

In these embodiments, it is specifically described that the air fryer further comprises an inner pot assembly, the side wall of the body assembly is provided with a side opening, the inner pot assembly can move into or out of the interior of the body assembly at the side opening, and when the handpiece is located at the first position, i.e., when the air fryer is in the basic capacity mode, food can be placed in the inner pot assembly, and the inner pot assembly can be taken out, so that the food can be placed and taken conveniently; and under the condition that the organism is located the second position, that is, under the condition that the air fryer is in the large capacity mode, eat material and can hang and put on hanging the gridion, interior pot subassembly is located the below of eating the material and can play the effect that connects oil, is favorable to keeping the holistic cleanness of organism subassembly. Of course, under the condition that the air fryer is in the large-capacity mode, the food material with higher volume can be directly placed into the inner pot assembly through the top opening, and the food material in the inner pot assembly can be taken out through the top opening after cooking is finished.

In some embodiments, the handpiece further comprises: the handle sets up at the top of aircraft nose shell, and the handle rotationally is connected with the aircraft nose shell, and the handle is rotatable to the position of taking and the storage position of laminating mutually with the roof of aircraft nose shell of carrying that is vertical state. Therefore, the lifting handle is further arranged for the machine head, the machine head can be pulled from the first position to the second position by the lifting handle, and the operation of a user is facilitated; specifically, the handle rotationally is connected with the aircraft nose shell to the handle can rotate to the position of accomodating that is vertical carrying of state and laminates mutually with the roof of aircraft nose shell, both conveniently stimulates the organism, again convenient storage.

In some embodiments, the handpiece further comprises: and the control panel is arranged at the top of the machine head shell and used for clicking to control the air fryer. Set up control panel at the top of aircraft nose shell, be favorable to clicking through control panel and control the air and fry the pot, also make control panel can pass through the wire with the piece that generates heat, air supply subassembly nearby and be connected.

In some embodiments, the body assembly further comprises: the lower inner liner is arranged in the shell, surrounds the outer side of the inner pot assembly, is provided with an avoidance opening corresponding to the side opening, and can be separated from the lower inner liner through the avoidance opening; the lining ring is arranged in the shell, is positioned above the lower lining and is fixedly connected with the lower lining, and the bottom end of the machine head abuts against the lining ring when the machine head is positioned at the first position.

In the embodiments, it is specifically described that the machine body assembly further comprises a lower inner liner and a lining ring which are positioned inside the shell, the lower inner liner is positioned below the upper inner liner and is arranged around the outer side of the inner pot assembly, and the lower inner liner can play a role in preventing a large amount of heat in the inner pot assembly from being transferred to the shell; furthermore, the lining ring is located between the upper inner liner and the lower inner liner and is fixedly connected with the upper inner liner and the lower inner liner respectively to play a role in connecting the upper inner liner and the lower inner liner, and under the condition that the handpiece is located at the first position, the bottom end of the handpiece abuts against the lining ring, the lining ring plays a role in limiting the downward movement of the handpiece, and the handpiece can be stably supported on the lining ring to ensure stable structure.

Additional aspects and/or advantages of the present general inventive concept will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the general inventive concept.

Drawings

The above and other objects and features of the present application will become more apparent from the following description of the embodiments thereof taken in conjunction with the accompanying drawings, in which:

FIG. 1 illustrates a schematic structural view of an air fryer in a high volume mode according to an embodiment of the present application;

FIG. 2 illustrates an exploded view of an air fryer in a high volume mode according to an embodiment of the present application;

FIG. 3 shows a schematic cross-sectional view of an air fryer in a basic capacity mode according to an embodiment of the present application;

FIG. 4 illustrates a schematic structural view of an air fryer in a basic capacity mode in accordance with an embodiment of the present application;

FIG. 5 illustrates another schematic structural view of the air fryer in the basic capacity mode in accordance with an embodiment of the present application;

FIG. 6 is a schematic structural view of a head of the air fryer in accordance with an embodiment of the present application;

FIG. 7 is an exploded view of the partial structure of the body assembly of the air fryer in accordance with one embodiment of the present application;

FIG. 8 illustrates a schematic structural view of the body assembly of the air fryer of an embodiment of the present application;

FIG. 9 illustrates another schematic structural view of the body assembly of the air fryer in accordance with an embodiment of the present application.

The reference numbers illustrate:

10 air fryer, 111 aircraft nose, 1111 aircraft nose shell, 1112 heating element, 1113 motor, 1114 heat dissipation fan blade, 1115 heat conduction fan blade, 1116 handle, 1117 control panel, 1118 heat shield, 112 hanging grill, 1121 hanging grill body, 1122 hanging position, 1123 stopper, 1124 support leg, 120 body component, 121 top opening, 122 side opening, 123 shell, 126 upper liner, 1261 supporting position, 1262 communicating port, 127 lower liner, 128 lining ring, 130 inner pan component, 132 filter screen, 150 inner exhaust window, 1501 window seat docking bracket, 1502 exhaust hole, 151 outer exhaust window, 1511 window body, 1512 window seat, 1513 top wall of communicating channel.

Detailed Description

The following detailed description is provided to assist the reader in obtaining a thorough understanding of the methods, devices, and/or systems described herein. However, various changes, modifications, and equivalents of the methods, apparatus, and/or systems described herein will be apparent to those skilled in the art after reviewing the disclosure of the present application. For example, the order of operations described herein is merely an example, and is not limited to those set forth herein, but may be changed as will become apparent after understanding the disclosure of the present application, except to the extent that operations must occur in a particular order. Moreover, descriptions of features known in the art may be omitted for clarity and conciseness.

The features described herein may be embodied in different forms and should not be construed as limited to the examples described herein. Rather, the examples described herein have been provided to illustrate only some of the many possible ways to implement the methods, devices, and/or systems described herein, which will be apparent after understanding the disclosure of the present application.

As used herein, the term "and/or" includes any one of the associated listed items and any combination of any two or more.

Although terms such as "first", "second", and "third" may be used herein to describe various elements, components, regions, layers or sections, these elements, components, regions, layers or sections should not be limited by these terms. Rather, these terms are only used to distinguish one element, component, region, layer or section from another element, component, region, layer or section. Thus, a first element, component, region, layer or section referred to in the examples described herein could also be referred to as a second element, component, region, layer or section without departing from the teachings of the examples.

In the specification, when an element such as a layer, region or substrate is referred to as being "on," "connected to" or "coupled to" another element, it can be directly on, connected to or coupled to the other element or one or more other elements may be present therebetween. In contrast, when an element is referred to as being "directly on," "directly connected to," or "directly coupled to" another element, there may be no intervening elements present.

The terminology used herein is for the purpose of describing various examples only and is not intended to be limiting of the disclosure. The singular is also intended to include the plural unless the context clearly indicates otherwise. The terms "comprises," "comprising," and "having" specify the presence of stated features, quantities, operations, elements, components, and/or combinations thereof, but do not preclude the presence or addition of one or more other features, quantities, operations, components, elements, and/or combinations thereof. The term "plurality" represents any number of two or more.

The definitions of the terms "upper", "lower", "top" and "bottom" in this application are all based on the orientation of the product when it is in a normal use state and is standing upright.

Unless otherwise defined, all terms including 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 after understanding the present invention. Unless explicitly defined as such herein, terms such as those defined in general dictionaries should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and the present disclosure, and should not be interpreted in an idealized or overly formal sense.

Further, in the description of the examples, when it is considered that detailed description of well-known related structures or functions will cause a vague explanation of the present invention, such detailed description will be omitted.

An air fryer 10 according to an embodiment of the present invention will be described with reference to fig. 1 to 9.

As shown in fig. 1-5, a first aspect embodiment of the present application provides an air fryer 10 comprising: the aircraft nose 111 comprises an aircraft nose shell 1111, a heating element 1112 and an air supply assembly, wherein the heating element 1112 and the air supply assembly are arranged in the aircraft nose shell 1111, and the aircraft nose 111 is provided with an inner exhaust window 150 penetrating through the aircraft nose shell 1111; the aircraft body assembly 120 is provided with a top opening 121, the aircraft nose 111 is detachably mounted at the top opening 121 and blocks the top opening 121, the aircraft nose 111 has a first position located inside the aircraft body assembly 120 and a second position located outside the aircraft body assembly 120, and the aircraft body assembly 120 is provided with an outer exhaust window 151; wherein the inner louvers 150 are in communication with the outer louvers 151 with the nose 111 in the first position.

The air fryer 10 provided by the embodiment of the present invention comprises a machine head 111 and a machine body assembly 120, wherein the machine head 111 is detachably connected with the machine body assembly 120, the machine body assembly 120 is provided with a top opening 121, the machine head 111 is detachably installed at the top opening 121 and blocks the top opening 121, the machine head 111 can move relative to the machine body assembly 120, so that the machine head 111 has a first position located inside the machine body assembly 120 and a second position located outside the machine body assembly 120, when the machine head 111 is located at the first position, the air fryer 10 is in a basic capacity mode, when the machine head 111 is located at the second position, the machine head 111 is located outside the machine body assembly 120, compared with a state that the machine head 111 is located at the first position, the capacity of the air fryer 10 is increased, so that the air fryer can be used for cooking food materials with larger volume. Further, the head 111 is provided with an inner exhaust window 150, and the body is provided with an outer exhaust window 151. The inner exhaust window 150 forms an independent exhaust system of the head 111, when the air fryer 10 is in a high-capacity mode, the head 111 is located outside the body assembly 120, and the inner exhaust window 150 can directly exhaust the redundant air inside the head 111 to the outside, so that the balance of the air pressure inside and outside the head 111 is ensured; when the air fryer 10 is in the basic capacity mode, the head 111 is located inside the machine body assembly 120, the inner exhaust window 150 is communicated with the outer exhaust window 151, and redundant air inside the head 111 is exhausted outside through the inner exhaust window 150 and the outer exhaust window 151 in sequence, so that the exhaust function is realized.

The air fryer 10 provided by the embodiment of the aspect adjusts the capacity of the air fryer 10 by arranging the movable machine head 111, enlarges the space for placing food, enables a user to freely select the capacity mode of the air fryer 10 according to the food to be cooked, and can realize the switching of the air fryer 10 between the basic capacity mode and the large capacity mode only by moving the position of the machine head 111, thereby being convenient for operation. Further, an inner exhaust window 150 is disposed on the nose 111, and an outer exhaust window 151 is disposed on the body assembly 120, so that an exhaust system formed by the inner exhaust window 150 and the outer exhaust window 151 can achieve an exhaust function in both a basic capacity mode and a large capacity mode. Further, with heating element 1112 and the electric components such as air supply subassembly concentrate on aircraft nose 111, after taking off aircraft nose 111, need not worry and lead to aircraft nose 111 to intake water and damage when wasing organism subassembly 120 to convenience of customers carries out thorough washing to air fryer 10, convenience of customers uses.

With respect to the specific structure and mounting structure of the outer louvers 151, as shown in fig. 3, 7, 8 and 9, in some embodiments, the outer louvers 151 include a louver body 1511 and a louver seat 1512, the housing assembly 120 includes a housing 123 and an upper liner 126 located inside the housing 123, the housing 123 has a mounting opening therein, and the louver body 1511 is located in the mounting opening and connected to the housing 123; the upper liner 126 is provided with a communication port 1262, the window seat 1512 is positioned at the communication port 1262 and is clamped between the upper liner 126 and the window body 1511, the window seat 1512 comprises a communication channel extending from the communication port 1262 into the upper liner 126, and the communication channel is abutted against the inner exhaust window 150.

In these embodiments, further describing the specific structure and installation structure of the outer exhaust window 151, specifically, the outer exhaust window 151 includes a window body 1511 and a window seat 1512, the window body 1511 is used for exhausting air, and the window seat 1512 is used for communicating the inner exhaust window 150 and the window body 1511, so that the passage from the inner exhaust window 150 to the window body 1511 and then to the outside is unobstructed, and the exhaust is facilitated. The window body 1511 is positioned in the mounting opening of the housing 123 and connected to the housing 123, so that the window body 1511 is fixedly mounted, and the window holder 1512 is positioned in the communication opening 1262 of the upper liner 126 and interposed between the upper liner 126 and the window body 1511, so that the window holder 1512 is fixedly mounted. Further, the window seat 1512 includes a communication channel extending into the interior of the upper liner 126 through the communication port 1262, and the communication channel abuts against the inner exhaust window 150, so that exhaust gas in the inner exhaust window 150 can directly enter the communication channel and then is exhausted through the window body 1511, thereby avoiding gas flowing to other positions inside the handpiece 111, and improving exhaust efficiency.

In practical application, the window body 1511 is locked on the housing 123 through fasteners such as screws, so that the window body 1511 and the housing 123 can be fixedly installed, specifically, the housing 123 is provided with a first installation hole, the window body 1511 is provided with a second installation hole, the screws penetrate through the first installation hole and the second installation hole, and the housing 123 and the window body 1511 are fixed, are conveniently installed by adopting screw connection, save cost, simplify production process, improve production efficiency, and facilitate subsequent disassembly and maintenance.

Further, with respect to the specific configuration of the window seat 1512, in some embodiments, as shown in fig. 3, 7, and 8, the cross-section of the communication channel is substantially rectangular, and the top wall 1513 of the communication channel is a sloped surface that decreases from the end near the upper liner 126 toward the interior of the upper liner 126.

In these embodiments, the top wall 1513 of the communication channel is an inclined surface, and the top wall 1513 of the communication channel is gradually inclined downward from the end close to the upper liner 126 to the inside of the upper liner 126, so that the top wall 1513 of the communication channel can play a role of guiding, and in the process that the handpiece 111 is mounted in the body assembly 120 from top to bottom, the inner exhaust window 150 can slide in along the top wall 1513 of the communication channel, so that the inner exhaust window 150 can be accurately mounted in the outer exhaust window 151 to communicate with the outer exhaust window 151, thereby achieving an exhaust effect.

With respect to the specific structure and mounting structure of the inner exhaust window 150, in some embodiments, as shown in fig. 1, 3 and 6, the head 111 further includes a heat shield 1118, the heat shield 1118 being disposed over the heat generating element 1112, a bottom end of the heat shield 1118 forming a heat dissipation opening; the inner exhaust window 150 comprises a window seat butt-joint frame 1501 and an exhaust hole 1502, the exhaust hole 1502 is arranged on the side wall of the heat shield 1118, an avoidance port is arranged on the machine head shell 1111, and the window seat butt-joint frame 1501 is installed at the avoidance port; the first end of the window seat docking bracket 1501 abuts against the side wall of the heat shield 1118 and surrounds the periphery of the exhaust hole 1502, and when the nose 111 is in the first position, the window seat docking bracket 1501 abuts against the communication passage.

In these embodiments, the head 111 further includes a heat shield 1118, the heat shield 1118 is disposed above the heat generating component 1112, and the heat of the heat generating component 1112 can directly flow into the body assembly 120 through the heat dissipation opening, which is beneficial to heat transfer, so that more heat can be used for cooking work in the body assembly 120; the heat shield 1118 is covered above the heat generating element 1112 to insulate heat, so that a large amount of heat generated by the heat generating element 1112 is prevented from being transmitted to the air supply assembly and the control panel 1117 above the heat shield 1118, and the service life of electronic components such as the air supply assembly and the control panel 1117 is prolonged. Further, the specific structure and the installation structure of the inner exhaust window 150 are limited, specifically, the inner exhaust window 150 comprises a window seat butt joint frame 1501 and an exhaust hole 1502, the window seat butt joint frame 1501 is installed at an avoiding opening of the joint housing, the fixed installation of the window seat butt joint frame 1501 is realized, and the exhaust hole 1502 is arranged on the heat shield 1118, so that the heat shield 1118 and a cavity formed inside the engine body assembly 120 can be communicated with the outside through the exhaust hole 1502, and the exhaust effect is realized. Further, the window seat docking bracket 1501 plays a role in communicating the exhaust hole 1502 with the outer exhaust window 151, so that exhaust gas in the exhaust hole 1502 can be directly guided to the communicating channel by the window seat docking bracket 1501, and then is exhausted via the window body 1511, thereby avoiding the gas from flowing to other positions inside the machine head 111, and improving the exhaust efficiency.

In practical application, the window seat docking frame 1501 is locked on the head housing 1111 through fasteners such as screws, so that the window seat docking frame 1501 and the head housing 1111 are fixedly installed, specifically, a third installation hole is formed in the head housing 1111, a fourth installation hole is formed in the window seat docking frame 1501, screws penetrate through the third installation hole and the fourth installation hole to fix the window seat docking frame 1501 and the head housing 1111, the screw connection is convenient to install, the cost is saved, the production process is simplified, the production efficiency is improved, and meanwhile, subsequent disassembly and maintenance are convenient.

In some embodiments, as shown in fig. 1 and 2, the air fryer 10 further comprises a hanging grill 112, wherein the hanging grill 112 is installed at the top opening 121 when the head 111 is located at the second position, the hanging grill 112 comprises a hanging grill body 1121 and a hanging position 1122, the hanging grill body 1121 is ring-shaped, and the hanging position 1122 is disposed on the inner wall of the hanging grill body 1121 and extends toward the inside.

In these embodiments, it is further illustrated that the air fryer 10 further comprises a grill 112, the grill 112 being mounted at the top opening 121 for supporting the head 111, thereby enabling the head 111 to be secured in the second position, increasing the cooking space inside the body assembly 120. Further, the hanging grill 112 includes a hanging grill body 1121 and a hanging position 1122, and the hanging position 1122 is used for hanging food materials, so that the food materials can be hung at a higher position in the body assembly 120, and then food materials with a larger volume, such as whole chicken, whole duck, etc., can be baked.

Further, as shown in fig. 2, there are a plurality of hanging positions 1122, and the plurality of hanging positions 1122 are spaced apart along the inner wall of the circular hanging grill body 1121, so as to be used for hanging skewers and the like, thereby enriching the functions of the product. Further, the middle of the hanging position 1122 is provided with a hanging hole, so that the food material can be hung in the hanging hole through the hook.

As shown in fig. 1 and 2, in some embodiments, the grill 112 further comprises: a stop bar 1123 arranged on the top of the grill body 1121, wherein the stop bar 1123 is in the shape of a ring, and the head 111 is arranged in the space surrounded by the stop bar 1123. So set up, backstop 1123 has played the effect for the installation location of aircraft nose 111 for the middle part position of hanging gridion 112 can be accurately installed to aircraft nose 111, is difficult for taking place the skew, and, because backstop 1123 has certain height, also can be by side backstop aircraft nose 111, makes the assembly between aircraft nose 111 and the hanging gridion 112 firm, and difficult relative slip can effectively prevent that aircraft nose 111 from dropping.

In particular, under the condition that the head 111 is located at the second position, the head 111 is placed on the hanging rack 112, and a fixed connecting structure is not required to be arranged between the head 111 and the hanging rack 112, so that the head 111 and the hanging rack 112 are convenient to detach. Of course, a fixing and connecting structure that is easy to detach may be provided for temporarily fixing the head 111 and the hanging frame 112, for example, a buckle, a fitting of a buckle position, or a connecting structure such as a screw, a bolt, etc. are provided, which are not illustrated here, but all belong to the protection scope of the present embodiment without departing from the design concept.

As shown in fig. 1-3, in some embodiments, the upper liner 126 surrounds the exterior of the head 111 with the head 111 in the first position, and the grill 112 is supported on the upper liner 126 with the head 111 in the second position; the hanging grill 112 further includes a plurality of support legs 1124, the plurality of support legs 1124 are disposed at the bottom of the hanging grill body 1121, the top of the upper liner 126 is provided with a plurality of support positions 1261 recessed downwards, and the plurality of support legs 1124 are in one-to-one correspondence with the plurality of support positions 1261.

In these embodiments, the body assembly 120 is specifically illustrated as including an outer shell 123 and an inner upper liner 126, and when the handpiece 111 is in the first position, the handpiece 111 is located in a cavity defined by the upper liner 126; when the head 111 is pulled out of the body assembly 120 and is located at the second position, the grill 112 is supported on the upper liner 126, so that the grill 112 is stably placed, and since the upper liner 126 is generally made of metal, the upper liner 126 is provided to support the grill 112 to prevent the grill 112 from directly contacting the plastic housing 123 located outside and causing deformation of the housing 123. Further, the combination of the legs 1124 and the support locations 1261 makes the assembly between the grill 112 and the upper liner 126 more stable and less prone to horizontal displacement.

Specifically, with the handpiece 111 in the second position, the grill 112 is placed on the upper liner 126, and no fixed connection structure is required between the body assembly 120 and the grill 112, thereby facilitating the air fryer 10 to detach and store the grill 112 after the high-capacity operation mode is finished. Of course, a fixing and connecting structure that is easy to detach may be provided for temporarily fixing the body assembly 120 and the hanging grill 112, for example, a buckle or a fastening position is provided, or a connecting structure such as a screw or a bolt is provided, which is not illustrated here, but all of which belong to the protection scope of the present embodiment without departing from the design concept.

It should be noted that the hanging rack 112 has an operating position and a non-operating position, the operating position hanging rack 112 is used for supporting the machine head 111, and the non-operating position hanging rack 112 can be stored.

As shown in fig. 3, 4, 7 and 8, in some embodiments, the side wall of the housing assembly 120 has a side opening 122, and the air fryer 10 further comprises: and an inner pot assembly 130 detachably disposed in the body assembly 120 at the side opening 122, wherein the inner pot assembly 130 can be separated from the body assembly 120 from the side opening when the head 111 is at the first position.

In these embodiments, it is specifically illustrated that the air fryer 10 further comprises an inner pot assembly 130 having a side opening 122 in a side wall of the housing assembly 120, the inner pot assembly 130 being movable into and out of the interior of the housing assembly 120 at the side opening 122, wherein with the head 111 in the first position, i.e., with the air fryer 10 in the basic capacity mode, food material may be placed through the inner pot assembly 130, and the inner pot assembly 130 may be removed to facilitate placement and removal of food material; and under the condition that the handpiece 111 is located at the second position, that is, under the condition that the air fryer 10 is in the large-capacity mode, the food material can be hung on the hanging grill 112, and the inner pot assembly 130 is located below the food material to achieve the effect of receiving oil, which is beneficial to keeping the whole body of the machine body assembly 120 clean. Of course, when the air fryer 10 is in the large volume mode, the food material with a relatively high volume may be directly placed into the inner pot assembly 130 through the top opening 121, or the food material in the inner pot assembly 130 may be removed through the top opening 121 after cooking.

It should be noted that, under the condition that the head 111 is located at the second position, a locking mechanism may be further provided to lock the inner pan assembly 130, so that the inner pan assembly 130 cannot be pulled out at any time, and the problem that the food material is easily broken when the inner pan assembly 130 is pulled out laterally due to the fact that the height of the food material placed in the machine body assembly 120 is high and only about half of the height of the food material is located in the inner pan assembly 130 is solved. Specifically, the locking mechanism may be a fixing rod, and when the handpiece 111 assembly is located at the second position, the upper end of the fixing rod abuts against the handpiece 111 assembly, and the lower end abuts against the inner pot assembly 130, so that the inner pot assembly 130 is pressed by the fixing rod, and the inner pot assembly 130 is prevented from being pulled out.

For the concrete structure of interior pot subassembly 130, as shown in fig. 3, in some embodiments, interior pot subassembly 130 includes the pot courage and places the filter screen 132 in the pot courage, and filter screen 132 is located the top of pot courage diapire for filter grease etc. under the condition of eating the direct placing of material in interior pot subassembly 130 and cooking, can avoid gathering the grease of pot courage diapire department direct with eat the material contact, promote the taste of eating the material.

As shown in fig. 1-6, in some embodiments, handpiece 111 further includes: handle 1116, the setting is at the top of aircraft nose shell 1111, and handle 1116 rotationally is connected with aircraft nose shell 1111, and handle 1116 can rotate to the position of taking and the storage position of laminating mutually with the roof of aircraft nose shell 1111 of carrying that is vertical state. Therefore, the handle 1116 is further arranged on the machine head 111, and the arrangement of the handle 1116 is beneficial to pulling the machine head 111 from the first position to the second position, so that the operation of a user is convenient; specifically, handle 1116 is rotationally connected with aircraft nose shell 1111 to handle 1116 can rotate to the position of taking and the storage position of laminating mutually with the roof of aircraft nose shell 1111 of carrying that is vertical state, both conveniently stimulates the organism, conveniently accomodates again.

As shown in fig. 1-6, in some embodiments, handpiece 111 further includes: and a control panel 1117 disposed at the top of the head housing 1111, the control panel 1117 being used for click-and-click operation of the air fryer 10. The control panel 1117 is arranged at the top of the handpiece shell 1111, so that the control panel 1117 can be used for clicking and operating the air fryer 10, and the control panel 1117 can be connected with the heat generating part 1112 and the air supply assembly nearby through wires.

As shown in fig. 3, in some embodiments, the body assembly 120 further comprises: the lower inner liner 127 is arranged inside the shell 123, the lower inner liner 127 surrounds the outer side of the inner pot assembly 130, an avoiding opening corresponding to the side opening 122 is formed in the lower inner liner 127, and the inner pot assembly 130 can leave the lower inner liner 127 through the avoiding opening; and a collar 128 disposed inside the housing 123, wherein the collar 128 is located above the lower liner 127 and is fixedly connected to the lower liner 127, and when the handpiece 111 is located at the first position, the bottom end of the handpiece 111 abuts against the collar 128.

In these embodiments, it is specifically illustrated that the body assembly 120 further includes a lower inner liner 127 and a collar 128 located inside the housing 123, the lower inner liner 127 is located below the upper inner liner 126 and is enclosed outside the inner pan assembly 130, and the lower inner liner 127 can prevent the heat in the inner pan assembly 130 from being largely transferred to the housing 123; further, the collar 128 is located between the upper liner 126 and the lower liner 127, and is fixedly connected to the upper liner 126 and the lower liner 127, respectively, so as to connect the upper liner 126 and the lower liner 127, and when the handpiece 111 is located at the first position, the bottom end of the handpiece 111 abuts against the collar 128, the collar 128 serves as a limit for the downward movement of the handpiece 111, and the handpiece 111 can be stably supported on the collar 128, so as to ensure a stable structure.

In some embodiments, as shown in fig. 3, the air supply assembly includes a motor 1113, and a heat dissipating fan 1114 and a heat conducting fan 1115 connected to an output shaft of the motor 1113, the heat dissipating fan 1114 is located outside the heat shield 1118, the heat conducting fan 1115 is located above the heat generating component 1112 and inside the heat shield 1118, and the heat conducting fan 1115 can rotate and blow hot air heated by the heat generating component 1112.

In these embodiments, it is further described that the air supply assembly includes a motor 1113, a heat dissipation fan 1114 and a heat conduction fan 1115, the motor 1113 drives the heat dissipation fan 1114 and the heat conduction fan 1115 to rotate so as to generate wind, wherein the heat dissipation fan 1114 is located outside the heat shield 1118, the wind generated by the rotation of the heat dissipation fan 1114 can dissipate the heat of the motor 1113, the heat conduction fan 1115 is located above the heat generating member 1112 and inside the heat shield 1118, and the wind generated by the rotation of the heat conduction fan 1115 flows through the heat generating member 1112 and blows downward, so that the heat generated by the heat generating member 1112 is uniformly and rapidly transferred to the body assembly 120, and the space inside the body assembly 120 is uniformly heated.

Although the embodiments of the present invention have been described in detail above, those skilled in the art may make various modifications and variations to the embodiments of the present invention without departing from the spirit and scope of the present invention. It should be understood that such modifications and variations would still fall within the spirit and scope of the embodiments of the present invention, as defined by the appended claims, as seen by those skilled in the art.

Claims (10)

1. An air fryer (10), comprising:

the aircraft nose (111) comprises an aircraft nose shell (1111), a heating element (1112) and an air supply assembly, wherein the heating element (1112) and the air supply assembly are arranged in the aircraft nose shell (1111), and an inner exhaust window (150) penetrating through the aircraft nose shell (1111) is arranged on the aircraft nose (111);

the machine body assembly (120), a top opening (121) is arranged on the machine body assembly (120), the machine head (111) is detachably mounted at the top opening (121) and blocks the top opening (121), the machine head (111) has a first position located inside the machine body assembly (120) and a second position located outside the machine body assembly (120), and an outer exhaust window (151) is arranged on the machine body assembly (120);

wherein the inner louvers (150) are in communication with the outer louvers (151) with the handpiece (111) in the first position.

2. An air fryer (10) according to claim 1,

the outer exhaust window (151) comprises a window body (1511) and a window seat (1512), the machine body assembly (120) comprises a shell (123) and an upper liner (126) positioned inside the shell (123), the shell (123) is provided with a mounting opening, and the window body (1511) is positioned in the mounting opening and connected with the shell (123);

the upper liner (126) is provided with a communication port (1262), the window seat (1512) is located at the communication port (1262) and clamped between the upper liner (126) and the window body (1511), the window seat (1512) comprises a communication channel extending from the communication port (1262) into the upper liner (126), and the communication channel is abutted to the inner exhaust window (150).

3. An air fryer (10) according to claim 2,

the cross section of the communication channel is generally rectangular, and the top wall (1513) of the communication channel is a slope gradually decreasing from one end close to the upper liner (126) to the inner direction of the upper liner (126).

4. An air fryer (10) according to claim 2,

the handpiece (111) further comprises a heat shield (1118), the heat shield (1118) is covered above the heating element (1112), and a heat dissipation opening is formed at the bottom end of the heat shield (1118);

the inner exhaust window (150) comprises a window seat butt joint frame (1501) and an exhaust hole (1502), the exhaust hole (1502) is formed in the side wall of the heat insulation cover (1118), an avoiding opening is formed in the handpiece shell (1111), and the window seat butt joint frame (1501) is installed at the avoiding opening;

the first end of the window seat butt-joint frame (1501) abuts against the side wall of the heat insulation cover (1118) and surrounds the periphery of the exhaust hole (1502), and when the machine head (111) is located at the first position, the window seat butt-joint frame (1501) abuts against the communication channel.

5. An air fryer (10) according to any one of claims 2 to 4,

the air fryer (10) further comprises a hanging grill (112), the hanging grill (112) is installed at the position of the top opening (121) when the machine head (111) is located at the second position, the hanging grill (112) comprises a hanging grill body (1121) and a hanging position (1122), the hanging grill body (1121) is annular, and the hanging position (1122) is arranged on the inner wall of the hanging grill body (1121) and extends towards the inside.

6. An air fryer (10) according to claim 5, wherein the grill rack (112) further comprises:

a stop strip (1123) arranged on the top of the grill body (1121), wherein the stop strip (1123) is annular, and the machine head (111) is arranged in a space surrounded by the stop strip (1123).

7. An air fryer (10) according to claim 6,

the upper liner (126) is arranged around the outer side of the machine head (111) under the condition that the machine head (111) is positioned at the first position, and the grill (112) is supported on the upper liner (126) under the condition that the machine head (111) is positioned at the second position;

the hanging grill (112) further comprises a plurality of support legs (1124), the support legs (1124) are arranged at the bottom of the hanging grill body (1121), a plurality of support positions (1261) which are concave downwards are arranged at the top of the upper liner (126), and the support legs (1124) correspond to the support positions (1261) one to one.

8. The air fryer (10) of claim 4 wherein the side wall of the body assembly (120) has a side opening (122), the air fryer (10) further comprising:

an inner pot assembly (130) detachably disposed in the body assembly (120) at the side opening (122), the inner pot assembly (130) being detachable from the body assembly (120) from the side opening with the head (111) in the first position.

9. An air fryer (10) according to any one of claims 1 to 4, wherein the head (111) further comprises:

the handle (1116) is arranged at the top of the handpiece shell (1111), the handle (1116) is rotatably connected with the handpiece shell (1111), and the handle (1116) can be rotated to a lifting position in a vertical state and a containing position attached to the top wall of the handpiece shell (1111); and/or

A control panel (1117) disposed at a top of the head housing (1111), the control panel (1117) for click-manipulating the air fryer (10).

10. The air fryer (10) of claim 8, wherein the body assembly (120) further comprises:

the lower inner liner (127) is arranged inside the shell (123), the lower inner liner (127) surrounds the outer side of the inner pan assembly (130), an avoiding opening corresponding to the side opening (122) is formed in the lower inner liner (127), and the inner pan assembly (130) can leave the lower inner liner (127) through the avoiding opening;

a collar (128) disposed inside the housing (123), the collar (128) being located above the lower liner (127) and being fixedly connected to the lower liner (127), a bottom end of the handpiece (111) abutting against the collar (128) when the handpiece (111) is in the first position.

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